US20040111761A1 - Sunflower anti-pathogenic proteins and genes and their uses - Google Patents
Sunflower anti-pathogenic proteins and genes and their uses Download PDFInfo
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- US20040111761A1 US20040111761A1 US10/636,026 US63602603A US2004111761A1 US 20040111761 A1 US20040111761 A1 US 20040111761A1 US 63602603 A US63602603 A US 63602603A US 2004111761 A1 US2004111761 A1 US 2004111761A1
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/0004—Oxidoreductases (1.)
- C12N9/0012—Oxidoreductases (1.) acting on nitrogen containing compounds as donors (1.4, 1.5, 1.6, 1.7)
- C12N9/0026—Oxidoreductases (1.) acting on nitrogen containing compounds as donors (1.4, 1.5, 1.6, 1.7) acting on CH-NH groups of donors (1.5)
- C12N9/0032—Oxidoreductases (1.) acting on nitrogen containing compounds as donors (1.4, 1.5, 1.6, 1.7) acting on CH-NH groups of donors (1.5) with oxygen as acceptor (1.5.3)
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/415—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from plants
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/82—Vectors or expression systems specially adapted for eukaryotic hosts for plant cells, e.g. plant artificial chromosomes (PACs)
- C12N15/8241—Phenotypically and genetically modified plants via recombinant DNA technology
- C12N15/8261—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield
- C12N15/8271—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance
- C12N15/8279—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance
- C12N15/8282—Phenotypically and genetically modified plants via recombinant DNA technology with agronomic (input) traits, e.g. crop yield for stress resistance, e.g. heavy metal resistance for biotic stress resistance, pathogen resistance, disease resistance for fungal resistance
Definitions
- the invention relates to nucleotide sequences and proteins for anti-pathogenic agents and their uses, particularly the genetic manipulation of plant with genes that enhance disease resistance. Promoter sequences are also provided.
- Plant diseases are often a serious limitation on agricultural productivity and have therefore influenced the history and development of agricultural practices. Only recently have Mendelian genes controlling disease resistance been isolated, and elucidation of their biochemical functions remains a major challenge.
- Plant disease outbreaks have resulted in catastrophic crop failures that have triggered famines and caused major social change.
- the best strategy for plant disease control is to use resistant cultivars selected or developed by plant breeders for this purpose.
- the potential for serious crop disease epidemics persists today, as evidenced by outbreaks of the Victoria blight of oats and southern corn leaf blight. instances, multigenes are involved.
- the biochemical mechanisms for gene products involved in plant resistance are known in only a few model cases.
- phytopathogenic fungi play the dominant role not only by causing devastating epidemics, but also through the less spectacular although persistent and significant annual crop yield losses that have made fungal pathogens a serious economic factor. All of the species of flowering plants are attacked by pathogenic fungi. Generally, however, a single plant species can be host to only a few fungal species, and similarly, most fungi have a limited host range.
- fungal microorganisms To colonize plants, fungal microorganisms have evolved strategies to invade plant tissue, to optimize growth in the plant, and to propagate. Bacteria and viruses, as well as some opportunistic fungal parasites, often depend on natural openings or wounds for invasion. In contrast, many true phytopathogenic fungi have evolved mechanisms to actively traverse the plant's outer structural barriers, the cuticle and the epidermal cell wall. To gain entrance, fungi generally secrete a cocktail of hydrolytic enzymes.
- R Resistance
- HR hypersensitive response
- activation of the HR leads to the death of cells at the infection site, which results in the restriction of the pathogen to small areas immediately surrounding the initially infected cells.
- the HR is manifested as small necrotic lesions.
- the number of cells affected by the HR is only a small fraction of the total in the plant, so this response obviously contributes to the survival of plants undergoing pathogen attack.
- R genes that respond to specific bacteria, fungal, or viral pathogens have been isolated from a variety of plant species and several appear to encode cytoplasmic proteins. It has been unclear how such proteins could recognize an extracellular pathogen. Many strategies for plant disease control have been attempted. Resistant cultivars has been selected or developed by plant breeders for disease control. Resistance is especially important for major crops such as the cereals, sugar cane, potato, and soybean. The limitation in use of disease resistance in modern agriculture is adaptability by pathogens to overcome resistance.
- compositions and methods for their use comprise anti-pathogenic proteins and their corresponding genes and regulatory regions.
- the compositions comprise anti-pathogenic proteins and their corresponding genes and regulatory regions.
- sunflower PR5-1, defensin, and berberine bridge enzyme (BBE) homologues, and fragments and variants thereof, are provided.
- compositions are useful in protecting a plant from invading pathogenic organisms.
- One method involves stably transforming a plant with a nucleotide sequence of the invention to engineer broad spectrum disease resistance in the plant.
- the nucleotide sequences will be expressed from a promoter capable of driving expression of a gene in a plant cell.
- a second method involves controlling plant pathogens by applying an effective amount of an anti-pathogenic protein or composition of the invention to the environment of the pathogens.
- the nucleotide sequences of the invention are useful as genetic markers in disease resistance breeding programs.
- Promoters of the genes of the invention find use as disease or pathogen-inducible promoters. Such promoters may be used to express other coding regions, particularly other anti-pathogenic genes, including disease and insect resistance genes.
- compositions of the invention additionally find use in agricultural and pharmaceutical compositions as antifungal and antimicrobial agents.
- the compositions may be used in sprays for control of plant disease.
- the agents are useful for antibacterial and antimicrobial treatments.
- the methods of the invention find use in controlling pests, including fungal pathogens, viruses, nematodes, insects, and the like.
- Transformed plants, plant cells, plant tissues, and seeds, as well as methods for making such transformed compositions are additionally provided.
- FIG. 1 depicts the cDNA cloning strategy.
- Sunflower cDNA libraries were directionally constructed into pBluescript phagemid using a ZAP-cDNA synthesis kit from Stratagene;
- oligonucleotide primers P1 and P3 were used to amplify the 5′ end of a target gene by a rapid amplification of cDNA ends (RACE) method.
- PCR and the 3′ end of the gene were amplified with P2 and P4 primers;
- P5 primer was designed at the putative start codon (ATG) or upstream the start codon in order to clone full-length cDNA;
- the full-length cDNA of the target gene were amplified by PCR with P5 and P4 primers; and
- the expected full-length cDNA was inserted into TA vector (Invitrogen) for sequencing. Shaded areas represent cloned regions.
- FIG. 2 depicts an alignment of the amino acid sequence of PR5-1 (SEQ ID NO:1) from sunflower with other PR5 or osmatin-like proteins from grape, (Swiss-Prot Accession Nos. P93621, SEQ ID NO:10; and 004708, SEQ ID NO:11); soybean, (Swiss-Prot Accession No. P25096, SEQ ID NO:12); tomato, (Swiss-Prot Accession No. Q01591, SEQ ID NO:14); and potato, (Swiss-Prot Accession No. P50701, SEQ ID NO:15).
- a star indicates that the amino acid at that position is conserved for all aligned sequences, and a dash denotes gaps in alignment.
- FIG. 3 depicts an alignment of the amino acid sequence of a BBE (SEQ ID NO:20) from sunflower with other BBE homologues and two possible sunflower carbohydrate oxidases.
- Sunflower-15 SEQ ID NO:17
- -19 SEQ ID NO:16
- Other BBE homologues include a reticuline oxidase precursor from California poppy, (Swiss-Prot Accession No. P30986, SEQ ID NO:19) and a BBE from opium poppy, (Swiss-Prot Accession No. P93479, SEQ ID NO:18).
- FIG. 4 depicts an alignment of the amino acid sequence of a sunflower defensin (SEQ ID NO:24) with other antifungal defensins from garden pea (Swiss-Prot Accession No. Q01784, SEQ ID NO:25), white mustard (Swiss-Prot Accession No. P30231, SEQ ID NO:22), radish (Swiss-Prot Accession No. P30230, SEQ ID NO:21) and Arabidopsis (Swiss-Prot Accession No. P30224, SEQ ID NO:23).
- compositions and methods for controlling pathogenic agents comprise sunflower genes, including their promoters, and proteins.
- sunflower genes and proteins are selected from PR5-1, defensin, and berberine bridge enzyme (BBE). Accordingly, the methods are also useful in protecting plants against fungal pathogens, viruses, nematodes, insects and the like. Additionally, the compositions can be used in formulation use for their antimicrobial activities.
- the present invention provides for isolated nucleic acid molecules comprising nucleotide sequences for plant promoters shown in SEQ ID NO:7, SEQ ID NO:8, and SEQ ID NO:9; for nucleotide sequences encoding the amino acid sequences shown in SEQ ID NO:1, SEQ ID NO:2, and SEQ ID NO:3; the nucleic acid molecules deposited in a bacterial host as Patent Deposit Nos. PTA-67, PTA-73, PTA-75, respectively; and the nucleic acid molecule deposited as Patent Deposit No. PTA-560 which comprises the nucleotide sequence shown in SEQ ID NO:9.
- polypeptides having an amino acid sequence encoded by a nucleic acid molecule described herein for example those set forth in SEQ ID NO:4, SEQ ID NO:5, and SEQ ID NO:6 those deposited as Patent Deposit Nos. PTA-67, PTA-73, PTA-75, respectively, and fragments and variants thereof.
- Plasmids containing the promoter sequences and gene nucleotide sequences of the invention were deposited with the Patent Depository of the American Type Culture Collection, Manassas, Va. The following plasmids were deposited: May 13, 1999, pHp 15383 containing BBE cDNA; May 13, 1999, pHp 15384 containing BBE promoter sequence; May 13, 1999, pHp 15385 containing defensin cDNA; Aug. 31, 1999, pHp 16125 containing defensin promoter sequence; May 13, 1999, pHp 15395 containing PR5-1 promoter sequences; and May 14, 1999, pHp 15393 containing PR5-1 cDNA; and assigned Patent Deposit Nos.
- sequences of the invention find use as antifungal agents.
- the genes can be used to engineer plants for broad spectrum disease resistance.
- the sequences can be used alone or in combination with each other and/or with other known disease resistance genes.
- sequences can be used as markers in studying defense signal pathways and in disease resistance breeding programs.
- sequences can also be used as baits to isolate other signaling components in defense/resistance responsiveness and to isolate the corresponding promoter. See, generally, Sambrook et al. (1989) Molecular Cloning: A Laboratory Manual (2d ed.), Cold Spring Harbor Laboratory Press, Plainview, N.Y.
- the invention encompasses isolated or substantially purified nucleic acid or protein compositions.
- An “isolated” or “purified” nucleic acid molecule or protein, or biologically active portion thereof, is substantially free of other cellular material, or culture medium when produced by recombinant techniques, or substantially free of chemical precursors or other chemicals when chemically synthesized.
- an “isolated” nucleic acid is free of sequences that naturally flank the nucleic acid (i.e., sequences located at the 5′ and 3′ ends of the nucleic acid) in the genomic DNA of the organism from which the nucleic acid is derived.
- the isolated nucleic acid molecule can contain less than about 5 kb, 4 kb, 3 kb, 2 kb, 1 kb, 0.5 kb, or 0.1 kb of nucleotide sequences that naturally flank the nucleic acid molecule in genomic DNA of the cell from which the nucleic acid is derived.
- a protein that is substantially free of cellular material includes preparations of protein having less than about 30%, 20%, 10%, 5%, (by dry weight) of contaminating protein.
- culture medium represents less than about 30%, 20%, 10%, or 5% (by dry weight) of chemical precursors or non-protein of interest chemicals.
- anti-pathogenic compositions are intended that the compositions of the invention are capable of suppressing, controlling, and/or killing the invading pathogenic organism.
- disease resistance is intended that the plants avoid the disease symptoms that are the outcome of plant-pathogen interactions. That is, pathogens are prevented from causing plant diseases and the associated disease symptoms.
- the methods of the invention can be utilized to protect plants from disease, particularly those diseases that are caused by plant pathogens.
- compositions of the invention include isolated nucleic acid molecules comprising the promoter nucleotide sequences set forth in SEQ ID NO:7, SEQ ID NO:8 and SEQ ID NO:9.
- promoter is intended a regulatory region of DNA usually comprising a TATA box capable of directing RNA polymerase II to initiate RNA synthesis at the appropriate transcription initiation site for a particular coding sequence.
- a promoter may additionally comprise other recognition sequences generally positioned upstream or 5′ to the TATA box, referred to as upstream promoter elements, which influence the transcription initiation rate.
- the promoter regions disclosed herein may further comprise upstream regulatory elements that confer tissue-preferred expression of any heterologous nucleotide sequence operably linked to one of the disclosed promoter sequences. See particularly Australian Patent No. AU-A-77751/94 and U.S. Pat. Nos. 5,466,785 and 5,635,618. Generally with the promoter sequences of the invention, the pattern of expression will be inducible.
- the inducible promoter sequences of the present invention when assembled within a DNA construct such that the promoter is operably linked to a nucleotide sequence of interest, enable expression of the nucleotide sequences in the cells of a plant stably transformed with this DNA construct.
- the nucleotide sequence of interest encompasses both homologous and heterologous sequences.
- heterologous nucleotide sequence is intended a sequence that is not naturally occurring with the promoter sequence. While this nucleotide sequence is heterologous to the promoter sequence, it may be homologous, or native, or heterologous, or foreign, to the plant host.
- an inducible promoter of the invention is the regulatory element of choice.
- expression of the nucleotide sequence is initiated in cells in response to a stimulus.
- stimulus is intended a chemical, which may be applied externally or may accumulate in response to another external stimulus; a pathogen, which may, for example, induce expression as a result of invading a plant cell; or other factor such as environmental stresses, including but not limited to, drought, temperature, and salinity.
- Compositions of the invention also include the nucleotide sequences for three sunflower genes: a sunflower PR5 homologue as set forth in SEQ ID NO:4; a sunflower defensin homologue as set forth in SEQ ID NO:6; and, a sunflower BBE homologue as set forth in SEQ ID NO:5, and the corresponding amino acid sequences for the proteins encoded thereby as set forth in SEQ ID NO:1, SEQ ID NO:3 and SEQ ID NO:2, respectively.
- These gene sequences may be assembled into a DNA construct such that the gene is operably linked to a promoter that drives expression of a coding sequence in a plant cell.
- Plants stably transformed with this DNA construct express, either in a constitutive or inducible manner, a protein of the invention. Expression of this protein creates or enhances disease resistance in the transformed plant.
- BBE 9S0-reticuline:oxygen oxidoreductase (methylene-bridge-forming), EC 1.5.3.9
- BBE 9S0-reticuline:oxygen oxidoreductase (methylene-bridge-forming), EC 1.5.3.9
- BBE 9S0-reticuline:oxygen oxidoreductase (methylene-bridge-forming), EC 1.5.3.9
- BBE has anti-Phytophthora and anti-Pythium activity, as well as carbohydrate oxidase activity (WO 98/13478).
- the BBE-transgenic plants of the invention have enhanced resistance to pathogens.
- BBE and several other enzymes in the defense pathway are induced by elicitors. See for example Blechert et al. (1995) Proc. Natl. Acad. Sci. USA 92:4099-4105; Dittrich et al. (1991) Proc. Natl. Acad. Sci. USA 88:9969-9973.
- a sunflower BBE is disclosed that is regulated by oxalate oxidase (oxox) expression and Sclerotinia infection.
- oxox oxalate oxidase
- the cDNA SEQ ID NO:5
- promoter SEQ ID NO:8
- expression of this BBE in sunflower was up-regulated by oxalic acid, H 2 O 2 , salicylic acid (SA) and jasmonic acid (JA).
- PR5 Pathogenesis-related protein-5
- PR5 is one of the 9 classes of PR proteins. PR5 shares sequence similarity with osmotin, thaumatin, and zeamatin proteins (Hu et al. (1997) Plant Mol. Biol. 34:949-959; Ryals et al. (1996) Plant Cell 8:1809-1819). PR5 proteins have been characterized from a wide range of plant species in both dicotyledonous and monocotyledonous plants. Although the biological function of PR5 proteins has yet to be established, members of this group have been shown to have antifungal activities against a broad range of fungal pathogens (Hu et al. (1997) Plant Mol. Biol. 34:949-959; Ryals et al.
- Defensins are one class among the numerous types of Cys-rich antimicrobial polypeptides, which differ in length, number of cysteine bonds, or folding pattern (Bomann, H. G. (1995) Annu. Rev. Immunol. 13:61-92). Like cecropins, insect defensins are produced in a pathogen-inducible manner by the insect fat body and secreted in the hemolymph (Huffmann et al. (1992) Immunol. Today 13:411-415). Mammalian defensins are produced by various specialized cells in the mammalian body (Lehrer et al. (1993) Annu. Rev. Immunol. 11: 105-128; Ganz et al.
- Plant defensins resemble those of insect and mammalian defensins (Terras et al. (1995) Plant Cell 7:573-588; Broekaer et al. (1995) Plant Physiol. 108:1353-1358). Plant defensins inhibit the growth of a broad range of fungi at micromolar concentrations by inhibiting hyphal elongation or inhibiting hyphal extension (Broekaer et al. (1995) Plant Physiol. 108:1353-1358).
- Plant defensins are important components of the defense system in plants. They are located at the periphery of different organs and are induced by pathogens.
- a sunflower cDNA was isolated that encodes a defensin peptide (SEQ ID NO:6). This defensin gene was up regulated by Sclerotinia infection, oxox expression, oxalic acid, H 2 O 2 and SA as well as jasmonic acid.
- plant defensin genes such as Arabidopsis PDF1.2 and a radish defensin are induced by pathogens via an SA-independent and JA-dependent pathway (Thomma et al.) Proc. Natl. Acad. Sci.
- the sunflower defensin gene appears to be the only defensin that is regulated via a SA-dependent pathway.
- the sunflower defensin promoter contains potential pathogen responsive cis-elements, such as W-boxes and G-boxes.
- the proteins of the invention may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art. For example, amino acid sequence variants of the proteins can be prepared by mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations are well-known in the art. See, for example, Kunkel, T. (1985) Proc. Natl. Acad. Sci. USA 82:488-492; Kunkel et al. (1987) Methods in Enzymol 154:367-382; U.S. Pat. No. 4,873,192; Walker et al.
- genes and nucleotide sequences of the invention include both the naturally occurring sequences as well as mutant forms.
- proteins of the invention encompass both naturally occurring proteins as well as variations and modified forms thereof. Such variants will continue to possess the desired defense activation activity.
- mutations that will be made in the DNA encoding the variant must not place the sequence out of reading frame and preferably will not create complementary regions that could produce secondary mRNA structure. See, for example, EP Patent Application Publication No. 75,444.
- fragments and variants of these native nucleotide and amino acid sequences are also encompassed by the present invention.
- fragment is intended a portion of the nucleotide or amino acid sequence.
- Fragments of a promoter nucleotide sequence may retain their regulatory activity. Thus, for example, less than the entire promoter sequences disclosed herein may be utilized to drive expression of an operably linked nucleotide sequence of interest, such as a nucleotide sequence encoding a heterologous protein. It is within skill in the art to determine whether such fragments decrease expression levels or alter the nature of expression, i.e., and constitutive or inducible expression. Alternatively, fragments of a promoter nucleotide sequence that are useful as hybridization probes, such as described below, generally do not retain this regulatory activity.
- Nucleic acid molecules that are fragments of a promoter nucleotide sequence comprise at least 15, 20, 25, 30, 35, 40, 45, 50, 75, 100, 325, 350, 375, 400, 425, 450, or 500 nucleotides, or up to the number of nucleotides present in the full-length promoter nucleotide sequence set forth in SEQ ID NO: 7, 8, and 9.
- Fragments of a promoter sequence that retain their regulatory activity comprise at least 30, 35, 40 contiguous nucleotides, preferably at least 50 contiguous nucleotides, more preferably at least 75 contiguous nucleotides, still more preferably at least 100 contiguous nucleotides of the particular promoter nucleotide sequence disclosed herein.
- Preferred fragment lengths depend upon the objective and will also vary depending upon the particular promoter sequence.
- the nucleotides of such fragments will usually comprise the TATA recognition sequence of the particular promoter sequence.
- Such fragments may be obtained by use of restriction enzymes to cleave the naturally occurring promoter nucleotide sequence disclosed herein; by synthesizing a nucleotide sequence from the naturally occurring sequence of the promoter DNA sequence; or may be obtained through the use of PCR technology. See particularly, Mullis et al. (1987) Methods Enzymol. 155:335-350, and Erlich, ed. (1989) PCR Technology (Stockton Press, New York). Variants of these promoter fragments, such as those resulting from site-directed mutagenesis, are also encompassed by the compositions of the present invention.
- fragments of a nucleotide sequence may encode protein fragments that retain the biological activity of the native proteins, i.e., the sequences set forth in SEQ IDS 1,2, and 3, and hence enhance disease resistance when expressed in a plant.
- fragments of a coding nucleotide sequence that is useful as hybridization probes generally do not encode fragment proteins retaining biological activity.
- fragments of a nucleotide sequence may range from at least about 20 nucleotides, about 50 nucleotides, about 100 nucleotides, and up to the entire nucleotide sequence encoding the proteins of the invention.
- a fragment of an antipathogenic nucleotide sequence that encodes a biologically active portion of a protein of the invention will encode at least 15, 25, 30, 40, 50, 75, 100, or 150 contiguous amino acids, or up to the total number of amino acids present in a full-length protein of the invention. Fragments of a nucleotide sequence of the invention that are useful as hybridization probes for PCR primers generally need not encode a biologically active portion of a protein.
- a biologically active portion of a protein of the invention can be prepared by isolating a portion of one of the nucleotide sequences of the invention, expressing the encoded portion of the protein (e.g., by recombinant expression in vitro), and assessing the activity of the encoded portion of the protein of interest.
- Nucleic acid molecules that are fragments of a nucleotide sequence of the invention comprise at least 15, 20, 50, 75, 100, 325, 350, 375, 400, 425, 450, 500, 550, 600, 650, 700, or 800 nucleotides, or up to the number of nucleotides present in a full-length sunflower homologue nucleotide sequence disclosed herein.
- variants are intended substantially similar sequences.
- conservative variants include those sequences that, because of the degeneracy of the genetic code, encode the amino acid sequence of one of the antipathogenic polypeptides of the invention.
- Naturally occurring allelic variants such as these can be identified with the use of well-known molecular biology techniques, as, for example, with polymerase chain reaction (PCR) and hybridization techniques as outlined below.
- Variant nucleotide sequences also include synthetically derived nucleotide sequences, such as those generated, for example, by using site-directed mutagenesis but which still encode an antipathogenic protein of the invention.
- variants of a particular nucleotide sequence of the invention will have at least 40%, 50%, 60%, 70%, generally at least 75%, 80%, 85%, 87%, preferably about 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, and more preferably about 98%, 99% or more sequence identity to that particular nucleotide sequence as determined by sequence alignment programs described elsewhere herein using default parameters.
- variant protein is intended a protein derived from the native protein by deletion (so-called truncation) or addition of one or more amino acids to the N-terminal and/or C-terminal end of the native protein; deletion or addition of one or more amino acids at one or more sites in the native protein; or substitution of one or more amino acids at one or more sites in the native protein.
- variant proteins encompassed by the present invention are biologically active, that is they continue to possess the desired biological activity of the native protein, that is, the defense activation activity as described herein. Such variants may result from, for example, genetic polymorphism or from human manipulation.
- Biologically active variants of a native antipathogenic protein of the invention will have at least 40%, 50%, 60%, 70%, generally at least 75%, 80%, 85%, preferably about 90% to 95% or more, and more preferably about 98% or more sequence identity to the amino acid sequence for the native protein as determined by sequence alignment programs described elsewhere herein using default parameters.
- a biologically active variant of a protein of the invention may differ from that protein by as few as 1-15 amino acid residues, as few as 1-10, such as 6-10, as few as 5, as few as 4, 3, 2, or even 1 amino acid residue.
- the proteins of the invention may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art. For example, amino acid sequence variants of the antipathogenic proteins can be prepared by mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations are well known in the art. See, for example, Kunkel (1985) Proc. Natl. Acad. Sci. USA 82:488-492; Kunkel et al. (1987) Methods in Enzymol. 154:367-382; U.S. Pat. No. 4,873,192; Walker and Gaastra (eds.) Techniques in Molecular Biology , MacMillan Publishing Company, NY (1983) and the references cited therein.
- the promoters and gene nucleotide sequences of the invention include both the naturally occurring sequences as well as mutant forms.
- the proteins of the invention encompass both naturally occurring proteins as well as variations and modified forms thereof. Such variants will continue to possess the desired promoter activity or antipathogenic defense protein activity.
- the mutations that will be made in the DNA encoding a variant protein must not place the sequence out of reading frame and preferably will not create complementary regions that could produce secondary mRNA structure. See, for example, EP Patent Application Publication No. 75,444.
- the present invention encompasses the antipathogenic proteins as well as components and fragments thereof. That is, it is recognized that component polypeptides or fragments of the proteins may be produced which retain antipathogenic protein activity that enhances disease resistance in a plant. These fragments include truncated sequences, as well as N-terminal, C-terminal, internal and internally deleted amino acid sequences of the proteins.
- deletions, insertions, and substitutions of the protein sequences encompassed herein are not expected to produce radical changes in the characteristics of the antipathogenic proteins. However, when it is difficult to predict the exact effect of the substitution, deletion, or insertion in advance of doing so, one skilled in the art will appreciate that the effect will be evaluated by routine screening assays. That is, the activity of the modified protein sequences can be evaluated by monitoring of the plant defense system. See, for example U.S. Pat. No. 5,614,395, herein incorporated by reference.
- nucleotide sequences of the invention can be used to isolate corresponding sequences from other organisms, particularly other plants, more particularly other monocots. In this manner, methods such as PCR, hybridization, and the like can be used to identify such sequences based on their sequence homology to the sequences set forth herein. Sequences isolated based on their sequence identity to the entire antipathogenic sequences set forth herein or to fragments thereof are encompassed by the present invention.
- oligonucleotide primers can be designed for use in PCR reactions to amplify corresponding DNA sequences from cDNA or genomic DNA extracted from any plant of interest.
- Methods for designing PCR primers and PCR cloning are generally known in the art and are disclosed in Sambrook et al. (1989) Molecular Cloning. A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.). See also Innis et al., eds. (1990) PCR Protocols: A Guide to Methods and Applications (Academic Press, New York); Innis and Gelfand, eds.
- PCR PCR Strategies
- nested primers single specific primers
- degenerate primers gene-specific primers
- vector-specific primers partially-mismatched primers
- hybridization techniques all or part of a known nucleotide sequence is used as a probe that selectively hybridizes to other corresponding nucleotide sequences present in a population of cloned genomic DNA fragments or cDNA fragments (i.e., genomic or cDNA libraries) from a chosen organism.
- the hybridization probes may be genomic DNA fragments, cDNA fragments, RNA fragments, or other oligonucleotides, and may be labeled with a detectable group such as 32 P, or any other detectable marker.
- probes for hybridization can be made by labeling synthetic oligonucleotides based on the antipathogenic sequences of the invention.
- the entire antipathogenic sequence disclosed herein, or one or more portions thereof may be used as a probe capable of specifically hybridizing to corresponding antipathogenic sequence or messenger RNAs.
- the promoter sequences described herein, or one or more portions thereof may be used a as a probe capable of hybridizing to corresponding promoter sequences.
- probes include sequences that are unique among antipathogenic sequences or promoter sequence and are preferably at least about 10 nucleotides in length, and most preferably at least about 20 nucleotides in length. Such probes may be used to amplify corresponding antipathogenic sequences or promoter sequences from a chosen plant by PCR. This technique may be used to isolate additional coding sequences from a desired plant or as a diagnostic assay to determine the presence of coding sequences in a plant.
- Hybridization techniques include hybridization screening of plated DNA libraries (either plaques or colonies; see, for example, Sambrook et al. (1989) Molecular Cloning: A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.).
- Hybridization of such sequences may be carried out under stringent conditions.
- stringent conditions or “stringent hybridization conditions” is intended conditions under which a probe will hybridize to its target sequence to a detectably greater degree than to other sequences (e.g., at least 2-fold over background).
- Stringent conditions are sequence-dependent and will be different in different circumstances.
- target sequences that are 100% complementary to the probe can be identified (homologous probing).
- stringency conditions can be adjusted to allow some mismatching in sequences so that lower degrees of similarity are detected (heterologous probing).
- a probe is less than about 1000 nucleotides in length, preferably less than 500 nucleotides in length.
- stringent conditions will be those in which the salt concentration is less than about 1.5 M Na ion, typically about 0.01 to 1.0 M Na ion concentration (or other salts) at pH 7.0 to 8.3 and the temperature is at least about 30° C. for short probes (e.g., 10 to 50 nucleotides) and at least about 60° C. for long probes (e.g., greater than 50 nucleotides).
- Stringent conditions may also be achieved with the addition of destabilizing agents such as formamide.
- Exemplary moderate stringency conditions include hybridization in 40 to 45% formamide, 1.0 M NaCl, 1% SDS at 37° C., and a wash in 0.5 ⁇ to 1 ⁇ SSC at 55 to 60° C.
- Exemplary high stringency conditions include hybridization in 50% formamide, 1 M NaCl, 1% SDS at 37° C., and a wash in 0.1 ⁇ SSC at 60 to 65° C. Duration of hybridization is generally less than about 24 hours, usually about 4 to about 12 hours.
- T m 81.5° C.+16.6 (log M)+0.41 (% GC) ⁇ 0.61 (% form) ⁇ 500/L; where M is the molarity of monovalent cations, % GC is the percentage of guanosine and cytosine nucleotides in the DNA, % form is the percentage of formamide in the hybridization solution, and L is the length of the hybrid in base pairs.
- the T m is the temperature (under defined ionic strength and pH) at which 50% of a complementary target sequence hybridizes to a perfectly matched probe. T m is reduced by about 1° C. for each 1% of mismatching; thus, T m , hybridization, and/or wash conditions can be adjusted to hybridize to sequences of the desired identity. For example, if sequences with ⁇ 90% identity are sought, the T m can be decreased 10° C.
- stringent conditions are selected to be about 5° C. lower than the thermal melting point (T m ) for the specific sequence and its complement at a defined ionic strength and pH. However, severely stringent conditions can utilize a hybridization and/or wash at 1, 2, 3, or 4° C.
- T m thermal melting point
- moderately stringent conditions can utilize a hybridization and/or wash at 6, 7, 8, 9, or 10° C. lower than the thermal melting point (T m ); low stringency conditions can utilize a hybridization and/or wash at 11, 12, 13, 14, 15, or 20° C. lower than the thermal melting point (T m ).
- T m thermal melting point
- sequences that either have promoter activity or encode for a antipathogenic protein and which hybridize under stringent conditions to the sequences disclosed herein, or to fragments thereof, are encompassed by the present invention.
- sequences will be at least 40% to 50% homologous, about 60% to 70% homologous, and even about 75%, 80%, 85%, 87%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97% to 98% homologous or more with the disclosed sequences.
- sequence identity of sequences may range, sharing at least 40% to 50%, about 60% to 70%, and even about 75%, 80%, 85%, 87%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97% to 98% or more sequence identity.
- sequence relationships between two or more nucleic acids or polynucleotides are used to describe the sequence relationships between two or more nucleic acids or polynucleotides: (a) “reference sequence”, (b) “comparison window”, (c) “sequence identity”, (d) “percentage of sequence identity”, and (e) “substantial identity”.
- reference sequence is a defined sequence used as a basis for sequence comparison.
- a reference sequence may be a subset or the entirety of a specified sequence; for example, as a segment of a full-length cDNA or gene sequence, or the complete cDNA or gene sequence.
- comparison window makes reference to a contiguous and specified segment of a polynucleotide sequence, wherein the polynucleotide sequence in the comparison window may comprise additions or deletions (i.e., gaps) compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences.
- the comparison window is at least 20 contiguous nucleotides in length, and optionally can be 30, 40, 50, 100, or longer.
- Computer implementations of these mathematical algorithms can be utilized for comparison of sequences to determine sequence identity. Such implementations include, but are not limited to: CLUSTAL in the PC/Gene program (available from Intelligenetics, Mountain View, Calif.); the ALIGN program (Version 2.0) and GAP, BESTFIT, BLAST, FASTA, and TFASTA in the Wisconsin Genetics Software Package, Version 8 (available from Genetics Computer Group (GCG), 575 Science Drive, Madison, Wis., USA). Alignments using these programs can be performed using the default parameters.
- the CLUSTAL program is well described by Higgins et al. (1988) Gene 73:237-244 (1988); Higgins et al.
- Gapped BLAST in BLAST 2.0
- PSI-BLAST in BLAST 2.0
- PSI-BLAST in BLAST 2.0
- comparison of nucleotide or protein sequences for determination of percent sequence identity to the promoter sequence or the anitpathogenic sequences disclosed herein is preferably made using the Clustal W program (Version 1.7 or later) with its default parameters or any equivalent program.
- equivalent program is intended any sequence comparison program that, for any two sequences in question, generates an alignment having identical nucleotide or amino acid residue matches and an identical percent sequence identity when compared to the corresponding alignment generated by the preferred program.
- sequence identity or “identity” in the context of two nucleic acid or polypeptide sequences makes reference to the residues in the two sequences that are the same when aligned for maximum correspondence over a specified comparison window.
- percentage of sequence identity is used in reference to proteins it is recognized that residue positions which are not identical often differ by conservative amino acid substitutions, where amino acid residues are substituted for other amino acid residues with similar chemical properties (e.g., charge or hydrophobicity) and therefore do not change the functional properties of the molecule.
- sequences differ in conservative substitutions the percent sequence identity may be adjusted upwards to correct for the conservative nature of the substitution.
- Sequences that differ by such conservative substitutions are said to have “sequence similarity” or “similarity”. Means for making this adjustment are well known to those of skill in the art. Typically this involves scoring a conservative substitution as a partial rather than a full mismatch, thereby increasing the percentage sequence identity. Thus, for example, where an identical amino acid is given a score of 1 and a non-conservative substitution is given a score of zero, a conservative substitution is given a score between zero and 1. The scoring of conservative substitutions is calculated, e.g., as implemented in the program PC/GENE (Intelligenetics, Mountain View, Calif.).
- percentage of sequence identity means the value determined by comparing two optimally aligned sequences over a comparison window, wherein the portion of the polynucleotide sequence in the comparison window may comprise additions or deletions (i.e., gaps) as compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences. The percentage is calculated by determining the number of positions at which the identical nucleic acid base or amino acid residue occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the window of comparison, and multiplying the result by 100 to yield the percentage of sequence identity.
- polynucleotide sequences means that a polynucleotide comprises a sequence that has at least 70% sequence identity, preferably at least 80%, more preferably at least 90%, and most preferably at least 95%, compared to a reference sequence using one of the alignment programs described using standard parameters.
- sequence identity preferably at least 80%, more preferably at least 90%, and most preferably at least 95%.
- nucleotide sequences are substantially identical is if two molecules hybridize to each other under stringent conditions.
- stringent conditions are selected to be about 5° C. lower than the thermal melting point (T m ) for the specific sequence at a defined ionic strength and pH.
- T m thermal melting point
- stringent conditions encompass temperatures in the range of about 1° C. to about 20° C. lower than the T m , depending upon the desired degree of stringency as otherwise qualified herein.
- Nucleic acids that do not hybridize to each other under stringent conditions are still substantially identical if the polypeptides they encode are substantially identical. This may occur, e.g., when a copy of a nucleic acid is created using the maximum codon degeneracy permitted by the genetic code.
- One indication that two nucleic acid sequences are substantially identical is when the polypeptide encoded by the first nucleic acid is immunologically cross reactive with the polypeptide encoded by the second nucleic acid.
- a peptide comprises a sequence with at least 70% sequence identity to a reference sequence, preferably 80%, more preferably 85%, most preferably at least 90% or 95% sequence identity to the reference sequence over a specified comparison window.
- optimal alignment is conducted using the homology alignment algorithm of Needleman and Wunsch (1970) J. Mol. Biol. 48:443-453.
- An indication that two peptide sequences are substantially identical is that one peptide is immunologically reactive with antibodies raised against the second peptide.
- a peptide is substantially identical to a second peptide, for example, where the two peptides differ only by a conservative substitution.
- Peptides that are “substantially similar” share sequences as noted above except that residue positions that are not identical may differ by conservative amino acid changes.
- the anti-pathogenic genes and proteins as well as the anti-pathogenic homologue genes and proteins of the invention can also be used to control resistance to pathogens by enhancing the defense mechanisms in a plant. While the exact function of the anti-pathogenic homologues is not known, they are involved in influencing the expression of defense-related proteins. It is recognized that the present invention is not premised upon any particular mechanism of action of the anti-pathogenic genes. It is sufficient for purposes of the invention that the genes and proteins are involved in the plant defense system and can be used to increase resistance levels in the plant to pathogens.
- plant defense mechanisms described herein may be used alone or in combination with other proteins or agents to protect against plant diseases and pathogens.
- Other plant defense proteins include those described in copending applications entitled “Methods for Enhancing Disease Resistance in Plants”, U.S. Application Serial No. 60/076,151, filed Feb. 26, 1998, and U.S. Application Serial No. 60/092,464, filed Jul. 11, 1998, and copending application entitled “Genes for Activation of Plant Pathogen Defense Systems”, U.S. Application Serial No. 60/076,083, filed Feb. 26, 1998, all of which are herein incorporated by reference.
- the nucleotide sequences of the invention can be introduced into any plant.
- the genes to be introduced can be conveniently used in expression cassettes for introduction and expression in any plant of interest.
- Such expression cassettes will comprise a transcriptional initiation region linked to the nucleotide sequence of interest.
- Such an expression cassette is provided with a plurality of restriction sites for insertion of the gene of interest to be under the transcriptional regulation of the regulatory regions.
- the expression cassette may additionally contain selectable marker genes.
- the transcriptional initiation region may be native or analogous or foreign or heterologous to the plant host. Additionally, the promoter may be the natural sequence or alternatively a synthetic sequence. By foreign is intended that the transcriptional initiation region is not found in the native plant into which the transcriptional initiation region is introduced.
- a chimeric gene comprises a coding sequence operably linked to a transcription initiation region that is heterologous to the coding sequence.
- the transcriptional cassette will include in the 5′-3′ direction of transcription, a transcriptional and translational initiation region, a DNA sequence of interest, and a transcriptional and translational termination region functional in plants.
- the termination region may be native with the transcriptional initiation region, may be native with the DNA sequence of interest, or may be derived from another source.
- Convenient termination regions are available from the Ti-plasmid of A. tumefaciens , such as the octopine synthase and nopaline synthase termination regions. See also, Guerineau et al. (1991) Mol. Gen. Genet. 262:141-144; Proudfoot (1991) Cell 64:671-674; Sanfacon et al.
- a number of promoters can be used in the practice of the invention.
- An inducible promoter can be used to drive the expression of the genes of the invention.
- the inducible promoter will be expressed in the presence of a pathogen to prevent infection and disease symptoms.
- Such promoters include those from pathogenesis-related proteins (PR proteins), which are induced following infection by a pathogen; e.g., PR proteins, SAR proteins, beta-1,3-glucanase, chitinase, etc. See, for example, Redolfi et al. (1983) Meth. J. Plant Pathol. 89:245-254; Uknes et al. (1992) Plant Cell 4:645-656; and Van Loon (1985) Plant Mol.
- PR proteins pathogenesis-related proteins
- promoters that are expressed locally at or near the site of pathogen infection. See, for example, Marineau et al. (1987) Plant Mol. Biol. 1:335-342; Matton et al. (1989) Molecular Plant - Microbe Interactions 2:325-331; Somsisch et al. (1986) Proc. Natl. Acad. Sci. USA 83:2427-2430; Somsisch et al. (1988) Molecular and General Genetics 2:93-98; and Yang (1996) Proc. Natl. Acad. Sci. USA 93:14972-14977. See also, Chen et al. (1996) Plant J. 10:955-966; Zhang et al.
- a wound inducible promoter may be used in the constructions of the invention.
- Such wound inducible promoters include potato proteinase inhibitor (pin II) gene (Ryan et al. Ann. Rev. Phytopath. 28:425-449; Duan et al. Nature Biotechnology 14:494-498); wun1 and wun2, U.S. Pat. No. 5,428,148; win1 and win2 (Stanford et al. Mol. Gen Genet 215:200-208); systemin (McGurl et al. Science 225:1570-1573); WIPI (Rohmeier et al. Plant Mol. Biol. 22:783-792; Eckelkamp et al. FEBS Letters 323:73-76); MPI gene (Corderok et al. Plant Journal 6(2):141-150); and the like, herein incorporated by reference.
- pin II potato proteinase inhibitor
- Constitutive promoters include, for example, the Rsyn7 (copending U.S. application Ser. No. 08/661,601), the scp1 promoter (copending U.S. application Ser. No. 09/028,819), the ucp promoter, 35S CaMV promoter, and the like.
- Other constitutive promoters include, for example, U.S. Pat. Nos. 5,608,149; 5,608,144; 5,604,121; 5,569,597; 5,466,785; 5,399,680; 5,268,463; 5,608,142. See also, copending application entitled “Constitutive Maize Promoters”, U.S. Application Serial No. 60/076,075, filed Feb. 26, 1998, and herein incorporated by reference.
- Tissue-preferred promoters include Yamamoto et al. (1997) Plant J. 12(2):255-265; Kawamata et al. (1997) Plant Cell Physiol. 38(7):792-803; Hansen et al. (1997) Mol Gen Genet. 254(3):337-343; Russell et al. (1997) Transgenic Res. 6(2):157-168; Rinehart et al. (1996) Plant Physiol. 112(3):1331-1341; Van Camp et al. (1996) Plant Physiol. 112(2):525-535; Canevascini et al. (1996) Plant Physiol. 112(2):513-524; Yamamoto et al. (1994) Plant Cell Physiol.
- nucleotide sequences for the constitutive promoters disclosed in the present invention are useful in the genetic manipulation of any plant when assembled within a DNA construct such that the promoter sequence is operably linked with a heterologous nucleotide sequence whose constitutive expression is to be controlled to achieve a desired phenotypic response.
- operably linked is intended the transcription or translation of the heterologous nucleotide sequence is under the influence of the promoter sequence.
- nucleotide sequences for the promoters of the invention are provided in expression cassettes along with heterologous nucleotide sequences for expression in the plant of interest. It is recognized that the promoter sequences of the invention may also be used with their native coding sequences to increase or decrease expression of the native coding sequence, thereby resulting in a change in phenotype in the transformed plant.
- the promoter nucleotide sequences and methods disclosed herein are useful in regulating expression of any heterologous nucleotide sequence in a host plant in order to vary the phenotype of a plant.
- Various changes in phenotype are of interest including modifying the fatty acid composition in a plant, altering the amino acid content of a plant, altering a plant's pathogen defense mechanism, and the like. These results can be achieved by providing expression of heterologous products or increased expression of endogenous products in plants. Alternatively, the results can be achieved by providing for a reduction of expression of one or more endogenous products, particularly enzymes or cofactors in the plant. These changes result in a change in phenotype of the transformed plant.
- genes of interest are reflective of the commercial markets and interests of those involved in the development of the crop. Crops and markets of interest change, and as developing nations open up world markets, new crops and technologies will emerge also. In addition, as our understanding of agronomic traits and characteristics such as yield and heterosis increase, the choice of genes for transformation will change accordingly.
- General categories of genes of interest include for example, those genes involved in information, such as zinc fingers, those involved in communication, such as kinases, and those involved in housekeeping, such as heat shock proteins. More specific categories of transgenes, for example, include genes encoding important traits for agronomics, insect resistance, disease resistance, herbicide resistance, sterility, grain characteristics, and commercial products. Genes of interest include, generally, those involved in oil, starch, carbohydrate, or nutrient metabolism as well as those affecting kernel size, sucrose loading, and the like.
- Agronomically important traits such as oil, starch, and protein content can be genetically altered in addition to using traditional breeding methods. Modifications include increasing content of oleic acid, saturated and unsaturated oils, increasing levels of lysine and sulfur, providing essential amino acids, and also modification of starch. Hordothionin protein modifications are described in U.S. Pat. Nos. 5,703,049, 5,885,801, 5,885,802, and 5,990,389; herein incorporated by reference. Another example is lysine and/or sulfur rich seed protein encoded by the soybean 2S albumin described in U.S. Ser. No. 08/618,911, filed Mar. 20, 1996, and the chymotrypsin inhibitor from barley, Williamson et al. (1987) Eur. J. Biochem. 165:99-106, the disclosures of which are herein incorporated by reference.
- Derivatives of the coding sequences can be made by site directed mutagenesis to increase the level of preselected amino acids in the encoded polypeptide.
- the gene encoding the barley high lysine polypeptide (BHL) is derived from barley chymotrypsin inhibitor, U.S. Ser. No. 08/740,682, filed Nov. 1, 1996, and PCT/US97/20441, filed Oct. 31, 1997, the disclosures of each are incorporated herein by reference.
- Other proteins include methionine-rich plant proteins such as from sunflower seed (Lilley et al. (1989) Proceedings of the World Congress on Vegetable Protein Utilization in Human Foods and Animal Feedstuffs , ed.
- Applewhite American Oil Chemists Society, Champaign, Ill.), pp. 497-502; herein incorporated by reference
- corn Pedersen et al. (1986) J. Biol. Chem. 261:6279; Kirihara et al. (1988) Gene 71:359; both of which are herein incorporated by reference
- rice agronomically important genes encode latex, Floury 2, growth factors, seed storage factors, and transcription factors.
- Insect resistance genes may encode resistance to pests that have great yield drag such as rootworm, cutworm, European Corn Borer, and the like.
- Such genes include, for example Bacillus thuringiensis toxic protein genes (U.S. Pat. Nos. 5,366,892; 5,747,450; 5,736,514; 5,723,756; 5,593,881; Geiser et al. (1986) Gene 48:109); lectins (Van Damme et al. (1994) Plant Mol. Biol. 24:825); and the like.
- Genes encoding disease resistance traits include detoxification genes, such as against fumonosin (U.S. patent application Ser. No. 08/484,815, filed Jun. 7, 1995); avirulence (avr) and disease resistance (R) genes (Jones et al. (1994) Science 266:789; Martin et al. (1993) Science 262:1432; Mindrinos et al. (1994) Cell 78:1089); and the like.
- Herbicide resistance traits may include genes coding for resistance to herbicides that act to inhibit the action of acetolactate synthase (ALS), in particular the sulfonylurea-type herbicides (e.g., the acetolactate synthase (ALS) gene containing mutations leading to such resistance, in particular the S4 and/or Hra mutations), genes coding for resistance to herbicides that act to inhibit action of glutamine synthase, such as phosphinothricin or basta (e.g., the bar gene), or other such genes known in the art.
- the bar gene encodes resistance to the herbicide basta
- the nptII gene encodes resistance to the antibiotics kanamycin and geneticin
- the ALS gene encodes resistance to the herbicide chlorsulfuron.
- Sterility genes can also be encoded in an expression cassette and provide an alternative to physical detasseling. Examples of genes used in such ways include male tissue-preferred genes and genes with male sterility phenotypes such as QM, described in U.S. Pat. No. 5,583,210. Other genes include kinases and those encoding compounds toxic to either male or female gametophytic development.
- Exogenous products include plant enzymes and products as well as those from other sources including procaryotes and other eucaryotes. Such products include enzymes, cofactors, hormones, and the like.
- the level of proteins, particularly modified proteins having improved amino acid distribution to improve the nutrient value of the plant, can be increased. This is achieved by the expression of such proteins having enhanced amino acid content.
- the heterologous nucleotide sequence operably linked to one of the constitutive promoters disclosed herein may be a structural gene encoding a protein of interest.
- heterologous genes include, but are not limited to, genes encoding proteins conferring resistance to abiotic stress, such as drought, temperature, salinity, and toxins such as pesticides and herbicides, or to biotic stress, such as attacks by fungi, viruses, bacteria, insects, and nematodes, and development of diseases associated with these organisms.
- constitutive promoters disclosed herein and identified as weak constitutive promoters are useful in transforming plants to constitutively express an avirulence gene as disclosed in the copending applications both entitled “Methods for Enhancing Disease Resistance in Plants,” U.S. Application Serial No. 60/075,151, filed Feb. 26, 1998, and U.S. Application Serial No. 60/092,464, filed Jul. 11, 1998, both of which are herein incorporated by reference.
- Such weak promoters may cause activation of the plant defense system short of hypersensitive cell death. Thus, there is an activation of the plant defense system at levels sufficient to protect from pathogen invasion.
- the heterologous nucleotide sequence operably linked to one of the constitutive promoters disclosed herein may be an antisense sequence for a targeted gene.
- antisense DNA nucleotide sequence is intended a sequence that is in inverse orientation to the 5′ to 3′ normal orientation of that nucleotide sequence.
- expression of the antisense DNA sequence prevents normal expression of the DNA nucleotide sequence for the targeted gene.
- the antisense nucleotide sequence encodes an RNA transcript that is complementary to and capable of hybridizing to the endogenous messenger RNA (mRNA) produced by transcription of the DNA nucleotide sequence for the targeted gene.
- mRNA messenger RNA
- promoter sequences disclosed herein may be operably linked to antisense DNA sequences to reduce or inhibit expression of a native protein in the plant.
- the genes and promoters of the invention are provided in expression cassettes for expression in the plant of interest.
- the cassette will include 5′ and 3′ regulatory sequences operably linked to the gene of interest.
- the cassette may additionally contain at least one additional gene to be cotransformed into the organism.
- the additional gene(s) can be provided on another expression cassette.
- the gene(s) may be optimized for increased expression in the transformed plant. That is, the genes can be synthesized using plant preferred codons for improved expression. Methods are available in the art for synthesizing plant preferred genes. See, for example, U.S. Pat. Nos. 5,380,831, 5,436,391, and Murray et al. (1989) Nuc. Acids Res. 17:477-498, herein incorporated by reference.
- Additional sequence modifications are known to enhance gene expression in a cellular host. These include elimination of sequences encoding spurious polyadenylation signals, exon-intron splice site signals, transposon-like repeats, and other such well-characterized sequences, which may be deleterious to gene expression.
- the G-C content of the sequence may be adjusted to levels average for a given cellular host, as calculated by reference to known genes expressed in the host cell. When possible, the sequence is modified to avoid predicted hairpin secondary mRNA structures.
- the expression cassettes may additionally contain 5′ leader sequences in the expression cassette construct.
- leader sequences can act to enhance translation.
- Translation leaders are known in the art and include: picornavirus leaders, for example, EMCV leader (Encephalomyocarditis 5′ noncoding region) (Elroy-Stein et al. (1989) PNAS USA 86:6126-6130); potyvirus leaders, for example, TEV leader (Tobacco Etch Virus) (Allison et al. (1986); MDMV leader (Maize Dwarf Mosaic Virus); Virology 154:9-20), and human immunoglobulin heavy-chain binding protein (BiP), (Macejak et al.
- the various DNA fragments may be manipulated, so as to provide for the DNA sequences in the proper orientation and, as appropriate, in the proper reading frame.
- adapters or linkers may be employed to join the DNA fragments or other manipulations may be involved to provide for convenient restriction sites, removal of superfluous DNA, removal of restriction sites, or the like.
- in vitro mutagenesis, primer repair, restriction, annealing, resubstitutions, e.g. transitions and transversions may be involved.
- the genes of the present invention can be used to transform any plant. In this manner, genetically modified plants, plant cells, plant tissue, seed, and the like can be obtained. Transformation protocols may vary depending on the type of plant or plant cell, i.e. monocot or dicot, targeted for transformation. Suitable methods of transforming plant cells include microinjection (Crossway et al. (1986) Biotechniques 4:320-334), electroporation (Riggs et al. (1986) Proc. Natl. Acad. Sci. USA 83:5602-5606, Agrobacterium mediated transformation (Hinchee et al. (1988) Biotechnology 6:915-921), direct gene transfer (Paszkowski et al.
- the cells, which have been transformed may be grown into plants in accordance with conventional ways. See, for example, McCormick et al. (1986) Plant Cell Reports 5:81-84. These plants may then be grown, and either pollinated with the same transformed strain or different strains, and the resulting hybrid having the desired phenotypic characteristic identified. Two or more generations may be grown to ensure that the subject phenotypic characteristic is stably maintained and inherited and then seeds harvested to ensure the desired phenotype or other property has been achieved.
- the methods of the invention can be used with other methods available in the art for enhancing disease resistance in plants.
- the methods involve stably transforming a plant with a DNA construct comprising an anti-pathogenic nucleotide sequence of the invention operably linked to promoter that drives expression in a plant.
- the anti-pathogenic nucleotide sequences comprise sunflower genes.
- the sunflower genes are selected from the genes encoding PR5, defensin and BBE. While the choice of promoter will depend on the desired timing and location of expression of the anti-pathogenic nucleotide sequences, preferred promoters include constitutive and pathogen-inducible promoters.
- Methods are provided for increasing the resistance of a plant to a pathogen involving stably transforming a plant with a DNA construct comprising a nucleotide sequence of an inducible promoter of an antipathogenic gene of the invention operably linked to a second nucleotide sequence.
- the promoter is selected from the promoters of genes encoding a PR5, a BBE homologue or a defensin. More preferably, the promoter has a nucleotide sequence selected from the sequences set forth in SEQ ID NO:7, SEQ ID NO:8, and SEQ ID NO:9.
- second nucleotide sequences may be utilized, preferred embodiments of the invention encompass those second nucleotide sequences that, when expressed in a plant, help to increase the resistance of a plant to pathogens. It is recognized that such second nucleotide sequences may be used in either the sense or antisense orientation depending on the desired outcome.
- Antisense nucleotides are constructed to hybridize with the corresponding mRNA. Modifications of the antisense sequences may be made as long as the sequences hybridize to and interfere with expression of the corresponding mRNA. In this manner, antisense constructions having 70%, preferably 80%, more preferably 85% sequence identity to the corresponding antisense sequences may be used. Furthermore, portions of the antisense nucleotides may be used to disrupt the expression of the target gene. Generally, sequences of at least 50 nucleotides, 100 nucleotides, 200 nucleotides, or greater may be used.
- Examples of such second nucleotide sequences include, but are not limited to, sequences encoding PR1, different members of defensin, or BBE, PR5, antifungal peptides such as tachyplesin, chitinases, glucanase, etc.
- pathogenic agent are intended pathogenic organisms such as fungi, bacteria, viruses, and disease causing microorganisms. Additionally included are nematodes, insects and the like. Pathogens of the invention include, but are not limited to, viruses or viroids, bacteria, insects, nematodes, fungi, and the like. Viruses include tobacco or cucumber mosaic virus, ringspot virus, necrosis virus, maize dwarf mosaic virus, etc.
- Specific fungal and viral pathogens for the major crops include: Soybeans: Phytophthora megasperma fsp. glycinea, Macrophomina phaseolina, Rhizoctonia solani, Sclerotinia sclerotiorum, Fusarium oxysporum, Diaporthe phaseolorum var. sojae ( Phomopsis sojae ), Diaporthe phaseolorum var.
- phaseoli Microsphaera diffusa, Fusarium semitectum, Phialophora gregata , Soybean mosaic virus, Glomerella glycines , Tobacco Ring spot virus, Tobacco Streak virus, Phakopsora pachyrhizi, Pythium aphanidermatum, Pythium ultimum, Pythium debaryanum , Tomato spotted wilt virus, Heterodera glycines Fusarium solani ; Canola: Albugo candida, Alternaria brassicae, Leptosphaeria maculans, Rhizoctonia solani, Sclerotinia sclerotiorum, Mycosphaerella brassiccola, Pythium ultimum, Peronospora parasitica, Fusarium roseum, Alternaria alternata ; Alfalfa: Clavibater michiganese subsp.
- Nematodes include parasitic nematodes such as root knot, cyst, reniform and lesion nematodes, etc.
- Insect pests include insects selected from the orders Coleoptera, Diptera, Hymenoptera, Lepidoptera, Mallophaga, Homoptera, Hemiptera, Orthoptera, Thysanoptera, Dermaptera, Isoptera, Anoplura, Siphonaptera, Trichoptera, etc., particularly Coleoptera and Lepidoptera.
- Insect pests of the invention for the major crops include: Maize: Ostrinia nubilalis , European corn borer; Agrotis ipsilon , black cutworm; Helicoverpa zea , corn earworm; Spodoptera frugiperda , fall armyworm; Diatraea grandiosella , southwestern corn borer; Elasmopalpus lignosellus , lesser cornstalk borer; Diatraea saccharalis , surgarcane borer; Diabrotica virgifera , western corn rootworm; Diabrotica longicornis barberi , northern corn rootworm; Diabrotica undecimpunctata howardi , southern corn rootworm; Melanotus spp., wireworms; Cyclocephala borealis , northern masked chafer (white grub); Cyclocephala immaculata , southern masked chafer (white grub); Popillia japonica , Japanese be
- the present invention also provides isolated nucleic acids comprising polynucleotides of sufficient length and complementarity to a gene of the invention to use as probes or amplification primers in the detection, quantitation, or isolation of gene transcripts.
- isolated nucleic acids of the present invention can be used as probes in detecting deficiencies in the level of mRNA in screenings for desired transgenic plants, for detecting mutations in the gene (e.g., substitutions, deletions, or additions), for monitoring upregulation of expression or changes in enzyme activity in screening assays of compounds, for detection of any number of allelic variants (polymorphisms) of the gene, or for use as molecular markers in plant breeding programs.
- the isolated nucleic acids of the present invention can also be used for recombinant expression of polypeptides, or for use as immunogens in the preparation and/or screening of antibodies.
- the isolated nucleic acids of the present invention can also be employed for use in sense or antisense suppression of one or more genes of the invention in a host cell, tissue, or plant. Attachment of chemical agents, which bind, intercalate, cleave and/or crosslink to the isolated nucleic acids of the present invention can also be used to modulate transcription or translation.
- nucleic acid amplification to identity insertion sequence inactivated genes of the invention from a cDNA library prepared from insertion sequence mutagenized plants. Progeny seed from the plants comprising the desired inactivated gene can be grown to a plant to study the phenotypic changes characteristic of that inactivation. See, Tools to Determine the Function of Genes, 1995 Proceedings of the Fiftieth Annual Corn and Sorghum Industry Research Conference, American Seed Trade Association, Washington, D.C., 1995.
- non-translated 5′ or 3′ regions of the polynucleotides of the present invention can be used to modulate turnover of heterologous mRNAs and/or protein synthesis.
- the codon preference characteristic of the polynucleotides of the present invention can be employed in heterologous sequences, or altered in homologous or heterologous sequences, to modulate translational level and/or rates.
- the present invention provides a method of genotyping a plant comprising a polynucleotide of the present invention.
- the plant may be a monocot, such as maize or sorghum, or alternatively, a dicot, such as sunflower or soybean.
- Genotyping provides a means of distinguishing homologues of a chromosome pair and can be used to differentiate segregants in a plant population.
- Molecular marker methods can be used for phylogenetic studies, characterizing genetic relationships among crop varieties, identifying crosses or somatic hybrids, localizing chromosomal segments affecting monogenic traits, map based cloning, and the study of quantitative inheritance.
- the particular method of genotyping in the present invention may employ any number of molecular marker analytic techniques such as, but not limited to, restriction fragment length polymorphisms (RFLPs).
- RFLPs restriction fragment length polymorphisms
- the present invention further provides a means to follow segregation of a gene or nucleic acid of the present invention as well as chromosomal sequences genetically linked to these genes or nucleic acids using such techniques as RFLP analysis.
- Linked chromosomal sequences are within 50 centiMorgans (cM), often within 40 or 30 cM, preferably within 20 or 10 cM, more preferably within 5, 3, 2, or 1 cM of a gene of the invention.
- the nucleic acid probes employed for molecular marker mapping of plant nuclear genomes selectively hybridize, under selective hybridization conditions, to a gene encoding a polynucleotide of the present invention.
- the probes are selected from polynucleotides of the present invention.
- these probes are cDNA probes or Pst I genomic clones.
- the length of the probes is discussed in greater detail, supra, but are typically at least 15 bases in length, more preferably at least 20, 25, 30, 35, 40, or 50 bases in length. Generally, however, the probes are less than about 1 kilobase in length.
- the probes are single copy probes that hybridize to a unique locus in a haploid chromosome complement.
- the present invention further provides a method of genotyping comprising the steps of contacting, under stringent hybridization conditions, a sample suspected of comprising a polynucleotide of the present invention with a nucleic acid probe.
- the sample is a plant sample; preferably, a sample suspected of comprising a maize polynucleotide of the present invention (e.g., gene, mRNA).
- the nucleic acid probe selectively hybridizes, under stringent conditions, to a subsequence of a polynucleotide of the present invention comprising a polymorphic marker. Selective hybridization of the nucleic acid probe to the polymorphic marker nucleic acid sequence yields a hybridization complex. Detection of the hybridization complex indicates the presence of that polymorphic marker in the sample.
- the nucleic acid probe comprises a polynucleotide of the present invention.
- Methods are provided for controlling plant pathogens comprising applying an anti-pathogenic amount of a protein or composition of the invention to the environment of the pathogens.
- controlling plant pathogens is intended killing the pathogen or preventing or limiting disease formation on a plant.
- anti-pathogenic amount is intended an amount of a protein or composition that controls a pathogen.
- the proteins and compositions can be applied to the environment of the pathogen by methods known to those of ordinary skill in the art.
- the proteins of the invention can be formulated with an acceptable carrier into a pesticidal composition(s) that is for example, a suspension, a solution, an emulsion, a dusting powder, a dispersible granule, a wettable powder, and an emulsifiable concentrate, an aerosol, an impregnated granule, an adjuvant, a coatable paste, and also encapsulations in, for example, polymer substances.
- a pesticidal composition(s) that is for example, a suspension, a solution, an emulsion, a dusting powder, a dispersible granule, a wettable powder, and an emulsifiable concentrate, an aerosol, an impregnated granule, an adjuvant, a coatable paste, and also encapsulations in, for example, polymer substances.
- compositions disclosed above may be obtained by the addition of a surface-active agent, an inert carrier, a preservative, a humectant, a feeding stimulant, an attractant, an encapsulating agent, a binder, an emulsifier, a dye, a U.V. protectant, a buffer, a flow agent or fertilizers, micronutrient donors or other preparations that influence plant growth.
- One or more agrochemicals including, but not limited to, herbicides, insecticides, fungicides, bacteriocides, nematocides, molluscicides, acaracides, plant growth regulators, harvest aids and fertilizers, can be combined with carriers, surfactants or adjuvants customarily employed in the art of formulation or other components to facilitate product handling and application for particular target pests.
- Suitable carriers and adjuvants can be solid or liquid and correspond to the substances ordinarily employed in formulation technology, e.g. natural or regenerated mineral substances, solvents, dispersants, wetting agents, tackifiers, binders or fertilizers.
- the active ingredients of the present invention are normally applied in the form of compositions and can be applied to the crop area or plant to be treated, simultaneously or in succession, with other compounds.
- Preferred methods of applying an active ingredient of the present invention or an agrochemical composition of the present invention, which contains at least one of the proteins of the present invention, are foliar application, seed coating and soil application. The number of applications and the rate of application depend on the intensity of infestation by the corresponding pest.
- Suitable surface-active agents include, but are not limited to, anionic compounds such as a carboxylate of, for example, a metal; carboxylate of a long chain fatty acid; an N-acylsarcosinate; mono or di-esters of phosphoric acid with fatty alcohol ethoxylates or salts of such esters; fatty alcohol sulfates such as sodium dodecyl sulfate, sodium octadecyl sulfate or sodium cetyl sulfate; ethoxylated fatty alcohol sulfates; ethoxylated alkylphenol sulfates; lignin sulfonates; petroleum sulfonates; alkyl aryl sulfonates such as alkyl-benzene sulfonates or lower alkylnaphtalene sulfonates, e.g.
- anionic compounds such as a carboxylate of, for example, a metal
- butyl-naphthalene sulfonate salts of sulfonated naphthalene-formaldehyde condensates; salts of sulfonated phenol-formaldehyde condensates; more complex sulfonates such as the amide sulfonates, e.g. the sulfonated condensation product of oleic acid and N-methyl taurine; or the dialkyl sulfosuccinates, e.g. the sodium sulfonate or dioctyl succinate.
- amide sulfonates e.g. the sulfonated condensation product of oleic acid and N-methyl taurine
- dialkyl sulfosuccinates e.g. the sodium sulfonate or dioctyl succinate.
- Non-ionic agents include condensation products of fatty acid esters, fatty alcohols, fatty acid amides or fatty-alkyl- or alkenyl-substituted phenols with ethylene oxide, fatty esters of polyhydric alcohol ethers, e.g. sorbitan fatty acid esters, condensation products of such esters with ethylene oxide, e.g. polyoxyethylene sorbitar fatty acid esters, block copolymers of ethylene oxide and propylene oxide, acetylenic glycols such as 2, 4, 7, 9-tetraethyl-5-decyn-4,7-diol, or ethoxylated acetylenic glycols.
- a cationic surface-active agent examples include, for instance, an aliphatic mono-, di, or polyamine such as an acetate, naphthenate or oleate; or oxygen-containing amine such as an amine oxide of polyoxyethylene alkylamine; an amide-linked amine prepared by the condensation of a carboxylic acid with a di- or polyamine; or a quaternary ammonium salt.
- inert materials include but are not limited to inorganic minerals such as kaolin, phyllosilicates, carbonates, sulfates, phosphates or botanical materials such as cork, powdered corncobs, peanut hulls, rice hulls, and walnut shells.
- inorganic minerals such as kaolin, phyllosilicates, carbonates, sulfates, phosphates or botanical materials such as cork, powdered corncobs, peanut hulls, rice hulls, and walnut shells.
- compositions of the present invention can be in a suitable form for direct application or as concentrate of primary composition, which requires dilution with a suitable quantity of water or other diluent before application.
- the pesticidal concentration will vary depending upon the nature of the particular formulation, specifically, whether it is a concentrate or to be used directly.
- the composition contains 1 to 98% of a solid or liquid inert carrier, and 0 to 50%, preferably 0.1 to 50% of a surfactant. These compositions will be administered at the labeled rate for the commercial product, preferably about 0.01 lb-5.0 lb. per acre when in dry form and at about 0.01 pts.-10 pts. per acre when in liquid form.
- compositions, as well as the proteins of the present invention can be treated prior to formulation to prolong the activity when applied to the environment of a target pest as long as the pretreatment is not deleterious to the activity.
- Such treatment can be by chemical and/or physical means as long as the treatment does not deleteriously affect the properties of the composition(s).
- chemical reagents include but are not limited to halogenating agents; aldehydes such a formaldehyde and glutaraldehyde; anti-infectives, such as zephiran chloride; alcohols, such as isopropanol and ethanol; and histological fixatives, such as Bouin's fixative and Helly's fixative (see, for example, Humason, Animal Tissue Techniques, W.H. Freeman and Co., 1967).
- aldehydes such as formaldehyde and glutaraldehyde
- anti-infectives such as zephiran chloride
- alcohols such as isopropanol and ethanol
- histological fixatives such as Bouin's fixative and Helly's fixative (see, for example, Humason, Animal Tissue Techniques, W.H. Freeman and Co., 1967).
- compositions can be applied to the environment of a pest by, for example, spraying, atomizing, dusting, scattering, coating or pouring, introducing into or on the soil, introducing into irrigation water, by seed treatment or general application or dusting at the time when the pest has begun to appear or before the appearance of pests as a protective measure. It is generally important to obtain good control of pests in the early stages of plant growth, as this is the time when the plant can be most severely damaged.
- the compositions of the invention can conveniently contain another insecticide or pesticide if this is thought necessary.
- Plants to be protected within the scope of the present invention include but are not limited to cereals (wheat, barley, rye, oats, rice, sorghum and related crops), beets (sugar beet and fodder beet), drupes, pomes and soft fruit (apples, pears, plums, peaches, almonds, cherries, strawberries, raspberries, and blackberries), leguminous plants (alfalfa, beans, peanuts, lentils, peas, soybeans), oil plants (rape, mustard, poppy, olives, safflowers, sunflowers, coconuts, castor oil plants, cocoa beans, oil palms), cucumber plants (cucumber, marrows, melons), fiber plants (cotton, flax, hemp, jute), citrus fruit (oranges, lemons, limes, grapefruit, mandarins), vegetables (spinach, lettuce, asparagus, cabbages and other Brassicae, carrots, onions, tomatoes, potatoes, paprik
- linden-trees yew-trees, oak-trees, alders, poplars, birch-trees, firs, larches, pines
- plants such as maize, turf plants, tobacco, nuts, coffee, sugar cane, tea, hops, bananas and natural rubber plants, as well as ornamentals.
- formulations of the present invention for use as antimicrobial therapies comprise the anti-pathogenic proteins in a physiologically or pharmaceutically acceptable carrier, such as an aqueous carrier.
- a physiologically or pharmaceutically acceptable carrier such as an aqueous carrier.
- formulations for use in the present invention include, but are not limited to, those suitable for parenteral administration, including subcutaneous, intradermal, intramuscular, intravenous and intraarterial administration, as well as topical administration.
- the formulations may conveniently be presented in unit dosage form and may be prepared by any of the methods well-known in the art. Such formulations are described in, for example, Remington's Pharmaceutical Sciences 19th ed., Osol, A. (ed.), Mack Easton Pa. (1980).
- the anti-pathogenic compositions are typically admixed with, inter alia, an acceptable carrier.
- the carrier must, of course, be acceptable in the sense of being compatible with any other ingredients in the formulation and must not be deleterious or harmful to the patient.
- the carrier may be a solid or a liquid.
- One or more anti-pathogenic proteins may be incorporated in the formulations of the invention, which may be prepared by any of the well-known techniques of pharmacy consisting essentially of admixing the components, optionally including one or more accessory therapeutic ingredients.
- Formulations of the present invention may comprise sterile aqueous and non-aqueous injection solutions of the active compound, which preparations are preferably isotonic with the blood of intended recipient and essentially pyrogen free. These preparations may contain anti-oxidants, buffers, bacteriostats and solutes that render the formulation isotonic with the blood of the intended recipient.
- Aqueous and non-aqueous sterile suspensions may include suspending agents and thickening agents.
- the formulations may be presented in unit dose or multi-dose containers, for example sealed ampoules and vials, and may be stored in a freeze-dried (lyophilized) condition requiring only the addition of the sterile liquid carrier, for example, saline or water-for-injection immediately prior to use.
- sterile liquid carrier for example, saline or water-for-injection immediately prior to use.
- the anti-pathogenic protein may be contained within a lipid particle or vesicle, such as a liposome or microcrystal, which may be suitable for parenteral administration.
- the particles may be of any suitable structure, such as unilamellar or plurilamellar, so long as the targeted cassette is contained therein.
- Positively charged lipids such as N-[1-(2,3-dioleoyloxi)propyl]-N,N,N-trimethyl-amoniummethylsulfate, or “DOTAP”, are particularly preferred for such particles and vesicles.
- DOTAP N-[1-(2,3-dioleoyloxi)propyl]-N,N,N-trimethyl-amoniummethylsulfate
- the preparation of such lipid particles is well-known. See, e.g., U.S. Pat. No.
- the dosage of the anti-pathogenic protein administered will vary with the particular method of administration, the condition of the subject, the weight, age, and sex of the subject, the particular formulation, the route of administration, etc. In general, the protein will be administered in a range of about 1 ⁇ g/L to about 10 g/L.
- Sunflower plants were grown in the greenhouse and growth chamber.
- the sunflower line SMF 3 and oxox-transgenic sunflower (line 193870 and 610255) were used for RNA profiling study by CuraGen using methods described in U.S. Pat. No. 5,871,697 to Rothberg et al., and U.S. Pat. No. 5,972,693 to Rothberg et al., both incorporated herein by reference.
- Sunflower pathogen, Sclerotinia sclerotiorum was maintained on plate at 20° C. in dark.
- RNA samples were ground in liquid nitrogen, and total RNA was extracted by the Tri-Reagent Method (Sigma). For each RNA profiling study, RNA samples from 6-week-old sunflower leaves and stems of transgenic sunflower plants expressing a wheat oxalate oxidase gene were compared with those from sunflower line SMF3. Total RNA (20 ⁇ g) was separated in a 1% agarose gel containing formaldehye. Ethidium bromide was included to verify equal loading of RNA. After transfer onto Hybond N+ membrane (Amersham), the blots were hybridized with 32 P-labelled PR5, defensin or BBE cDNA probes. A duplicate blot was hybridized with an 18S rRNA probe as a control. Hybridization and washing conditions were performed according to Church et al. (1984) Proc. Natl. Acad. Sci. USA 81:1991-1995.
- FIG. 1 illustrates the cloning strategy used. The sequence information generated was used for designing gene-specific primers to amplify both 3′ and/or 5′ end regions of the target genes using the PCR-based, RACE method. Sclerotinia-infected and oxox-induced cDNA libraries or cDNAs made using a Marathon cDNA Amplification Kit (Clontech) were utilized as a source of templates for PCR amplification.
- PCR reactions were performed in a total volume of 25 ⁇ l in 10 mM Tris-HCl, pH 8.3; 1.5 mM MgCl 2 ; 50 mM KCl; 0.1 mM dNTPs; 0.25 ⁇ M of each primer with 0.5 units of advantage cDNA polymerase mix (Clontech) or Pwo DNA polymerase (Boehringer). Genomic DNA and/or cDNA library mixtures were used as a source of templates for PCR amplification.
- Promoter regions of PR5, defensin, and BBE were isolated from sunflower genomic DNA using Universal GenomeWalker Kit (Clontech) according to the manufacturer's instructions. Restriction digested genomic DNAs were ligated with an adapter to construct pools of genomic DNA fragments for walking by PCR (Siebert et al. (1995) Nuc. Acids Res. 23:1087-1088).
- mRNAs were isolated using an mRNA purification kit (BRL) according to manufacturer's instruction.
- cDNA libraries were constructed with the ZAP-cDNA synthesis kit into pBluescrip phagemid (Stratagene).
- a cDNA library mixture for PCR cloning was made of oxox transgenic stem and Sclerotinia-infected leaf libraries (1:2 mix).
- Sunflower plants SMF3 were planted in 4-inch pots and grown in the greenhouse for four weeks. After transfer to the growth chamber, plants were maintained under 12 hour photoperiod at 22° C. with a 80% relative humidity. Six-week-old plants were inoculated with Sclerotinia-infested carrot plugs or sprayed with one of four different chemical treatments. For each plant, three petioles were inoculated and wrapped with 1 ⁇ 2 inch parafilm. Plant tissue samples were collected at different time points by immediately freezing in liquid nitrogen and then stored at ⁇ 80° C.
- Resistance to the fungal pathogen Sclerotinia is a trait of major importance for crops such as sunflower, canola, and soybean.
- Sunflower Sclerotinia disease can be established at various developmental stages with the main targets being head, stem, and root tissues. This suggests that resistance genes need to be constitutively expressed in multiple tissues.
- the major toxic and pathogenic factor produced by Sclerotinia is oxalic acid that can be converted into H 2 O 2 and CO 2 by oxalate oxidase.
- a candidate gene for detoxifying oxalate is the wheat oxalate oxidase (oxox) which have been used to transform a sunflower inbred line.
- oxox by a constitutive promoter significantly enhances resistance to Sclerotinia in sunflower.
- lesion size was six-fold lower in oxox-transgenic sunflower plants upon infection with Sclerotinia mycelia relative to untransformed plants.
- the oxox-transgenic sunflower plants displayed a lesion mimic in the mature leaves.
- the enhanced Sclerotinia resistance of sunflower oxox transgenics is closely related to the observed elevated levels of SA and PR proteins (WO 99/04013).
- RNA profiling analysis 30 bands were induced and 30 bands were repressed in the oxox-transgenic stem and leaf tissues compared to non-transformed SMF3 plants. Three of the induced bands were sequenced (Table 1), and the sequence information was used to clone the full-length clones.
- a PCR-based cloning method was developed to efficiently isolate full-length cDNAs of the plant defense genes, from sunflower cDNA libraries (FIG. 2).
- a cDNA library mixture containing both oxox-transgenic cDNA library and Sclerotinia-infected cDNA library (1:2 mix) was used as template for PCR amplification.
- Using cDNA libraries as DNA template in PCR amplification had two benefits: (1) the number of unexpected PCR products was reduced as compared to genomic DNA as a source of template, and (2) disease-induced cDNA libraries increased the chance of isolating defense-related genes.
- Table 1 provides RNA profiling band sequences (PBS) and oligonucleotide sequences used for PCR amplification of the cDNAs and promoter regions.
- Oligonucleotide PBS-upper (P3) and PBS-lower (P4) were two primers located at the ends of cDNA library vector, as indicated in FIG. 2.
- P1 5′-end RACE
- P2 3end RACE
- P5 full-length RACE
- the additional antisense primers were made for cloning promoter regions of PR5, defensin, and BBE, using the GenomeWalker kit (Clontech) (Band h0a0-231.3, PR5; band d0l0-113.9, defensin; and n0s0-162.7, BBE).
- cDNA cloning Library vector (pBS): PBS- GCGATTAAGTTGGGTAACGCCAGGGT (SEQ ID NO:26) upper: PBS- TCCGGCTCGTATGTTGTGTGGAATTG (SEQ ID NO:27) lower: PR5: h0a0-231.3: TGATCAGTTTTGTACACGGTGCAAGGGTTATTGCAC (SEQ ID NO:28) CCGCCAGAGCCCGTAACTCNCCAGGACACTGGCCAT TGATATCCGCAGTACATGAGATACCCCGGGTGCACC CATTAGAATTGGGTCTAAACACCATCGGCACATTGA ATCCGTCCACAAGAGAAATGTCAAAGAAATCAAGAT TGTTGAACTGGTTCCAAGCGTACTCGGCCCATGTGT TTGGGTGGGGTACC Sense: CCGAGTACGCTTTAACCAGT (SEQ ID NO:29) Anti- TC
- Oligonucleotide PBS-upper (P3) and PBS-lower (P4) were two primers located at the ends of cDNA library vector, as indicated in FIG. 2.
- P3 and P4 were two primers located at the ends of cDNA library vector, as indicated in FIG. 2.
- two or three gene specific primers were made to complete the 5′ end RACE (P1), the 3′ end RACE (P2), and the full-length RACE (P5).
- the additional antisense primers were made for cloning promoter regions of PR5-1 and BBE, using the genome walker kit from Clontech. Band h0a0-231.3, PR5-1; band d0l0-113.9, defensin; and n0s0-162.7, BBE.
- a full-length cDNA encoding pathogenesis-related protein-5 (PR5-1) was isolated from sunflower.
- the nucleotide sequence of PR5-1 is set forth in SEQ ID NO:4 and the amino acid sequence encoded by this nucleotide sequence is set forth in SEQ ID NO:1.
- the sunflower PR5-1 protein with its amino-terminal signal sequence is 222 amino acids in length with a calculated molecular mass of 25 kDa and a pI of 6.71.
- Database searches with predicted amino acid sequence revealed significant sequence similarity with previously reported PR5 proteins from other plant species.
- the 5′-flanking sequence of the PR5-1 gene contains two potential pathogen-responsive MRE-like elements.
- FIG. 2 shows the alignment of amino acid sequence of PR5-1 from sunflower with other PR5 or osmotin-like proteins from grape, soybean, tomato, and potato.
- Sunflower PR5-1 shows the highest sequence similarity to P21 protein (78% amino acid identity; 80% similarity) from soybean (Swiss-Prot P205096) followed by the osmotin-like protein from grape (Swiss-Prot 004708; 72% amino acid identity; 77% similarity), where sequence comparisons were performed with the GAP algorithm described above using default parameters.
- a full-length cDNA encoding a BBE homologue was isolated from sunflower.
- the full-length cDNA set forth in SEQ ID NO:5 is 1809 nucleotides long with an open reading frame encoding a protein of 542 amino acids (SEQ ID NO:2) and a calculated molecular mass at 61.41 kDa and a pI of 8.18 (FIG. 5).
- the BBE promoter region contains a potential MRE-like element with the sequence TGTAGG (nucleotides 139-144, SEQ ID NO:8).
- the BBE promoter also contains a CAAT box (nucleotides 278-281, SEQ ID NO:8), and a TATA box (nucleotides 299-304, SEQ ID NO:8).
- the isolated cDNA shares homology with BBE cDNAs from California poppy and opium poppy (FIG. 3) and two published sunflower cDNA's encoding carbohydrate oxidases (WO 98/13478), which have antifungal activity, specifically against Phytophthora and Pythium species (FIG. 3).
- the amino acid sequence alignment indicates 42% identity and 52% similarity between the sunflower BBE and the previously patented sequences (Sunflower-15 and Sunflower-17 from WO 98/13478), where the comparison was performed with the GAP algorithm described above using the default parameters.
- the sunflower defensin cDNA is 556 nucleotides long with an open reading frame starting at nucleotide 36 and ending at nucleotide position 362 (SEQ ID NO:6).
- the deduced polypeptide is 108 amino acids long and contains a putative signal peptide at the amino-terminal end (SEQ ID NO:3).
- the cloned defensin promoter contains two W-boxes with the nucleotide sequence TTGACC (nucleotides 221-226, SEQ ID NO:9), and a G-box with sequence CACGTG (nucleotides 564-569, SEQ ID NO:9). These cis-elements are potentially related to plant defense response.
- the defensin promoter also contains a TATA box (nucleotides 857-860, SEQ ID NO:9).
- the protein has significant homology to other reported plant defensins (FIG. 4). Eight important cysteine residues in this novel defensin were highly conserved among all other known plant defensins.
- Oxalic acid (OA) a compound produced by Sclerotinia and many other fungal pathogens in planta, plays an important role in the disease infection process (Noyes et al. (1981) Physiol. Plant Path. 18:123-132).
- Salicylic acid, jasmonic acid and H 2 O 2 have been implicated as having a central role in plant disease resistance and systemic acquired resistance, and have been shown to induce the accumulation of many PR proteins, including PR5 protein and defensin in Arabidopsis (Blechert et al. (1995) Proc. Natl. Acad. Sci. USA 92:4099-4105; Terra et al. (1988) Planta 206:117-124; Noyes et al. (1981) Physiol. Plant Path. 18:123-132).
- BBE transcripts were highly induced in oxox-transgenic and Sclerotinia infected sunflower leaves. However, BBE transcripts were not detected in either control or infected stem samples. Northern blot analysis confirmed the RNA profiling result of increased BBE transcripts in oxox transgenic plants. The chemical induction experiment revealed that BBE expression was induced by oxalic acid, H 2 O 2 , SA and JA at early time points and returned to the normal level within 24 hours after application.
- Defensin transcript levels were significantly higher in samples from oxox transgenic plants relative to levels in control plants.
- Northern analysis revealed that sunflower defensin was induced in leaf tissue of the Sclerotinia-infected and oxox transgenic plants.
- a time course study showed that defensin, PR5-1 and BBE transcripts were highly induced in oxox-transgenic tissues at the 6-week-old stage.
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Abstract
Compositions and methods to aid in protecting plants from invading pathogenic organisms are provided. The compositions of the invention comprise anti-pathogenic genes, including 5′ regulatory sequences in the promoter, and proteins encoded by the anti-pathogenic genes. The compositions find use in methods for reducing or eliminating damage to plants caused by plant pathogens. Transformed plants, plant cells, tissues, and seed having enhanced disease resistance are also provided.
Description
- The present application is a divisional application of copending U.S. application Ser. No. 09/589,733, filed Jun. 8, 2000, entitled “Sunflower Anti-Pathogenic Proteins and Genes and Their Uses”, which claims the benefit of U.S. Provisional Application Serial No. 60/140,646, filed Jun. 23, 1999, and U.S. Provisional Application No. 60/162,904, filed Nov. 1, 1999, both entitled “Sunflower Anti-Pathogenic Proteins and Genes and Their Uses,” the contents of which are herein incorporated by reference in their entirety.
- The invention relates to nucleotide sequences and proteins for anti-pathogenic agents and their uses, particularly the genetic manipulation of plant with genes that enhance disease resistance. Promoter sequences are also provided.
- Plant diseases are often a serious limitation on agricultural productivity and have therefore influenced the history and development of agricultural practices. Only recently have Mendelian genes controlling disease resistance been isolated, and elucidation of their biochemical functions remains a major challenge.
- Plant disease outbreaks have resulted in catastrophic crop failures that have triggered famines and caused major social change. Generally, the best strategy for plant disease control is to use resistant cultivars selected or developed by plant breeders for this purpose. However, the potential for serious crop disease epidemics persists today, as evidenced by outbreaks of the Victoria blight of oats and southern corn leaf blight. instances, multigenes are involved. However, the biochemical mechanisms for gene products involved in plant resistance are known in only a few model cases.
- Among the causal agents of infectious diseases of crop plants, phytopathogenic fungi play the dominant role not only by causing devastating epidemics, but also through the less spectacular although persistent and significant annual crop yield losses that have made fungal pathogens a serious economic factor. All of the species of flowering plants are attacked by pathogenic fungi. Generally, however, a single plant species can be host to only a few fungal species, and similarly, most fungi have a limited host range.
- To colonize plants, fungal microorganisms have evolved strategies to invade plant tissue, to optimize growth in the plant, and to propagate. Bacteria and viruses, as well as some opportunistic fungal parasites, often depend on natural openings or wounds for invasion. In contrast, many true phytopathogenic fungi have evolved mechanisms to actively traverse the plant's outer structural barriers, the cuticle and the epidermal cell wall. To gain entrance, fungi generally secrete a cocktail of hydrolytic enzymes.
- Despite the large number of microorganisms capable of causing disease, most plants are resistant to any given pathogen. The defense mechanisms utilized by plants can take many different forms, ranging from passive mechanical or preformed chemical barriers, which provide non-specific protection against a wide range of organisms, to move more active host-specific responses that provide host- or varietal-specific resistance. Resistance (R) genes are effective against individual pathogen varieties. These genes have been employed in breeding programs upon discovery.
- A hypersensitive response (HR) that is elaborated in response to invasion by all classes of pathogens is the most common feature associated with active host resistance. In most cases, activation of the HR leads to the death of cells at the infection site, which results in the restriction of the pathogen to small areas immediately surrounding the initially infected cells. At the whole plant level, the HR is manifested as small necrotic lesions. The number of cells affected by the HR is only a small fraction of the total in the plant, so this response obviously contributes to the survival of plants undergoing pathogen attack.
- In plants, robust defense responses to invading phytopathogens often conform to a gene-for-gene relationship. Resistance to a pathogen is only observed when the pathogen carries a specific avirulence (avr) gene and the plant carries a corresponding resistance (R) gene. Because avr-R gene-for-gene relationships are observed in many plant-pathogens systems and are accompanied by a characteristic set of defense responses, a common molecular mechanism avr-R gene mediated resistance has been postulated. Thus, disease resistance results from the expression of a resistance gene in the plant and a corresponding avirulence gene in the pathogen and is often associated with the rapid, localized cell death of the hypersensitive response. R genes that respond to specific bacteria, fungal, or viral pathogens have been isolated from a variety of plant species and several appear to encode cytoplasmic proteins. It has been unclear how such proteins could recognize an extracellular pathogen. Many strategies for plant disease control have been attempted. Resistant cultivars has been selected or developed by plant breeders for disease control. Resistance is especially important for major crops such as the cereals, sugar cane, potato, and soybean. The limitation in use of disease resistance in modern agriculture is adaptability by pathogens to overcome resistance.
- The development of new strategies to control diseases is the primary purpose of research on plant/pathogen interactions. These include, for example, the identification of essential pathogen virulence factors and the development of means to block them, or the transfer of resistance genes into crop plants from unrelated species. An additional benefit is a better understanding of the physiology of the healthy plant through a study of the metabolic disturbances caused by plant pathogens.
- Anti-pathogenic compositions and methods for their use are provided. The compositions comprise anti-pathogenic proteins and their corresponding genes and regulatory regions. Particularly, sunflower PR5-1, defensin, and berberine bridge enzyme (BBE) homologues, and fragments and variants thereof, are provided.
- The compositions are useful in protecting a plant from invading pathogenic organisms. One method involves stably transforming a plant with a nucleotide sequence of the invention to engineer broad spectrum disease resistance in the plant. The nucleotide sequences will be expressed from a promoter capable of driving expression of a gene in a plant cell. A second method involves controlling plant pathogens by applying an effective amount of an anti-pathogenic protein or composition of the invention to the environment of the pathogens. Additionally, the nucleotide sequences of the invention are useful as genetic markers in disease resistance breeding programs.
- Promoters of the genes of the invention find use as disease or pathogen-inducible promoters. Such promoters may be used to express other coding regions, particularly other anti-pathogenic genes, including disease and insect resistance genes.
- The compositions of the invention additionally find use in agricultural and pharmaceutical compositions as antifungal and antimicrobial agents. For agricultural purposes, the compositions may be used in sprays for control of plant disease. As pharmaceutical compositions, the agents are useful for antibacterial and antimicrobial treatments.
- The methods of the invention find use in controlling pests, including fungal pathogens, viruses, nematodes, insects, and the like. Transformed plants, plant cells, plant tissues, and seeds, as well as methods for making such transformed compositions are additionally provided.
- FIG. 1 depicts the cDNA cloning strategy. (I) Sunflower cDNA libraries were directionally constructed into pBluescript phagemid using a ZAP-cDNA synthesis kit from Stratagene; (II) oligonucleotide primers (P1 and P3) were used to amplify the 5′ end of a target gene by a rapid amplification of cDNA ends (RACE) method. PCR and the 3′ end of the gene were amplified with P2 and P4 primers; (III) P5 primer was designed at the putative start codon (ATG) or upstream the start codon in order to clone full-length cDNA; (IV) the full-length cDNA of the target gene were amplified by PCR with P5 and P4 primers; and (V) the expected full-length cDNA was inserted into TA vector (Invitrogen) for sequencing. Shaded areas represent cloned regions.
- FIG. 2 depicts an alignment of the amino acid sequence of PR5-1 (SEQ ID NO:1) from sunflower with other PR5 or osmatin-like proteins from grape, (Swiss-Prot Accession Nos. P93621, SEQ ID NO:10; and 004708, SEQ ID NO:11); soybean, (Swiss-Prot Accession No. P25096, SEQ ID NO:12); tomato, (Swiss-Prot Accession No. Q01591, SEQ ID NO:14); and potato, (Swiss-Prot Accession No. P50701, SEQ ID NO:15). A star indicates that the amino acid at that position is conserved for all aligned sequences, and a dash denotes gaps in alignment.
- FIG. 3 depicts an alignment of the amino acid sequence of a BBE (SEQ ID NO:20) from sunflower with other BBE homologues and two possible sunflower carbohydrate oxidases. Sunflower-15 (SEQ ID NO:17) and -19 (SEQ ID NO:16) sequences were reported in WO 98/13478. Other BBE homologues include a reticuline oxidase precursor from California poppy, (Swiss-Prot Accession No. P30986, SEQ ID NO:19) and a BBE from opium poppy, (Swiss-Prot Accession No. P93479, SEQ ID NO:18).
- FIG. 4 depicts an alignment of the amino acid sequence of a sunflower defensin (SEQ ID NO:24) with other antifungal defensins from garden pea (Swiss-Prot Accession No. Q01784, SEQ ID NO:25), white mustard (Swiss-Prot Accession No. P30231, SEQ ID NO:22), radish (Swiss-Prot Accession No. P30230, SEQ ID NO:21) and Arabidopsis (Swiss-Prot Accession No. P30224, SEQ ID NO:23).
- Compositions and methods for controlling pathogenic agents are provided. The anti-pathogenic compositions comprise sunflower genes, including their promoters, and proteins. Particularly, the sunflower genes and proteins are selected from PR5-1, defensin, and berberine bridge enzyme (BBE). Accordingly, the methods are also useful in protecting plants against fungal pathogens, viruses, nematodes, insects and the like. Additionally, the compositions can be used in formulation use for their antimicrobial activities.
- Additionally, the present invention provides for isolated nucleic acid molecules comprising nucleotide sequences for plant promoters shown in SEQ ID NO:7, SEQ ID NO:8, and SEQ ID NO:9; for nucleotide sequences encoding the amino acid sequences shown in SEQ ID NO:1, SEQ ID NO:2, and SEQ ID NO:3; the nucleic acid molecules deposited in a bacterial host as Patent Deposit Nos. PTA-67, PTA-73, PTA-75, respectively; and the nucleic acid molecule deposited as Patent Deposit No. PTA-560 which comprises the nucleotide sequence shown in SEQ ID NO:9. Further provided are polypeptides having an amino acid sequence encoded by a nucleic acid molecule described herein, for example those set forth in SEQ ID NO:4, SEQ ID NO:5, and SEQ ID NO:6 those deposited as Patent Deposit Nos. PTA-67, PTA-73, PTA-75, respectively, and fragments and variants thereof.
- Plasmids containing the promoter sequences and gene nucleotide sequences of the invention were deposited with the Patent Depository of the American Type Culture Collection, Manassas, Va. The following plasmids were deposited: May 13, 1999, pHp 15383 containing BBE cDNA; May 13, 1999, pHp 15384 containing BBE promoter sequence; May 13, 1999, pHp 15385 containing defensin cDNA; Aug. 31, 1999, pHp 16125 containing defensin promoter sequence; May 13, 1999, pHp 15395 containing PR5-1 promoter sequences; and May 14, 1999, pHp 15393 containing PR5-1 cDNA; and assigned Patent Deposit Nos. PTA-73, PTA-74, PTA-75, PTA-560, PTA-76, PTA-67, respectively. These deposits will be maintained under the terms of the Budapest Treaty on the International Recognition of the Deposit of Microorganisms for the Purposes of Patent Procedure. These deposits were made merely as a convenience for those of skill in the art and are not an admission that a deposit is required under 35 U.S.C. §112.
- As indicated, the sequences of the invention find use as antifungal agents. Thus, the genes can be used to engineer plants for broad spectrum disease resistance. In this manner, the sequences can be used alone or in combination with each other and/or with other known disease resistance genes.
- Additionally, the sequences can be used as markers in studying defense signal pathways and in disease resistance breeding programs. The sequences can also be used as baits to isolate other signaling components in defense/resistance responsiveness and to isolate the corresponding promoter. See, generally, Sambrook et al. (1989)Molecular Cloning: A Laboratory Manual (2d ed.), Cold Spring Harbor Laboratory Press, Plainview, N.Y.
- The invention encompasses isolated or substantially purified nucleic acid or protein compositions. An “isolated” or “purified” nucleic acid molecule or protein, or biologically active portion thereof, is substantially free of other cellular material, or culture medium when produced by recombinant techniques, or substantially free of chemical precursors or other chemicals when chemically synthesized. Preferably, an “isolated” nucleic acid is free of sequences that naturally flank the nucleic acid (i.e., sequences located at the 5′ and 3′ ends of the nucleic acid) in the genomic DNA of the organism from which the nucleic acid is derived. For example, in various embodiments, the isolated nucleic acid molecule can contain less than about 5 kb, 4 kb, 3 kb, 2 kb, 1 kb, 0.5 kb, or 0.1 kb of nucleotide sequences that naturally flank the nucleic acid molecule in genomic DNA of the cell from which the nucleic acid is derived. A protein that is substantially free of cellular material includes preparations of protein having less than about 30%, 20%, 10%, 5%, (by dry weight) of contaminating protein. When the protein of the invention or biologically active portion thereof is recombinantly produced, preferably, culture medium represents less than about 30%, 20%, 10%, or 5% (by dry weight) of chemical precursors or non-protein of interest chemicals.
- By “anti-pathogenic compositions” is intended that the compositions of the invention are capable of suppressing, controlling, and/or killing the invading pathogenic organism.
- By “disease resistance” is intended that the plants avoid the disease symptoms that are the outcome of plant-pathogen interactions. That is, pathogens are prevented from causing plant diseases and the associated disease symptoms. The methods of the invention can be utilized to protect plants from disease, particularly those diseases that are caused by plant pathogens.
- The compositions of the invention include isolated nucleic acid molecules comprising the promoter nucleotide sequences set forth in SEQ ID NO:7, SEQ ID NO:8 and SEQ ID NO:9. By “promoter” is intended a regulatory region of DNA usually comprising a TATA box capable of directing RNA polymerase II to initiate RNA synthesis at the appropriate transcription initiation site for a particular coding sequence. A promoter may additionally comprise other recognition sequences generally positioned upstream or 5′ to the TATA box, referred to as upstream promoter elements, which influence the transcription initiation rate. It is recognized that having identified the nucleotide sequences for the promoter regions disclosed herein, it is within the state of the art to isolate and identify further regulatory elements in the 5′ untranslated region upstream from the particular promoter regions identified herein. Thus, for example, the promoter regions disclosed herein may further comprise upstream regulatory elements that confer tissue-preferred expression of any heterologous nucleotide sequence operably linked to one of the disclosed promoter sequences. See particularly Australian Patent No. AU-A-77751/94 and U.S. Pat. Nos. 5,466,785 and 5,635,618. Generally with the promoter sequences of the invention, the pattern of expression will be inducible.
- The inducible promoter sequences of the present invention, when assembled within a DNA construct such that the promoter is operably linked to a nucleotide sequence of interest, enable expression of the nucleotide sequences in the cells of a plant stably transformed with this DNA construct. The nucleotide sequence of interest encompasses both homologous and heterologous sequences. By “heterologous nucleotide sequence” is intended a sequence that is not naturally occurring with the promoter sequence. While this nucleotide sequence is heterologous to the promoter sequence, it may be homologous, or native, or heterologous, or foreign, to the plant host. Choice of the promoter sequence will determine when and where within the organism the heterologous nucleotide sequence is expressed. Where gene expression in response to a stimulus is desired, an inducible promoter of the invention is the regulatory element of choice. When using an inducible promoter, expression of the nucleotide sequence is initiated in cells in response to a stimulus. By “stimulus” is intended a chemical, which may be applied externally or may accumulate in response to another external stimulus; a pathogen, which may, for example, induce expression as a result of invading a plant cell; or other factor such as environmental stresses, including but not limited to, drought, temperature, and salinity.
- Compositions of the invention also include the nucleotide sequences for three sunflower genes: a sunflower PR5 homologue as set forth in SEQ ID NO:4; a sunflower defensin homologue as set forth in SEQ ID NO:6; and, a sunflower BBE homologue as set forth in SEQ ID NO:5, and the corresponding amino acid sequences for the proteins encoded thereby as set forth in SEQ ID NO:1, SEQ ID NO:3 and SEQ ID NO:2, respectively. These gene sequences may be assembled into a DNA construct such that the gene is operably linked to a promoter that drives expression of a coding sequence in a plant cell. Plants stably transformed with this DNA construct express, either in a constitutive or inducible manner, a protein of the invention. Expression of this protein creates or enhances disease resistance in the transformed plant. BBE [9S0-reticuline:oxygen oxidoreductase (methylene-bridge-forming), EC 1.5.3.9] is a covalently flavinylated oxidase that is a key enzyme in benzophenanthridine alkaloid biosynthesis in plants (Kutchan et al. (1995)J. Biol. Chem. 270:24475-24481; Blechert et al. (1995) Proc. Natl. Acad. Sci. USA 92:4099-4105; Dittrich et al. (1991) Proc. Natl. Acad. Sci. USA 88:9969-9973; Chou et al. (1998) Plant J. 15:289-300). Members of the alkaloid family are known to have potent pharmacological activities. Berberine, for example, is currently used as an antibacterial treatment for eye infections in Europe and for intestinal infections in the Far East. The benzophenanthridine alkaloid, sanguimarine, is an antimicrobial used in the treatment of peridontal disease in both the United States and Europe (Kutchan et al. (1995) J. Biol. Chem. 270:24475-24481). In addition, BBE has anti-Phytophthora and anti-Pythium activity, as well as carbohydrate oxidase activity (WO 98/13478). The BBE-transgenic plants of the invention have enhanced resistance to pathogens. BBE and several other enzymes in the defense pathway are induced by elicitors. See for example Blechert et al. (1995) Proc. Natl. Acad. Sci. USA 92:4099-4105; Dittrich et al. (1991) Proc. Natl. Acad. Sci. USA 88:9969-9973.
- A sunflower BBE is disclosed that is regulated by oxalate oxidase (oxox) expression and Sclerotinia infection. The cDNA (SEQ ID NO:5) and promoter (SEQ ID NO:8) sequences of sunflower BBE are provided. In addition, expression of this BBE in sunflower was up-regulated by oxalic acid, H2O2, salicylic acid (SA) and jasmonic acid (JA).
- Pathogenesis-related protein-5 (PR5) is one of the 9 classes of PR proteins. PR5 shares sequence similarity with osmotin, thaumatin, and zeamatin proteins (Hu et al. (1997)Plant Mol. Biol. 34:949-959; Ryals et al. (1996) Plant Cell 8:1809-1819). PR5 proteins have been characterized from a wide range of plant species in both dicotyledonous and monocotyledonous plants. Although the biological function of PR5 proteins has yet to be established, members of this group have been shown to have antifungal activities against a broad range of fungal pathogens (Hu et al. (1997) Plant Mol. Biol. 34:949-959; Ryals et al. (1996) Plant Cell 8:1809-1819); Liu et al. (1994) Proc. Natl. Acad. Sci. USA 91:1888-1892; Liuetal. (1995) Plant Mol. Biol. 29:1015-1026; Zhu et al. (1995) Plant Physiol. 108:929-937). In Arabidospsis, the induction of PR5 is SA-dependent. The sunflower PR5-1 gene disclosed herein was regulated by oxox expression and Sclerotinia-infection. The sunflower PR5-1 promoter contains potential pathogen-responsive cis-elements, such as an MRE (MYB recognition element).
- Defensins are one class among the numerous types of Cys-rich antimicrobial polypeptides, which differ in length, number of cysteine bonds, or folding pattern (Bomann, H. G. (1995)Annu. Rev. Immunol. 13:61-92). Like cecropins, insect defensins are produced in a pathogen-inducible manner by the insect fat body and secreted in the hemolymph (Huffmann et al. (1992) Immunol. Today 13:411-415). Mammalian defensins are produced by various specialized cells in the mammalian body (Lehrer et al. (1993) Annu. Rev. Immunol. 11: 105-128; Ganz et al. (1994) Curr. Opin. Immunol. 6:584-589). The structural and functional properties of plant defensins resemble those of insect and mammalian defensins (Terras et al. (1995) Plant Cell 7:573-588; Broekaer et al. (1995) Plant Physiol. 108:1353-1358). Plant defensins inhibit the growth of a broad range of fungi at micromolar concentrations by inhibiting hyphal elongation or inhibiting hyphal extension (Broekaer et al. (1995) Plant Physiol. 108:1353-1358).
- Plant defensins are important components of the defense system in plants. They are located at the periphery of different organs and are induced by pathogens. A sunflower cDNA was isolated that encodes a defensin peptide (SEQ ID NO:6). This defensin gene was up regulated by Sclerotinia infection, oxox expression, oxalic acid, H2O2 and SA as well as jasmonic acid. In general, plant defensin genes such as Arabidopsis PDF1.2 and a radish defensin are induced by pathogens via an SA-independent and JA-dependent pathway (Thomma et al.) Proc. Natl. Acad. Sci. USA 95:15107-15111; Terras et al. (1995) Plant Cell 7:573-588; Terra et al. (1988) Planta 206:117-124). The sunflower defensin gene appears to be the only defensin that is regulated via a SA-dependent pathway. The sunflower defensin promoter contains potential pathogen responsive cis-elements, such as W-boxes and G-boxes.
- The proteins of the invention may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art. For example, amino acid sequence variants of the proteins can be prepared by mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations are well-known in the art. See, for example, Kunkel, T. (1985)Proc. Natl. Acad. Sci. USA 82:488-492; Kunkel et al. (1987) Methods in Enzymol 154:367-382; U.S. Pat. No. 4,873,192; Walker et al. (1983) (eds.) Techniques in Molecular Biology, MacMillan Publishing Company, NY and the references cited therein. Thus, the genes and nucleotide sequences of the invention include both the naturally occurring sequences as well as mutant forms. Likewise, the proteins of the invention encompass both naturally occurring proteins as well as variations and modified forms thereof. Such variants will continue to possess the desired defense activation activity. Obviously, the mutations that will be made in the DNA encoding the variant must not place the sequence out of reading frame and preferably will not create complementary regions that could produce secondary mRNA structure. See, for example, EP Patent Application Publication No. 75,444.
- Fragments and variants of these native nucleotide and amino acid sequences are also encompassed by the present invention. By “fragment” is intended a portion of the nucleotide or amino acid sequence. Fragments of a promoter nucleotide sequence may retain their regulatory activity. Thus, for example, less than the entire promoter sequences disclosed herein may be utilized to drive expression of an operably linked nucleotide sequence of interest, such as a nucleotide sequence encoding a heterologous protein. It is within skill in the art to determine whether such fragments decrease expression levels or alter the nature of expression, i.e., and constitutive or inducible expression. Alternatively, fragments of a promoter nucleotide sequence that are useful as hybridization probes, such as described below, generally do not retain this regulatory activity.
- Nucleic acid molecules that are fragments of a promoter nucleotide sequence comprise at least 15, 20, 25, 30, 35, 40, 45, 50, 75, 100, 325, 350, 375, 400, 425, 450, or 500 nucleotides, or up to the number of nucleotides present in the full-length promoter nucleotide sequence set forth in SEQ ID NO: 7, 8, and 9. Fragments of a promoter sequence that retain their regulatory activity comprise at least 30, 35, 40 contiguous nucleotides, preferably at least 50 contiguous nucleotides, more preferably at least 75 contiguous nucleotides, still more preferably at least 100 contiguous nucleotides of the particular promoter nucleotide sequence disclosed herein. Preferred fragment lengths depend upon the objective and will also vary depending upon the particular promoter sequence.
- The nucleotides of such fragments will usually comprise the TATA recognition sequence of the particular promoter sequence. Such fragments may be obtained by use of restriction enzymes to cleave the naturally occurring promoter nucleotide sequence disclosed herein; by synthesizing a nucleotide sequence from the naturally occurring sequence of the promoter DNA sequence; or may be obtained through the use of PCR technology. See particularly, Mullis et al. (1987)Methods Enzymol. 155:335-350, and Erlich, ed. (1989) PCR Technology (Stockton Press, New York). Variants of these promoter fragments, such as those resulting from site-directed mutagenesis, are also encompassed by the compositions of the present invention.
- With respect to the antipathogenic nucleotide sequences, fragments of a nucleotide sequence may encode protein fragments that retain the biological activity of the native proteins, i.e., the sequences set forth in
SEQ IDS 1,2, and 3, and hence enhance disease resistance when expressed in a plant. Alternatively, fragments of a coding nucleotide sequence that is useful as hybridization probes generally do not encode fragment proteins retaining biological activity. Thus, fragments of a nucleotide sequence may range from at least about 20 nucleotides, about 50 nucleotides, about 100 nucleotides, and up to the entire nucleotide sequence encoding the proteins of the invention. - A fragment of an antipathogenic nucleotide sequence that encodes a biologically active portion of a protein of the invention will encode at least 15, 25, 30, 40, 50, 75, 100, or 150 contiguous amino acids, or up to the total number of amino acids present in a full-length protein of the invention. Fragments of a nucleotide sequence of the invention that are useful as hybridization probes for PCR primers generally need not encode a biologically active portion of a protein.
- A biologically active portion of a protein of the invention can be prepared by isolating a portion of one of the nucleotide sequences of the invention, expressing the encoded portion of the protein (e.g., by recombinant expression in vitro), and assessing the activity of the encoded portion of the protein of interest. Nucleic acid molecules that are fragments of a nucleotide sequence of the invention comprise at least 15, 20, 50, 75, 100, 325, 350, 375, 400, 425, 450, 500, 550, 600, 650, 700, or 800 nucleotides, or up to the number of nucleotides present in a full-length sunflower homologue nucleotide sequence disclosed herein.
- By “variants” is intended substantially similar sequences. For nucleotide sequences, conservative variants include those sequences that, because of the degeneracy of the genetic code, encode the amino acid sequence of one of the antipathogenic polypeptides of the invention. Naturally occurring allelic variants such as these can be identified with the use of well-known molecular biology techniques, as, for example, with polymerase chain reaction (PCR) and hybridization techniques as outlined below. Variant nucleotide sequences also include synthetically derived nucleotide sequences, such as those generated, for example, by using site-directed mutagenesis but which still encode an antipathogenic protein of the invention. Generally, variants of a particular nucleotide sequence of the invention will have at least 40%, 50%, 60%, 70%, generally at least 75%, 80%, 85%, 87%, preferably about 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, and more preferably about 98%, 99% or more sequence identity to that particular nucleotide sequence as determined by sequence alignment programs described elsewhere herein using default parameters.
- By “variant” protein is intended a protein derived from the native protein by deletion (so-called truncation) or addition of one or more amino acids to the N-terminal and/or C-terminal end of the native protein; deletion or addition of one or more amino acids at one or more sites in the native protein; or substitution of one or more amino acids at one or more sites in the native protein. Variant proteins encompassed by the present invention are biologically active, that is they continue to possess the desired biological activity of the native protein, that is, the defense activation activity as described herein. Such variants may result from, for example, genetic polymorphism or from human manipulation. Biologically active variants of a native antipathogenic protein of the invention will have at least 40%, 50%, 60%, 70%, generally at least 75%, 80%, 85%, preferably about 90% to 95% or more, and more preferably about 98% or more sequence identity to the amino acid sequence for the native protein as determined by sequence alignment programs described elsewhere herein using default parameters. A biologically active variant of a protein of the invention may differ from that protein by as few as 1-15 amino acid residues, as few as 1-10, such as 6-10, as few as 5, as few as 4, 3, 2, or even 1 amino acid residue.
- The proteins of the invention may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art. For example, amino acid sequence variants of the antipathogenic proteins can be prepared by mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations are well known in the art. See, for example, Kunkel (1985)Proc. Natl. Acad. Sci. USA 82:488-492; Kunkel et al. (1987) Methods in Enzymol. 154:367-382; U.S. Pat. No. 4,873,192; Walker and Gaastra (eds.) Techniques in Molecular Biology, MacMillan Publishing Company, NY (1983) and the references cited therein.
- Thus, the promoters and gene nucleotide sequences of the invention include both the naturally occurring sequences as well as mutant forms. Likewise, the proteins of the invention encompass both naturally occurring proteins as well as variations and modified forms thereof. Such variants will continue to possess the desired promoter activity or antipathogenic defense protein activity. Obviously, the mutations that will be made in the DNA encoding a variant protein must not place the sequence out of reading frame and preferably will not create complementary regions that could produce secondary mRNA structure. See, for example, EP Patent Application Publication No. 75,444.
- In this manner, the present invention encompasses the antipathogenic proteins as well as components and fragments thereof. That is, it is recognized that component polypeptides or fragments of the proteins may be produced which retain antipathogenic protein activity that enhances disease resistance in a plant. These fragments include truncated sequences, as well as N-terminal, C-terminal, internal and internally deleted amino acid sequences of the proteins.
- The deletions, insertions, and substitutions of the protein sequences encompassed herein are not expected to produce radical changes in the characteristics of the antipathogenic proteins. However, when it is difficult to predict the exact effect of the substitution, deletion, or insertion in advance of doing so, one skilled in the art will appreciate that the effect will be evaluated by routine screening assays. That is, the activity of the modified protein sequences can be evaluated by monitoring of the plant defense system. See, for example U.S. Pat. No. 5,614,395, herein incorporated by reference.
- The nucleotide sequences of the invention can be used to isolate corresponding sequences from other organisms, particularly other plants, more particularly other monocots. In this manner, methods such as PCR, hybridization, and the like can be used to identify such sequences based on their sequence homology to the sequences set forth herein. Sequences isolated based on their sequence identity to the entire antipathogenic sequences set forth herein or to fragments thereof are encompassed by the present invention.
- In a PCR approach, oligonucleotide primers can be designed for use in PCR reactions to amplify corresponding DNA sequences from cDNA or genomic DNA extracted from any plant of interest. Methods for designing PCR primers and PCR cloning are generally known in the art and are disclosed in Sambrook et al. (1989)Molecular Cloning. A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.). See also Innis et al., eds. (1990) PCR Protocols: A Guide to Methods and Applications (Academic Press, New York); Innis and Gelfand, eds. (1995) PCR Strategies (Academic Press, New York); and Innis and Gelfand, eds. (1999) PCR Methods Manual (Academic Press, New York). Known methods of PCR include, but are not limited to, methods using paired primers, nested primers, single specific primers, degenerate primers, gene-specific primers, vector-specific primers, partially-mismatched primers, and the like.
- In hybridization techniques, all or part of a known nucleotide sequence is used as a probe that selectively hybridizes to other corresponding nucleotide sequences present in a population of cloned genomic DNA fragments or cDNA fragments (i.e., genomic or cDNA libraries) from a chosen organism. The hybridization probes may be genomic DNA fragments, cDNA fragments, RNA fragments, or other oligonucleotides, and may be labeled with a detectable group such as32P, or any other detectable marker. Thus, for example, probes for hybridization can be made by labeling synthetic oligonucleotides based on the antipathogenic sequences of the invention. Methods for preparation of probes for hybridization and for construction of cDNA and genomic libraries are generally known in the art and are disclosed in Sambrook et al. (1989) Molecular Cloning: A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.).
- For example, the entire antipathogenic sequence disclosed herein, or one or more portions thereof, may be used as a probe capable of specifically hybridizing to corresponding antipathogenic sequence or messenger RNAs. Additionally, the promoter sequences described herein, or one or more portions thereof, may be used a as a probe capable of hybridizing to corresponding promoter sequences.
- To achieve specific hybridization under a variety of conditions, such probes include sequences that are unique among antipathogenic sequences or promoter sequence and are preferably at least about 10 nucleotides in length, and most preferably at least about 20 nucleotides in length. Such probes may be used to amplify corresponding antipathogenic sequences or promoter sequences from a chosen plant by PCR. This technique may be used to isolate additional coding sequences from a desired plant or as a diagnostic assay to determine the presence of coding sequences in a plant. Hybridization techniques include hybridization screening of plated DNA libraries (either plaques or colonies; see, for example, Sambrook et al. (1989)Molecular Cloning: A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.).
- Hybridization of such sequences may be carried out under stringent conditions. By “stringent conditions” or “stringent hybridization conditions” is intended conditions under which a probe will hybridize to its target sequence to a detectably greater degree than to other sequences (e.g., at least 2-fold over background). Stringent conditions are sequence-dependent and will be different in different circumstances. By controlling the stringency of the hybridization and/or washing conditions, target sequences that are 100% complementary to the probe can be identified (homologous probing). Alternatively, stringency conditions can be adjusted to allow some mismatching in sequences so that lower degrees of similarity are detected (heterologous probing). Generally, a probe is less than about 1000 nucleotides in length, preferably less than 500 nucleotides in length.
- Typically, stringent conditions will be those in which the salt concentration is less than about 1.5 M Na ion, typically about 0.01 to 1.0 M Na ion concentration (or other salts) at pH 7.0 to 8.3 and the temperature is at least about 30° C. for short probes (e.g., 10 to 50 nucleotides) and at least about 60° C. for long probes (e.g., greater than 50 nucleotides). Stringent conditions may also be achieved with the addition of destabilizing agents such as formamide. Exemplary low stringency conditions include hybridization with a buffer solution of 30 to 35% formamide, 1 M NaCl, 1% SDS (sodium dodecyl sulphate) at 37° C., and a wash in 1× to 2×SSC (20×SSC=3.0 M NaCl/0.3 M trisodium citrate) at 50 to 55° C. Exemplary moderate stringency conditions include hybridization in 40 to 45% formamide, 1.0 M NaCl, 1% SDS at 37° C., and a wash in 0.5× to 1×SSC at 55 to 60° C. Exemplary high stringency conditions include hybridization in 50% formamide, 1 M NaCl, 1% SDS at 37° C., and a wash in 0.1×SSC at 60 to 65° C. Duration of hybridization is generally less than about 24 hours, usually about 4 to about 12 hours.
- Specificity is typically the function of post-hybridization washes, the critical factors being the ionic strength and temperature of the final wash solution. For DNA-DNA hybrids, the Tm can be approximated from the equation of Meinkoth and Wahl (1984) Anal. Biochem. 138:267-284: Tm=81.5° C.+16.6 (log M)+0.41 (% GC)−0.61 (% form)−500/L; where M is the molarity of monovalent cations, % GC is the percentage of guanosine and cytosine nucleotides in the DNA, % form is the percentage of formamide in the hybridization solution, and L is the length of the hybrid in base pairs. The Tm is the temperature (under defined ionic strength and pH) at which 50% of a complementary target sequence hybridizes to a perfectly matched probe. Tm is reduced by about 1° C. for each 1% of mismatching; thus, Tm, hybridization, and/or wash conditions can be adjusted to hybridize to sequences of the desired identity. For example, if sequences with ≧90% identity are sought, the Tm can be decreased 10° C. Generally, stringent conditions are selected to be about 5° C. lower than the thermal melting point (Tm) for the specific sequence and its complement at a defined ionic strength and pH. However, severely stringent conditions can utilize a hybridization and/or wash at 1, 2, 3, or 4° C. lower than the thermal melting point (Tm); moderately stringent conditions can utilize a hybridization and/or wash at 6, 7, 8, 9, or 10° C. lower than the thermal melting point (Tm); low stringency conditions can utilize a hybridization and/or wash at 11, 12, 13, 14, 15, or 20° C. lower than the thermal melting point (Tm). Using the equation, hybridization and wash compositions, and desired Tm, those of ordinary skill will understand that variations in the stringency of hybridization and/or wash solutions are inherently described. If the desired degree of mismatching results in a Tm of less than 45° C. (aqueous solution) or 32° C. (formamide solution), it is preferred to increase the SSC concentration so that a higher temperature can be used. An extensive guide to the hybridization of nucleic acids is found in Tijssen (1993) Laboratory Techniques in Biochemistry and Molecular Biology—Hybridization with Nucleic Acid Probes, Part I, Chapter 2 (Elsevier, N.Y.); and Ausubel et al., eds. (1995) Current Protocols in Molecular Biology, Chapter 2 (Greene Publishing and Wiley-Interscience, New York). See Sambrook et al. (1989) Molecular Cloning: A Laboratory Manual (2d ed., Cold Spring Harbor Laboratory Press, Plainview, N.Y.).
- Thus, isolated sequences that either have promoter activity or encode for a antipathogenic protein and which hybridize under stringent conditions to the sequences disclosed herein, or to fragments thereof, are encompassed by the present invention. Such sequences will be at least 40% to 50% homologous, about 60% to 70% homologous, and even about 75%, 80%, 85%, 87%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97% to 98% homologous or more with the disclosed sequences. That is, the sequence identity of sequences may range, sharing at least 40% to 50%, about 60% to 70%, and even about 75%, 80%, 85%, 87%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97% to 98% or more sequence identity.
- The following terms are used to describe the sequence relationships between two or more nucleic acids or polynucleotides: (a) “reference sequence”, (b) “comparison window”, (c) “sequence identity”, (d) “percentage of sequence identity”, and (e) “substantial identity”.
- (a) As used herein, “reference sequence” is a defined sequence used as a basis for sequence comparison. A reference sequence may be a subset or the entirety of a specified sequence; for example, as a segment of a full-length cDNA or gene sequence, or the complete cDNA or gene sequence.
- (b) As used herein, “comparison window” makes reference to a contiguous and specified segment of a polynucleotide sequence, wherein the polynucleotide sequence in the comparison window may comprise additions or deletions (i.e., gaps) compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences. Generally, the comparison window is at least 20 contiguous nucleotides in length, and optionally can be 30, 40, 50, 100, or longer. Those of skill in the art understand that to avoid a high similarity to a reference sequence due to inclusion of gaps in the polynucleotide sequence a gap penalty is typically introduced and is subtracted from the number of matches.
- Methods of alignment of sequences for comparison are well known in the art. Thus, the determination of percent sequence identity between any two sequences can be accomplished using a mathematical algorithm. Preferred, non-limiting examples of such mathematical algorithms are the algorithm of Myers and Miller (1988)CABIOS 4:11-17; the local homology algorithm of Smith et al. (1981) Adv. Appl. Math. 2:482; the homology alignment algorithm of Needleman and Wunsch (1970) J. Mol. Biol. 48:443-453; the search-for-similarity-method of Pearson and Lipman (1988) Proc. Natl. Acad. Sci. 85:2444-2448; the algorithm of Karlin and Altschul (1990) Proc. Natl. Acad. Sci. USA 872264, modified as in Karlin and Altschul (1993) Proc. Natl. Acad. Sci. USA 90:5873-5877.
- Computer implementations of these mathematical algorithms can be utilized for comparison of sequences to determine sequence identity. Such implementations include, but are not limited to: CLUSTAL in the PC/Gene program (available from Intelligenetics, Mountain View, Calif.); the ALIGN program (Version 2.0) and GAP, BESTFIT, BLAST, FASTA, and TFASTA in the Wisconsin Genetics Software Package, Version 8 (available from Genetics Computer Group (GCG), 575 Science Drive, Madison, Wis., USA). Alignments using these programs can be performed using the default parameters. The CLUSTAL program is well described by Higgins et al. (1988)Gene 73:237-244 (1988); Higgins et al. (1989) CABIOS 5:151-153; Corpet et al. (1988) Nucleic Acids Res. 16:10881-90; Huang et al. (1992) CABIOS 8:155-65; and Pearson et al. (1994) Meth. Mol. Biol. 24:307-331. The ALIGN program is based on the algorithm of Myers and Miller (1988) supra. A PAM120 weight residue table, a gap length penalty of 12, and a gap penalty of 4 can be used with the ALIGN program when comparing amino acid sequences. The BLAST programs of Altschul et al (1990) J. Mol. Biol. 215:403 are based on the algorithm of Karlin and Altschul (1990) supra. BLAST nucleotide searches can be performed with the BLASTN program, score=100, wordlength=12, to obtain nucleotide sequences homologous to a nucleotide sequence encoding a protein of the invention. BLAST protein searches can be performed with the BLASTX program, score=50, wordlength=3, to obtain amino acid sequences homologous to a protein or polypeptide of the invention. To obtain gapped alignments for comparison purposes, Gapped BLAST (in BLAST 2.0) can be utilized as described in Altschul et al. (1997) Nucleic Acids Res. 25:3389. Alternatively, PSI-BLAST (in BLAST 2.0) can be used to perform an iterated search that detects distant relationships between molecules. See Altschul et al. (1997) supra. When utilizing BLAST, Gapped BLAST, PSI-BLAST, the default parameters of the respective programs (e.g., BLASTN for nucleotide sequences, BLASTX for proteins) can be used. See www.ncbi.nlm.nih.gov. Alignment may also be performed manually by inspection.
- For purposes of the present invention, comparison of nucleotide or protein sequences for determination of percent sequence identity to the promoter sequence or the anitpathogenic sequences disclosed herein is preferably made using the Clustal W program (Version 1.7 or later) with its default parameters or any equivalent program. By “equivalent program” is intended any sequence comparison program that, for any two sequences in question, generates an alignment having identical nucleotide or amino acid residue matches and an identical percent sequence identity when compared to the corresponding alignment generated by the preferred program.
- (c) As used herein, “sequence identity” or “identity” in the context of two nucleic acid or polypeptide sequences makes reference to the residues in the two sequences that are the same when aligned for maximum correspondence over a specified comparison window. When percentage of sequence identity is used in reference to proteins it is recognized that residue positions which are not identical often differ by conservative amino acid substitutions, where amino acid residues are substituted for other amino acid residues with similar chemical properties (e.g., charge or hydrophobicity) and therefore do not change the functional properties of the molecule. When sequences differ in conservative substitutions, the percent sequence identity may be adjusted upwards to correct for the conservative nature of the substitution. Sequences that differ by such conservative substitutions are said to have “sequence similarity” or “similarity”. Means for making this adjustment are well known to those of skill in the art. Typically this involves scoring a conservative substitution as a partial rather than a full mismatch, thereby increasing the percentage sequence identity. Thus, for example, where an identical amino acid is given a score of 1 and a non-conservative substitution is given a score of zero, a conservative substitution is given a score between zero and 1. The scoring of conservative substitutions is calculated, e.g., as implemented in the program PC/GENE (Intelligenetics, Mountain View, Calif.).
- (d) As used herein, “percentage of sequence identity” means the value determined by comparing two optimally aligned sequences over a comparison window, wherein the portion of the polynucleotide sequence in the comparison window may comprise additions or deletions (i.e., gaps) as compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences. The percentage is calculated by determining the number of positions at which the identical nucleic acid base or amino acid residue occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the window of comparison, and multiplying the result by 100 to yield the percentage of sequence identity.
- (e)(i) The term “substantial identity” of polynucleotide sequences means that a polynucleotide comprises a sequence that has at least 70% sequence identity, preferably at least 80%, more preferably at least 90%, and most preferably at least 95%, compared to a reference sequence using one of the alignment programs described using standard parameters. One of skill in the art will recognize that these values can be appropriately adjusted to determine corresponding identity of proteins encoded by two nucleotide sequences by taking into account codon degeneracy, amino acid similarity, reading frame positioning, and the like. Substantial identity of amino acid sequences for these purposes normally means sequence identity of at least 60%, more preferably at least 70%, 80%, 90%, and most preferably at least 95%.
- Another indication that nucleotide sequences are substantially identical is if two molecules hybridize to each other under stringent conditions. Generally, stringent conditions are selected to be about 5° C. lower than the thermal melting point (Tm) for the specific sequence at a defined ionic strength and pH. However, stringent conditions encompass temperatures in the range of about 1° C. to about 20° C. lower than the Tm, depending upon the desired degree of stringency as otherwise qualified herein. Nucleic acids that do not hybridize to each other under stringent conditions are still substantially identical if the polypeptides they encode are substantially identical. This may occur, e.g., when a copy of a nucleic acid is created using the maximum codon degeneracy permitted by the genetic code. One indication that two nucleic acid sequences are substantially identical is when the polypeptide encoded by the first nucleic acid is immunologically cross reactive with the polypeptide encoded by the second nucleic acid.
- (e)(ii) The term “substantial identity” in the context of a peptide indicates that a peptide comprises a sequence with at least 70% sequence identity to a reference sequence, preferably 80%, more preferably 85%, most preferably at least 90% or 95% sequence identity to the reference sequence over a specified comparison window. Preferably, optimal alignment is conducted using the homology alignment algorithm of Needleman and Wunsch (1970)J. Mol. Biol. 48:443-453. An indication that two peptide sequences are substantially identical is that one peptide is immunologically reactive with antibodies raised against the second peptide. Thus, a peptide is substantially identical to a second peptide, for example, where the two peptides differ only by a conservative substitution. Peptides that are “substantially similar” share sequences as noted above except that residue positions that are not identical may differ by conservative amino acid changes.
- The anti-pathogenic genes and proteins as well as the anti-pathogenic homologue genes and proteins of the invention can also be used to control resistance to pathogens by enhancing the defense mechanisms in a plant. While the exact function of the anti-pathogenic homologues is not known, they are involved in influencing the expression of defense-related proteins. It is recognized that the present invention is not premised upon any particular mechanism of action of the anti-pathogenic genes. It is sufficient for purposes of the invention that the genes and proteins are involved in the plant defense system and can be used to increase resistance levels in the plant to pathogens.
- The plant defense mechanisms described herein may be used alone or in combination with other proteins or agents to protect against plant diseases and pathogens. Other plant defense proteins include those described in copending applications entitled “Methods for Enhancing Disease Resistance in Plants”, U.S. Application Serial No. 60/076,151, filed Feb. 26, 1998, and U.S. Application Serial No. 60/092,464, filed Jul. 11, 1998, and copending application entitled “Genes for Activation of Plant Pathogen Defense Systems”, U.S. Application Serial No. 60/076,083, filed Feb. 26, 1998, all of which are herein incorporated by reference.
- The nucleotide sequences of the invention can be introduced into any plant. The genes to be introduced can be conveniently used in expression cassettes for introduction and expression in any plant of interest.
- Such expression cassettes will comprise a transcriptional initiation region linked to the nucleotide sequence of interest. Such an expression cassette is provided with a plurality of restriction sites for insertion of the gene of interest to be under the transcriptional regulation of the regulatory regions. The expression cassette may additionally contain selectable marker genes.
- The transcriptional initiation region, the promoter, may be native or analogous or foreign or heterologous to the plant host. Additionally, the promoter may be the natural sequence or alternatively a synthetic sequence. By foreign is intended that the transcriptional initiation region is not found in the native plant into which the transcriptional initiation region is introduced. As used herein a chimeric gene comprises a coding sequence operably linked to a transcription initiation region that is heterologous to the coding sequence.
- The transcriptional cassette will include in the 5′-3′ direction of transcription, a transcriptional and translational initiation region, a DNA sequence of interest, and a transcriptional and translational termination region functional in plants. The termination region may be native with the transcriptional initiation region, may be native with the DNA sequence of interest, or may be derived from another source. Convenient termination regions are available from the Ti-plasmid ofA. tumefaciens, such as the octopine synthase and nopaline synthase termination regions. See also, Guerineau et al. (1991) Mol. Gen. Genet. 262:141-144; Proudfoot (1991) Cell 64:671-674; Sanfacon et al. (1991) Genes Dev. 5:141-149; Mogen et al. (1990) Plant Cell 2:1261-1272; Munroe et al. (1990) Gene 91:151-158; Ballas et al. 1989) Nuc. Acids Res. 17:7891-7903; Joshi et al. (1987) Nuc. Acid Res. 15:9627-9639.
- A number of promoters can be used in the practice of the invention. An inducible promoter can be used to drive the expression of the genes of the invention. The inducible promoter will be expressed in the presence of a pathogen to prevent infection and disease symptoms. Such promoters include those from pathogenesis-related proteins (PR proteins), which are induced following infection by a pathogen; e.g., PR proteins, SAR proteins, beta-1,3-glucanase, chitinase, etc. See, for example, Redolfi et al. (1983)Meth. J. Plant Pathol. 89:245-254; Uknes et al. (1992) Plant Cell 4:645-656; and Van Loon (1985) Plant Mol. Virol. 4:111-116. See, also the copending applications entitled “Inducible Maize Promoters”, U.S. Application Serial No. 60/076,100, filed Feb. 26, 1998 and U.S. Application Serial No. 60/079,648, filed Feb. 27, 1998, and herein incorporated by reference.
- Of interest are promoters that are expressed locally at or near the site of pathogen infection. See, for example, Marineau et al. (1987)Plant Mol. Biol. 1:335-342; Matton et al. (1989) Molecular Plant-Microbe Interactions 2:325-331; Somsisch et al. (1986) Proc. Natl. Acad. Sci. USA 83:2427-2430; Somsisch et al. (1988) Molecular and General Genetics 2:93-98; and Yang (1996) Proc. Natl. Acad. Sci. USA 93:14972-14977. See also, Chen et al. (1996) Plant J. 10:955-966; Zhang et al. (1994) Proc. Natl. Acad. Sci. USA 91:2507-2511; Warner et al. (1993) Plant J. 3:191-201; Siebertz et al. (1989) Plant Cell 1:961-968; and the references cited therein. Of particular interest is the inducible promoter for the maize PRms gene, whose expression is induced by the pathogen Fusarium moniliforme (see, for example, Cordero et al. (1992) Physiol. Mol. Plant Path. 41:189-200).
- Additionally, as pathogens find entry into plants through wounds or insect damage, a wound inducible promoter may be used in the constructions of the invention. Such wound inducible promoters include potato proteinase inhibitor (pin II) gene (Ryan et al.Ann. Rev. Phytopath. 28:425-449; Duan et al. Nature Biotechnology 14:494-498); wun1 and wun2, U.S. Pat. No. 5,428,148; win1 and win2 (Stanford et al. Mol. Gen Genet 215:200-208); systemin (McGurl et al. Science 225:1570-1573); WIPI (Rohmeier et al. Plant Mol. Biol. 22:783-792; Eckelkamp et al. FEBS Letters 323:73-76); MPI gene (Corderok et al. Plant Journal 6(2):141-150); and the like, herein incorporated by reference.
- Constitutive promoters include, for example, the Rsyn7 (copending U.S. application Ser. No. 08/661,601), the scp1 promoter (copending U.S. application Ser. No. 09/028,819), the ucp promoter, 35S CaMV promoter, and the like. Other constitutive promoters include, for example, U.S. Pat. Nos. 5,608,149; 5,608,144; 5,604,121; 5,569,597; 5,466,785; 5,399,680; 5,268,463; 5,608,142. See also, copending application entitled “Constitutive Maize Promoters”, U.S. Application Serial No. 60/076,075, filed Feb. 26, 1998, and herein incorporated by reference.
- Tissue-preferred promoters include Yamamoto et al. (1997)Plant J. 12(2):255-265; Kawamata et al. (1997) Plant Cell Physiol. 38(7):792-803; Hansen et al. (1997) Mol Gen Genet. 254(3):337-343; Russell et al. (1997) Transgenic Res. 6(2):157-168; Rinehart et al. (1996) Plant Physiol. 112(3):1331-1341; Van Camp et al. (1996) Plant Physiol. 112(2):525-535; Canevascini et al. (1996) Plant Physiol. 112(2):513-524; Yamamoto et al. (1994) Plant Cell Physiol. 35(5):773-778; Lam (1994) Results Probl. Cell Differ. 20:181-196; Orozco et al. (1993) Plant Mol. Biol. 23(6):1129-1138; Matsuoka et al. (1993) Proc Natl. Acad. Sci. USA 90(20):9586-9590; and Guevara-Garcia et al. (1993) Plant J. 4(3):495-505.
- The nucleotide sequences for the constitutive promoters disclosed in the present invention, as well as variants and fragments thereof, are useful in the genetic manipulation of any plant when assembled within a DNA construct such that the promoter sequence is operably linked with a heterologous nucleotide sequence whose constitutive expression is to be controlled to achieve a desired phenotypic response. By “operably linked” is intended the transcription or translation of the heterologous nucleotide sequence is under the influence of the promoter sequence. In this manner, the nucleotide sequences for the promoters of the invention are provided in expression cassettes along with heterologous nucleotide sequences for expression in the plant of interest. It is recognized that the promoter sequences of the invention may also be used with their native coding sequences to increase or decrease expression of the native coding sequence, thereby resulting in a change in phenotype in the transformed plant.
- The promoter nucleotide sequences and methods disclosed herein are useful in regulating expression of any heterologous nucleotide sequence in a host plant in order to vary the phenotype of a plant. Various changes in phenotype are of interest including modifying the fatty acid composition in a plant, altering the amino acid content of a plant, altering a plant's pathogen defense mechanism, and the like. These results can be achieved by providing expression of heterologous products or increased expression of endogenous products in plants. Alternatively, the results can be achieved by providing for a reduction of expression of one or more endogenous products, particularly enzymes or cofactors in the plant. These changes result in a change in phenotype of the transformed plant.
- Genes of interest are reflective of the commercial markets and interests of those involved in the development of the crop. Crops and markets of interest change, and as developing nations open up world markets, new crops and technologies will emerge also. In addition, as our understanding of agronomic traits and characteristics such as yield and heterosis increase, the choice of genes for transformation will change accordingly. General categories of genes of interest include for example, those genes involved in information, such as zinc fingers, those involved in communication, such as kinases, and those involved in housekeeping, such as heat shock proteins. More specific categories of transgenes, for example, include genes encoding important traits for agronomics, insect resistance, disease resistance, herbicide resistance, sterility, grain characteristics, and commercial products. Genes of interest include, generally, those involved in oil, starch, carbohydrate, or nutrient metabolism as well as those affecting kernel size, sucrose loading, and the like.
- Agronomically important traits such as oil, starch, and protein content can be genetically altered in addition to using traditional breeding methods. Modifications include increasing content of oleic acid, saturated and unsaturated oils, increasing levels of lysine and sulfur, providing essential amino acids, and also modification of starch. Hordothionin protein modifications are described in U.S. Pat. Nos. 5,703,049, 5,885,801, 5,885,802, and 5,990,389; herein incorporated by reference. Another example is lysine and/or sulfur rich seed protein encoded by the soybean 2S albumin described in U.S. Ser. No. 08/618,911, filed Mar. 20, 1996, and the chymotrypsin inhibitor from barley, Williamson et al. (1987)Eur. J. Biochem. 165:99-106, the disclosures of which are herein incorporated by reference.
- Derivatives of the coding sequences can be made by site directed mutagenesis to increase the level of preselected amino acids in the encoded polypeptide. For example, the gene encoding the barley high lysine polypeptide (BHL) is derived from barley chymotrypsin inhibitor, U.S. Ser. No. 08/740,682, filed Nov. 1, 1996, and PCT/US97/20441, filed Oct. 31, 1997, the disclosures of each are incorporated herein by reference. Other proteins include methionine-rich plant proteins such as from sunflower seed (Lilley et al. (1989)Proceedings of the World Congress on Vegetable Protein Utilization in Human Foods and Animal Feedstuffs, ed. Applewhite (American Oil Chemists Society, Champaign, Ill.), pp. 497-502; herein incorporated by reference)); corn (Pedersen et al. (1986) J. Biol. Chem. 261:6279; Kirihara et al. (1988) Gene 71:359; both of which are herein incorporated by reference); and rice (Musumura et al. (1989) Plant Mol. Biol. 12:123, herein incorporated by reference). Other agronomically important genes encode latex, Floury 2, growth factors, seed storage factors, and transcription factors.
- Insect resistance genes may encode resistance to pests that have great yield drag such as rootworm, cutworm, European Corn Borer, and the like. Such genes include, for exampleBacillus thuringiensis toxic protein genes (U.S. Pat. Nos. 5,366,892; 5,747,450; 5,736,514; 5,723,756; 5,593,881; Geiser et al. (1986) Gene 48:109); lectins (Van Damme et al. (1994) Plant Mol. Biol. 24:825); and the like.
- Genes encoding disease resistance traits include detoxification genes, such as against fumonosin (U.S. patent application Ser. No. 08/484,815, filed Jun. 7, 1995); avirulence (avr) and disease resistance (R) genes (Jones et al. (1994) Science 266:789; Martin et al. (1993) Science 262:1432; Mindrinos et al. (1994) Cell 78:1089); and the like.
- Herbicide resistance traits may include genes coding for resistance to herbicides that act to inhibit the action of acetolactate synthase (ALS), in particular the sulfonylurea-type herbicides (e.g., the acetolactate synthase (ALS) gene containing mutations leading to such resistance, in particular the S4 and/or Hra mutations), genes coding for resistance to herbicides that act to inhibit action of glutamine synthase, such as phosphinothricin or basta (e.g., the bar gene), or other such genes known in the art. The bar gene encodes resistance to the herbicide basta, the nptII gene encodes resistance to the antibiotics kanamycin and geneticin, and the ALS gene encodes resistance to the herbicide chlorsulfuron.
- Sterility genes can also be encoded in an expression cassette and provide an alternative to physical detasseling. Examples of genes used in such ways include male tissue-preferred genes and genes with male sterility phenotypes such as QM, described in U.S. Pat. No. 5,583,210. Other genes include kinases and those encoding compounds toxic to either male or female gametophytic development.
- The quality of grain is reflected in traits such as levels and types of oils, saturated and unsaturated, quality and quantity of essential amino acids, and levels of cellulose. In corn, modified hordothionin proteins, described in U.S. Pat. Nos. 5,703,049, 5,885,801, 5,885,802, and 5,990,389, provide descriptions of modifications of proteins for desired purposes.
- Commercial traits can also be encoded on a gene or genes that could increase for example, starch for ethanol production, or provide expression of proteins. Another important commercial use of transformed plants is the production of polymers and bioplastics such as described in U.S. Pat. No. 5,602,321 issued Feb. 11, 1997. Genes such as B-Ketothiolase, PHBase (polyhydroxyburyrate synthase) and acetoacetyl-CoA reductase (see Schubert et al. (1988)J. Bacteriol. 170:5837-5847) facilitate expression of polyhyroxyalkanoates (PHAs).
- Exogenous products include plant enzymes and products as well as those from other sources including procaryotes and other eucaryotes. Such products include enzymes, cofactors, hormones, and the like. The level of proteins, particularly modified proteins having improved amino acid distribution to improve the nutrient value of the plant, can be increased. This is achieved by the expression of such proteins having enhanced amino acid content.
- Thus, the heterologous nucleotide sequence operably linked to one of the constitutive promoters disclosed herein may be a structural gene encoding a protein of interest. Examples of such heterologous genes include, but are not limited to, genes encoding proteins conferring resistance to abiotic stress, such as drought, temperature, salinity, and toxins such as pesticides and herbicides, or to biotic stress, such as attacks by fungi, viruses, bacteria, insects, and nematodes, and development of diseases associated with these organisms. More particularly, the constitutive promoters disclosed herein and identified as weak constitutive promoters are useful in transforming plants to constitutively express an avirulence gene as disclosed in the copending applications both entitled “Methods for Enhancing Disease Resistance in Plants,” U.S. Application Serial No. 60/075,151, filed Feb. 26, 1998, and U.S. Application Serial No. 60/092,464, filed Jul. 11, 1998, both of which are herein incorporated by reference. Such weak promoters may cause activation of the plant defense system short of hypersensitive cell death. Thus, there is an activation of the plant defense system at levels sufficient to protect from pathogen invasion. In this state, there is at least a partial activation of the plant defense system wherein the plant produces increased levels of antipathogenic factors such as PR proteins, i.e., PR-1, cattiness, a-glucanases, etc.; secondary metabolites; phytoalexins; reactive oxygen species; and the like.
- Alternatively, the heterologous nucleotide sequence operably linked to one of the constitutive promoters disclosed herein may be an antisense sequence for a targeted gene. By “antisense DNA nucleotide sequence” is intended a sequence that is in inverse orientation to the 5′ to 3′ normal orientation of that nucleotide sequence. When delivered into a plant cell, expression of the antisense DNA sequence prevents normal expression of the DNA nucleotide sequence for the targeted gene. The antisense nucleotide sequence encodes an RNA transcript that is complementary to and capable of hybridizing to the endogenous messenger RNA (mRNA) produced by transcription of the DNA nucleotide sequence for the targeted gene. In this case, production of the native protein encoded by the targeted gene is inhibited to achieve a desired phenotypic response. Thus the promoter sequences disclosed herein may be operably linked to antisense DNA sequences to reduce or inhibit expression of a native protein in the plant.
- The genes and promoters of the invention are provided in expression cassettes for expression in the plant of interest. The cassette will include 5′ and 3′ regulatory sequences operably linked to the gene of interest. The cassette may additionally contain at least one additional gene to be cotransformed into the organism. Alternatively, the additional gene(s) can be provided on another expression cassette. Where appropriate, the gene(s) may be optimized for increased expression in the transformed plant. That is, the genes can be synthesized using plant preferred codons for improved expression. Methods are available in the art for synthesizing plant preferred genes. See, for example, U.S. Pat. Nos. 5,380,831, 5,436,391, and Murray et al. (1989)Nuc. Acids Res. 17:477-498, herein incorporated by reference.
- Additional sequence modifications are known to enhance gene expression in a cellular host. These include elimination of sequences encoding spurious polyadenylation signals, exon-intron splice site signals, transposon-like repeats, and other such well-characterized sequences, which may be deleterious to gene expression. The G-C content of the sequence may be adjusted to levels average for a given cellular host, as calculated by reference to known genes expressed in the host cell. When possible, the sequence is modified to avoid predicted hairpin secondary mRNA structures.
- The expression cassettes may additionally contain 5′ leader sequences in the expression cassette construct. Such leader sequences can act to enhance translation. Translation leaders are known in the art and include: picornavirus leaders, for example, EMCV leader (Encephalomyocarditis 5′ noncoding region) (Elroy-Stein et al. (1989)PNAS USA 86:6126-6130); potyvirus leaders, for example, TEV leader (Tobacco Etch Virus) (Allison et al. (1986); MDMV leader (Maize Dwarf Mosaic Virus); Virology 154:9-20), and human immunoglobulin heavy-chain binding protein (BiP), (Macejak et al. (1991) Nature 353:90-94; untranslated leader from the coat protein mRNA of alfalfa mosaic virus (AMV RNA 4), (Jobling et al. (1987) Nature 325:622-625; tobacco mosaic virus leader (TMV), (Gallie, D. R. (1989) Molecular Biology of RNA 237-256; and maize chlorotic mottle virus leader (MCMV) (Lommel et al. (1991) Virology 81:382-385). See also, Della-Cioppa et al. (1987) Plant Physiology 84:965-968. Other methods known to enhance translation can also be utilized, for example, introns, and the like.
- In preparing the expression cassette, the various DNA fragments may be manipulated, so as to provide for the DNA sequences in the proper orientation and, as appropriate, in the proper reading frame. Towards this end, adapters or linkers may be employed to join the DNA fragments or other manipulations may be involved to provide for convenient restriction sites, removal of superfluous DNA, removal of restriction sites, or the like. For this purpose, in vitro mutagenesis, primer repair, restriction, annealing, resubstitutions, e.g. transitions and transversions, may be involved.
- The genes of the present invention can be used to transform any plant. In this manner, genetically modified plants, plant cells, plant tissue, seed, and the like can be obtained. Transformation protocols may vary depending on the type of plant or plant cell, i.e. monocot or dicot, targeted for transformation. Suitable methods of transforming plant cells include microinjection (Crossway et al. (1986)Biotechniques 4:320-334), electroporation (Riggs et al. (1986) Proc. Natl. Acad. Sci. USA 83:5602-5606, Agrobacterium mediated transformation (Hinchee et al. (1988) Biotechnology 6:915-921), direct gene transfer (Paszkowski et al. (1984) EMBO J. 3:2717-2722), and ballistic particle acceleration (see, for example, Sanford et al., U.S. Pat. No. 4,945,050; Tomes et al. Direct DNA Transfer into Intact Plant Cells via Microprojectile Bombardment; In Gamborg and Phillips (Eds.) Plant Cell, Tissue and Organ Culture: Fundamental Methods, Springer-Verlag, Berlin (1995); and McCabe et al. (1988) Biotechnology 6:923-926). Also see, Weissinger et al. (1988) Ann. Rev. Genet. 22:421-477; Sanford et al. (1987) Particulate Science and Technology 5:27-37 (onion); Christou et al. (1988) Plant Physiol. 87:671-674(soybean); McCabe et al. (1988) Bio/Technology 6:923-926 (soybean); Datta et al. (1990) Biotechnology 8:736-740 (rice); Klein et al. (1988) Proc. Natl. Acad. Sci. USA 5:4305-4309 (maize); Klein et al. (1988) Biotechnology 6:559-563 (maize); Tomes et al. Direct DNA Transfer into Intact Plant Cells via Microprojectile Bombardment; In Gamborg and Phillips (eds.) Plant Cell, Tissue and Organ Culture: Fundamental Methods, Springer-Verlag, Berlin (1995) (maize); Klein et al. (1988) Plant Physiol. 91:440-444(maize); Fromm et al. (1990) Biotechnology 8:833-839 (maize); Hooydaas-Van Slogteren et al. (1984) Nature (London) 311:763-764; Bytebier et al. (1987) Proc. Natl. Acad. Sci. USA 84:5345-5349 (Liliaceae); De Wet et al. (1985) In The Experimental Manipulation of Ovule Tissues ed. G. P. Chapman et al., pp. 197-209. Longman, N.Y. (pollen); Kaeppler et al. (1990) Plant Cell Reports 9:415-418; and Kaeppler et al. (1992) Theor. Appl. Genet. 84:560-566 (whisker-mediated transformation); D'Halluin et al. (1992) Plant Cell 4:1495-1505 (electroporation); Li et al. (1993) Plant Cell Reports 12:250-255 and Christou and Ford (1995) Annals of Botany 75:407-413 (rice); Osjoda et al. (1996) Nature Biotechnology 14:745-750 (maize via Agrobacterium tumefaciens); all of which are herein incorporated by reference.
- The cells, which have been transformed, may be grown into plants in accordance with conventional ways. See, for example, McCormick et al. (1986)Plant Cell Reports 5:81-84. These plants may then be grown, and either pollinated with the same transformed strain or different strains, and the resulting hybrid having the desired phenotypic characteristic identified. Two or more generations may be grown to ensure that the subject phenotypic characteristic is stably maintained and inherited and then seeds harvested to ensure the desired phenotype or other property has been achieved.
- The methods of the invention can be used with other methods available in the art for enhancing disease resistance in plants.
- Methods for increasing pathogen resistance in a plant are provided. The methods involve stably transforming a plant with a DNA construct comprising an anti-pathogenic nucleotide sequence of the invention operably linked to promoter that drives expression in a plant. Such methods find use in agriculture particularly in limiting the impact of plant pathogens on crop plants. The anti-pathogenic nucleotide sequences comprise sunflower genes. Particularly, the sunflower genes are selected from the genes encoding PR5, defensin and BBE. While the choice of promoter will depend on the desired timing and location of expression of the anti-pathogenic nucleotide sequences, preferred promoters include constitutive and pathogen-inducible promoters.
- Methods are provided for increasing the resistance of a plant to a pathogen involving stably transforming a plant with a DNA construct comprising a nucleotide sequence of an inducible promoter of an antipathogenic gene of the invention operably linked to a second nucleotide sequence. Preferably, the promoter is selected from the promoters of genes encoding a PR5, a BBE homologue or a defensin. More preferably, the promoter has a nucleotide sequence selected from the sequences set forth in SEQ ID NO:7, SEQ ID NO:8, and SEQ ID NO:9. Although any one of a variety of second nucleotide sequences may be utilized, preferred embodiments of the invention encompass those second nucleotide sequences that, when expressed in a plant, help to increase the resistance of a plant to pathogens. It is recognized that such second nucleotide sequences may be used in either the sense or antisense orientation depending on the desired outcome.
- Antisense nucleotides are constructed to hybridize with the corresponding mRNA. Modifications of the antisense sequences may be made as long as the sequences hybridize to and interfere with expression of the corresponding mRNA. In this manner, antisense constructions having 70%, preferably 80%, more preferably 85% sequence identity to the corresponding antisense sequences may be used. Furthermore, portions of the antisense nucleotides may be used to disrupt the expression of the target gene. Generally, sequences of at least 50 nucleotides, 100 nucleotides, 200 nucleotides, or greater may be used. Examples of such second nucleotide sequences include, but are not limited to, sequences encoding PR1, different members of defensin, or BBE, PR5, antifungal peptides such as tachyplesin, chitinases, glucanase, etc.
- Additionally provided are transformed plants, plant cells, plant tissues and seeds thereof.
- By “pathogenic agent” are intended pathogenic organisms such as fungi, bacteria, viruses, and disease causing microorganisms. Additionally included are nematodes, insects and the like. Pathogens of the invention include, but are not limited to, viruses or viroids, bacteria, insects, nematodes, fungi, and the like. Viruses include tobacco or cucumber mosaic virus, ringspot virus, necrosis virus, maize dwarf mosaic virus, etc.
- Specific fungal and viral pathogens for the major crops include: Soybeans:Phytophthora megasperma fsp. glycinea, Macrophomina phaseolina, Rhizoctonia solani, Sclerotinia sclerotiorum, Fusarium oxysporum, Diaporthe phaseolorum var. sojae (Phomopsis sojae), Diaporthe phaseolorum var. caulivora, Sclerotium roltsii, Cercospora kikuchii, Cercospora sojina, Peronospora manshurica, Colletotrichum dematium (Colletotichum truncatum), Corynespora cassiicola, Septoria glycines, Phyllosticta sojicola, Alternaria alternata, Pseudomonas syringae p.v. glycinea, Xanthomonas campestris p.v. phaseoli, Microsphaera diffusa, Fusarium semitectum, Phialophora gregata, Soybean mosaic virus, Glomerella glycines, Tobacco Ring spot virus, Tobacco Streak virus, Phakopsora pachyrhizi, Pythium aphanidermatum, Pythium ultimum, Pythium debaryanum, Tomato spotted wilt virus, Heterodera glycines Fusarium solani; Canola: Albugo candida, Alternaria brassicae, Leptosphaeria maculans, Rhizoctonia solani, Sclerotinia sclerotiorum, Mycosphaerella brassiccola, Pythium ultimum, Peronospora parasitica, Fusarium roseum, Alternaria alternata; Alfalfa: Clavibater michiganese subsp. insidiosum, Pythium ultimum, Pythium irregulare, Pythium splendens, Pythium debaryanum, Pythium aphanidermatum, Phytophthora megasperma, Peronospora trifoliorum, Phoma medicaginis var. medicaginis, Cercospora medicaginis, Pseudopeziza medicaginis, Leptotrochila medicaginis, Fusar-atrum, Xanthomonas campestris p.v. alfalfae, Aphanomyces euteiches, Stemphylium herbarum, Stemphylium alfalfae; Wheat: Pseudomonas syringae p.v. atrofaciens, Urocystis agropyri, Xanthomonas campestris p.v. translucens, Pseudomonas syringae p.v. syringae, Alternaria alternata, Cladosporium herbarum, Fusarium graminearum, Fusarium avenaceum, Fusarium culmorum, Ustilago tritici, Ascochyta tritici, Cephalosporium gramineum, Collotetrichum graminicola, Erysiphe graminis f.sp. tritici, Puccinia graminis f.sp. tritici, Puccinia recondita f.sp. tritici, Puccinia striiformis, Pyrenophora tritici-repentis, Septoria nodorum, Septoria tritici, Septoria avenae, Pseudocercosporella herpotrichoides, Rhizoctonia solani, Rhizoctonia cerealis, Gaeumannomyces graminis var. tritici, Pythium aphanidermatum, Pythium arrhenomanes, Pythium ultimum, Bipolaris sorokiniana, Barley Yellow Dwarf Virus, Brome Mosaic Virus, Soil Borne Wheat Mosaic Virus, Wheat Streak Mosaic Virus, Wheat Spindle Streak Virus, American Wheat Striate Virus, Claviceps purpurea, Tilletia tritici, Tilletia laevis, Ustilago tritici, Tilletia indica, Rhizoctonia solani, Pythium arrhenomannes, Pythium gramicola, Pythium aphanidermatum, High Plains Virus, European wheat striate virus; Sunflower: Plasmophora halstedii, Sclerotinia sclerotiorum, Aster Yellows, Septoria helianthi, Phomopsis helianthi, Alternaria helianthi, Alternaria zinniae, Botrytis cinerea, Phoma macdonaldii, Macrophomina phaseolina, Erysiphe cichoracearum, Rhizopus oryzae, Rhizopus arrhizus, Rhizopus stolonifer, Puccinia helianthi, Verticillium dahliae, Erwinia carotovorum pv. carotovora, Cephalosporium acremonium, Phytophthora cryptogea, Albugo tragopogonis, Orobanche cumana; Corn: Fusarium moniliforme var. subglutinans, Erwinia stewartii, Fusarium moniliforme, Gibberella zeae (Fusarium graminearum), Stenocarpella maydi (Diplodia maydis), Pythium irregulare, Pythium debaryanum, Pythium graminicola, Pythium splendens, Pythium ultimum, Pythium aphanidermatum, Aspergillus flavus, Bipolaris maydis O, T (Cochliobolus heterostrophus), Helminthosporium carbonum I, II & III (Cochliobolus carbonum), Exserohilum turcicum I, II & III, Helminthosporium pedicellatum, Physoderma maydis, Phyllosticta maydis, Kabatie-maydis, Cercospora sorghi, Ustilago maydis, Puccinia sorghi, Puccinia polysora, Macrophomina phaseolina, Penicillium oxalicum, Nigrospora oryzae, Cladosporium herbarum, Curvularia lunata, Curvularia inaequalis, Curvularia pallescens, Clavibacter michiganense subsp. nebraskense, Trichoderma viride, Maize Dwarf Mosaic Virus A & B, Wheat Streak Mosaic Virus, Maize Chlorotic Dwarf Virus, Claviceps sorghi, Pseudonomas avenae, Erwinia chrysanthemi pv. zea, Erwinia corotovora, Cornstunt spiroplasma, Diplodia macrospora, Sclerophthora macrospora, Peronosclerospora sorghi, Peronosclerospora philippinensis, Peronosclerospora maydis, Peronosclerospora sacchari, Spacelotheca reiliana, Physopella zeae, Cephalosporium maydis, Caphalosporium acremonium, Maize Chlorotic Mottle Virus, High Plains Virus, Maize Mosaic Virus, Maize Rayado Fino Virus, Maize Streak Virus, Maize Stripe Virus, Maize Rough Dwarf Virus; Sorghum: Exserohilum turcicum, Colletotrichum graminicola (Glomerella graminicola), Cercospora sorghi, Gloeocercospora sorghi, Ascochyta sorghina, Pseudomonas syringae p.v. syringae, Xanthomonas campestris p.v. holcicola, Pseudomonas andropogonis, Puccinia purpurea, Macrophomina phaseolina, Perconia circinata, Fusarium moniliforme, Alternaria alternate, Bipolaris sorghicola, Helminthosporium sorghicola, Curvularia lunata, Phoma insidiosa, Pseudomonas avenae (Pseudomonas alboprecipitans), Ramulispora sorghi, Ramulispora sorghicola, Phyllachara sacchari, Sporisorium reilianum (Sphacelotheca reiliana), Sphacelotheca cruenta, Sporisorium sorghi, Sugarcane mosaic H, Maize Dwarf Mosaic Virus A & B, Claviceps sorghi, Rhizoctonia solani, Acremonium strictum, Sclerophthona macrospora, Peronosclerospora sorghi, Peronosclerospora philippinensis, Sclerospora graminicola, Fusarium graminearum, Fusarium oxysporum, Pythium arrhenomanes, Pythium graminicola, etc.
- Nematodes include parasitic nematodes such as root knot, cyst, reniform and lesion nematodes, etc.
- Insect pests include insects selected from the orders Coleoptera, Diptera, Hymenoptera, Lepidoptera, Mallophaga, Homoptera, Hemiptera, Orthoptera, Thysanoptera, Dermaptera, Isoptera, Anoplura, Siphonaptera, Trichoptera, etc., particularly Coleoptera and Lepidoptera. Insect pests of the invention for the major crops include: Maize:Ostrinia nubilalis, European corn borer; Agrotis ipsilon, black cutworm; Helicoverpa zea, corn earworm; Spodoptera frugiperda, fall armyworm; Diatraea grandiosella, southwestern corn borer; Elasmopalpus lignosellus, lesser cornstalk borer; Diatraea saccharalis, surgarcane borer; Diabrotica virgifera, western corn rootworm; Diabrotica longicornis barberi, northern corn rootworm; Diabrotica undecimpunctata howardi, southern corn rootworm; Melanotus spp., wireworms; Cyclocephala borealis, northern masked chafer (white grub); Cyclocephala immaculata, southern masked chafer (white grub); Popillia japonica, Japanese beetle; Chaetocnema pulicaria, corn flea beetle; Sphenophorus maidis, maize billbug; Rhopalosiphum maidis, corn leaf aphid; Anuraphis maidiradicis, corn root aphid; Blissus leucopterus leucopterus, chinch bug; Melanoplus femurrubrum, redlegged grasshopper; Melanoplus sanguinipes, migratory grasshopper; Hylemya platura, seedcorn maggot; Agromyza parvicornis, corn blot leafminer; Anaphothrips obscrurus, grass thrips; Solenopsis milesta, thief ant; Tetranychus urticae, twospotted spider mite; Sorghum: Chilo partellus, sorghum borer; Spodoptera frugiperda, fall armyworm; Helicoverpa zea, corn earworm; Elasmopalpus lignosellus, lesser cornstalk borer; Feltia subterranea, granulate cutworm; Phyllophaga crinita, white grub; Eleodes, Conoderus, and Aeolus spp., wireworms; Oulema melanopus, cereal leaf beetle; Chaetocnema pulicaria, corn flea beetle; Sphenophorus maidis, maize billbug; Rhopalosiphum maidis; corn leaf aphid; Siphaflava, yellow sugarcane aphid; Blissus leucopterus leucopterus, chinch bug; Contarinia sorghicola, sorghum midge; Tetranychus cinnabarinus, carmine spider mite; Tetranychus urticae, twospotted spider mite; Wheat: Pseudaletia unipunctata, army worm; Spodoptera frugiperda, fall armyworm; Elasmopalpus lignosellus, lesser cornstalk borer; Agrotis orthogonia, western cutworm; Elasmopalpus lignosellus, lesser cornstalk borer; Oulema melanopus, cereal leaf beetle; Hypera punctata, clover leaf weevil; Diabrotica undecimpunctata howardi, southern corn rootworm; Russian wheat aphid; Schizaphis graminum, greenbug; Macrosiphum avenae, English grain aphid; Melanoplus femurrubrum, redlegged grasshopper; Melanoplus differentialis, differential grasshopper; Melanoplus sanguinipes, migratory grasshopper; Mayetiola destructor, Hessian fly; Sitodiplosis mosellana, wheat midge; Meromyza americana, wheat stem maggot; Hylemya coarctata, wheat bulb fly; Frankliniella fusca, tobacco thrips; Cephus cinctus, wheat stem sawfly; Aceria tulipae, wheat curl mite; Sunflower: Suleima helianthana, sunflower bud moth; Homoeosoma electellum, sunflower moth; zygogramma exclamationis, sunflower beetle; Bothyrus gibbosus, carrot beetle; Neolasioptera murtfeldtiana, sunflower seed midge; Cotton: Heliothis virescens, cotton budworm; Helicoverpa zea, cotton bollworm; Spodoptera exigua, beet armyworm; Pectinophora gossypiella, pink bollworm; Anthonomus grandis, boll weevil; Aphis gossypii, cotton aphid; Pseudatomoscelis seriatus, cotton fleahopper; Trialeurodes abutilonea, bandedwinged whitefly; Lygus lineolaris, tarnished plant bug; Melanoplus femurrubrum, redlegged grasshopper; Melanoplus differentialis, differential grasshopper; Thrips tabaci, onion thrips; Franklinkiella fusca, tobacco thrips; Tetranychus cinnabarinus, carmine spider mite; Tetranychus urticae, twospotted spider mite; Rice: Diatraea saccharalis, sugarcane borer; Spodoptera frugiperda, fall armyworm; Helicoverpa zea, corn earworm; Colaspis brunnea, grape colaspis; Lissorhoptrus oryzophilus, rice water weevil; Sitophilus oryzae, rice weevil; Nephotettix nigropictus, rice leafhopper; Blissus leucopterus leucopterus, chinch bug; Acrosternum hilare, green stink bug; Soybean: Pseudoplusia includens, soybean looper; Anticarsia gemmatalis, velvetbean caterpillar; Plathypena scabra, green cloverworm; Ostrinia nubilalis, European corn borer; Agrotis ipsilon, black cutworm; Spodoptera exigua, beet armyworm; Heliothis virescens, cotton budworm; Helicoverpa zea, cotton bollworm; Epilachna varivestis, Mexican bean beetle; Myzus persicae, green peach aphid; Empoasca fabae, potato leafhopper; Acrosternum hilare, green stink bug; Melanoplus femurrubrum, redlegged grasshopper; Melanoplus differentialis, differential grasshopper; Hylemya platura, seedcorn maggot; Sericothrips variabilis, soybean thrips; Thrips tabaci, onion thrips; Tetranychus turkestani, strawberry spider mite; Tetranychus urticae, twospotted spider mite; Barley: Ostrinia nubilalis, European corn borer; Agrotis ipsilon, black cutworm; Schizaphis graminum, greenbug; Blissus leucopterus leucopterus, chinch bug; Acrosternum hilare, green stink bug; Euschistus servus, brown stink bug; Delia platura, seedcorn maggot; Mayetiola destructor, Hessian fly; Petrobia latens, brown wheat mite; Oil Seed Rape: Brevicoryne brassicae, cabbage aphid; Phyllotreta cruciferae, Flea beetle; Mamestra configurata, Bertha armyworm; Plutella xylostella, Diamond-back moth; Delia ssp., Root maggots.
- The present invention also provides isolated nucleic acids comprising polynucleotides of sufficient length and complementarity to a gene of the invention to use as probes or amplification primers in the detection, quantitation, or isolation of gene transcripts. For example, isolated nucleic acids of the present invention can be used as probes in detecting deficiencies in the level of mRNA in screenings for desired transgenic plants, for detecting mutations in the gene (e.g., substitutions, deletions, or additions), for monitoring upregulation of expression or changes in enzyme activity in screening assays of compounds, for detection of any number of allelic variants (polymorphisms) of the gene, or for use as molecular markers in plant breeding programs. The isolated nucleic acids of the present invention can also be used for recombinant expression of polypeptides, or for use as immunogens in the preparation and/or screening of antibodies. The isolated nucleic acids of the present invention can also be employed for use in sense or antisense suppression of one or more genes of the invention in a host cell, tissue, or plant. Attachment of chemical agents, which bind, intercalate, cleave and/or crosslink to the isolated nucleic acids of the present invention can also be used to modulate transcription or translation. Further, using a primer specific to an insertion sequence (e.g., transposon) and a primer which specifically hybridizes to an isolated nucleic acid of the present invention, one can use nucleic acid amplification to identity insertion sequence inactivated genes of the invention from a cDNA library prepared from insertion sequence mutagenized plants. Progeny seed from the plants comprising the desired inactivated gene can be grown to a plant to study the phenotypic changes characteristic of that inactivation. See,Tools to Determine the Function of Genes, 1995 Proceedings of the Fiftieth Annual Corn and Sorghum Industry Research Conference, American Seed Trade Association, Washington, D.C., 1995. Additionally, non-translated 5′ or 3′ regions of the polynucleotides of the present invention can be used to modulate turnover of heterologous mRNAs and/or protein synthesis. Further, the codon preference characteristic of the polynucleotides of the present invention can be employed in heterologous sequences, or altered in homologous or heterologous sequences, to modulate translational level and/or rates.
- The present invention provides a method of genotyping a plant comprising a polynucleotide of the present invention. The plant may be a monocot, such as maize or sorghum, or alternatively, a dicot, such as sunflower or soybean. Genotyping provides a means of distinguishing homologues of a chromosome pair and can be used to differentiate segregants in a plant population. Molecular marker methods can be used for phylogenetic studies, characterizing genetic relationships among crop varieties, identifying crosses or somatic hybrids, localizing chromosomal segments affecting monogenic traits, map based cloning, and the study of quantitative inheritance. See, e.g.,Plant Molecular Biology: A Laboratory Manual, Chapter 7, Clark, Ed., Springer-Verlag, Berlin (1997). For molecular marker methods, see generally, The DNA Revolution by Andrew H. Paterson 1996 (Chapter 2) in: Genome Mapping in Plants (ed. Andrew H. Paterson) by Academic Press/R. G. Landis Company, Austin, Tex., pp. 7-21.
- The particular method of genotyping in the present invention may employ any number of molecular marker analytic techniques such as, but not limited to, restriction fragment length polymorphisms (RFLPs). Thus, the present invention further provides a means to follow segregation of a gene or nucleic acid of the present invention as well as chromosomal sequences genetically linked to these genes or nucleic acids using such techniques as RFLP analysis. Linked chromosomal sequences are within 50 centiMorgans (cM), often within 40 or 30 cM, preferably within 20 or 10 cM, more preferably within 5, 3, 2, or 1 cM of a gene of the invention.
- In the present invention, the nucleic acid probes employed for molecular marker mapping of plant nuclear genomes selectively hybridize, under selective hybridization conditions, to a gene encoding a polynucleotide of the present invention. In preferred embodiments, the probes are selected from polynucleotides of the present invention. Typically, these probes are cDNA probes or Pst I genomic clones. The length of the probes is discussed in greater detail, supra, but are typically at least 15 bases in length, more preferably at least 20, 25, 30, 35, 40, or 50 bases in length. Generally, however, the probes are less than about 1 kilobase in length. Preferably, the probes are single copy probes that hybridize to a unique locus in a haploid chromosome complement.
- The present invention further provides a method of genotyping comprising the steps of contacting, under stringent hybridization conditions, a sample suspected of comprising a polynucleotide of the present invention with a nucleic acid probe. Generally, the sample is a plant sample; preferably, a sample suspected of comprising a maize polynucleotide of the present invention (e.g., gene, mRNA). The nucleic acid probe selectively hybridizes, under stringent conditions, to a subsequence of a polynucleotide of the present invention comprising a polymorphic marker. Selective hybridization of the nucleic acid probe to the polymorphic marker nucleic acid sequence yields a hybridization complex. Detection of the hybridization complex indicates the presence of that polymorphic marker in the sample. In preferred embodiments, the nucleic acid probe comprises a polynucleotide of the present invention.
- Methods are provided for controlling plant pathogens comprising applying an anti-pathogenic amount of a protein or composition of the invention to the environment of the pathogens. By “controlling plant pathogens” is intended killing the pathogen or preventing or limiting disease formation on a plant. By “anti-pathogenic amount” is intended an amount of a protein or composition that controls a pathogen. The proteins and compositions can be applied to the environment of the pathogen by methods known to those of ordinary skill in the art.
- The proteins of the invention can be formulated with an acceptable carrier into a pesticidal composition(s) that is for example, a suspension, a solution, an emulsion, a dusting powder, a dispersible granule, a wettable powder, and an emulsifiable concentrate, an aerosol, an impregnated granule, an adjuvant, a coatable paste, and also encapsulations in, for example, polymer substances.
- Such compositions disclosed above may be obtained by the addition of a surface-active agent, an inert carrier, a preservative, a humectant, a feeding stimulant, an attractant, an encapsulating agent, a binder, an emulsifier, a dye, a U.V. protectant, a buffer, a flow agent or fertilizers, micronutrient donors or other preparations that influence plant growth. One or more agrochemicals including, but not limited to, herbicides, insecticides, fungicides, bacteriocides, nematocides, molluscicides, acaracides, plant growth regulators, harvest aids and fertilizers, can be combined with carriers, surfactants or adjuvants customarily employed in the art of formulation or other components to facilitate product handling and application for particular target pests. Suitable carriers and adjuvants can be solid or liquid and correspond to the substances ordinarily employed in formulation technology, e.g. natural or regenerated mineral substances, solvents, dispersants, wetting agents, tackifiers, binders or fertilizers. The active ingredients of the present invention are normally applied in the form of compositions and can be applied to the crop area or plant to be treated, simultaneously or in succession, with other compounds. Preferred methods of applying an active ingredient of the present invention or an agrochemical composition of the present invention, which contains at least one of the proteins of the present invention, are foliar application, seed coating and soil application. The number of applications and the rate of application depend on the intensity of infestation by the corresponding pest.
- Suitable surface-active agents include, but are not limited to, anionic compounds such as a carboxylate of, for example, a metal; carboxylate of a long chain fatty acid; an N-acylsarcosinate; mono or di-esters of phosphoric acid with fatty alcohol ethoxylates or salts of such esters; fatty alcohol sulfates such as sodium dodecyl sulfate, sodium octadecyl sulfate or sodium cetyl sulfate; ethoxylated fatty alcohol sulfates; ethoxylated alkylphenol sulfates; lignin sulfonates; petroleum sulfonates; alkyl aryl sulfonates such as alkyl-benzene sulfonates or lower alkylnaphtalene sulfonates, e.g. butyl-naphthalene sulfonate; salts of sulfonated naphthalene-formaldehyde condensates; salts of sulfonated phenol-formaldehyde condensates; more complex sulfonates such as the amide sulfonates, e.g. the sulfonated condensation product of oleic acid and N-methyl taurine; or the dialkyl sulfosuccinates, e.g. the sodium sulfonate or dioctyl succinate. Non-ionic agents include condensation products of fatty acid esters, fatty alcohols, fatty acid amides or fatty-alkyl- or alkenyl-substituted phenols with ethylene oxide, fatty esters of polyhydric alcohol ethers, e.g. sorbitan fatty acid esters, condensation products of such esters with ethylene oxide, e.g. polyoxyethylene sorbitar fatty acid esters, block copolymers of ethylene oxide and propylene oxide, acetylenic glycols such as 2, 4, 7, 9-tetraethyl-5-decyn-4,7-diol, or ethoxylated acetylenic glycols. Examples of a cationic surface-active agent include, for instance, an aliphatic mono-, di, or polyamine such as an acetate, naphthenate or oleate; or oxygen-containing amine such as an amine oxide of polyoxyethylene alkylamine; an amide-linked amine prepared by the condensation of a carboxylic acid with a di- or polyamine; or a quaternary ammonium salt.
- Examples of inert materials include but are not limited to inorganic minerals such as kaolin, phyllosilicates, carbonates, sulfates, phosphates or botanical materials such as cork, powdered corncobs, peanut hulls, rice hulls, and walnut shells.
- The compositions of the present invention can be in a suitable form for direct application or as concentrate of primary composition, which requires dilution with a suitable quantity of water or other diluent before application. The pesticidal concentration will vary depending upon the nature of the particular formulation, specifically, whether it is a concentrate or to be used directly. The composition contains 1 to 98% of a solid or liquid inert carrier, and 0 to 50%, preferably 0.1 to 50% of a surfactant. These compositions will be administered at the labeled rate for the commercial product, preferably about 0.01 lb-5.0 lb. per acre when in dry form and at about 0.01 pts.-10 pts. per acre when in liquid form.
- In a further embodiment, the compositions, as well as the proteins of the present invention can be treated prior to formulation to prolong the activity when applied to the environment of a target pest as long as the pretreatment is not deleterious to the activity. Such treatment can be by chemical and/or physical means as long as the treatment does not deleteriously affect the properties of the composition(s). Examples of chemical reagents include but are not limited to halogenating agents; aldehydes such a formaldehyde and glutaraldehyde; anti-infectives, such as zephiran chloride; alcohols, such as isopropanol and ethanol; and histological fixatives, such as Bouin's fixative and Helly's fixative (see, for example, Humason, Animal Tissue Techniques, W.H. Freeman and Co., 1967).
- The compositions can be applied to the environment of a pest by, for example, spraying, atomizing, dusting, scattering, coating or pouring, introducing into or on the soil, introducing into irrigation water, by seed treatment or general application or dusting at the time when the pest has begun to appear or before the appearance of pests as a protective measure. It is generally important to obtain good control of pests in the early stages of plant growth, as this is the time when the plant can be most severely damaged. The compositions of the invention can conveniently contain another insecticide or pesticide if this is thought necessary.
- Plants to be protected within the scope of the present invention include but are not limited to cereals (wheat, barley, rye, oats, rice, sorghum and related crops), beets (sugar beet and fodder beet), drupes, pomes and soft fruit (apples, pears, plums, peaches, almonds, cherries, strawberries, raspberries, and blackberries), leguminous plants (alfalfa, beans, peanuts, lentils, peas, soybeans), oil plants (rape, mustard, poppy, olives, safflowers, sunflowers, coconuts, castor oil plants, cocoa beans, oil palms), cucumber plants (cucumber, marrows, melons), fiber plants (cotton, flax, hemp, jute), citrus fruit (oranges, lemons, limes, grapefruit, mandarins), vegetables (spinach, lettuce, asparagus, cabbages and other Brassicae, carrots, onions, tomatoes, potatoes, paprika), lauraceae (avocados, cinnamon, camphor), deciduous trees and conifers (e.g. linden-trees, yew-trees, oak-trees, alders, poplars, birch-trees, firs, larches, pines), or plants such as maize, turf plants, tobacco, nuts, coffee, sugar cane, tea, hops, bananas and natural rubber plants, as well as ornamentals.
- In a further embodiment, formulations of the present invention for use as antimicrobial therapies comprise the anti-pathogenic proteins in a physiologically or pharmaceutically acceptable carrier, such as an aqueous carrier. Thus, formulations for use in the present invention include, but are not limited to, those suitable for parenteral administration, including subcutaneous, intradermal, intramuscular, intravenous and intraarterial administration, as well as topical administration. The formulations may conveniently be presented in unit dosage form and may be prepared by any of the methods well-known in the art. Such formulations are described in, for example,Remington's Pharmaceutical Sciences 19th ed., Osol, A. (ed.), Mack Easton Pa. (1980).
- In the manufacture of a medicament according to the invention, the anti-pathogenic compositions are typically admixed with, inter alia, an acceptable carrier. The carrier must, of course, be acceptable in the sense of being compatible with any other ingredients in the formulation and must not be deleterious or harmful to the patient. The carrier may be a solid or a liquid. One or more anti-pathogenic proteins may be incorporated in the formulations of the invention, which may be prepared by any of the well-known techniques of pharmacy consisting essentially of admixing the components, optionally including one or more accessory therapeutic ingredients.
- Formulations of the present invention may comprise sterile aqueous and non-aqueous injection solutions of the active compound, which preparations are preferably isotonic with the blood of intended recipient and essentially pyrogen free. These preparations may contain anti-oxidants, buffers, bacteriostats and solutes that render the formulation isotonic with the blood of the intended recipient. Aqueous and non-aqueous sterile suspensions may include suspending agents and thickening agents. The formulations may be presented in unit dose or multi-dose containers, for example sealed ampoules and vials, and may be stored in a freeze-dried (lyophilized) condition requiring only the addition of the sterile liquid carrier, for example, saline or water-for-injection immediately prior to use.
- In the formulation the anti-pathogenic protein may be contained within a lipid particle or vesicle, such as a liposome or microcrystal, which may be suitable for parenteral administration. The particles may be of any suitable structure, such as unilamellar or plurilamellar, so long as the targeted cassette is contained therein. Positively charged lipids such as N-[1-(2,3-dioleoyloxi)propyl]-N,N,N-trimethyl-amoniummethylsulfate, or “DOTAP”, are particularly preferred for such particles and vesicles. The preparation of such lipid particles is well-known. See, e.g., U.S. Pat. No. 4,880,635 to Janoff et al.; U.S. Pat. No. 4,906,477 to Kurono et al.; U.S. Pat. No. 4,911,928 to Wallach; U.S. Pat. No. 4,917,951 to Wallach; U.S. Pat. No. 4,920,016 to Allen et al.; U.S. Pat. No. 4,921,757 to Wheatley et al.; etc.
- The dosage of the anti-pathogenic protein administered will vary with the particular method of administration, the condition of the subject, the weight, age, and sex of the subject, the particular formulation, the route of administration, etc. In general, the protein will be administered in a range of about 1 μg/L to about 10 g/L.
- The following examples are offered by way of illustration and not by way of limitation.
- Plant Material
- Sunflower plants were grown in the greenhouse and growth chamber. The sunflower line SMF 3 and oxox-transgenic sunflower (line 193870 and 610255) were used for RNA profiling study by CuraGen using methods described in U.S. Pat. No. 5,871,697 to Rothberg et al., and U.S. Pat. No. 5,972,693 to Rothberg et al., both incorporated herein by reference. Sunflower pathogen,Sclerotinia sclerotiorum was maintained on plate at 20° C. in dark.
- Preparation of Total RNAs for RNA Profiling Study and Northern Analysis
- Plant materials were ground in liquid nitrogen, and total RNA was extracted by the Tri-Reagent Method (Sigma). For each RNA profiling study, RNA samples from 6-week-old sunflower leaves and stems of transgenic sunflower plants expressing a wheat oxalate oxidase gene were compared with those from sunflower line SMF3. Total RNA (20 μg) was separated in a 1% agarose gel containing formaldehye. Ethidium bromide was included to verify equal loading of RNA. After transfer onto Hybond N+ membrane (Amersham), the blots were hybridized with32P-labelled PR5, defensin or BBE cDNA probes. A duplicate blot was hybridized with an 18S rRNA probe as a control. Hybridization and washing conditions were performed according to Church et al. (1984) Proc. Natl. Acad. Sci. USA 81:1991-1995.
- RNA Profiling Technology
- Total RNA was analyzed using the gene expression profiling process (GeneCalling®) as described in U.S. Pat. No. 5,871,697, herein incorporated by reference. A number of distinct transcripts increased in abundance following the oxidative burst and cDNAs corresponding to a portion of these transcripts were cloned and sequenced.
- Isolation of Full-Length or Flanking Sequences by PCR Amplification of cDNA Ends
- Three defense-related cDNAs were isolated by using RNA profiling and PCR-based technologies. RNA profiling studies were conducted through the collaboration with CuraGen Corporation. FIG. 1 illustrates the cloning strategy used. The sequence information generated was used for designing gene-specific primers to amplify both 3′ and/or 5′ end regions of the target genes using the PCR-based, RACE method. Sclerotinia-infected and oxox-induced cDNA libraries or cDNAs made using a Marathon cDNA Amplification Kit (Clontech) were utilized as a source of templates for PCR amplification. To facilitate cloning full-length cDNAs from the initially cloned regions, we designed a pair of 28 bp vector primers flanking cDNAs on the both ends (3′ and 5′) of the pBS vector and directionally amplified either the 5′ or 3′ end of a cDNA with one of vector primers (pBS-upper or pBS-lower) and a gene-specific primer. Once the anticipated 5′ end of a specific gene with an intact ATG start codon was cloned and sequenced, the full-length cDNA was amplified using a second gene-specific primer containing corresponding to sequence upstream of the ATG and a vector primer at 3′ end. The PCR products were cloned and sequenced by standard methods.
- PCR reactions were performed in a total volume of 25 μl in 10 mM Tris-HCl, pH 8.3; 1.5 mM MgCl2; 50 mM KCl; 0.1 mM dNTPs; 0.25 μM of each primer with 0.5 units of advantage cDNA polymerase mix (Clontech) or Pwo DNA polymerase (Boehringer). Genomic DNA and/or cDNA library mixtures were used as a source of templates for PCR amplification.
- Isolation of Pathogen-Inducible Promoters
- Promoter regions of PR5, defensin, and BBE were isolated from sunflower genomic DNA using Universal GenomeWalker Kit (Clontech) according to the manufacturer's instructions. Restriction digested genomic DNAs were ligated with an adapter to construct pools of genomic DNA fragments for walking by PCR (Siebert et al. (1995)Nuc. Acids Res. 23:1087-1088).
- Analysis of Amplified PCR Products
- Amplified PCR fragments with the expected sizes were individually sliced out of a gel for a second round of PCR amplification with the same conditions as the initial PCR. Each second-round PCR product yielding a single band of the expected size was cloned into a TA vector (Clontech) according to the manufacturer's instructions. Identified positive clones were selected for DNA sequencing using an Applied BioSystems 373A (ABI) automated sequencer at the Nucleic Acid Analysis Facility of Pioneer Hi-Bred International, Incorporated. DNA sequence analysis was carried out with the Sequencer (3.0). Multiple-sequence alignments (Clustal W) of the DNA sequence were analyzed with the Curatool (CuraGen).
- Construction of the Sclerotinia-Infected and Resistance-Enhanced (Oxox-Induced) Sunflower cDNA Libraries
- Six-week-old SMF3 sunflower plants were infected withSclerotinia sclerotrium by petiole inoculation with Sclerotinia-infested carrot plugs. Six days after infection, leaf and stem tissues were collected from infected plants for total RNA isolation. Total RNA was also isolated from sunflower oxox-transgenic plants (line 610255) expressing a wheat oxalate oxidase gene at the six-week stage. Previous studies have shown that elevated levels of H2O2, SA, and PR1 protein were deducted in oxox-transgenic plants at six-week stage and the plants showed more resistance to Sclerotinia infection (WO 99/04013). The mRNAs were isolated using an mRNA purification kit (BRL) according to manufacturer's instruction. cDNA libraries were constructed with the ZAP-cDNA synthesis kit into pBluescrip phagemid (Stratagene). A cDNA library mixture for PCR cloning was made of oxox transgenic stem and Sclerotinia-infected leaf libraries (1:2 mix).
- Fungal Infection and Chemical Treatments
- Sunflower plants SMF3 were planted in 4-inch pots and grown in the greenhouse for four weeks. After transfer to the growth chamber, plants were maintained under 12 hour photoperiod at 22° C. with a 80% relative humidity. Six-week-old plants were inoculated with Sclerotinia-infested carrot plugs or sprayed with one of four different chemical treatments. For each plant, three petioles were inoculated and wrapped with 1×2 inch parafilm. Plant tissue samples were collected at different time points by immediately freezing in liquid nitrogen and then stored at −80° C.
- RNA Profiling Study of Oxox-Transgenic Sunflower Plants
- Resistance to the fungal pathogen Sclerotinia is a trait of major importance for crops such as sunflower, canola, and soybean. Sunflower Sclerotinia disease can be established at various developmental stages with the main targets being head, stem, and root tissues. This suggests that resistance genes need to be constitutively expressed in multiple tissues. The major toxic and pathogenic factor produced by Sclerotinia is oxalic acid that can be converted into H2O2 and CO2 by oxalate oxidase. A candidate gene for detoxifying oxalate is the wheat oxalate oxidase (oxox) which have been used to transform a sunflower inbred line. Expression of oxox by a constitutive promoter significantly enhances resistance to Sclerotinia in sunflower. In a growth chamber experiment, lesion size was six-fold lower in oxox-transgenic sunflower plants upon infection with Sclerotinia mycelia relative to untransformed plants. At the six-week-old stage, the oxox-transgenic sunflower plants displayed a lesion mimic in the mature leaves. The enhanced Sclerotinia resistance of sunflower oxox transgenics is closely related to the observed elevated levels of SA and PR proteins (WO 99/04013).
- In the RNA profiling analysis, 30 bands were induced and 30 bands were repressed in the oxox-transgenic stem and leaf tissues compared to non-transformed SMF3 plants. Three of the induced bands were sequenced (Table 1), and the sequence information was used to clone the full-length clones.
- Cloning of Full-Length cDNAs Related to Sunflower Disease Resistance
- A PCR-based cloning method was developed to efficiently isolate full-length cDNAs of the plant defense genes, from sunflower cDNA libraries (FIG. 2). A cDNA library mixture containing both oxox-transgenic cDNA library and Sclerotinia-infected cDNA library (1:2 mix) was used as template for PCR amplification. Using cDNA libraries as DNA template in PCR amplification had two benefits: (1) the number of unexpected PCR products was reduced as compared to genomic DNA as a source of template, and (2) disease-induced cDNA libraries increased the chance of isolating defense-related genes. To facilitate cloning full-length cDNAs from the initial cloned regions, we designed a pair of 28 bp vector primers (Table 1) flanking cDNAs on the both ends (3′ and 5) of the vector and directionally amplified either the 5′ or 3′ end of a cDNA with one vector primer and a gene-specific primer (FIG. 1 and Table 1). The anticipated 5′ end of specific gene with the intact ATG start codon was cloned and sequenced. The full-length cDNA was amplified using a second gene-specific primer containing sequence upstream of the ATG and a vector primer at the 3′ end. The PCR products were cloned and submitted to sequence analysis.
- Table 1 provides RNA profiling band sequences (PBS) and oligonucleotide sequences used for PCR amplification of the cDNAs and promoter regions. Oligonucleotide PBS-upper (P3) and PBS-lower (P4) were two primers located at the ends of cDNA library vector, as indicated in FIG. 2. For each targeted gene, two or three gene-specific primers were made to complete the 5′-end RACE (P1), the 3end RACE (P2), and the full-length RACE (P5). The additional antisense primers were made for cloning promoter regions of PR5, defensin, and BBE, using the GenomeWalker kit (Clontech) (Band h0a0-231.3, PR5; band d0l0-113.9, defensin; and n0s0-162.7, BBE).
TABLE 1 Oligonucleotide sequences used for PCR amplification of cDNAs and promoter regions: cDNA cloning: Library vector (pBS): PBS- GCGATTAAGTTGGGTAACGCCAGGGT (SEQ ID NO:26) upper: PBS- TCCGGCTCGTATGTTGTGTGGAATTG (SEQ ID NO:27) lower: PR5: h0a0-231.3: TGATCAGTTTTGTACACGGTGCAAGGGTTATTGCAC (SEQ ID NO:28) CCGCCAGAGCCCGTAACTCNCCAGGACACTGGCCAT TGATATCCGCAGTACATGAGATACCCCGGGTGCACC CATTAGAATTGGGTCTAAACACCATCGGCACATTGA ATCCGTCCACAAGAGAAATGTCAAAGAAATCAAGAT TGTTGAACTGGTTCCAAGCGTACTCGGCCCATGTGT TTGGGTGGGGTACC Sense: CCGAGTACGCTTTAACCAGT (SEQ ID NO:29) Anti- TCCGCAGTACATGAGATACCC (SEQ ID NO:30) sense: Full- ACAATGACAACCTCCACCCTTCCCACTTT (SEQ ID NO:31) RACE: (P5) Defensin: d0l0-113.9: TCCGGACCATGTCTGGCTTGCCTTCTCACATAATTC (SEQ ID NO:32) TCCTTTCACCGATCCGATTTCTGAGATAGCAAGAAC AAAGAGAAGCAGAAGAAAAGCATTGAAAGCAACTGA AATT A- GACCATGTCTGGCTTGCCTTCTCACA (SEQ ID NO:33) sense: full- GAGCTTGAGCTTAGTTCAGTAACTTAAAA (SEQ ID NO:34) RACE: ATGGCC (P5) BBE: n0s0-162.7: TGTACACATTTGGTGGGAAGATGGAGGAGTACTCAG (SEQ ID NO:35) ATACAGCAATTCCGTATCCCCATAGAGCTGGGGTGT TGTACCAAGTGTTCAAGAGGGTGGACTTCGTGGATC AGCCTTCGGACAAGACCTTGATATCACTCAGACGGT TGGCTTGGCTCCGAAGCTT Sense: CCAACCGTCTGAGTGATATCAAGG (SEQ ID NO:36) A- GGGAAGATGGAGGAGTACTCAGAT (SEQ ID NO:37) sense: Full- CGGCACGAGTAACTCTCGTTCAGTGTTCC (SEQ ID NO:38) RACE: (P5) Promoter cloning: AP GTAATACGACTCACTATAGGGC (SEQ ID NO:39) Primer: PR5 A- CGAATAGTGAACACGGCTGCATTGGT (SEQ ID NO:40) sense2: BBE A- GCTGCAGCTTGCCAAATGGGTATGTA (SEQ ID NO:41) sense2: - Oligonucleotide PBS-upper (P3) and PBS-lower (P4) were two primers located at the ends of cDNA library vector, as indicated in FIG. 2. For each targeted gene, two or three gene specific primers were made to complete the 5′ end RACE (P1), the 3′ end RACE (P2), and the full-length RACE (P5). The additional antisense primers were made for cloning promoter regions of PR5-1 and BBE, using the genome walker kit from Clontech. Band h0a0-231.3, PR5-1; band d0l0-113.9, defensin; and n0s0-162.7, BBE.
- Cloning Sunflower PR5-1 cDNA and Its Promoter
- A full-length cDNA encoding pathogenesis-related protein-5 (PR5-1) was isolated from sunflower. The nucleotide sequence of PR5-1 is set forth in SEQ ID NO:4 and the amino acid sequence encoded by this nucleotide sequence is set forth in SEQ ID NO:1. The sunflower PR5-1 protein with its amino-terminal signal sequence is 222 amino acids in length with a calculated molecular mass of 25 kDa and a pI of 6.71. Database searches with predicted amino acid sequence revealed significant sequence similarity with previously reported PR5 proteins from other plant species. The 5′-flanking sequence of the PR5-1 gene contains two potential pathogen-responsive MRE-like elements. These elements have the sequences TGTAGG (nucleotides 23-28, SEQ ID NO:7) and AACAAAA (nucleotides 247-253, SEQ ID NO:7). The PR5-1 promoter region also contains a CAAT box (nucleotides 438-441, SEQ ID NO:7) and a TATA box (nucleotides 485-490, SEQ ID NO:7). FIG. 2 shows the alignment of amino acid sequence of PR5-1 from sunflower with other PR5 or osmotin-like proteins from grape, soybean, tomato, and potato. Sunflower PR5-1 shows the highest sequence similarity to P21 protein (78% amino acid identity; 80% similarity) from soybean (Swiss-Prot P205096) followed by the osmotin-like protein from grape (Swiss-
Prot 004708; 72% amino acid identity; 77% similarity), where sequence comparisons were performed with the GAP algorithm described above using default parameters. - Berberine Bridge Enzyme (BBE) cDNA and Its Promoter
- A full-length cDNA encoding a BBE homologue was isolated from sunflower. The full-length cDNA set forth in SEQ ID NO:5 is 1809 nucleotides long with an open reading frame encoding a protein of 542 amino acids (SEQ ID NO:2) and a calculated molecular mass at 61.41 kDa and a pI of 8.18 (FIG. 5). The BBE promoter region contains a potential MRE-like element with the sequence TGTAGG (nucleotides 139-144, SEQ ID NO:8). The BBE promoter also contains a CAAT box (nucleotides 278-281, SEQ ID NO:8), and a TATA box (nucleotides 299-304, SEQ ID NO:8). The isolated cDNA shares homology with BBE cDNAs from California poppy and opium poppy (FIG. 3) and two published sunflower cDNA's encoding carbohydrate oxidases (WO 98/13478), which have antifungal activity, specifically against Phytophthora and Pythium species (FIG. 3). The amino acid sequence alignment indicates 42% identity and 52% similarity between the sunflower BBE and the previously patented sequences (Sunflower-15 and Sunflower-17 from WO 98/13478), where the comparison was performed with the GAP algorithm described above using the default parameters.
- Inducible Sunflower Defensin cDNA and Its Promoter
- The sunflower defensin cDNA is 556 nucleotides long with an open reading frame starting at nucleotide 36 and ending at nucleotide position 362 (SEQ ID NO:6). The deduced polypeptide is 108 amino acids long and contains a putative signal peptide at the amino-terminal end (SEQ ID NO:3). The cloned defensin promoter contains two W-boxes with the nucleotide sequence TTGACC (nucleotides 221-226, SEQ ID NO:9), and a G-box with sequence CACGTG (nucleotides 564-569, SEQ ID NO:9). These cis-elements are potentially related to plant defense response. The defensin promoter also contains a TATA box (nucleotides 857-860, SEQ ID NO:9).The protein has significant homology to other reported plant defensins (FIG. 4). Eight important cysteine residues in this novel defensin were highly conserved among all other known plant defensins.
- Accumulation of PR5-1, Defensin and BBE Transcripts in Response to Fungal Pathogen Infection and Chemical Treatments
- The expression of many of PR5 and defensin genes were induced by biotic and abiotic stresses (Terra et al. (1988)Planta 206:117-124); Ward et al. (1991) Plant Cell 3:1085-1094). Oxalic acid (OA), a compound produced by Sclerotinia and many other fungal pathogens in planta, plays an important role in the disease infection process (Noyes et al. (1981) Physiol. Plant Path. 18:123-132). Salicylic acid, jasmonic acid and H2O2 have been implicated as having a central role in plant disease resistance and systemic acquired resistance, and have been shown to induce the accumulation of many PR proteins, including PR5 protein and defensin in Arabidopsis (Blechert et al. (1995) Proc. Natl. Acad. Sci. USA 92:4099-4105; Terra et al. (1988) Planta 206:117-124; Noyes et al. (1981) Physiol. Plant Path. 18:123-132).
- Six-week-old sunflower plants were either inoculated with Sclerotinia or treated with different chemicals. Plants inoculated with Sclerotinia showed wilt symptoms on inoculated leaves 24 hours after inoculation and lesions started to spread to the main stem 3 days after infection. For the infection experiment, plant tissues were collected at 0, 6, 12, 24 hours, and 3, 6 and 10 days after infection. Chemical-treated plants were collected at 0, 6, 12, and 24 hours after foliar application.
- Northern blot analysis revealed that sunflower PR5-1 protein was induced in leaf and stem tissues of the Sclerotinia-infected and oxox transgenic plants. RNA profiling indicated that PR5-1 transcript level in the oxox transgenic plants was 9-fold higher than in the untransformed line (SMF3). Northern results indicated that the sunflower PR5-1 was up-regulated significantly by Jasmonic acid (45 μM) and oxalic acid (5 mM). Up-regulation was less pronounced between control and salicylic acid, and H2O2 treated samples.
- BBE transcripts were highly induced in oxox-transgenic and Sclerotinia infected sunflower leaves. However, BBE transcripts were not detected in either control or infected stem samples. Northern blot analysis confirmed the RNA profiling result of increased BBE transcripts in oxox transgenic plants. The chemical induction experiment revealed that BBE expression was induced by oxalic acid, H2O2, SA and JA at early time points and returned to the normal level within 24 hours after application.
- The expression of the isolated sunflower defensin gene appeared to be different from other defensin genes. In general, plant defensin genes such as Arabidopsis PDF1.2 and radish defensin are induced by pathogens via an SA-independent and JA-dependent pathway. Northern results indicated that the sunflower defensin was up-regulated significantly by salicylic acid (5 mM), oxalic acid (5 mM) and H2O2 (5 mM). However, there was little difference between control and Jasmonic acid treated samples.
- Defensin transcript levels were significantly higher in samples from oxox transgenic plants relative to levels in control plants. Northern analysis revealed that sunflower defensin was induced in leaf tissue of the Sclerotinia-infected and oxox transgenic plants. A time course study showed that defensin, PR5-1 and BBE transcripts were highly induced in oxox-transgenic tissues at the 6-week-old stage. These results indicate that the defense pathways were activated in oxox transgenic sunflowers at that stage.
- All publications and patent applications mentioned in the specification are indicative of the level of those skilled in the art to which this invention pertains. All publications and patent applications are herein incorporated by reference to the same extent as if each individual publication or patent application was specifically and individually indicated to be incorporated by reference.
- Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity of understanding, it will be obvious that certain changes and modifications may be practiced within the scope of the appended claims.
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1 41 1 222 PRT Helianthus annuus 1 Met Thr Thr Ser Thr Leu Pro Thr Phe Leu Leu Leu Ala Ile Leu Phe 1 5 10 15 His Tyr Thr Asn Ala Ala Val Phe Thr Ile Arg Asn Asn Cys Pro Tyr 20 25 30 Thr Val Trp Ala Gly Ala Val Pro Gly Gly Gly Arg Gln Leu Asn Ser 35 40 45 Gly Gln Thr Trp Ser Leu Thr Val Ala Ala Gly Thr Ala Gly Ala Arg 50 55 60 Ile Trp Pro Arg Thr Asn Cys Asn Phe Asp Gly Ser Gly Arg Gly Arg 65 70 75 80 Cys Gln Thr Gly Asp Cys Asn Gly Leu Leu Gln Cys Gln Asn Tyr Gly 85 90 95 Thr Pro Pro Asn Thr Leu Ala Glu Tyr Ala Leu Asn Gln Phe Asn Asn 100 105 110 Leu Asp Phe Phe Asp Ile Ser Leu Val Asp Gly Phe Asn Val Pro Met 115 120 125 Val Phe Arg Pro Asn Ser Asn Gly Cys Thr Arg Gly Ile Ser Cys Thr 130 135 140 Ala Asp Ile Asn Gly Gln Cys Pro Gly Glu Leu Arg Ala Pro Gly Gly 145 150 155 160 Cys Asn Asn Pro Cys Thr Val Tyr Lys Thr Asp Gln Tyr Cys Cys Asn 165 170 175 Ser Gly Asn Cys Gly Pro Thr Asp Leu Ser Arg Phe Phe Lys Thr Arg 180 185 190 Cys Pro Asp Ala Tyr Ser Tyr Pro Lys Asp Asp Pro Thr Ser Thr Phe 195 200 205 Thr Cys Pro Gly Gly Thr Asn Tyr Asp Val Ile Phe Cys Pro 210 215 220 2 542 PRT Helianthus annuus 2 Met Asn Asn Ser Arg Ser Val Phe Leu Leu Val Leu Ala Leu Ser Phe 1 5 10 15 Cys Val Ser Phe Gly Ala Leu Ser Ser Ile Phe Asp Val Thr Ser Thr 20 25 30 Ser Glu Asp Phe Ile Thr Cys Leu Gln Ser Asn Ser Asn Asn Val Thr 35 40 45 Thr Ile Ser Gln Leu Val Phe Thr Pro Ala Asn Thr Ser Tyr Ile Pro 50 55 60 Ile Trp Gln Ala Ala Ala Asp Pro Ile Arg Phe Asn Lys Ser Tyr Ile 65 70 75 80 Pro Lys Pro Ser Val Ile Val Thr Pro Thr Asp Glu Thr Gln Ile Gln 85 90 95 Thr Ala Leu Leu Cys Ala Lys Lys His Gly Tyr Glu Phe Arg Ile Arg 100 105 110 Asp Gly Gly His Asp Phe Glu Gly Asn Ser Tyr Thr Ala Asn Ala Pro 115 120 125 Phe Val Met Leu Asp Leu Val Asn Met Arg Ala Ile Glu Ile Asn Val 130 135 140 Glu Asn Arg Thr Ala Leu Val Gln Gly Gly Ala Leu Leu Gly Glu Leu 145 150 155 160 Tyr Tyr Thr Ile Ser Gln Lys Thr Asp Thr Leu Tyr Phe Pro Ala Gly 165 170 175 Ile Trp Ala Gly Val Gly Val Ser Gly Phe Leu Ser Gly Gly Gly Tyr 180 185 190 Gly Asn Leu Leu Arg Lys Tyr Gly Leu Gly Ala Asp Asn Val Leu Asp 195 200 205 Ile Arg Phe Met Asp Val Asn Gly Asn Ile Leu Asp Arg Lys Ser Met 210 215 220 Gly Glu Asp Leu Phe Trp Ala Leu Arg Gly Gly Gly Ala Ser Ser Phe 225 230 235 240 Gly Ile Val Leu Gln Trp Lys Leu Asn Leu Val Pro Val Pro Glu Arg 245 250 255 Val Thr Leu Phe Ser Val Ser Tyr Thr Leu Glu Gln Gly Ala Thr Asp 260 265 270 Ile Phe His Lys Tyr Gln Tyr Val Leu Pro Lys Phe Asp Arg Asp Leu 275 280 285 Leu Ile Arg Val Gln Leu Asn Thr Glu Tyr Ile Gly Asn Thr Thr Gln 290 295 300 Lys Thr Val Arg Ile Leu Phe His Gly Ile Tyr Gln Gly Asn Ile Asp 305 310 315 320 Thr Leu Leu Pro Leu Leu Asn Gln Ser Phe Pro Glu Leu Asn Val Thr 325 330 335 Arg Glu Val Cys Gln Glu Val Arg Met Val Gln Thr Thr Leu Glu Phe 340 345 350 Gly Gly Phe Asn Ile Ser Thr Pro Thr Ser Val Leu Ala Asn Arg Ser 355 360 365 Ala Ile Pro Lys Leu Ser Phe Lys Gly Lys Ser Asp Tyr Val Arg Thr 370 375 380 Pro Ile Pro Arg Ser Gly Leu Arg Lys Leu Trp Arg Lys Met Phe Glu 385 390 395 400 Asn Asp Asn Ser Gln Thr Leu Phe Met Tyr Thr Phe Gly Gly Lys Met 405 410 415 Glu Glu Tyr Ser Asp Thr Ala Ile Pro Tyr Pro His Arg Ala Gly Val 420 425 430 Leu Tyr Gln Val Phe Lys Arg Val Asp Phe Val Asp Gln Pro Ser Asp 435 440 445 Lys Thr Leu Ile Ser Leu Arg Arg Leu Ala Trp Leu Arg Ser Phe Asp 450 455 460 Lys Thr Leu Glu Pro Tyr Val Thr Ser Asn Pro Arg Glu Ala Tyr Met 465 470 475 480 Asn Tyr Asn Asp Leu Asp Leu Gly Phe Asp Ser Ala Ala Tyr Glu Glu 485 490 495 Ala Ser Glu Trp Gly Glu Arg Tyr Trp Lys Arg Glu Asn Phe Lys Lys 500 505 510 Leu Ile Arg Ile Lys Ala Lys Val Asp Pro Glu Asn Phe Phe Arg His 515 520 525 Pro Gln Ser Ile Pro Val Phe Ser Arg Pro Leu Ser Asp Met 530 535 540 3 108 PRT Helianthus annuus 3 Met Ala Lys Ile Ser Val Ala Phe Asn Ala Phe Leu Leu Leu Leu Phe 1 5 10 15 Val Leu Ala Ile Ser Glu Ile Gly Ser Val Lys Gly Glu Leu Cys Glu 20 25 30 Lys Ala Ser Gln Thr Trp Ser Gly Thr Cys Gly Lys Thr Lys His Cys 35 40 45 Asp Asp Gln Cys Lys Ser Trp Glu Gly Ala Ala His Gly Ala Cys His 50 55 60 Val Arg Asp Gly Lys His Met Cys Phe Cys Tyr Phe Asn Cys Ser Lys 65 70 75 80 Ala Gln Lys Leu Ala Gln Asp Lys Leu Arg Ala Glu Glu Leu Ala Lys 85 90 95 Glu Lys Ile Glu Pro Glu Lys Ala Thr Ala Lys Pro 100 105 4 875 DNA Helianthus annuus 4 atgacaacct ccacccttcc cactttcctt ctcttggcta ttctttttca ctataccaat 60 gcagccgtgt tcactattcg aaacaactgt ccatacaccg tttgggctgg tgcggtgcct 120 ggtggcggcc gacaacttaa ctcaggccaa acctggtctt taaccgtcgc agctggcaca 180 gcaggagccc gtatatggcc ccgaaccaat tgcaactttg atggttctgg gcgaggcagg 240 tgtcagaccg gtgattgcaa cggtctcctc caatgccaaa actatggtac cccacccaac 300 acattggccg agtacgcttt gaaccagttc aacaatcttg atttctttga catttctctt 360 gtggacggat tcaatgtgcc gatggtgttt agacccaatt ctaatgggtg cacccggggt 420 atctcatgta ctgcggatat caatggccag tgtcctggtg agttacgggc tcctggcggg 480 tgcaataacc cttgcaccgt gtacaaaact gatcagtatt gttgcaactc tggaaattgt 540 ggaccaactg atttatcaag gtttttcaag accagatgtc ctgatgcata tagttatccc 600 aaggatgatc caactagcac atttacgtgc cccggtggaa ccaactacga cgttatattc 660 tgcccttgat caaagccatt tgattatatg atcaaattaa aaggagttcg aaatataaga 720 actgaaataa atggagtgaa taagtaatgg agatagtcta attataaggc ttcttcctca 780 ttgtaataca ataatgttgt aatttgtcaa aataaatgga tggatatata tgattaatta 840 ttaggaaaaa aaaaaaaaaa aaaaaaaaaa aaaaa 875 5 1809 DNA Helianthus annuus 5 aaaacatgaa taactctcgt tcagtgttcc tcttagttct cgctctttca ttttgtgttt 60 catttggagc attgtcttcc attttcgatg ttacttcaac ttccgaagat ttcataacct 120 gtctccaatc caattccaac aatgtcacca ccatctctca actcgttttc accccggcca 180 acacttctta catacccatt tggcaagctg cagccgaccc tattcggttc aacaaatcct 240 acattccgaa accatcagtc atcgttactc ccaccgatga aacacagatc caaaccgctc 300 ttttatgcgc caagaaacac ggatatgagt ttaggatccg agacggtggt catgacttcg 360 agggcaactc atacaccgcg aacgctccgt ttgtcatgct tgatctcgtc aacatgaggg 420 ctatagagat caacgttgaa aaccggaccg cgctggtcca gggtggcgct ttgcttggtg 480 agctctacta cactatttct cagaaaacgg acaccttgta ttttcctgct ggtatttggg 540 ccggtgtggg tgttagcggg tttttgagcg gtggtgggta tggaaacctg ttgaggaaat 600 acgggcttgg tgccgataat gttttggata ttcgtttcat ggatgttaat ggaaacattc 660 ttgataggaa atcgatgggc gaagatttgt tttgggcgct tcgtggcggt ggtgcttcca 720 gtttcggaat tgttctccag tggaagctca atttggttcc ggtgcctgaa agagttactc 780 ttttcagtgt gagttatact ctggagcaag gggcgacgga cattttccat aaatatcaat 840 acgtgttacc gaaatttgat cgtgatttac tcatcagagt tcagcttaac accgagtata 900 taggcaacac cactcagaaa accgtacgaa tattgtttca cggtatttat caaggcaata 960 ttgacacact gcttccgttg ttgaaccaaa gtttcccaga gctcaatgtg acacgagaag 1020 tctgccaaga agtacgaatg gtccagacta cccttgagtt tggaggcttt aacatctcta 1080 ccccgacatc ggttctagcg aaccgatcag caatccccaa gctgagcttc aaaggaaaat 1140 ctgactatgt ccgaactcca attcccagaa gcgggctaag aaagctctgg agaaagatgt 1200 ttgaaaacga caactcacag actctcttca tgtacacatt tggtgggaag atggaggagt 1260 actcagatac agcaattccg tatccccata gagctggggt gttgtaccaa gtgttcaaga 1320 gggtggactt cgtggatcag ccttcggaca agaccttgat atcactcaga cggttagctt 1380 ggctccgaag ctttgataag actttggagc cgtacgtgac gagtaacccg agggaggcgt 1440 atatgaacta caatgatctt gatttgggtt ttgatagtgc tgcatatgaa gaagcaagtg 1500 aatggggaga aaggtattgg aaaagggaga actttaagaa gttgatccga atcaaggcta 1560 aagttgatcc ggaaaatttc tttagacacc cacaaagtat accggttttc tcaagacctc 1620 tctcagatat gtgaagccaa cactttggat ggtgttcttt ttcttgagta tattggtaat 1680 aattattaat taagagtcaa aagtcgatta cttttgtgtt tggtgccttg tgtaccaatt 1740 atttaaactt ttttgttttc ataaactttt aatcaaagct attatgtatt taaaaaaaaa 1800 aaaaaaaaa 1809 6 565 DNA Helianthus annuus 6 tcggcttgag cttgagctta gttcagtaac ttaaaaatgg ccaaaatttc agttgctttc 60 aatgcttttc ttctgcttct ctttgttctt gctatctcag aaatcggatc ggtgaaagga 120 gaattatgtg agaaggcaag ccagacatgg tccggaacat gtggcaagac aaaacactgt 180 gatgaccagt gcaagtcttg ggagggtgca gcccatggag cttgtcacgt gcgcgatggg 240 aaacacatgt gcttctgcta cttcaactgt tccaaagccc agaagttggc tcaggataaa 300 ctcagagcgg aagagctcgc caaggagaag attgaacccg aaaaggcgac agccaaacct 360 tgagtatgta gcaaatgtca tacgattatg aataaagaga aaatgctttc tacttggcat 420 attcagcatt ttcttgtgtg taatgtttgt tgtatttgga aattggaatc agttgcttca 480 ttatgattcc atgcaaaatg ttctaatgaa atgatattta aattaaaaaa aaaaaaaaaa 540 aaaaaaaaaa aaaaaaaaaa aaaaa 565 7 550 DNA Helianthus annuus 7 aaaactgcgt tttgaaaagg catgtaggta catgcttctc caaaactgcg ttttgaaggc 60 agataatcac ttttcatcca aacatttttt tagattattt atgttttaca aacgcaatac 120 ttaaataacc acttcaaaac gtaatcccaa acaccctctt agtgtataaa aaacctgaaa 180 ttagtttata cacacagaaa ataacaaatt aaaagcataa acaaaaatga taattttata 240 aatgataaac aaaactaagt ataagaataa gataatatat attttttata gagttactaa 300 atacaaagat aaaataacaa aaaagagtaa actaaaataa gttataacaa atgtgttgtt 360 aactgtatag ttatgacttt gtctactaca gaacaattcc acgtaaccat tttgttcaat 420 gaatacattt gaaatttcaa tgaatgtata tctttctaaa tattgtacgt atagcatgtt 480 cggcctatat aaaccatgtt tactctcact tccaattcac ccaaaaccac aatgacaacc 540 tccacccttc 550 8 351 DNA Helianthus annuus 8 tgttcaaaaa agcacgctga aagtgactaa tattcgaatc tagtcgtgac cgctgcctag 60 tgccaaatta ctaaaggaga agaaaaaaaa aatatcaaga agatacagaa aattatttgc 120 gcgttgtgac ttgtgttgtg taggcaacgg gcatctagtc atacatttga tggctgtttc 180 ggtgtaaaca taagtcaaag gctagatgtc tttttatcaa aaaggttgtt ttagtaattt 240 cccaaaaaaa catcccactt tcccccttat ttcttcccaa tcgccttcgg gttcatctta 300 tataaatagg cgcattaagt gctaatagac tcaccaaacc aacaaaacat g 351 9 1346 DNA Helianthus annuus 9 gtacttcgca aaagggcctg tcgtaaatgt tagtgagatg ggcaatcgtc tcaacgtcaa 60 tatttagcga ccataatttg tcagaaaatt aacgacagga actaaattga ttgcaaattt 120 agcaaccaaa ataatcagtc tgaaagtaat tagcaattaa acaaaattgg tggtaaattt 180 acaacgattt tttttacaat gatttattgt tattttttac ttgacctgac tactgagttg 240 ttttaacctt aatcatttct atcagagtga ataaagcctc catggcacag aaaaaatgta 300 agaattatat gaatacagat aattacgata attttctgta taaataggtg gtttaggaaa 360 actattaagc cctgttgttt tgcatctgaa tagaatcaat cagaggttgg ctctgattca 420 atcagaactc aaaagttttg gtgtttggtt cgacatctga atgacatcta aatggggatt 480 tcaagctctt aactattcag ctttgaggag tcgctaaacc atttagagga tttctgatat 540 tacatgtaaa aattaagcaa agtcacgtgc atgtgtatat gaatgaattt catcaaagtc 600 gcgtgcaagt gtatatgtta tgtgaatggt cctgtatcta atatacaaac atatgtttac 660 atgcaatttc aaaaatgccc taacccacgt agtgacacaa aaaaaaaaaa aaaagtttgc 720 taacttatga aagttacttg gatgtataca atgcacgcac cacaaaagtc aatttaagac 780 aaattttgtg gaaactttag ccattttgtg tttattgttt attgtttatt ttcttgactt 840 tcaacatatt ttctcctata aatacccctc attgtctcat cttctcttca caaaccttgc 900 aacaagtgtt cttgagctta gttcagtaac taaaaaatgg ccaaaagtgc agttgctttc 960 tatgcttttc ttctgcttct ctttgttctt gctatctcag gttctcaatc aatcttattt 1020 acactcactt tgtgttcgta atattcagac ttttacacct taatgtcaca tattttgacc 1080 cttcggatga caattagttt agttaagtag accgtgacat taagctagca ctcatactta 1140 aataatgcag tgaaaagaag cattttataa gtatataaaa gtgatttaat tagcttttat 1200 ttcgtgcaga aactaatcat attcatcaca aaactgcatt cgttagacat tctagatttg 1260 tgtataacgt acttaacaca gtttaacgtg tacagaaatc ggatcggtga aaggagaatt 1320 atgtgagaag gcaagccaga catgtc 1346 10 225 PRT Vitis vinifera 10 Met Gly Leu Cys Lys Ile Leu Ser Ile Ser Ser Phe Leu Leu Thr Thr 1 5 10 15 Leu Phe Phe Thr Ser Ser Tyr Ala Ala Thr Phe Asn Ile Gln Asn His 20 25 30 Cys Ser Tyr Thr Val Trp Ala Ala Ala Val Pro Gly Gly Gly Met Gln 35 40 45 Leu Gly Ser Gly Gln Ser Trp Ser Leu Asn Val Asn Ala Gly Thr Thr 50 55 60 Gly Ala Arg Val Trp Gly Arg Thr Asn Cys Asn Phe Asp Ala Ser Gly 65 70 75 80 Asn Gly Lys Cys Glu Thr Gly Asp Cys Gly Gly Leu Leu Gln Cys Thr 85 90 95 Ala Tyr Gly Thr Pro Pro Asn Thr Leu Ala Glu Phe Ala Leu Asn Gln 100 105 110 Phe Ser Asn Leu Asp Phe Phe Asp Ile Ser Leu Val Asp Gly Phe Asn 115 120 125 Val Pro Met Ala Phe Asn Pro Thr Ser Asn Gly Cys Thr Arg Gly Ile 130 135 140 Ser Cys Thr Ala Asp Ile Val Gly Glu Cys Pro Ala Ala Leu Lys Thr 145 150 155 160 Thr Gly Gly Cys Asn Asn Pro Cys Thr Val Phe Lys Thr Asp Glu Tyr 165 170 175 Cys Cys Asn Ser Gly Ser Cys Asn Ala Thr Thr Tyr Ser Glu Phe Phe 180 185 190 Lys Thr Arg Cys Pro Asp Ala Tyr Ser Tyr Pro Lys Asp Asp Gln Thr 195 200 205 Ser Thr Phe Thr Cys Pro Ala Gly Thr Asn Tyr Glu Val Ile Phe Cys 210 215 220 Pro 225 11 222 PRT Vitis vinifera 11 Met Arg Phe Thr Thr Thr Leu Pro Ile Leu Ile Pro Leu Leu Leu Ser 1 5 10 15 Leu Leu Phe Thr Ser Thr His Ala Ala Thr Phe Asp Ile Leu Asn Lys 20 25 30 Cys Thr Tyr Thr Val Trp Ala Ala Ala Ser Pro Gly Gly Gly Arg Arg 35 40 45 Leu Asp Ser Gly Gln Ser Trp Thr Ile Thr Val Asn Pro Gly Thr Thr 50 55 60 Asn Ala Arg Ile Trp Gly Arg Thr Ser Cys Thr Phe Asp Ala Asn Gly 65 70 75 80 Arg Gly Lys Cys Glu Thr Gly Asp Cys Asn Gly Leu Leu Glu Cys Gln 85 90 95 Gly Tyr Gly Ser Pro Pro Asn Thr Leu Ala Glu Phe Ala Leu Asn Gln 100 105 110 Pro Asn Asn Leu Asp Tyr Ile Asp Ile Ser Leu Val Asp Gly Phe Asn 115 120 125 Ile Pro Met Asp Phe Ser Gly Cys Arg Gly Ile Gln Cys Ser Val Asp 130 135 140 Ile Asn Gly Gln Cys Pro Ser Glu Leu Lys Ala Pro Gly Gly Cys Asn 145 150 155 160 Asn Pro Cys Thr Val Phe Lys Thr Asn Glu Tyr Cys Cys Thr Asp Gly 165 170 175 Pro Gly Ser Cys Gly Pro Thr Thr Tyr Ser Lys Phe Phe Lys Asp Arg 180 185 190 Cys Pro Asp Ala Tyr Ser Tyr Pro Gln Asp Asp Lys Thr Ser Leu Phe 195 200 205 Thr Cys Pro Ser Gly Thr Asn Tyr Lys Val Thr Phe Cys Pro 210 215 220 12 202 PRT Glycine Max 12 Ala Arg Phe Glu Ile Thr Asn Arg Cys Thr Tyr Thr Val Trp Ala Ala 1 5 10 15 Ser Val Pro Val Gly Gly Gly Val Gln Leu Asn Pro Gly Gln Ser Trp 20 25 30 Ser Val Asp Val Pro Ala Gly Thr Lys Gly Ala Arg Val Trp Ala Arg 35 40 45 Thr Gly Cys Asn Phe Asp Gly Ser Gly Arg Gly Gly Cys Gln Thr Gly 50 55 60 Asp Cys Gly Gly Val Leu Asp Cys Lys Ala Tyr Gly Ala Pro Pro Asn 65 70 75 80 Thr Leu Ala Glu Tyr Gly Leu Asn Gly Phe Asn Asn Leu Asp Phe Phe 85 90 95 Asp Ile Ser Leu Val Asp Gly Phe Asn Val Pro Met Asp Phe Ser Pro 100 105 110 Thr Ser Asn Gly Cys Thr Arg Gly Ile Ser Cys Thr Ala Asp Ile Asn 115 120 125 Gly Gln Cys Pro Ser Glu Leu Lys Thr Gln Gly Gly Cys Asn Asn Pro 130 135 140 Cys Thr Val Phe Lys Thr Asp Gln Tyr Cys Cys Asn Ser Gly Ser Cys 145 150 155 160 Gly Pro Thr Asp Tyr Ser Arg Phe Phe Lys Gln Arg Cys Pro Asp Ala 165 170 175 Tyr Ser Tyr Pro Lys Asp Asp Pro Pro Ser Thr Phe Thr Cys Asn Gly 180 185 190 Gly Thr Asp Tyr Arg Val Val Phe Cys Pro 195 200 13 223 PRT Helainthus annuus 13 Met Thr Thr Ser Thr Leu Pro Thr Phe Leu Leu Leu Ala Ile Leu Phe 1 5 10 15 His Tyr Thr Asn Ala Ala Val Phe Thr Ile Arg Asn Asn Cys Pro Tyr 20 25 30 Thr Val Trp Ala Gly Ala Val Pro Gly Gly Gly Arg Gln Leu Asn Ser 35 40 45 Gly Gln Thr Trp Ser Leu Thr Val Ala Ala Gly Thr Ala Gly Ala Arg 50 55 60 Ile Trp Pro Arg Thr Asn Cys Asn Phe Asp Gly Ser Gly Arg Gly Arg 65 70 75 80 Cys Gln Thr Gly Asp Cys Asn Gly Leu Leu Gln Cys Gln Asn Tyr Gly 85 90 95 Thr Pro Pro Asn Thr Phe Gly Ser Glu Tyr Ala Leu Asn Gln Phe Asn 100 105 110 Asn Leu Asp Phe Phe Asp Ile Ser Leu Val Asp Gly Phe Asn Val Pro 115 120 125 Met Val Phe Arg Pro Asn Ser Asn Gly Cys Thr Arg Gly Ile Ser Cys 130 135 140 Thr Ala Asp Ile Asn Gly Gln Cys Pro Gly Glu Leu Arg Ala Pro Gly 145 150 155 160 Gly Cys Asn Asn Pro Cys Thr Val Tyr Lys Thr Asp Gln Tyr Cys Cys 165 170 175 Asn Ser Gly Asn Cys Gly Pro Thr Asp Leu Ser Arg Phe Phe Lys Thr 180 185 190 Arg Cys Pro Asp Ala Tyr Ser Tyr Pro Lys Asp Asp Pro Thr Ser Thr 195 200 205 Phe Thr Cys Pro Gly Gly Thr Asn Tyr Asp Val Ile Phe Cys Pro 210 215 220 14 238 PRT Lycopersicon esculentum 14 Phe Phe Phe Leu Leu Ala Phe Val Thr Tyr Thr Tyr Ala Ala Thr Phe 1 5 10 15 Glu Val Arg Asn Asn Cys Pro Tyr Thr Val Trp Ala Ala Ser Thr Pro 20 25 30 Ile Gly Gly Gly Arg Arg Leu Asp Arg Gly Gln Thr Trp Val Ile Asn 35 40 45 Ala Pro Arg Gly Thr Lys Met Ala Arg Ile Trp Gly Arg Thr Asn Cys 50 55 60 Asn Phe Asp Gly Asp Gly Arg Gly Ser Cys Gln Thr Gly Asp Cys Gly 65 70 75 80 Gly Val Leu Gln Cys Thr Gly Trp Gly Lys Pro Pro Asn Thr Leu Ala 85 90 95 Glu Tyr Ala Leu Asp Gln Phe Ser Asn Leu Asp Phe Trp Asp Ile Ser 100 105 110 Leu Val Asp Gly Phe Asn Ile Pro Met Thr Phe Ala Pro Thr Asn Pro 115 120 125 Ser Gly Gly Lys Cys His Ala Ile His Cys Thr Ala Asn Ile Asn Gly 130 135 140 Glu Cys Pro Gly Ser Leu Arg Val Pro Gly Gly Cys Asn Asn Pro Cys 145 150 155 160 Thr Thr Phe Gly Gly Gln Gln Tyr Cys Cys Thr Gln Gly Pro Cys Gly 165 170 175 Pro Thr Asp Leu Ser Arg Phe Phe Lys Gln Arg Cys Pro Asp Ala Tyr 180 185 190 Ser Tyr Pro Gln Asp Asp Pro Thr Ser Thr Phe Thr Cys Pro Ser Gly 195 200 205 Ser Thr Asn Tyr Arg Val Val Phe Cys Pro Asn Gly Val Thr Ser Pro 210 215 220 Asn Phe Pro Leu Glu Met Pro Ser Ser Asp Glu Glu Ala Lys 225 230 235 15 246 PRT Solanum commersonii 15 Met Ala Tyr Leu Arg Ser Ser Phe Val Phe Phe Leu Leu Ala Phe Val 1 5 10 15 Thr Tyr Thr Tyr Ala Ala Thr Ile Glu Val Arg Asn Asn Cys Pro Tyr 20 25 30 Thr Val Trp Ala Ala Ser Thr Pro Ile Gly Gly Gly Arg Arg Leu Asp 35 40 45 Arg Gly Gln Thr Trp Val Ile Asn Ala Pro Arg Gly Thr Lys Met Ala 50 55 60 Arg Ile Trp Gly Arg Thr Asn Cys Asn Phe Asp Gly Ala Gly Arg Gly 65 70 75 80 Ser Cys Gln Thr Gly Asp Cys Gly Gly Val Leu Gln Cys Thr Gly Trp 85 90 95 Gly Lys Pro Pro Asn Thr Leu Ala Glu Tyr Ala Leu Asp Gln Phe Ser 100 105 110 Asn Leu Asp Phe Trp Asp Ile Ser Leu Val Asp Gly Phe Asn Ile Pro 115 120 125 Met Thr Phe Ala Pro Thr Asn Pro Ser Gly Gly Lys Cys His Ala Ile 130 135 140 His Cys Thr Ala Asn Ile Asn Gly Glu Cys Pro Gly Ser Leu Arg Val 145 150 155 160 Pro Gly Gly Cys Asn Asn Pro Cys Thr Thr Phe Gly Gly Gln Gln Tyr 165 170 175 Cys Cys Thr Gln Gly Pro Cys Gly Pro Thr Asp Leu Ser Arg Phe Phe 180 185 190 Lys Gln Arg Cys Pro Asp Ala Tyr Ser Tyr Pro Gln Asp Asp Pro Thr 195 200 205 Ser Thr Phe Thr Cys Pro Ser Gly Ser Thr Asn Tyr Arg Val Val Phe 210 215 220 Cys Pro Asn Gly Val Thr Ser Pro Asn Phe Pro Leu Glu Met Pro Ala 225 230 235 240 Ser Asp Glu Glu Ala Lys 245 16 529 PRT Helianthus annuus 16 Met Glu Thr Ser Ile Leu Thr Leu Leu Leu Leu Leu Leu Ser Thr Gln 1 5 10 15 Ser Ser Ala Thr Ser Arg Ser Ile Thr Asp Arg Phe Ile Gln Cys Leu 20 25 30 His Asp Arg Ala Asp Pro Ser Phe Pro Ile Thr Gly Glu Val Tyr Thr 35 40 45 Pro Gly Asn Ser Ser Phe Pro Thr Val Leu Gln Asn Tyr Ile Arg Asn 50 55 60 Leu Arg Phe Asn Glu Thr Thr Thr Pro Lys Pro Phe Leu Ile Ile Thr 65 70 75 80 Ala Glu His Val Ser His Ile Gln Ala Ala Val Val Cys Gly Lys Gln 85 90 95 Asn Arg Leu Leu Leu Lys Thr Arg Ser Gly Gly His Asp Tyr Glu Gly 100 105 110 Leu Ser Tyr Leu Thr Asn Thr Asn Gln Pro Phe Phe Ile Val Asp Met 115 120 125 Phe Asn Leu Arg Ser Ile Asn Val Asp Ile Glu Gln Glu Thr Ala Trp 130 135 140 Val Gln Ala Gly Ala Thr Leu Gly Glu Val Tyr Tyr Arg Ile Ala Glu 145 150 155 160 Lys Ser Asn Lys His Gly Phe Pro Ala Gly Val Cys Pro Thr Val Gly 165 170 175 Val Gly Gly His Phe Ser Gly Gly Gly Tyr Gly Asn Leu Met Arg Lys 180 185 190 Tyr Gly Leu Ser Val Asp Asn Ile Val Asp Ala Gln Ile Ile Asp Val 195 200 205 Asn Gly Lys Leu Leu Asp Arg Lys Ser Met Gly Glu Asp Leu Phe Trp 210 215 220 Ala Tyr Thr Gly Gly Gly Gly Val Ser Phe Gly Val Val Leu Ala Tyr 225 230 235 240 Lys Ile Lys Leu Val Arg Val Pro Glu Val Val Thr Val Phe Thr Ile 245 250 255 Glu Arg Arg Glu Glu Gln Asn Leu Ser Thr Ile Ala Glu Arg Trp Val 260 265 270 Gln Val Ala Asp Lys Leu Asp Arg Asp Leu Phe Leu Arg Met Thr Phe 275 280 285 Ser Val Ile Asn Asp Thr Asn Gly Gly Lys Thr Val Arg Ala Ile Phe 290 295 300 Pro Thr Leu Tyr Leu Gly Asn Ser Arg Asn Leu Val Thr Leu Leu Asn 305 310 315 320 Lys Asp Phe Pro Glu Leu Gly Leu Gln Glu Ser Asp Cys Thr Glu Met 325 330 335 Ser Trp Val Glu Ser Val Leu Tyr Tyr Thr Gly Phe Pro Ser Gly Thr 340 345 350 Pro Thr Thr Ala Leu Leu Ser Arg Thr Pro Gln Arg Leu Asn Pro Phe 355 360 365 Lys Ile Lys Ser Asp Tyr Val Gln Asn Pro Ile Ser Lys Arg Gln Phe 370 375 380 Glu Phe Ile Phe Glu Arg Met Lys Glu Leu Glu Asn Gln Met Leu Ala 385 390 395 400 Phe Asn Pro Tyr Gly Gly Arg Met Ser Glu Ile Ser Glu Phe Ala Lys 405 410 415 Pro Phe Pro His Arg Ser Gly Asn Ile Ala Lys Ile Gln Tyr Glu Val 420 425 430 Asn Trp Glu Asp Leu Ser Asp Glu Ala Glu Asn Arg Tyr Leu Asn Phe 435 440 445 Thr Arg Leu Met Tyr Asp Tyr Met Thr Pro Phe Val Ser Lys Asn Pro 450 455 460 Arg Glu Ala Phe Leu Asn Tyr Arg Asp Leu Asp Ile Gly Ile Asn Ser 465 470 475 480 His Gly Arg Asn Ala Tyr Thr Glu Gly Met Val Tyr Gly His Lys Tyr 485 490 495 Phe Lys Glu Thr Asn Tyr Lys Arg Leu Val Ser Val Lys Thr Lys Val 500 505 510 Asp Pro Asp Asn Phe Phe Arg Asn Glu Gln Ser Ile Pro Thr Leu Ser 515 520 525 Ser 17 529 PRT Healianthus annuus 17 Met Gln Thr Ser Ile Leu Thr Leu Leu Leu Leu Leu Leu Ser Thr Gln 1 5 10 15 Ser Ser Ala Thr Ser Arg Ser Ile Thr Asp Arg Phe Ile Gln Cys Leu 20 25 30 His Asp Arg Ala Asp Pro Ser Phe Pro Ile Thr Gly Glu Val Tyr Thr 35 40 45 Pro Gly Asn Ser Ser Phe Pro Thr Val Leu Gln Asn Tyr Ile Arg Asn 50 55 60 Leu Arg Phe Asn Glu Thr Thr Thr Pro Lys Pro Phe Leu Ile Ile Thr 65 70 75 80 Ala Glu His Val Ser His Ile Gln Ala Ala Val Val Cys Gly Lys Gln 85 90 95 Asn Arg Leu Leu Leu Lys Thr Arg Ser Gly Gly His Asp Tyr Glu Gly 100 105 110 Leu Ser Tyr Leu Thr Asn Thr Asn Gln Pro Phe Phe Ile Val Asp Met 115 120 125 Phe Asn Leu Arg Ser Ile Asn Ile Asp Ile Glu Gln Glu Thr Ala Trp 130 135 140 Val Gln Ala Gly Ala Thr Leu Gly Glu Val Tyr Tyr Arg Ile Ala Glu 145 150 155 160 Lys Ser Asn Lys His Gly Phe Pro Ala Gly Val Cys Pro Thr Val Gly 165 170 175 Val Gly Gly His Phe Ser Gly Gly Gly Tyr Gly Asn Leu Met Arg Lys 180 185 190 Tyr Gly Leu Ser Val Asp Asn Ile Val Asp Ala Gln Ile Ile Asp Val 195 200 205 Asn Gly Lys Leu Leu Asp Arg Lys Ser Met Gly Glu Asp Leu Phe Trp 210 215 220 Ala Ile Thr Gly Gly Gly Gly Val Ser Phe Gly Val Val Leu Ala Tyr 225 230 235 240 Lys Ile Lys Leu Val Arg Val Pro Glu Val Val Thr Val Phe Thr Ile 245 250 255 Glu Arg Arg Glu Glu Gln Asn Leu Ser Thr Ile Ala Glu Arg Trp Val 260 265 270 Gln Val Ala Asp Lys Leu Asp Arg Asp Leu Phe Leu Arg Met Thr Phe 275 280 285 Ser Val Ile Asn Asp Thr Asn Gly Gly Lys Thr Val Arg Ala Ile Phe 290 295 300 Pro Thr Leu Tyr Leu Gly Asn Ser Arg Asn Leu Val Thr Leu Leu Asn 305 310 315 320 Lys Asp Phe Pro Glu Leu Gly Leu Gln Glu Ser Asp Cys Thr Glu Met 325 330 335 Ser Trp Val Glu Ser Val Leu Tyr Tyr Thr Gly Phe Pro Ser Gly Thr 340 345 350 Pro Thr Thr Ala Leu Leu Ser Arg Thr Pro Gln Arg Leu Asn Pro Phe 355 360 365 Lys Ile Lys Ser Asp Tyr Val Gln Asn Pro Ile Ser Lys Arg Gln Phe 370 375 380 Glu Phe Ile Phe Glu Arg Leu Lys Glu Leu Glu Asn Gln Met Leu Ala 385 390 395 400 Phe Asn Pro Tyr Gly Gly Arg Met Ser Glu Ile Ser Glu Phe Ala Lys 405 410 415 Pro Phe Pro His Arg Ser Gly Asn Ile Ala Lys Ile Gln Tyr Glu Val 420 425 430 Asn Trp Glu Asp Leu Ser Asp Glu Ala Glu Asn Arg Tyr Leu Asn Phe 435 440 445 Thr Arg Leu Met Tyr Asp Tyr Met Thr Pro Phe Val Ser Lys Asn Pro 450 455 460 Arg Lys Ala Phe Leu Asn Tyr Arg Asp Leu Asp Ile Gly Ile Asn Ser 465 470 475 480 His Gly Arg Asn Ala Tyr Thr Glu Gly Met Val Tyr Gly His Lys Tyr 485 490 495 Phe Lys Glu Thr Asn Tyr Lys Arg Leu Val Ser Val Lys Thr Lys Val 500 505 510 Asp Pro Asp Asn Phe Phe Arg Asn Glu Gln Ser Ile Pro Thr Leu Ser 515 520 525 Ser 18 535 PRT Papaver somniferum 18 Met Met Cys Arg Ser Leu Thr Leu Arg Phe Phe Leu Phe Ile Val Leu 1 5 10 15 Leu Gln Thr Cys Val Arg Gly Gly Asp Val Asn Asp Asn Leu Leu Ser 20 25 30 Ser Cys Leu Asn Ser His Gly Val His Asn Phe Thr Thr Leu Ser Thr 35 40 45 Asp Thr Asn Ser Asp Tyr Phe Lys Leu Leu His Ala Ser Met Gln Asn 50 55 60 Pro Leu Phe Ala Lys Pro Thr Val Ser Lys Pro Ser Phe Ile Val Met 65 70 75 80 Pro Gly Ser Lys Glu Glu Leu Ser Ser Thr Val His Cys Cys Thr Arg 85 90 95 Glu Ser Trp Thr Ile Arg Leu Arg Ser Gly Gly His Ser Tyr Glu Gly 100 105 110 Leu Ser Tyr Thr Ala Asp Thr Pro Phe Val Ile Val Asp Met Met Asn 115 120 125 Leu Asn Arg Ile Ser Ile Asp Val Leu Ser Glu Thr Ala Trp Val Glu 130 135 140 Ser Gly Ala Thr Leu Gly Glu Leu Tyr Tyr Ala Ile Ala Gln Ser Thr 145 150 155 160 Asp Thr Leu Gly Phe Thr Ala Gly Trp Cys Pro Thr Val Gly Ser Gly 165 170 175 Gly His Ile Ser Gly Gly Gly Phe Gly Met Met Ser Arg Lys Tyr Gly 180 185 190 Leu Ala Ala Asp Asn Val Val Asp Ala Ile Leu Ile Asp Ser Asn Gly 195 200 205 Ala Ile Leu Asp Arg Glu Lys Met Gly Asp Asp Val Phe Trp Ala Ile 210 215 220 Arg Gly Gly Gly Gly Gly Val Trp Gly Ala Ile Tyr Ala Trp Lys Ile 225 230 235 240 Lys Leu Leu Pro Val Pro Glu Lys Leu Thr Val Phe Arg Val Thr Lys 245 250 255 Asn Val Gly Ile Glu Asp Ala Ser Ser Leu Leu His Lys Trp Gln Tyr 260 265 270 Val Ala Asp Glu Leu Asp Glu Asp Phe Thr Val Ser Val Leu Gly Gly 275 280 285 Val Asn Gly Asn Asp Ala Trp Leu Met Phe Leu Gly Leu His Leu Gly 290 295 300 Arg Lys Asp Ala Ala Lys Thr Ile Ile Asp Glu Lys Phe Pro Glu Leu 305 310 315 320 Gly Leu Val Asp Lys Glu Phe Gln Glu Met Ser Trp Gly Glu Ser Met 325 330 335 Ala Phe Leu Ser Gly Leu Asp Thr Ile Ser Glu Leu Asn Asn Arg Phe 340 345 350 Leu Lys Phe Asp Glu Arg Ala Phe Lys Thr Lys Val Asp Phe Thr Lys 355 360 365 Val Ser Val Pro Leu Asn Val Phe Arg His Ala Leu Glu Met Leu Ser 370 375 380 Glu Gln Pro Gly Gly Phe Ile Ala Leu Asn Gly Phe Gly Gly Lys Met 385 390 395 400 Ser Glu Ile Ser Thr Asp Phe Thr Pro Phe Pro His Arg Lys Gly Thr 405 410 415 Lys Leu Met Phe Glu Tyr Ile Ile Ala Trp Asn Gln Asp Glu Glu Ser 420 425 430 Lys Ile Gly Glu Phe Ser Glu Trp Leu Ala Lys Phe Tyr Asp Tyr Leu 435 440 445 Glu Pro Phe Val Ser Lys Glu Pro Arg Val Gly Tyr Val Asn His Ile 450 455 460 Asp Leu Asp Ile Gly Gly Ile Asp Trp Arg Asn Lys Ser Ser Thr Thr 465 470 475 480 Asn Ala Val Glu Ile Ala Arg Asn Trp Gly Glu Arg Tyr Phe Ser Ser 485 490 495 Asn Tyr Glu Arg Leu Val Lys Ala Lys Thr Leu Ile Asp Pro Asn Asn 500 505 510 Val Phe Asn His Pro Gln Ser Ile Pro Pro Met Met Lys Phe Glu Glu 515 520 525 Ile Tyr Met Leu Lys Glu Leu 530 535 19 538 PRT Eschscholzia californica 19 Met Glu Asn Lys Thr Pro Ile Phe Phe Ser Leu Ser Ile Phe Leu Ser 1 5 10 15 Leu Leu Asn Cys Ala Leu Gly Gly Asn Asp Leu Leu Ser Cys Leu Thr 20 25 30 Phe Asn Gly Val Arg Asn His Thr Val Phe Ser Ala Asp Ser Asp Ser 35 40 45 Asp Phe Asn Arg Phe Leu His Leu Ser Ile Gln Asn Pro Leu Phe Gln 50 55 60 Asn Ser Leu Ile Ser Lys Pro Ser Ala Ile Ile Leu Pro Gly Ser Lys 65 70 75 80 Glu Glu Leu Ser Asn Thr Ile Arg Cys Ile Arg Lys Gly Ser Trp Thr 85 90 95 Ile Arg Leu Arg Ser Gly Gly His Ser Tyr Glu Gly Leu Ser Tyr Thr 100 105 110 Ser Asp Thr Pro Phe Ile Leu Ile Asp Leu Met Asn Leu Asn Arg Val 115 120 125 Ser Ile Asp Leu Glu Ser Glu Thr Ala Trp Val Glu Ser Gly Ser Thr 130 135 140 Leu Gly Glu Leu Tyr Tyr Ala Ile Thr Glu Ser Ser Ser Lys Leu Gly 145 150 155 160 Phe Thr Ala Gly Trp Cys Pro Thr Val Gly Thr Gly Gly His Ile Ser 165 170 175 Gly Gly Gly Phe Gly Met Met Ser Arg Lys Tyr Gly Leu Ala Ala Asp 180 185 190 Asn Val Val Asp Ala Ile Leu Ile Asp Ala Asn Gly Ala Ile Leu Asp 195 200 205 Arg Gln Ala Met Gly Glu Asp Val Phe Trp Ala Ile Arg Gly Gly Gly 210 215 220 Gly Gly Val Trp Gly Ala Ile Tyr Ala Trp Lys Ile Lys Leu Leu Pro 225 230 235 240 Val Pro Glu Lys Val Thr Val Phe Arg Val Thr Lys Asn Val Ala Ile 245 250 255 Asp Glu Ala Thr Ser Leu Leu His Lys Trp Gln Phe Val Ala Glu Glu 260 265 270 Leu Glu Glu Asp Phe Thr Leu Ser Val Leu Gly Gly Ala Asp Glu Lys 275 280 285 Gln Val Trp Leu Thr Met Leu Gly Phe His Phe Gly Leu Lys Thr Val 290 295 300 Ala Lys Ser Thr Phe Asp Leu Leu Phe Pro Glu Leu Gly Leu Val Glu 305 310 315 320 Glu Asp Tyr Leu Glu Met Ser Trp Gly Glu Ser Phe Ala Tyr Leu Ala 325 330 335 Gly Leu Glu Thr Val Ser Gln Leu Asn Asn Arg Phe Leu Lys Phe Asp 340 345 350 Glu Arg Ala Phe Lys Thr Lys Val Asp Leu Thr Lys Glu Pro Leu Pro 355 360 365 Ser Lys Ala Phe Tyr Gly Leu Leu Glu Arg Leu Ser Lys Glu Pro Asn 370 375 380 Gly Phe Ile Ala Leu Asn Gly Phe Gly Gly Gln Met Ser Lys Ile Ser 385 390 395 400 Ser Asp Phe Thr Pro Phe Pro His Arg Ser Gly Thr Arg Leu Met Val 405 410 415 Glu Tyr Ile Val Ala Trp Asn Gln Ser Glu Gln Lys Lys Lys Thr Glu 420 425 430 Phe Leu Asp Trp Leu Glu Lys Val Tyr Glu Phe Met Lys Pro Phe Val 435 440 445 Ser Lys Asn Pro Arg Leu Gly Tyr Val Asn His Ile Asp Leu Asp Leu 450 455 460 Gly Gly Ile Asp Trp Gly Asn Lys Thr Val Val Asn Asn Ala Ile Glu 465 470 475 480 Ile Ser Arg Ser Trp Gly Glu Ser Tyr Phe Leu Ser Asn Tyr Glu Arg 485 490 495 Leu Ile Arg Ala Lys Thr Leu Ile Asp Pro Asn Asn Val Phe Asn His 500 505 510 Pro Gln Ser Ile Pro Pro Met Ala Asn Phe Asp Tyr Leu Glu Lys Thr 515 520 525 Leu Gly Ser Asp Gly Gly Glu Val Val Ile 530 535 20 542 PRT Helianthus annuus 20 Met Asn Asn Ser Arg Ser Val Phe Leu Leu Val Leu Ala Leu Ser Phe 1 5 10 15 Cys Val Ser Phe Gly Ala Leu Ser Ser Ile Phe Asp Val Thr Ser Thr 20 25 30 Ser Glu Asp Phe Ile Thr Cys Leu Gln Ser Asn Ser Asn Asn Val Thr 35 40 45 Thr Ile Ser Gln Leu Val Phe Thr Pro Ala Asn Thr Ser Tyr Ile Pro 50 55 60 Ile Trp Gln Ala Ala Ala Asp Pro Ile Arg Phe Asn Lys Ser Tyr Ile 65 70 75 80 Pro Lys Pro Ser Val Ile Val Thr Pro Thr Asp Glu Thr Gln Ile Gln 85 90 95 Thr Ala Leu Leu Cys Ala Lys Lys His Gly Tyr Glu Phe Arg Ile Arg 100 105 110 Asp Gly Gly His Asp Phe Glu Gly Asn Ser Tyr Thr Ala Asn Ala Pro 115 120 125 Phe Val Met Leu Asp Leu Val Asn Met Arg Ala Ile Glu Ile Asn Val 130 135 140 Glu Asn Arg Thr Ala Leu Val Gln Gly Gly Ala Leu Leu Gly Glu Leu 145 150 155 160 Tyr Tyr Thr Ile Ser Gln Lys Thr Asp Thr Leu Tyr Phe Pro Ala Gly 165 170 175 Ile Trp Ala Gly Val Gly Val Ser Gly Phe Leu Ser Gly Gly Gly Tyr 180 185 190 Gly Asn Leu Leu Arg Lys Tyr Gly Leu Gly Ala Asp Asn Val Leu Asp 195 200 205 Ile Arg Phe Met Asp Val Asn Gly Asn Ile Leu Asp Arg Lys Ser Met 210 215 220 Gly Glu Asp Leu Phe Trp Ala Leu Arg Gly Gly Gly Ala Ser Ser Phe 225 230 235 240 Gly Ile Val Leu Gln Trp Lys Leu Asn Leu Val Pro Val Pro Glu Arg 245 250 255 Val Thr Leu Phe Ser Val Ser Tyr Thr Leu Glu Gln Gly Ala Thr Asp 260 265 270 Ile Phe His Lys Tyr Gln Tyr Val Leu Pro Lys Phe Asp Arg Asp Leu 275 280 285 Leu Ile Arg Val Gln Leu Asn Thr Glu Tyr Ile Gly Asn Thr Thr Gln 290 295 300 Lys Thr Val Arg Ile Leu Phe His Gly Ile Tyr Gln Gly Asn Ile Asp 305 310 315 320 Thr Leu Leu Pro Leu Leu Asn Gln Ser Phe Pro Glu Leu Asn Val Thr 325 330 335 Arg Glu Val Cys Gln Glu Val Arg Met Val Gln Thr Thr Leu Glu Phe 340 345 350 Gly Gly Phe Asn Ile Ser Thr Pro Thr Ser Val Leu Ala Asn Arg Ser 355 360 365 Ala Ile Pro Lys Leu Ser Phe Lys Gly Lys Ser Asp Tyr Val Arg Thr 370 375 380 Pro Ile Pro Arg Ser Gly Leu Arg Lys Leu Trp Arg Lys Met Phe Glu 385 390 395 400 Asn Asp Asn Ser Gln Thr Leu Phe Met Tyr Thr Phe Gly Gly Lys Met 405 410 415 Glu Glu Tyr Ser Asp Thr Ala Ile Pro Tyr Pro His Arg Ala Gly Val 420 425 430 Leu Tyr Gln Val Phe Lys Arg Val Asp Phe Val Asp Gln Pro Ser Asp 435 440 445 Lys Thr Leu Ile Ser Leu Arg Arg Leu Ala Trp Leu Arg Ser Phe Asp 450 455 460 Lys Thr Leu Glu Pro Tyr Val Thr Ser Asn Pro Arg Glu Ala Tyr Met 465 470 475 480 Asn Tyr Asn Asp Leu Asp Leu Gly Phe Asp Ser Ala Ala Tyr Glu Glu 485 490 495 Ala Ser Glu Trp Gly Glu Arg Tyr Trp Lys Arg Glu Asn Phe Lys Lys 500 505 510 Leu Ile Arg Ile Lys Ala Lys Val Asp Pro Glu Asn Phe Phe Arg His 515 520 525 Pro Gln Ser Ile Pro Val Phe Ser Arg Pro Leu Ser Asp Met 530 535 540 21 80 PRT Raphanus sativus 21 Met Ala Lys Phe Ala Ser Ile Ile Val Leu Leu Phe Val Ala Leu Val 1 5 10 15 Val Phe Ala Ala Phe Glu Glu Pro Thr Met Val Glu Ala Gln Lys Leu 20 25 30 Cys Gln Arg Pro Ser Gly Thr Trp Ser Gly Val Cys Gly Asn Asn Asn 35 40 45 Ala Cys Lys Asn Gln Cys Ile Arg Leu Glu Lys Ala Arg His Gly Ser 50 55 60 Cys Asn Tyr Val Phe Pro Ala His Lys Cys Ile Cys Tyr Phe Pro Cys 65 70 75 80 22 51 PRT Sinapis alba 22 Gln Lys Leu Cys Glu Arg Pro Ser Gly Thr Trp Ser Gly Val Cys Gly 1 5 10 15 Asn Asn Asn Ala Cys Lys Asn Gln Cys Ile Asn Leu Glu Lys Ala Arg 20 25 30 His Gly Ser Cys Asn Tyr Val Phe Pro Ala His Lys Cys Ile Cys Tyr 35 40 45 Phe Pro Cys 50 23 80 PRT Arabidopsis thaliana 23 Met Ala Lys Ser Ala Thr Ile Val Thr Leu Phe Phe Ala Ala Leu Val 1 5 10 15 Phe Phe Ala Ala Leu Glu Ala Pro Met Val Val Glu Ala Gln Lys Leu 20 25 30 Cys Glu Arg Pro Ser Gly Thr Trp Ser Gly Val Cys Gly Asn Ser Asn 35 40 45 Ala Cys Lys Asn Gln Cys Ile Asn Leu Glu Lys Ala Arg His Gly Ser 50 55 60 Cys Asn Tyr Val Phe Pro Ala His Lys Cys Ile Cys Tyr Phe Pro Cys 65 70 75 80 24 108 PRT Helianthus annuus 24 Met Ala Lys Ile Ser Val Ala Phe Asn Ala Phe Leu Leu Leu Leu Phe 1 5 10 15 Val Leu Ala Ile Ser Glu Ile Gly Ser Val Lys Gly Glu Leu Cys Glu 20 25 30 Lys Ala Ser Gln Thr Trp Ser Gly Thr Cys Gly Lys Thr Lys His Cys 35 40 45 Asp Asp Gln Cys Lys Ser Trp Glu Gly Ala Ala His Gly Ala Cys His 50 55 60 Val Arg Asp Gly Lys His Met Cys Phe Cys Tyr Phe Asn Cys Ser Lys 65 70 75 80 Ala Gln Lys Leu Ala Gln Asp Lys Leu Arg Ala Glu Glu Leu Ala Lys 85 90 95 Glu Lys Ile Glu Pro Glu Lys Ala Thr Ala Lys Pro 100 105 25 100 PRT Pisum Sativum 25 Met Glu Lys Lys Ser Leu Ala Ala Leu Ser Phe Leu Leu Leu Leu Val 1 5 10 15 Leu Phe Val Ala Gln Glu Ile Val Val Thr Glu Ala Asn Thr Cys Glu 20 25 30 His Leu Ala Asp Thr Tyr Arg Gly Val Cys Phe Thr Asn Ala Ser Cys 35 40 45 Asp Asp His Cys Lys Asn Lys Ala His Leu Ile Ser Gly Thr Cys His 50 55 60 Asp Trp Lys Cys Phe Cys Thr Gln Asn Cys Glu Arg Arg Arg Asn Lys 65 70 75 80 Asn Trp Asn Asp Cys Met Glu Asn Thr Pro Arg Pro Glu Arg Thr Tyr 85 90 95 Asn Ala Met Glu 100 26 26 DNA Artificial Sequence PCR primer corresponding to vector sequence 26 gcgattaagt tgggtaacgc cagggt 26 27 26 DNA Artificial Sequence PCR primer corresponding to vector sequence 27 tccggctcgt atgttgtgtg gaattg 26 28 230 DNA Helianthus annuus misc_feature (1)...(230) n = A,T,C or G 28 tgatcagttt tgtacacggt gcaagggtta ttgcacccgc cagagcccgt aactcnccag 60 gacactggcc attgatatcc gcagtacatg agataccccg ggtgcaccca ttagaattgg 120 gtctaaacac catcggcaca ttgaatccgt ccacaagaga aatgtcaaag aaatcaagat 180 tgttgaactg gttccaagcg tactcggccc atgtgtttgg gtggggtacc 230 29 20 DNA Helianthus annuus 29 ccgagtacgc tttaaccagt 20 30 21 DNA Helainthus annuus 30 tccgcagtac atgagatacc c 21 31 29 DNA Helianthus annuus 31 acaatgacaa cctccaccct tcccacttt 29 32 112 DNA Helianthus annuus 32 tccggaccat gtctggcttg ccttctcaca taattctcct ttcaccgatc cgatttctga 60 gatagcaaga acaaagagaa gcagaagaaa agcattgaaa gcaactgaaa tt 112 33 26 DNA Helianthus annuus 33 gaccatgtct ggcttgcctt ctcaca 26 34 35 DNA Helianthus annuus 34 gagcttgagc ttagttcagt aacttaaaaa tggcc 35 35 163 DNA Helianthus annuus 35 tgtacacatt tggtgggaag atggaggagt actcagatac agcaattccg tatccccata 60 gagctggggt gttgtaccaa gtgttcaaga gggtggactt cgtggatcag ccttcggaca 120 agaccttgat atcactcaga cggttggctt ggctccgaag ctt 163 36 24 DNA Helianthus annuus 36 ccaaccgtct gagtgatatc aagg 24 37 24 DNA Helianthus annuus 37 gggaagatgg aggagtactc agat 24 38 29 DNA Helianthus annuus 38 cggcacgagt aactctcgtt cagtgttcc 29 39 22 DNA Artificial Sequence PCR primer corresponding to vector sequence 39 gtaatacgac tcactatagg gc 22 40 26 DNA Helianthus annuus 40 cgaatagtga acacggctgc attggt 26 41 26 DNA Helianthus annuus 41 gctgcagctt gccaaatggg tatgta 26
Claims (21)
1. A method for increasing resistance of a plant to at least one pathogen, said method comprising transforming said plant with a DNA construct comprising a nucleotide sequence that encodes a protein having anti-pathogenic activity, wherein said nucleotide sequence is selected from the group consisting of:
a) a nucleotide sequence encoding the amino acid sequence of SEQ ID NO:3;
b) the nucleotide sequence set forth in SEQ ID NO: 6;
c) a nucleotide sequence that shares at least 80% identity to the sequence of SEQ ID NO:6; and,
d) the defensin nucleotide sequence contained in a plasmid deposited as Patent Deposit No. PTA-75; and,
e) a nucleotide sequence that hybridizes to the complement of any one of a)-d) under highly stringent conditions, wherein said highly stringent conditions comprise hybridization in 50% formamide, 1M NaCl, 1% sodium dodecyl sulphate at 37° C. for at least 4 hours, and a wash in 0.1×SSC at 60° C. for at least 30 minutes; wherein said nucleotide sequence is operably linked to a promoter that drives expression of a coding sequence in a plant cell; and regenerating stably transformed plants with increased resistance to at least one pathogen.
2. The method of claim 1 , wherein said pathogen is a fungal pathogen.
3. The method of claim 1 , wherein said plant is a dicot.
4. The method of claim 1 , wherein said plant is a monocot.
5. The method of claim 1 , wherein said promoter is a constitutive promoter.
6. The method of claim 5 , wherein said constitutive promoter is selected from the scp1 or ucp promoter.
7. The method of claim 1 , wherein said promoter is an inducible promoter.
8. The method of claim 7 , wherein said promoter is a pathogen-inducible promoter.
9. A plant having stably incorporated into its genome a DNA construct comprising a nucleotide sequence that encodes a protein having anti-pathogenic activity, wherein said nucleotide sequence is selected from the group consisting of:
a) a nucleotide sequence encoding the amino acid sequence of SEQ ID NO:3;
b) the nucleotide sequence set forth in SEQ ID NO: 6;
c) a nucleotide sequence that shares at least 80% identity to the sequence of SEQ ID NO:6;
d) the defensin nucleotide sequence contained in a plasmid deposited as Patent Deposit No. PTA-75; and,
e) a nucleotide sequence that hybridizes to the complement of any one of a)-d) under highly stringent conditions, wherein said highly stringent conditions comprise hybridization in 50% formamide, 1M NaCl, 1% sodium dodecyl sulphate at 37° C. for at least 4 hours, and a wash in 0.1×SSC at 60° C. for at least 30 minutes; wherein said nucleotide sequence is operably linked to a promoter that drives expression of a coding sequence in a plant cell.
10. The transformed seed of the plant according to claim 9 , wherein said seed comprises said DNA construct.
11. A plant cell having stably incorporated into its genome a DNA construct comprising a nucleotide sequence that encodes a protein having anti-pathogenic activity, wherein said nucleotide sequence is selected from the group consisting of:
a) a nucleotide sequence encoding the amino acid sequence of SEQ ID NO:3;
b) the nucleotide sequence set forth in SEQ ID NO:6;
c) a nucleotide sequence that shares at least 80% identity to the sequence of SEQ ID NO:6;
d) the defensin nucleotide sequence contained in a plasmid deposited as Patent Deposit No. PTA-75; and,
e) a nucleotide sequence that hybridizes to the complement of any one of a)-d) under highly stringent conditions, wherein said highly stringent conditions comprise hybridization in 50% formamide, 1M NaCl, 1% sodium dodecyl sulphate at 37° C. for at least 4 hours, and a wash in 0.1×SSC at 60° C. for at least 30 minutes; wherein said nucleotide sequence is operably linked to a promoter that drives expression of a coding sequence in a plant cell.
12. An isolated nucleic acid molecule having a nucleotide sequence that encodes a protein having anti-pathogenic activity, wherein said nucleotide sequence is selected from the group consisting of:
a) a nucleotide sequence encoding the amino acid sequence of SEQ ID NO:3;
b) the nucleotide sequence set forth in SEQ ID NO:6;
c) a nucleotide sequence that shares at least 80% identity to the sequence of SEQ ID NO:6;
d) the defensin nucleotide sequence contained in a plasmid deposited as Patent Deposit No. PTA-75; and,
e) a nucleotide sequence that hybridizes to the complement of any one of a)-d) under highly stringent conditions, wherein said highly stringent conditions comprise hybridization in 50% formamide, 1M NaCl, 1% sodium dodecyl sulphate at 37° C. for at least 4 hours, and a wash in 0.1×SSC at 60° C. for at least 30 minutes.
13. A DNA construct comprising a nucleotide sequence of claim 12 .
14. A vector comprising the DNA construct of claim 13 .
15. A substantially purified protein molecule having an amino acid sequence selected from the group consisting of:
a) the amino acid sequence set forth in SEQ ID NO:3;
b) an amino acid sequence that shares at least 80% sequence similarity to the sequence of SEQ ID NO:3; and,
c) the defensin amino acid sequence encoded by the nucleotide sequence contained in a plasmid deposited as Patent Deposit No. PTA-75.
16. A composition comprising a protein of claim 15 , and a carrier.
17. The composition of claim 16 , wherein said carrier is selected from the group consisting of a surface active agent, an inert carrier, an encapsulating agent, an agrochemical carrier, and a pharmaceutical carrier.
19. A method for controlling a plant pathogen comprising applying an anti-pathogenic amount of the protein of claim 15 to the environment of said pathogen.
20. The method of claim 19 , wherein said protein is applied to a plant.
21. The method of claim 19 , wherein said protein is applied by a procedure selected from the group consisting of spraying, dusting, scattering and seed coating.
22. A method for controlling a plant pathogen comprising applying an anti-pathogenic amount of the composition of claim 16 to the environment of said pathogen.
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US10/636,026 US20040111761A1 (en) | 1999-06-23 | 2003-08-07 | Sunflower anti-pathogenic proteins and genes and their uses |
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US20070277263A1 (en) * | 2006-05-25 | 2007-11-29 | Hexima Ltd. | Multi-gene expression vehicle |
US20090083880A1 (en) * | 2007-04-20 | 2009-03-26 | Hexima Ltd. | Modified plant defensin |
US20090197809A1 (en) * | 2008-02-01 | 2009-08-06 | Hexima Limited | Antifungal methods |
US20100095408A1 (en) * | 2008-08-05 | 2010-04-15 | Hexima Limited | Anti-Pathogen Systems |
US9497908B2 (en) | 2011-02-07 | 2016-11-22 | Hexima Limited | Modified plant defensins useful as anti-pathogenic agents |
US9889184B2 (en) | 2008-08-05 | 2018-02-13 | Hexima Limited | Anti-pathogen systems |
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2003
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US20070277263A1 (en) * | 2006-05-25 | 2007-11-29 | Hexima Ltd. | Multi-gene expression vehicle |
US20090083880A1 (en) * | 2007-04-20 | 2009-03-26 | Hexima Ltd. | Modified plant defensin |
US20090197809A1 (en) * | 2008-02-01 | 2009-08-06 | Hexima Limited | Antifungal methods |
US9848603B2 (en) | 2008-02-01 | 2017-12-26 | Hexima Limited | Methods for protecting plants with antifungal compositions |
US20100095408A1 (en) * | 2008-08-05 | 2010-04-15 | Hexima Limited | Anti-Pathogen Systems |
US9889184B2 (en) | 2008-08-05 | 2018-02-13 | Hexima Limited | Anti-pathogen systems |
US9497908B2 (en) | 2011-02-07 | 2016-11-22 | Hexima Limited | Modified plant defensins useful as anti-pathogenic agents |
US10174339B2 (en) | 2011-02-07 | 2019-01-08 | Hexima Limited | Modified plant defensins useful as anti-pathogenic agents |
Also Published As
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CA2375828A1 (en) | 2000-12-28 |
WO2000078983A3 (en) | 2001-08-16 |
US6677503B1 (en) | 2004-01-13 |
AU5882400A (en) | 2001-01-09 |
US20040073971A1 (en) | 2004-04-15 |
HUP0201572A3 (en) | 2004-10-28 |
EP1185679A2 (en) | 2002-03-13 |
HUP0201572A2 (en) | 2002-08-28 |
MXPA02000196A (en) | 2004-08-12 |
WO2000078983A2 (en) | 2000-12-28 |
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