WO2010085373A2 - Novel bacillus thuringiensis gene with lepidopteran activity - Google Patents
Novel bacillus thuringiensis gene with lepidopteran activity Download PDFInfo
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- WO2010085373A2 WO2010085373A2 PCT/US2010/020198 US2010020198W WO2010085373A2 WO 2010085373 A2 WO2010085373 A2 WO 2010085373A2 US 2010020198 W US2010020198 W US 2010020198W WO 2010085373 A2 WO2010085373 A2 WO 2010085373A2
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/195—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria
- C07K14/32—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from bacteria from Bacillus (G)
- C07K14/325—Bacillus thuringiensis crystal peptides, i.e. delta-endotoxins
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N63/00—Biocides, pest repellants or attractants, or plant growth regulators containing microorganisms, viruses, microbial fungi, animals or substances produced by, or obtained from, microorganisms, viruses, microbial fungi or animals, e.g. enzymes or fermentates
- A01N63/50—Isolated enzymes; Isolated proteins
-
- 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
- C12N15/8286—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 insect resistance
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/146—Genetically Modified [GMO] plants, e.g. transgenic plants
Definitions
- the present invention relates to naturally-occurring and recombinant nucleic acids obtained from novel Bacillus thuringiensis genes that encode pesticidal polypeptides characterized by pesticidal activity against insect pests.
- Compositions and methods of the invention utilize the disclosed nucleic acids, and their encoded pesticidal polypeptides, to control plant pests.
- Insect pests are a major factor in the loss of the world's agricultural crops.
- biopesticides Biological control of insect pests of agricultural significance using a microbial agent, such as fungi, bacteria, or another species of insect affords an environmentally friendly and commercially attractive alternative to synthetic chemical pesticides.
- a microbial agent such as fungi, bacteria, or another species of insect affords an environmentally friendly and commercially attractive alternative to synthetic chemical pesticides.
- biopesticides present a lower risk of pollution and environmental hazards, and biopesticides provide greater target specificity than is characteristic of traditional broad-spectrum chemical insecticides.
- biopesticides often cost less to produce and thus improve economic yield for a wide variety of crops.
- Certain species of microorganisms of the genus Bacillus are known to possess pesticidal activity against a broad range of insect pests including Lepidoptera, Diptera, Coleoptera, Hemiptera, and others.
- Bacillus thuringiensis (Bt) and Bacillus papilliae are among the most successful biocontrol agents discovered to date. Insect pathogenicity has also been attributed to strains of B. larvae, B. lentimorbus, B. sphaericus (Harwook, ed., ((1989) Bacillus (Plenum Press), 306) and B. cereus (WO 96/10083). Pesticidal activity appears to be concentrated in parasporal crystalline protein inclusions, although pesticidal proteins have also been isolated from the vegetative growth stage of Bacillus. Several genes encoding these pesticidal proteins have been isolated and characterized (see, for example, U.S. Patent Nos. 5,366,892 and 5,840,868).
- Microbial insecticides particularly those obtained from Bacillus strains, have played an important role in agriculture as alternatives to chemical pest control.
- agricultural scientists have developed crop plants with enhanced insect resistance by genetically engineering crop plants to produce pesticidal proteins from Bacillus.
- corn and cotton plants have been genetically engineered to produce pesticidal proteins isolated from strains of Bt (see, e.g., Aronson (2002) CeII MoI. Life Sci. 59(3):417-425; Schnepf et al. (1998) Microbiol MoI Biol Rev. 62(3):775-806).
- These genetically engineered crops are now widely used in American agriculture and have provided the farmer with an environmentally friendly alternative to traditional insect-control methods.
- potatoes genetically engineered to contain pesticidal Cry toxins have been sold to the American farmer. While they have proven to be very successful commercially, these genetically engineered, insect-resistant crop plants provide resistance to only a narrow range of the economically important insect pests.
- compositions and methods are provided for impacting insect pests. More specifically, the embodiments of the present invention relate to methods of impacting insects utilizing nucleotide sequences encoding insecticidal peptides to produce transformed microorganisms and plants that express a insecticidal polypeptide of the embodiments.
- pests include agriculturally significant pests, such as, for example: European corn borer (Ostrinia nubilalis) and Southwestern corn borer (Diatraea grandiosella).
- the nucleotide sequences encode polypeptides that are pesticidal for at least one insect belonging to the order Lepidoptera.
- the embodiments provide a nucleic acid and fragments and variants thereof which encode polypeptides that possess pesticidal activity against insect pests (e.g. SEQ ID NO: 1 , 3, 5, 7, 9, 11 or 13 encoding SEQ ID NO: 2, 4, 6, 8, 10, 12 or 14, respectively).
- the embodiments further provide fragments and variants of the disclosed nucleotide sequence that encode biologically active [e.g., insecticidal) polypeptides.
- the embodiments further provide isolated pesticidal ⁇ e.g., insecticidal) polypeptides encoded by either a naturally occurring, or a modified ⁇ e.g., mutagenized or manipulated) nucleic acid of the embodiments.
- pesticidal proteins of the embodiments include fragments of full-length proteins and polypeptides that are produced from mutagenized nucleic acids designed to introduce particular amino acid sequences into the polypeptides of the embodiments.
- the polypeptides have enhanced pesticidal activity relative to the activity of the naturally occurring polypeptide from which they are derived.
- the nucleic acids of the embodiments can also be used to produce transgenic ⁇ e.g., transformed) monocot or dicot plants that are characterized by genomes that comprise at least one stably incorporated nucleotide construct comprising a coding sequence of the embodiments operably linked to a promoter that drives expression of the encoded pesticidal polypeptide.
- transgenic ⁇ e.g., transformed monocot or dicot plants that are characterized by genomes that comprise at least one stably incorporated nucleotide construct comprising a coding sequence of the embodiments operably linked to a promoter that drives expression of the encoded pesticidal polypeptide.
- transformed plant cells, plant tissues, plants, and seeds thereof are also provided.
- a transformed plant can be produced using a nucleic acid that has been optimized for increased expression in a host plant.
- one of the pesticidal polypeptides of the embodiments can be back- translated to produce a nucleic acid comprising codons optimized for expression in a particular host, for example a crop plant such as a corn (Zea mays) plant.
- a crop plant such as a corn (Zea mays) plant.
- Expression of a coding sequence by such a transformed plant e.g., dicot or monocot will result in the production of a pesticidal polypeptide and confer increased insect resistance to the plant.
- Some embodiments provide transgenic plants expressing pesticidal polypeptides that find use in methods for impacting various insect pests.
- the embodiments further include pesticidal or insecticidal compositions containing the insecticidal polypeptides of the embodiments, and can optionally comprise further insecticidal peptides.
- the embodiments encompass the application of such compositions to the environment of insect pests in order to impact the insect pests.
- the embodiments of the invention are drawn to compositions and methods for impacting insect pests, particularly plant pests. More specifically, the isolated nucleic acid of the embodiments, and fragments and variants thereof, comprise nucleotide sequences that encode pesticidal polypeptides (e.g., proteins).
- pesticidal polypeptides e.g., proteins
- the disclosed pesticidal proteins are biologically active (e.g., pesticidal) against insect pests such as, but not limited to, insect pests of the order Lepidoptera.
- Insect pests of interest include, but are not limited to: Ost ⁇ nia nubilalis (European corn borer) and Diatraea grandiosella (Southwestern corn borer).
- compositions of the embodiments comprise isolated nucleic acids, and fragments and variants thereof, which encode pesticidal polypeptides, expression cassettes comprising nucleotide sequences of the embodiments, isolated pesticidal proteins, and pesticidal compositions.
- Some embodiments provide modified pesticidal polypeptides characterized by improved insecticidal activity against Lepidopterans relative to the pesticidal activity of the corresponding wild-type protein.
- the embodiments further provide plants and microorganisms transformed with these novel nucleic acids, and methods involving the use of such nucleic acids, pesticidal compositions, transformed organisms, and products thereof in impacting insect pests.
- the nucleic acids and nucleotide sequences of the embodiments may be used to transform any organism to produce the encoded pesticidal proteins. Methods are provided that involve the use of such transformed organisms to impact or control plant pests.
- the nucleic acids and nucleotide sequences of the embodiments may also be used to transform organelles such as chloroplasts (McBride et al. (1995) Biotechnology 13: 362-365; and Kota et al. (1999) Proc. Natl. Acad. Sci. USA 96: 1840-1845).
- the embodiments further relate to the identification of fragments and variants of the naturally-occurring coding sequence that encode biologically active pesticidal proteins.
- the nucleotide sequences of the embodiments find direct use in methods for impacting pests, particularly insect pests such as pests of the order Lepidoptera. Accordingly, the embodiments provide new approaches for impacting insect pests that do not depend on the use of traditional, synthetic chemical insecticides.
- the embodiments involve the discovery of naturally-occurring, biodegradable pesticides and the genes that encode them.
- the embodiments further provide fragments and variants of the naturally occurring coding sequence that also encode biologically active ⁇ e.g., pesticidal) polypeptides.
- the nucleic acids of the embodiments encompass nucleic acid or nucleotide sequences that have been optimized for expression by the cells of a particular organism, for example nucleic acid sequences that have been back- translated (i.e., reverse translated) using plant-preferred codons based on the amino acid sequence of a polypeptide having enhanced pesticidal activity.
- the embodiments further provide mutations which confer improved or altered properties on the polypeptides of the embodiments. See, e.g., copending U.S. Application Nos. 10/606,320, filed June 25, 2003, and 10/746,914, filed December 24, 2003.
- nucleic acids are written left to right in 5' to 3' orientation; amino acid sequences are written left to right in amino to carboxy orientation, respectively.
- Numeric ranges are inclusive of the numbers defining the range.
- Amino acids may be referred to herein by either their commonly known three letter symbols or by the one-letter symbols recommended by the IUPAC-IUB Biochemical Nomenclature Commission.
- Nucleotides likewise, may be referred to by their commonly accepted single-letter codes. The above-defined terms are more fully defined by reference to the specification as a whole.
- nucleic acid includes reference to a deoxyribonucleotide or ribonucleotide polymer in either single- or double-stranded form, and unless otherwise limited, encompasses known analogues ⁇ e.g., peptide nucleic acids) having the essential nature of natural nucleotides in that they hybridize to single- stranded nucleic acids in a manner similar to that of naturally occurring nucleotides.
- the terms “encoding” or “encoded” when used in the context of a specified nucleic acid mean that the nucleic acid comprises the requisite information to direct translation of the nucleotide sequence into a specified protein.
- a nucleic acid encoding a protein may comprise non-translated sequences (e.g., introns) within translated regions of the nucleic acid or may lack such intervening non-translated sequences ⁇ e.g., as in cDNA).
- full-length sequence in reference to a specified polynucleotide or its encoded protein means having the entire nucleic acid sequence or the entire amino acid sequence of a native (non-synthetic), endogenous sequence.
- a full-length polynucleotide encodes the full-length, catalytically active form of the specified protein.
- antisense used in the context of orientation of a nucleotide sequence refers to a duplex polynucleotide sequence that is operably linked to a promoter in an orientation where the antisense strand is transcribed.
- the antisense strand is sufficiently complementary to an endogenous transcription product such that translation of the endogenous transcription product is often inhibited.
- antisense refers to the complementary strand of the reference transcription product.
- polypeptide peptide
- protein protein
- amino acid polymers in which one or more amino acid residues is an artificial chemical analogue of a corresponding naturally occurring amino acid, as well as to naturally occurring amino acid polymers.
- amino acid residue or “amino acid residue” or “amino acid” are used interchangeably herein to refer to an amino acid that is incorporated into a protein, polypeptide, or peptide (collectively “protein”).
- the amino acid may be a naturally occurring amino acid and, unless otherwise limited, may encompass known analogues of natural amino acids that can function in a similar manner as naturally occurring amino acids.
- Polypeptides of the embodiments can be produced either from a nucleic acid disclosed herein, or by the use of standard molecular biology techniques.
- a protein of the embodiments can be produced by expression of a recombinant nucleic acid of the embodiments in an appropriate host cell, or alternatively by a combination of ex vivo procedures.
- isolated and purified are used interchangeably to refer to nucleic acids or polypeptides or biologically active portions thereof that are substantially or essentially free from components that normally accompany or interact with the nucleic acid or polypeptide as found in its naturally occurring environment.
- an isolated or purified nucleic acid or polypeptide 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 generally free of sequences (such as, for example, protein-encoding 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 acids 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 acids in genomic DNA of the cell from which the nucleic acid is derived.
- the term "isolated” or “purified” as it is used to refer to a polypeptide of the embodiments means that the isolated protein is substantially free of cellular material and includes preparations of protein having less than about 30%, 20%, 10%, or 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.
- impacting insect pests refers to effecting changes in insect feeding, growth, and/or behavior at any stage of development, including but not limited to: killing the insect; retarding growth; preventing reproductive capability; antifeedant activity; and the like.
- the terms “pesticidal activity” and “insecticidal activity” are used synonymously to refer to activity of an organism or a substance (such as, for example, a protein) that can be measured by, but is not limited to, pest mortality, pest weight loss, pest repellency, and other behavioral and physical changes of a pest after feeding and exposure for an appropriate length of time.
- a substance such as, for example, a protein
- pest mortality e.g., pest mortality, pest weight loss, pest repellency, and other behavioral and physical changes of a pest after feeding and exposure for an appropriate length of time.
- an organism or substance having pesticidal activity adversely impacts at least one measurable parameter of pest fitness.
- “pesticidal proteins” are proteins that display pesticidal activity by themselves or in combination with other proteins.
- the term "pesticidally effective amount” connotes a quantity of a substance or organism that has pesticidal activity when present in the environment of a pest. For each substance or organism, the pesticidally effective amount is determined empirically for each pest affected in a specific environment. Similarly, an "insecticidally effective amount” may be used to refer to a “pesticidally effective amount” when the pest is an insect pest.
- the term "recombinantly engineered” or “engineered” connotes the utilization of recombinant DNA technology to introduce ⁇ e.g., engineer) a change in the protein structure based on an understanding of the protein's mechanism of action and a consideration of the amino acids being introduced, deleted, or substituted.
- mutant nucleotide sequence or “mutation” or “mutagenized nucleotide sequence” connotes a nucleotide sequence that has been mutagenized or altered to contain one or more nucleotide residues ⁇ e.g., base pair) that is not present in the corresponding wild-type sequence.
- mutagenesis or alteration consists of one or more additions, deletions, or substitutions or replacements of nucleic acid residues.
- mutations are made by adding, removing, or replacing an amino acid of a proteolytic site
- such addition, removal, or replacement may be within or adjacent to the proteolytic site motif, so long as the object of the mutation is accomplished (i.e., so long as proteolysis at the site is changed).
- a mutant nucleotide sequence can encode a mutant insecticidal toxin showing improved or decreased insecticidal activity, or an amino acid sequence which confers improved or decreased insecticidal activity on a polypeptide containing it.
- the term "mutant” or “mutation” in the context of a protein a polypeptide or amino acid sequence refers to a sequence which has been mutagenized or altered to contain one or more amino acid residues that are not present in the corresponding wild-type sequence. Such mutagenesis or alteration consists of one or more additions, deletions, or substitutions or replacements of amino acid residues.
- a mutant polypeptide shows improved or decreased insecticidal activity, or represents an amino acid sequence which confers improved insecticidal activity on a polypeptide containing it.
- mutant or “mutation” refers to either or both of the mutant nucleotide sequence and the encoded amino acids. Mutants may be used alone or in any compatible combination with other mutants of the embodiments or with other mutants. A “mutant polypeptide” may conversely show a decrease in insecticidal activity. Where more than one mutation is added to a particular nucleic acid or protein, the mutations may be added at the same time or sequentially; if sequentially, mutations may be added in any suitable order.
- the term "improved insecticidal activity” or “improved pesticidal activity” refers to an insecticidal polypeptide of the embodiments that has enhanced insecticidal activity relative to the activity of its corresponding wild-type protein, and/or an insecticidal polypeptide that is effective against a broader range of insects, and/or an insecticidal polypeptide having specificity for an insect that is not susceptible to the toxicity of the wild-type protein.
- a finding of improved or enhanced pesticidal activity requires a demonstration of an increase of pesticidal activity of at least 10%, against the insect target, or at least 20%, 25%, 30%, 35%, 40%, 45%, 50%, 60%, 70%, 100%, 150%, 200%, or 300% or greater increase of pesticidal activity relative to the pesticidal activity of the wild-type insecticidal polypeptide determined against the same insect.
- an improved pesticidal or insecticidal activity is provided where a wider or narrower range of insects is impacted by the polypeptide relative to the range of insects that is affected by a wild-type Bt toxin.
- a wider range of impact may be desirable where versatility is desired, while a narrower range of impact may be desirable where, for example, beneficial insects might otherwise be impacted by use or presence of the toxin.
- an improved pesticidal activity may also be provided by changes in one or more characteristics of a polypeptide; for example, the stability or longevity of a polypeptide in an insect gut may be increased relative to the stability or longevity of a corresponding wild-type protein.
- the term "toxin" as used herein refers to a polypeptide showing pesticidal activity or insecticidal activity or improved pesticidal activity or improved insecticidal activity.
- proteolytic site or “cleavage site” refer to an amino acid sequence which confers sensitivity to a class of proteases or a particular protease such that a polypeptide containing the amino acid sequence is digested by the class of proteases or particular protease.
- a proteolytic site is said to be "sensitive” to the protease(s) that recognize that site.
- proteolytic site may confer sensitivity to more than one protease or class of proteases, but the efficiency of digestion at that site by various proteases may vary.
- protealytic sites include, for example, trypsin sites, chymotrypsin sites, and elastase sites.
- the insect gut proteases of Lepidopterans include trypsins, chymotrypsins, and elastases. See, e.g., Lenz et al. (1991 ) Arch. Insect Biochem. Physiol. 16: 201 -212; and Hedegus et al. (2003) Arch. Insect Biochem. Physiol. 53: 30-47. For example, about 18 different trypsins have been found in the midgut of Helicoverpa armigera larvae (see Gatehouse et al. (1997) Insect Biochem. MoI. Biol. 27: 929-944). The preferred proteolytic substrate sites of these proteases have been investigated. See, e.g., Peterson et al. (1995) Insect Biochem. MoI. Biol. 25: 765-774.
- toxin can include the removal of the N- and C-terminal peptides from the protein and can also include internal cleavage of the protein. Other proteases can degrade the Cry proteins. See Oppert, ibid. A comparison of the amino acid sequences of Cry toxins of different specificities reveals five highly-conserved sequence blocks.
- the toxins comprise three distinct domains which are, from the N- to C-terminus: a cluster of seven alpha- helices implicated in pore formation (referred to as “domain 1 "), three anti-parallel beta sheets implicated in cell binding (referred to as “domain 2”), and a beta sandwich (referred to as "domain 3").
- domain 1 a cluster of seven alpha- helices implicated in pore formation
- domain 2 three anti-parallel beta sheets implicated in cell binding
- domain 3 a beta sandwich
- the location and properties of these domains are known to those of skill in the art. See, for example, Li et al. (1991 ) Nature, 305:815-821 and Morse et al. (2001 ) Structure, 9:409-417.
- domain 1 When reference is made to a particular domain, such as domain 1 , it is understood that the exact endpoints of the domain with regard to a particular sequence are not critical so long as the sequence or portion thereof includes sequence that provides at least some function attributed to the particular domain. Thus, for example, when referring to “domain 1 ,” it is intended that a particular sequence includes a cluster of seven alpha-helices, but the exact endpoints of the sequence used or referred to with regard to that cluster are not critical. One of skill in the art is familiar with the determination of such endpoints and the evaluation of such functions.
- strains of the bacterium Bt were studied. Crystal preparations prepared from cultures of the Bt strains were discovered to have pesticidal activity against European corn borer (see, e.g., Experimental Example 1 ). An effort was undertaken to identify the nucleotide sequences encoding the crystal proteins from the selected strains, and the wild-type (i.e., naturally occurring) nucleic acids of the embodiments were isolated from these bacterial strains, cloned into an expression vector, and transformed into E coli. Depending upon the characteristics of a given preparation, it was recognized that the demonstration of pesticidal activity sometimes required trypsin pretreatment to activate the pesticidal proteins.
- pesticidal proteins require protease digestion (e.g., by trypsin, chymotrypsin, and the like) for activation, while other proteins are biologically active (e.g., pesticidal) in the absence of activation.
- nucleic acid sequences may be engineered to encode polypeptides that contain additional mutations that confer improved or altered pesticidal activity relative to the pesticidal activity of the naturally occurring polypeptide.
- the nucleotide sequences of such engineered nucleic acids comprise mutations not found in the wild type sequences.
- the mutant polypeptides of the embodiments are generally prepared by a process that involves the steps of: obtaining a nucleic acid sequence encoding a Cry family polypeptide; analyzing the structure of the polypeptide to identify particular "target" sites for mutagenesis of the underlying gene sequence based on a consideration of the proposed function of the target domain in the mode of action of the toxin; introducing one or more mutations into the nucleic acid sequence to produce a desired change in one or more amino acid residues of the encoded polypeptide sequence; and assaying the polypeptide produced for pesticidal activity.
- Bt insecticidal toxins are related to various degrees by similarities in their amino acid sequences and tertiary structure and means for obtaining the crystal structures of Bt toxins are well known.
- Exemplary high- resolution crystal structure solution of both the Cry3A and Cry3B polypeptides are available in the literature.
- the solved structure of the Cry3A gene (Li et al. (1991 ) Nature 353:815-821 ) provides insight into the relationship between structure and function of the toxin.
- a combined consideration of the published structural analyses of Bt toxins and the reported function associated with particular structures, motifs, and the like indicates that specific regions of the toxin are correlated with particular functions and discrete steps of the mode of action of the protein.
- toxins isolated from Bt are generally described as comprising three domains: a seven-helix bundle that is involved in pore formation, a three-sheet domain that has been implicated in receptor binding, and a beta-sandwich motif (Li et al. (1991 ) Nature 305: 815-821 ).
- mutants include, but are not limited to: the addition of at least one more protease-sensitive site (e.g., trypsin cleavage site) in the region located between helices 3 and 4 of domain 1 ; the replacement of an original protease-sensitive site in the wild-type sequence with a different protease-sensitive site; the addition of multiple protease-sensitive sites in a particular location; the addition of amino acid residues near protease- sensitive site(s) to alter folding of the polypeptide and thus enhance digestion of the polypeptide at the protease-sensitive site(s); and adding mutations to protect the polypeptide from degradative digestion that reduces toxicity (e.g., making a series of mutations wherein the wild-type amino acid is replaced by valine to protect the polypeptide from digestion). Mutations may be used singly or in any combination to provide polypeptides of the embodiments.
- protease-sensitive site e.g., trypsin cleavage site
- the embodiments provide sequences comprising a variety of mutations, such as, for example, a mutation that comprises an additional, or an alternative, protease-sensitive site located between alpha-helices 3 and 4 of domain 1 of the encoded polypeptide.
- a mutation which is an additional or alternative protease-sensitive site may be sensitive to several classes of proteases such as serine proteases, which include trypsin and chymotrypsin, or enzymes such as elastase.
- a mutation which is an additional or alternative protease- sensitive site may be designed so that the site is readily recognized and/or cleaved by a category of proteases, such as mammalian proteases or insect proteases.
- a protease-sensitive site may also be designed to be cleaved by a particular class of enzymes or a particular enzyme known to be produced in an organism, such as, for example, a chymotrypsin produced by the corn earworm Heliothis zea (Lenz et al. (1991 ) Arch. Insect Biochem. Physiol. 16: 201-212). Mutations may also confer resistance to proteolytic digestion, for example, to digestion by chymotrypsin at the C-terminus of the peptide.
- an additional and/or alternative protease-sensitive site in the amino acid sequence of the encoded polypeptide can improve the pesticidal activity and/or specificity of the polypeptide encoded by the nucleic acids of the embodiments.
- the nucleotide sequences of the embodiments can be recombinantly engineered or manipulated to produce polypeptides having improved or altered insecticidal activity and/or specificity compared to that of an unmodified wild-type toxin.
- the mutations disclosed herein may be placed in or used in conjunction with other nucleotide sequences to provide improved properties.
- a protease-sensitive site that is readily cleaved by insect chymotrypsin, e.g.,.
- a chymotrypsin found in the bertha armyworm or the corn earworm may be placed in a Cry background sequence to provide improved toxicity to that sequence.
- the embodiments provide toxic polypeptides with improved properties.
- a mutagenized Cry nucleotide sequence can comprise additional mutants that comprise additional codons that introduce a second trypsin- sensitive amino acid sequence (in addition to the naturally occurring trypsin site) into the encoded polypeptide.
- An alternative addition mutant of the embodiments comprises additional codons designed to introduce at least one additional different protease-sensitive site into the polypeptide, for example, a chymotrypsin-sensitive site located immediately 5' or 3' of the naturally occurring trypsin site.
- substitution mutants may be created in which at least one codon of the nucleic acid that encodes the naturally occurring protease-sensitive site is destroyed and alternative codons are introduced into the nucleic acid sequence in order to provide a different ⁇ e.g., substitute) protease-sensitive site.
- a replacement mutant may also be added to a Cry sequence in which the naturally-occurring trypsin cleavage site present in the encoded polypeptide is destroyed and a chymotrypsin or elastase cleavage site is introduced in its place.
- any nucleotide sequence encoding the amino acid sequences that are proteolytic sites or putative proteolytic sites can be used and that the exact identity of the codons used to introduce any of these cleavage sites into a variant polypeptide may vary depending on the use, i.e., expression in a particular plant species. It is also recognized that any of the disclosed mutations can be introduced into any polynucleotide sequence of the embodiments that comprises the codons for amino acid residues that provide the native trypsin cleavage site that is targeted for modification.
- variants of either full-length toxins or fragments thereof can be modified to contain additional or alternative cleavage sites, and these embodiments are intended to be encompassed by the scope of the embodiments disclosed herein.
- any useful mutation may be added to the sequences of the embodiments so long as the encoded polypeptides retain pesticidal activity.
- sequences may also be mutated so that the encoded polypeptides are resistant to proteolytic digestion by chymotrypsin.
- More than one recognition site can be added in a particular location in any combination, and multiple recognition sites can be added to or removed from the toxin.
- additional mutations can comprise three, four, or more recognition sites.
- multiple mutations can be engineered in any suitable polynucleotide sequence; accordingly, either full-length sequences or fragments thereof can be modified to contain additional or alternative cleavage sites as well as to be resistant to proteolytic digestion.
- the embodiments provide Cry toxins containing mutations that improve pesticidal activity as well as improved compositions and methods for impacting pests using other Bt toxins.
- Mutations may protect the polypeptide from protease degradation, for example by removing putative proteolytic sites such as putative serine protease sites and elastase recognition sites from different areas. Some or all of such putative sites may be removed or altered so that proteolysis at the location of the original site is decreased. Changes in proteolysis may be assessed by comparing a mutant polypeptide with wild-type toxins or by comparing mutant toxins which differ in their amino acid sequence. Putative proteolytic sites and proteolytic sites include, but are not limited to, the following sequences: RR, a trypsin cleavage site; LKM, a chymotrypsin site; and NGSR, a trypsin site.
- polypeptides encoded by nucleotide sequences comprising mutations will comprise at least one amino acid change or addition relative to the native or background sequence, or 2, 3, 4, 5, 6, 7, 8, 9, 10, 11 , 12, 13, 14, 15, 16, 17, 18, 19, 20, 21 , 22, 23, 24, 25, 26, 27, 28, 29, 30, 32, 35, 38, 40, 45, 47, 50, 60, 70, 80, 90, 100, 110, 120, 130, 140, 150, 160, 170, 180, 190, 200, 210, 220, 230, 240, 250, 260, 270, or 280 or more amino acid changes or additions.
- Pesticidal activity of a polypeptide may also be improved by truncation of the native or full-length sequence, as is known in the art.
- Compositions of the embodiments include nucleic acids, and fragments and variants thereof, that encode pesticidal polypeptides.
- the embodiments provide for isolated nucleic acid molecules comprising nucleotide sequences encoding the amino acid sequence shown in, for example, SEQ ID NO: 2, or the nucleotide sequences encoding said amino acid sequence, for example the nucleotide sequence set forth in SEQ ID NO: 1 , and fragments and variants thereof.
- optimized nucleotide sequences encoding the pesticidal proteins of the embodiments.
- the phrase "optimized nucleotide sequences" refers to nucleic acids that are optimized for expression in a particular organism, for example a plant. Optimized nucleotide sequences may be prepared for any organism of interest using methods known in the art. See, for example, U.S. Application Nos. 10/606,320, filed June 25, 2003, now abandoned, and 10/746,914, filed December 24, 2003, which describe an optimized nucleotide sequence encoding a disclosed pesticidal protein.
- nucleotide sequence was prepared by reverse-translating the amino acid sequence of the protein and changing the nucleotide sequence so as to comprise maize-preferred codons while still encoding the same amino acid sequence. This procedure is described in more detail by Murray et al. (1989) Nucleic Acids Res. 17:477-498. Optimized nucleotide sequences find use in increasing expression of a pesticidal protein in a plant, for example monocot plants of the Gramineae (Poaceae) family such as, for example, a maize or corn plant.
- a pesticidal protein in a plant, for example monocot plants of the Gramineae (Poaceae) family such as, for example, a maize or corn plant.
- the embodiments further provide isolated pesticidal (e.g., insecticidal) polypeptides encoded by either a naturally-occurring or modified nucleic acid of the embodiments. More specifically, the embodiments provide polypeptides comprising an amino acid sequence set forth in SEQ ID NO: 2, and the polypeptides encoded by nucleic acids described herein, for example those set forth in SEQ ID NO: 1 and fragments and variants thereof, such as the variants set forth in SEQ ID NOs: 3, 5, 7, 9, 11 or 13 encoding the peptides set forth in SEQ ID NOs: 4, 6, 8, 10, 12, and 14.
- pesticidal proteins of the embodiments provide full-length insecticidal polypeptides, fragments of full-length insecticidal polypeptides, and variant polypeptides that are produced from mutagenized nucleic acids designed to introduce particular amino acid sequences into polypeptides of the embodiments.
- the amino acid sequences that are introduced into the polypeptides comprise a sequence that provides a cleavage site for an enzyme such as a protease.
- Bt toxins are typically activated by cleavage of the peptide in the insect gut by various proteases.
- fragments of a full-length toxin may have enhanced pesticidal activity in comparison to the full-length toxin itself.
- some of the polypeptides of the embodiments include fragments of a full-length insecticidal polypeptide, and some of the polypeptide fragments, variants, and mutations will have enhanced pesticidal activity relative to the activity of the naturally occurring insecticidal polypeptide from which they are derived, particularly if the naturally occurring insecticidal polypeptide is not activated in vitro with a protease prior to screening for activity.
- the present application encompasses truncated versions or fragments of the sequences.
- Mutations may be placed into any background sequence, including such truncated polypeptides, so long as the polypeptide retains pesticidal activity.
- One of skill in the art can readily compare two or more proteins with regard to pesticidal activity using assays known in the art or described elsewhere herein. It is to be understood that the polypeptides of the embodiments can be produced either by expression of a nucleic acid disclosed herein, or by the use of standard molecular biology techniques. It is recognized that the pesticidal proteins may be oligomeric and will vary in molecular weight, number of residues, component peptides, activity against particular pests, and other characteristics. However, by the methods set forth herein, proteins active against a variety of pests may be isolated and characterized.
- the pesticidal proteins of the embodiments can be used in combination with other Bt toxins or other insecticidal proteins to increase insect target range. Furthermore, the use of the pesticidal proteins of the embodiments in combination with other Bt toxins or other insecticidal principles of a distinct nature has particular utility for the prevention and/or management of insect resistance.
- Other insecticidal agents include protease inhibitors (both serine and cysteine types), ⁇ -amylase, and peroxidase.
- fragments and variants of the nucleotide and amino acid sequences and the polypeptides encoded thereby are also encompassed by the embodiments.
- fragment refers to a portion of a nucleotide sequence of a polynucleotide or a portion of an amino acid sequence of a polypeptide of the embodiments.
- Fragments of a nucleotide sequence may encode protein fragments that retain the biological activity of the native or corresponding full-length protein and hence possess pesticidal activity.
- it is acknowledged that some of the polynucleotide and amino acid sequences of the embodiments can correctly be referred to as both fragments and mutants.
- fragment as it is used to refer to nucleic acid sequences of the embodiments, also encompasses sequences that are useful as hybridization probes.
- This class of nucleotide sequences generally does 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 full-length nucleotide sequence encoding the proteins of the embodiments.
- a fragment of a nucleotide sequence of the embodiments that encodes a biologically active portion of a pesticidal protein of the embodiments will encode at least 15, 25, 30, 50, 100, 200, 300, 400, 500, 600, 700, 800, 900, 1 ,000, 1 ,100, or 1 ,200 contiguous amino acids, or up to the total number of amino acids present in a pesticidal polypeptide of the embodiments (for example, 737 amino acids for SEQ ID NO: 2).
- the embodiments also encompass polypeptides that are fragments of the exemplary pesticidal proteins of the embodiments and having lengths of at least 15, 25, 30, 50, 100, 200, 300, 400, 500, 600, 700, 800, 900, 1 ,000, 1 ,100, or 1 ,200 contiguous amino acids, or up to the total number of amino acids present in a pesticidal polypeptide of the embodiments (for example, 737 amino acids for SEQ ID NO: 2).
- Fragments of a nucleotide sequence of the embodiments that are useful as hybridization probes or PCR primers generally need not encode a biologically active portion of a pesticidal protein.
- a fragment of a nucleic acid of the embodiments may encode a biologically active portion of a pesticidal protein, or it may be a fragment that can be used as a hybridization probe or PCR primer using methods disclosed herein.
- a biologically active portion of a pesticidal protein can be prepared by isolating a portion of one of the nucleotide sequences of the embodiments, expressing the encoded portion of the pesticidal protein ⁇ e.g., by recombinant expression in vitro), and assessing the activity of the encoded portion of the pesticidal protein.
- Nucleic acids that are fragments of a nucleotide sequence of the embodiments comprise at least 16, 20, 50, 75, 100, 150, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 1 ,000, 1 ,200, 1 ,400, 1 ,600, 1 ,800, or 2,000 nucleotides, or up to the number of nucleotides present in a nucleotide sequence disclosed herein (for example, 2,214 nucleotides for SEQ ID NO: 1 ).
- Particular embodiments envision fragments derived from ⁇ e.g., produced from) a first nucleic acid of the embodiments, wherein the fragment encodes a truncated toxin characterized by pesticidal activity.
- Truncated polypeptides encoded by the polynucleotide fragments of the embodiments are characterized by pesticidal activity that is either equivalent to, or improved, relative to the activity of the corresponding full-length polypeptide encoded by the first nucleic acid from which the fragment is derived. It is envisioned that such nucleic acid fragments of the embodiments may be truncated at the 3' end of the native or corresponding full-length coding sequence. Nucleic acid fragments may also be truncated at both the 5' and 3' end of the native or corresponding full-length coding sequence.
- variants are used herein to refer to 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 pesticidal polypeptides of the embodiments.
- Naturally occurring allelic variants such as these can be identified with the use of well-known molecular biology techniques, such as, for example, polymerase chain reaction (PCR) and hybridization techniques as outlined herein.
- PCR polymerase chain reaction
- Variant nucleotide sequences also include synthetically derived nucleotide sequences, such as those generated, for example, by using site-directed mutagenesis but which still encode a pesticidal protein of the embodiments, such as a mutant toxin.
- variants of a particular nucleotide sequence of the embodiments will have at least about 70%, 75%, 80%, 85%, 86%, 87%, 88%, 89%, 90%, 91 %, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or more sequence identity to that particular nucleotide sequence as determined by sequence alignment programs described elsewhere herein using default parameters.
- a variant of a nucleotide sequence of the embodiments may differ from that sequence by as few as 1 -15 nucleotides, as few as 1 -10, such as 6-10, as few as 5, as few as 4, 3, 2, or even 1 nucleotide.
- Variants of a particular nucleotide sequence of the embodiments i.e., an exemplary nucleotide sequence
- isolated nucleic acids that encode a polypeptide with a given percent sequence identity to the polypeptide of SEQ ID NO: 2 are disclosed.
- Percent sequence identity between any two polypeptides can be calculated using sequence alignment programs described elsewhere herein using default parameters. Where any given pair of polynucleotides of the embodiments is evaluated by comparison of the percent sequence identity shared by the two polypeptides they encode, the percent sequence identity between the two encoded polypeptides is at least about 40%, 45%, 50%, 55%, 60%, 65%, 70%, generally at least about 75%, 80%, 85%, at least about 90%, 91 %, 92%, 93%, 94%, 95%, 96%, 97%, or at least about 98%, 99% or more sequence identity.
- variable protein encompasses polypeptides that are derived from a 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 protein encompasses biologically active fragments of a native protein that comprise a sufficient number of contiguous amino acid residues to retain the biological activity of the native protein, i.e., to have pesticidal activity. Such pesticidal activity may be different or improved relative to the native protein or it may be unchanged, so long as pesticidal activity is retained.
- Variant proteins encompassed by the embodiments are biologically active, that is they continue to possess the desired biological activity of the native protein, that is, pesticidal activity as described herein. Such variants may result from, for example, genetic polymorphism or from human manipulation.
- Biologically active variants of a native pesticidal protein of the embodiments will have at least about 60%, 65%, 70%, 75%, 80%, 85%, 86%, 87%, 88%, 89%, 90%, 91 %, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, 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 embodiments 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 embodiments further encompass a microorganism that is transformed with at least one nucleic acid of the embodiments, with an expression cassette comprising the nucleic acid, or with a vector comprising the expression cassette.
- the microorganism is one that multiplies on plants.
- An embodiment of the invention relates to an encapsulated pesticidal protein which comprises a transformed microorganism capable of expressing at least one pesticidal protein of the embodiments.
- the embodiments provide pesticidal compositions comprising a transformed microorganism of the embodiments.
- the transformed microorganism is generally present in the pesticidal composition in a pesticidally effective amount, together with a suitable carrier.
- the embodiments also encompass pesticidal compositions comprising an isolated protein of the embodiments, alone or in combination with a transformed organism of the embodiments and/or an encapsulated pesticidal protein of the embodiments, in an insecticidally effective amount, together with a suitable carrier.
- the embodiments further provide a method of increasing insect target range by using a pesticidal protein of the embodiments in combination with at least one other or "second" pesticidal protein.
- Any pesticidal protein known in the art can be employed in the methods of the embodiments.
- pesticidal proteins include, but are not limited to, Bt toxins, protease inhibitors, ⁇ -amylases, and peroxidases.
- the embodiments also encompass transformed or transgenic plants comprising at least one nucleotide sequence of the embodiments.
- the plant is stably transformed with a nucleotide construct comprising at least one nucleotide sequence of the embodiments operably linked to a promoter that drives expression in a plant cell.
- a nucleotide construct comprising at least one nucleotide sequence of the embodiments operably linked to a promoter that drives expression in a plant cell.
- transformed plant and “transgenic plant” refer to a plant that comprises within its genome a heterologous polynucleotide.
- the heterologous polynucleotide is stably integrated within the genome of a transgenic or transformed plant such that the polynucleotide is passed on to successive generations.
- the heterologous polynucleotide may be integrated into the genome alone or as part of a recombinant expression cassette.
- transgenic includes any cell, cell line, callus, tissue, plant part, or plant the genotype of which has been altered by the presence of heterologous nucleic acid including those transgenics initially so altered as well as those created by sexual crosses or asexual propagation from the initial transgenic.
- the term "transgenic” as used herein does not encompass the alteration of the genome (chromosomal or extra-chromosomal) by conventional plant breeding methods or by naturally occurring events such as random cross-fertilization, non-recombinant viral infection, non-recombinant bacterial transformation, non-recombinant transposition, or spontaneous mutation.
- the term "plant” includes whole plants, plant organs ⁇ e.g., leaves, stems, roots, etc.), seeds, plant cells, and progeny of same.
- Parts of transgenic plants are within the scope of the embodiments and comprise, for example, plant cells, protoplasts, tissues, callus, embryos as well as flowers, stems, fruits, leaves, and roots originating in transgenic plants or their progeny previously transformed with a DNA molecule of the embodiments and therefore consisting at least in part of transgenic cells.
- the term plant includes plant cells, plant protoplasts, plant cell tissue cultures from which plants can be regenerated, plant calli, plant clumps, and plant cells that are intact in plants or parts of plants such as embryos, pollen, ovules, seeds, leaves, flowers, branches, fruit, kernels, ears, cobs, husks, stalks, roots, root tips, anthers, and the like.
- the class of plants that can be used in the methods of the embodiments is generally as broad as the class of higher plants amenable to transformation techniques, including both monocotyledonous and dicotyledonous plants. Such plants include, for example, Solanum tuberosum and Zea mays.
- the embodiments do not depend on a particular biological mechanism for increasing the resistance of a plant to a plant pest, expression of the nucleotide sequences of the embodiments in a plant can result in the production of the pesticidal proteins of the embodiments and in an increase in the resistance of the plant to a plant pest.
- the plants of the embodiments find use in agriculture in methods for impacting insect pests.
- Certain embodiments provide transformed crop plants, such as, for example, maize plants, which find use in methods for impacting insect pests of the plant, such as, for example, European corn borer.
- a “subject plant or plant cell” is one in which genetic alteration, such as transformation, has been effected as to a gene of interest, or is a plant or plant cell which is descended from a plant or cell so altered and which comprises the alteration.
- a “control” or “control plant” or “control plant cell” provides a reference point for measuring changes in phenotype of the subject plant or plant cell.
- a control plant or plant cell may comprise, for example: (a) a wild-type plant or cell, i.e., of the same genotype as the starting material for the genetic alteration which resulted in the subject plant or cell; (b) a plant or plant cell of the same genotype as the starting material but which has been transformed with a null construct (i.e., with a construct which has no known effect on the trait of interest, such as a construct comprising a marker gene); (c) a plant or plant cell which is a non-transformed segregant among progeny of a subject plant or plant cell; (d) a plant or plant cell genetically identical to the subject plant or plant cell but which is not exposed to conditions or stimuli that would induce expression of the gene of interest; or (e) the subject plant or plant cell itself, under conditions in which the gene of interest is not expressed.
- a wild-type plant or cell i.e., of the same genotype as the starting material for the genetic alteration which resulted in the subject plant or cell
- proteins of the embodiments may be altered in various ways including amino acid substitutions, deletions, truncations, and insertions. Methods for such manipulations are generally known in the art.
- amino acid sequence variants of the pesticidal proteins can be prepared by introducing mutations into a synthetic nucleic acid (e.g., DNA molecule). Methods for mutagenesis and nucleic acid alterations are well known in the art.
- designed changes can be introduced using an oligonucleotide-mediated site- directed mutagenesis technique. 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. Patent No. 4,873,192; Walker and Gaastra, eds. (1983) Techniques in Molecular Biology (MacMillan Publishing Company, New York), and the references cited therein.
- the mutagenized nucleotide sequences of the embodiments may be modified so as to change about 1 , 2, 3, 4, 5, 6, 8, 10, 12 or more of the amino acids present in the primary sequence of the encoded polypeptide.
- even more changes from the native sequence may be introduced such that the encoded protein may have at least about 1 % or 2%, or about 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11 %, 12%, or even about 13%, 14%, 15%, 16%, 17%, 18%, 19%, or 20%, 21 %, 22%, 23%, 24%, or 25%, 30%, 35%, or 40% or more of the codons altered, or otherwise modified compared to the corresponding wild-type protein.
- the encoded protein may have at least about 1 % or 2%, or about 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 11 %, 12%, or even about 13%, 14%, 15%, 16%, 17%, 18%, 19%, or 20%, 21 %, 22%, 23%, 24%, or 25%, 30%, 35%, or 40% or more additional codons compared to the corresponding wild-type protein.
- the mutagenized nucleotide sequences of the embodiments are intended to encompass biologically functional, equivalent peptides which have pesticidal activity, such as an improved pesticidal activity as determined by antifeedant properties against European corn borer larvae. Such sequences may arise as a consequence of codon redundancy and functional equivalency that are known to occur naturally within nucleic acid sequences and the proteins thus encoded.
- amino acid additions and/or substitutions are generally based on the relative similarity of the amino acid side- chain substituents, for example, their hydrophobicity, charge, size, and the like.
- Exemplary amino acid substitution groups that take various of the foregoing characteristics into consideration are well known to those of skill in the art and include: arginine and lysine; glutamate and aspartate; serine and threonine; glutamine and asparagine; and valine, leucine, and isoleucine.
- Guidance as to appropriate amino acid substitutions that do not affect biological activity of the protein of interest may be found in the model of Dayhoff et al. (1978) Atlas of Protein Sequence and Structure (Natl. Biomed. Res. Found., Washington, D. C), herein incorporated by reference.
- Conservative substitutions such as exchanging one amino acid with another having similar properties, may be made.
- the genes and nucleotide sequences of the embodiments include both the naturally occurring sequences and mutant forms.
- the proteins of the embodiments encompass both naturally occurring proteins and variations ⁇ e.g., truncated polypeptides) and modified ⁇ e.g., mutant) forms thereof.
- Such variants will continue to possess the desired pesticidal activity.
- the mutations that will be made in the nucleotide sequence encoding the variant must not place the sequence out of reading frame and generally will not create complementary regions that could produce secondary mRNA structure. See, EP Patent Application Publication No. 75,444.
- deletions, insertions, and substitutions of the protein sequences encompassed herein are not expected to produce radical changes in the characteristics of the protein. 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, such as insect-feeding assays. See, for example, Marrone et al. (1985) J. Econ. Entomol. 78: 290-293 and Czapla and Lang (1990) J. Econ. Entomol. 83: 2480- 2485, herein incorporated by reference.
- Variant nucleotide sequences and proteins also encompass sequences and proteins derived from a mutagenic and recombinogenic procedure such as DNA shuffling. With such a procedure, one or more different coding sequences can be manipulated to create a new pesticidal protein possessing the desired properties. In this manner, libraries of recombinant polynucleotides are generated from a population of related sequence polynucleotides comprising sequence regions that have substantial sequence identity and can be homologously recombined in vitro or in vivo.
- full-length coding sequences, sequence motifs encoding a domain of interest, or any fragment of a nucleotide sequence of the embodiments may be shuffled between the nucleotide sequences of the embodiments and corresponding portions of other known Cry nucleotide sequences to obtain a new gene coding for a protein with an improved property of interest.
- Properties of interest include, but are not limited to, pesticidal activity per unit of pesticidal protein, protein stability, and toxicity to non-target species particularly humans, livestock, and plants and microbes that express the pesticidal polypeptides of the embodiments.
- the embodiments are not bound by a particular shuffling strategy, only that at least one nucleotide sequence of the embodiments, or part thereof, is involved in such a shuffling strategy.
- Shuffling may involve only nucleotide sequences disclosed herein or may additionally involve shuffling of other nucleotide sequences known in the art.
- Strategies for DNA shuffling are known in the art. See, for example, Stemmer (1994) Proc. Natl. Acad. Sci.
- nucleotide sequences of the embodiments can also be used to isolate corresponding sequences from other organisms, particularly other bacteria, and more particularly other Bacillus strains. 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 that are selected based on their sequence identity to the entire sequences set forth herein or to fragments thereof are encompassed by the embodiments. Such sequences include sequences that are orthologs of the disclosed sequences. The term
- orthologs refers to genes derived from a common ancestral gene and which are found in different species as a result of speciation. Genes found in different species are considered orthologs when their nucleotide sequences and/or their encoded protein sequences share substantial identity as defined elsewhere herein. Functions of orthologs are often highly conserved among species.
- oligonucleotide primers can be designed for use in PCR reactions to amplify corresponding DNA sequences from cDNA or genomic DNA extracted from any organism 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
- PCR Protocols A Guide to Methods and Applications (Academic Press, New York); lnnis and Gelfand, eds. (1995) PCR Strategies (Academic Press, New York); and lnnis 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.
- 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 sequences of the embodiments. 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.
- an entire sequence disclosed herein, or one or more portions thereof may be used as a probe capable of specifically hybridizing to corresponding sequences and messenger RNAs.
- probes include sequences that are unique to the sequences of the embodiments and are generally at least about 10 or 20 nucleotides in length.
- Such probes may be used to amplify corresponding Cry sequences from a chosen organism by PCR. This technique may be used to isolate additional coding sequences from a desired organism or as a diagnostic assay to determine the presence of coding sequences in an organism.
- Hybridization techniques include hybridization screening of plated DNA libraries (either plaques or colonies; see, for example, Sambrook).
- Hybridization of such sequences may be carried out under stringent conditions.
- stringent conditions or “stringent hybridization conditions” as used herein refers to 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, 5-fold, or 10-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).
- 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 or 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 0 C for short probes (e.g., 10 to 50 nucleotides) and at least about 60 0 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 NaCI, 1 % SDS at 37 0 C, and a wash in 0.5X to 1X SSC at 55 to 60 0 C.
- Exemplary high stringency conditions include hybridization in 50% formamide, 1 M NaCI, 1 % SDS at 37 0 C, and a final wash in 0.1X SSC at 60 to 65 0 C for at least about 20 minutes.
- wash buffers may comprise about 0.1 % to about 1 % SDS.
- the duration of hybridization is generally less than about 24 hours, usually about 4 to about 12 hours.
- T m thermal melting point
- M the molarity of monovalent cations
- %GC the percentage of guanosine and cytosine nucleotides in the DNA
- % form the percentage of formamide in the hybridization solution
- L 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. Washes are typically performed at least until equilibrium is reached and a low background level of hybridization is achieved, such as for 2 hours, 1 hour, or 30 minutes.
- T m is reduced by about 1 0 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 0 C. Generally, stringent conditions are selected to be about 5 0 C lower than the T m for the specific sequence and its complement at a defined ionic strength and pH.
- severely stringent conditions can utilize a hybridization and/or wash at 1 , 2, 3, or 4 0 C lower than the T m ; moderately stringent conditions can utilize a hybridization and/or wash at 6, 7, 8, 9, or 10 0 C lower than the T m ; low stringency conditions can utilize a hybridization and/or wash at 11 , 12, 13, 14, 15, or 20 0 C lower than the T m .
- 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, California); the ALIGN program (Version 2.0) and GAP, BESTFIT, BLAST, FASTA, and TFASTA in the GCG Wisconsin Genetics Software Package, Version 10 (available from Accelrys Inc., 9685 Scranton Road, San Diego, California, USA). Alignments using these programs can be performed using the default parameters.
- 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
- sequence identity/similarity values provided herein refer to the value obtained using GAP Version 10 using the following parameters: % identity and % similarity for a nucleotide sequence using GAP Weight of 50 and Length Weight of 3, and the nwsgapdna.cmp scoring matrix; % identity and % similarity for an amino acid sequence using GAP Weight of 8 and Length Weight of 2, and the BLOSUM62 scoring matrix; or any equivalent program thereof.
- equivalent program refers to 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 GAP Version 10.
- GAP uses the algorithm of Needleman and Wunsch (1970) supra, to find the alignment of two complete sequences that maximizes the number of matches and minimizes the number of gaps. GAP considers all possible alignments and gap positions and creates the alignment with the largest number of matched bases and the fewest gaps. It allows for the provision of a gap creation penalty and a gap extension penalty in units of matched bases. GAP must make a profit of gap creation penalty number of matches for each gap it inserts. If a gap extension penalty greater than zero is chosen, GAP must, in addition, make a profit for each gap inserted of the length of the gap times the gap extension penalty. Default gap creation penalty values and gap extension penalty values in Version 10 of the GCG Wisconsin Genetics Software Package for protein sequences are 8 and 2, respectively.
- the default gap creation penalty is 50 while the default gap extension penalty is 3.
- the gap creation and gap extension penalties can be expressed as an integer selected from the group of integers consisting of from 0 to 200.
- the gap creation and gap extension penalties can be 0, 1 , 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, 60, 65 or greater.
- GAP presents one member of the family of best alignments. There may be many members of this family, but no other member has a better quality. GAP displays four figures of merit for alignments: Quality, Ratio, Identity, and Similarity.
- the Quality is the metric maximized in order to align the sequences. Ratio is the quality divided by the number of bases in the shorter segment.
- Percent Identity is the percent of the symbols that actually match.
- Percent Similarity is the percent of the symbols that are similar. Symbols that are across from gaps are ignored.
- a similarity is scored when the scoring matrix value for a pair of symbols is greater than or equal to 0.50, the similarity threshold.
- the scoring matrix used in Version 10 of the GCG Wisconsin Genetics Software Package is BLOSUM62 (see Henikoff and Henikoff (1989) Proc. Natl. Acad. Sci. USA 89:10915).
- 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, California).
- 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%. 80%, 90%, or 95% or more sequence identity when compared to a reference sequence using one of the alignment programs described using standard parameters.
- sequence identity is a sequence that has at least 70%. 80%, 90%, or 95% or more sequence identity when 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 generally means sequence identity of at least 60%, 70%, 80%, 90%, or 95% or more sequence identity.
- 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 T m for the specific sequence at a defined ionic strength and pH.
- stringent conditions encompass temperatures in the range of about 1 0 C to about 20 0 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.
- substantially identical in the context of a peptide indicates that a peptide comprises a sequence with at least 70%, 80%, 85%, 90%, 95%, or more sequence identity to a reference sequence over a specified comparison window. Optimal alignment for these purposes can be conducted using the global alignment algorithm of Needleman and Wunsch (1970) supra. 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.
- nucleotide constructs are not intended to limit the embodiments to nucleotide constructs comprising DNA.
- nucleotide constructs particularly polynucleotides and oligonucleotides composed of ribonucleotides and combinations of ribonucleotides and deoxyribonucleotides, may also be employed in the methods disclosed herein.
- the nucleotide constructs, nucleic acids, and nucleotide sequences of the embodiments additionally encompass all complementary forms of such constructs, molecules, and sequences.
- nucleotide constructs, nucleotide molecules, and nucleotide sequences of the embodiments encompass all nucleotide constructs, molecules, and sequences which can be employed in the methods of the embodiments for transforming plants including, but not limited to, those comprised of deoxyribonucleotides, ribonucleotides, and combinations thereof.
- deoxyribonucleotides and ribonucleotides include both naturally occurring molecules and synthetic analogues.
- nucleotide constructs, nucleic acids, and nucleotide sequences of the embodiments also encompass all forms of nucleotide constructs including, but not limited to, single-stranded forms, double- stranded forms, hairpins, stem-and-loop structures, and the like.
- a further embodiment relates to a transformed organism such as an organism selected from the group consisting of plant and insect cells, bacteria, yeast, baculoviruses, protozoa, nematodes, and algae.
- the transformed organism comprises: a DNA molecule of the embodiments, an expression cassette comprising the said DNA molecule, or a vector comprising the said expression cassette, which may be stably incorporated into the genome of the transformed organism.
- the sequences of the embodiments are provided in DNA constructs for expression in the organism of interest.
- the construct will include 5' and 3' regulatory sequences operably linked to a sequence of the embodiments.
- operably linked refers to a functional linkage between a promoter and a second sequence, wherein the promoter sequence initiates and mediates transcription of the DNA sequence corresponding to the second sequence.
- operably linked means that the nucleic acid sequences being linked are contiguous and, where necessary to join two protein coding regions, contiguous and in the same reading frame.
- the construct may additionally contain at least one additional gene to be cotransformed into the organism. Alternatively, the additional gene(s) can be provided on multiple DNA constructs.
- Such a DNA construct is provided with a plurality of restriction sites for insertion of the Cry toxin sequence to be under the transcriptional regulation of the regulatory regions.
- the DNA construct may additionally contain selectable marker genes.
- the DNA construct will include in the 5' to 3' direction of transcription: a transcriptional and translational initiation region (i.e., a promoter), a DNA sequence of the embodiments, and a transcriptional and translational termination region (i.e., termination region) functional in the organism serving as a host.
- the transcriptional initiation region i.e., the promoter
- the transcriptional initiation region may be native, analogous, foreign or heterologous to the host organism and/or to the sequence of the embodiments.
- the promoter may be the natural sequence or alternatively a synthetic sequence.
- the term "foreign" as used herein indicates that the promoter is not found in the native organism into which the promoter is introduced.
- a chimeric gene comprises a coding sequence operably linked to a transcription initiation region that is heterologous to the coding sequence.
- the expression of the operably linked sequence is altered from the wild- type expression, which results in an alteration in phenotype.
- the termination region may be native with the transcriptional initiation region, may be native with the operably linked DNA sequence of interest, may be native with the plant host, or may be derived from another source (i.e., foreign or heterologous to the promoter, the sequence of interest, the plant host, or any combination thereof).
- 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 ) MoI. Gen. Genet. 262:141 -144; Proudfoot (1991 ) Ce// 64:671 -674; Sanfacon et al. (1991 ) Genes Dev. 5:141 -149; Mogen ef a/. (1990) Plant Cell 2:1261 -1272; Munroe et al. (1990) Gene 91 :151 - 158; Ballas et al. (1989) Nucleic Acids Res. 17:7891-7903; and Joshi et al. (1987) Nucleic Acid Res. 15:9627-9639.
- a nucleic acid may be optimized for increased expression in the host organism.
- the synthetic nucleic acids can be synthesized using plant-preferred codons for improved expression. See, for example, Campbell and Gowri (1990) Plant Physiol. 92:1-11 for a discussion of host-preferred codon usage.
- nucleic acid sequences of the embodiments may be expressed in both monocotyledonous and dicotyledonous plant species, sequences can be modified to account for the specific codon preferences and GC content preferences of monocotyledons or dicotyledons as these preferences have been shown to differ (Murray et al. (1989) Nucleic Acids Res. 17:477-498).
- the maize-preferred codon for a particular amino acid may be derived from known gene sequences from maize.
- Maize codon usage for 28 genes from maize plants is listed in Table 4 of Murray et al., supra. Methods are available in the art for synthesizing plant- preferred genes. See, for example, U.S. Patent Nos. 5,380,831 , and 5,436,391 , and Murray et al. (1989) Nucleic 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 well-characterized sequences that may be deleterious to gene expression.
- the GC 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.
- host cell refers to a cell which contains a vector and supports the replication and/or expression of the expression vector is intended. Host cells may be prokaryotic cells such as E.
- coli or eukaryotic cells such as yeast, insect, amphibian, or mammalian cells, or monocotyledonous or dicotyledonous plant cells.
- eukaryotic cells such as yeast, insect, amphibian, or mammalian cells
- monocotyledonous or dicotyledonous plant cells An example of a monocotyledonous host cell is a maize host cell.
- sequence is modified to avoid predicted hairpin secondary mRNA structures.
- the expression cassettes may additionally contain 5' leader sequences.
- 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) Proc. Natl. Acad. Sci. USA 86: 6126-6130); potyvirus leaders, for example, TEV leader (Tobacco Etch Virus) (GaIMe et al. (1995) Gene 165(2): 233-238), MDMV leader (Maize Dwarf Mosaic Virus), human immunoglobulin heavy-chain binding protein (BiP) (Macejak et al.
- EMCV leader Engelphalomyocarditis 5' noncoding region
- potyvirus leaders for example, TEV leader (Tobacco Etch Virus) (GaIMe et al. (1995) Gene 165(2): 233-238), MDMV leader (Maize Dwarf Mos
- 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.
- a number of promoters can be used in the practice of the embodiments. The promoters can be selected based on the desired outcome.
- the nucleic acids can be combined with constitutive, tissue-preferred, inducible, or other promoters for expression in the host organism.
- Suitable constitutive promoters for use in a plant host cell include, for example, the core promoter of the Rsyn7 promoter and other constitutive promoters disclosed in WO 99/43838 and U.S. Patent No. 6,072,050; the core CaMV 35S promoter (Odell et al. (1985) Nature 313: 810-812); rice actin (McElroy et al. (1990) Plant Cell 2: 163-171 ); ubiquitin (Christensen et al. (1989) Plant MoI. Biol. 12: 619-632 and Christensen et al.
- wound-inducible promoters are wound-inducible promoters.
- Such wound-inducible promoters may respond to damage caused by insect feeding, and include potato proteinase inhibitor (pin II) gene (Ryan (1990) Ann. Rev. Phytopath. 28: 425-449; Duan et al. (1996) Nature Biotechnology 14:
- pathogen-inducible promoters may be employed in the methods and nucleotide constructs of the embodiments.
- pathogen-inducible 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) Neth. J. Plant Pathol. 89: 245-254; Uknes et al. (1992) Plant Cell 4: 645-656; and Van Loon (1985) Plant MoI. Virol. 4: 111 -116. See also WO 99/43819, herein incorporated by reference.
- promoters that are expressed locally at or near the site of pathogen infection. See, for example, Marineau et al. (1987) Plant MoI. Biol. 9:335- 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) MoI. Gen. Genet. 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.
- Chemical-regulated promoters can be used to modulate the expression of a gene in a plant through the application of an exogenous chemical regulator.
- the promoter may be a chemical-inducible promoter, where application of the chemical induces gene expression, or a chemical- repressible promoter, where application of the chemical represses gene expression.
- Chemical-inducible promoters are known in the art and include, but are not limited to, the maize ln2-2 promoter, which is activated by benzenesulfonamide herbicide safeners, the maize GST promoter, which is activated by hydrophobic electrophilic compounds that are used as pre-emergent herbicides, and the tobacco PR-I a promoter, which is activated by salicylic acid.
- Other chemical-regulated promoters of interest include steroid-responsive promoters (see, for example, the glucocorticoid-inducible promoter in Schena et al. (1991 ) Proc. Natl. Acad. Sci. USA 88:10421 -10425 and McNeINs et al.
- Tissue-preferred promoters can be utilized to target enhanced pesticidal protein expression within a particular plant tissue.
- Tissue-preferred promoters include those discussed in 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) MoI. 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.
- Leaf-preferred promoters are known in the art. See, for example, Yamamoto et al. (1997) Plant J. 12(2):255-265; Kwon et al. (1994) Plant Physiol. 105:357-67; Yamamoto et al. (1994) Plant Cell Physiol. 35(5):773-778; Gotor et al. (1993) Plant J. 3:509-18; Orozco et al. (1993) Plant MoI. Biol. 23(6):1129-1138; and Matsuoka et al. (1993) Proc. Natl. Acad. Sci. USA 90(20):9586-9590.
- Root-preferred or root-specific promoters are known and can be selected from the many available from the literature or isolated de novo from various compatible species. See, for example, Hire et al. (1992) Plant MoI. Biol. 20(2):207- 218 (soybean root-specific glutamine synthetase gene); Keller and Baumgartner (1991 ) Plant Cell 3(10):1051 -1061 (root-specific control element in the GRP 1.8 gene of French bean); Sanger et al. (1990) Plant MoI. Biol. 14(3):433-443 (root- specific promoter of the mannopine synthase (MAS) gene of Agrobacterium tumefaciens); and Miao et al.
- MAS mannopine synthase
- the promoters of these genes were linked to a ⁇ - glucuronidase reporter gene and introduced into both the nonlegume Nicotiana tabacum and the legume Lotus corniculatus, and in both instances root-specific promoter activity was preserved.
- Leach and Aoyagi (1991 ) describe their analysis of the promoters of the highly expressed rolC and rolD root-inducing genes of Agrobacterium rhizogenes (see Plant Science (Limerick) 79(1 ):69-76). They concluded that enhancer and tissue-preferred DNA determinants are dissociated in those promoters. Teeri et al.
- rolB promoter Capana et al. (1994) Plant MoI. Biol. 25(4):681 -691. See also U.S. Patent Nos. 5,837,876; 5,750,386; 5,633,363; 5,459,252; 5,401 ,836; 5,110,732; and 5,023,179.
- "Seed-preferred" promoters include both "seed-specific" promoters (those promoters active during seed development such as promoters of seed storage proteins) as well as “seed-germinating” promoters (those promoters active during seed germination). See Thompson et al. (1989) BioEssays 10:108, herein incorporated by reference.
- seed-preferred promoters include, but are not limited to, Cim1 (cytokinin-induced message); cZ19B1 (maize 19 kDa zein); and milps (myo-inositol-1 -phosphate synthase) (see U.S. Patent No. 6,225,529, herein incorporated by reference).
- Gamma-zein and Glob-1 are endosperm-specific promoters.
- seed-specific promoters include, but are not limited to, bean ⁇ -phaseolin, napin, ⁇ -conglycinin, soybean lectin, crucifehn, and the like.
- seed-specific promoters include, but are not limited to, maize 15 kDa zein, 22 kDa zein, 27 kDa zein, g-zein, waxy, shrunken 1 , shrunken 2, globulin 1 , etc. See also WO 00/12733, where seed-preferred promoters from end1 and end2 genes are disclosed; herein incorporated by reference.
- a promoter that has "preferred" expression in a particular tissue is expressed in that tissue to a greater degree than in at least one other plant tissue. Some tissue-preferred promoters show expression almost exclusively in the particular tissue.
- weak promoters will be used.
- the term "weak promoter” as used herein refers to a promoter that drives expression of a coding sequence at a low level. By low level expression at levels of about 1 /1000 transcripts to about 1 /100,000 transcripts to about 1 /500,000 transcripts is intended. Alternatively, it is recognized that the term “weak promoters” also encompasses promoters that drive expression in only a few cells and not in others to give a total low level of expression. Where a promoter drives expression at unacceptably high levels, portions of the promoter sequence can be deleted or modified to decrease expression levels.
- Such weak constitutive promoters include, for example the core promoter of the Rsyn7 promoter (WO 99/43838 and U.S. Patent No. 6,072,050), the core 35S CaMV promoter, and the like.
- Other constitutive promoters include, for example, those disclosed in U.S. Patent 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; and 6,177,611 ; herein incorporated by reference.
- the expression cassette will comprise a selectable marker gene for the selection of transformed cells.
- Selectable marker genes are utilized for the selection of transformed cells or tissues.
- Marker genes include genes encoding antibiotic resistance, such as those encoding neomycin phosphotransferase Il (NEO) and hygromycin phosphotransferase (HPT), as well as genes conferring resistance to herbicidal compounds, such as glufosinate ammonium, bromoxynil, imidazolinones, and 2,4-dichlorophenoxyacetate (2,4-D).
- Additional examples of suitable selectable marker genes include, but are not limited to, genes encoding resistance to chloramphenicol (Herrera Estrella et al. (1983) EMBO J.
- selectable marker genes are not meant to be limiting. Any selectable marker gene can be used in the embodiments.
- the methods of the embodiments involve introducing a polypeptide or polynucleotide into a plant.
- "Introducing" is intended to mean presenting to the plant the polynucleotide or polypeptide in such a manner that the sequence gains access to the interior of a cell of the plant.
- the methods of the embodiments do not depend on a particular method for introducing a polynucleotide or polypeptide into a plant, only that the polynucleotide or polypeptides gains access to the interior of at least one cell of the plant.
- Methods for introducing polynucleotide or polypeptides into plants are known in the art including, but not limited to, stable transformation methods, transient transformation methods, and virus-mediated methods.
- “Stable transformation” is intended to mean that the nucleotide construct introduced into a plant integrates into the genome of the plant and is capable of being inherited by the progeny thereof.
- “Transient transformation” is intended to mean that a polynucleotide is introduced into the plant and does not integrate into the genome of the plant or a polypeptide is introduced into a plant.
- Transformation protocols as well as protocols for introducing nucleotide sequences into plants may vary depending on the type of plant or plant cell, i.e., monocot or dicot, targeted for transformation. Suitable methods of introducing nucleotide sequences into plant cells and subsequent insertion into the plant genome include microinjection (Crossway et al. (1986) Biotechniques 4: 320-334), electroporation (Riggs et al. (1986) Proc. Natl. Acad. Sci. USA 83: 5602-5606), Agrobacterium-me ⁇ ate ⁇ transformation (U.S. Patent Nos. 5,563,055 and 5,981 ,840), direct gene transfer (Paszkowski et al. (1984) EMBO J.
- the sequences of the embodiments can be provided to a plant using a variety of transient transformation methods.
- transient transformation methods include, but are not limited to, the introduction of the Cry toxin protein or variants and fragments thereof directly into the plant or the introduction of the Cry toxin transcript into the plant.
- Such methods include, for example, microinjection or particle bombardment. See, for example, Crossway et a/. (1986) MoI Gen. Genet. 202: 179-185; Nomura et al. (1986) Plant Sci. 44: 53- 58; Hepler et al. (1994) Proc. Natl. Acad. Sci. 91 : 2176-2180 and Hush et al.
- the Cry toxin polynucleotide can be transiently transformed into the plant using techniques known in the art. Such techniques include viral vector system and the precipitation of the polynucleotide in a manner that precludes subsequent release of the DNA. Thus, transcription from the particle-bound DNA can occur, but the frequency with which it is released to become integrated into the genome is greatly reduced. Such methods include the use of particles coated with polyethylimine (PEI; Sigma #P3143).
- the insertion of the polynucleotide at a desired genomic location is achieved using a site-specific recombination system.
- a site-specific recombination system See, for example, WO99/25821 , WO99/25854, WO99/25840, WO99/25855, and WO99/25853, all of which are herein incorporated by reference.
- the polynucleotide of the embodiments can be contained in transfer cassette flanked by two non-identical recombination sites.
- the transfer cassette is introduced into a plant have stably incorporated into its genome a target site which is flanked by two non-identical recombination sites that correspond to the sites of the transfer cassette. An appropriate recombinase is provided and the transfer cassette is integrated at the target site. The polynucleotide of interest is thereby integrated at a specific chromosomal position in the plant genome.
- the cells that 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 constitutive or inducible expression of the desired phenotypic characteristic identified. Two or more generations may be grown to ensure that expression of the desired phenotypic characteristic is stably maintained and inherited and then seeds harvested to ensure that expression of the desired phenotypic characteristic has been achieved.
- the nucleotide sequences of the embodiments may be provided to the plant by contacting the plant with a virus or viral nucleic acids. Generally, such methods involve incorporating the nucleotide construct of interest within a viral DNA or RNA molecule. It is recognized that the recombinant proteins of the embodiments may be initially synthesized as part of a viral polyprotein, which later may be processed by proteolysis in vivo or in vitro to produce the desired pesticidal protein. It is also recognized that such a viral polyprotein, comprising at least a portion of the amino acid sequence of a pesticidal protein of the embodiments, may have the desired pesticidal activity.
- Such viral polyproteins and the nucleotide sequences that encode for them are encompassed by the embodiments.
- Methods for providing plants with nucleotide constructs and producing the encoded proteins in the plants, which involve viral DNA or RNA molecules are known in the art. See, for example, U.S. Patent Nos. 5,889,191 ; 5,889,190; 5,866,785; 5,589,367; and 5,316,931 ; herein incorporated by reference.
- the embodiments further relate to plant-propagating material of a transformed plant of the embodiments including, but not limited to, seeds, tubers, corms, bulbs, leaves, and cuttings of roots and shoots.
- the embodiments may be used for transformation of any plant species, including, but not limited to, monocots and dicots.
- plants of interest include, but are not limited to, corn (Zea mays), Brassica sp. ⁇ e.g., B. napus, B.
- rapa, B.juncea particularly those Brassica species useful as sources of seed oil, alfalfa ⁇ Medicago sativa), rice ⁇ Oryza sativa), rye ⁇ Secale cereale), sorghum (Sorghum bicolor, Sorghum vulgare), millet (e.g., pearl millet (Pennisetum glaucum), proso millet (Panicum miliaceum), foxtail millet (Setaria italica), finger millet (Eleusine coracana)), sunflower (Helianthus annuus), safflower (Carthamus tinctorius), wheat (Triticum aestivum), soybean (Glycine max), tobacco (Nicotiana tabacum), potato (Solanum tuberosum), peanuts (Arachis hypogaea), cotton (Gossypium barbadense,
- sorghum Sorghum bicolor, Sorghum vulgare
- millet e.g.
- Vegetables include tomatoes ⁇ Lycopersicon esculentum), lettuce ⁇ e.g., Lactuca sativa), green beans ⁇ Phaseolus vulgaris), lima beans (Phaseolus limensis), peas (Lathyrus spp.), and members of the genus Cucumis such as cucumber (C. sativus), cantaloupe (C. cantalupensis), and musk melon (C. meld).
- Ornamentals include azalea (Rhododendron spp.), hydrangea (Macrophylla hydrangea), hibiscus (Hibiscus rosasanensis), roses (Rosa spp.), tulips (Tulipa spp.), daffodils (Narcissus spp.), petunias (Petunia hybrida), carnation (Dianthus caryophyllus), poinsettia (Euphorbia pulcherrima), and chrysanthemum.
- Conifers that may be employed in practicing the embodiments include, for example, pines such as loblolly pine (Pinus taeda), slash pine (Pinus elliotii), ponderosa pine (Pinus ponderosa), lodgepole pine (Pinus contorta), and Monterey pine (Pinus radiata); Douglas fir (Pseudotsuga menziesii); Western hemlock (Tsuga canadensis); Sitka spruce (Picea glauca); redwood (Sequoia sempervirens); true firs such as silver fir (Abies amabilis) and balsam fir (Abies balsamea); and cedars such as Western red cedar (Thuja plicata) and Alaska yellow-cedar (Chamaecyparis nootkatensis).
- pines such as loblolly pine (Pinus taeda), slash pine (P
- Plants of the embodiments include crop plants (for example, corn, alfalfa, sunflower, Brassica, soybean, cotton, safflower, peanut, sorghum, wheat, millet, tobacco, etc.), such as corn and soybean plants.
- Turfgrasses include, but are not limited to: annual bluegrass (Poa annua); annual ryegrass (Lolium multiflorum); Canada bluegrass (Poa compressa); Chewings fescue (Festuca rubra); colonial bentgrass (Agrostis tenuis); creeping bentgrass
- Agrostis palustris crested wheatgrass (Agropyron desertorum); fairway wheatgrass (Agropyron cristatum); hard fescue (Festuca longifolia); Kentucky bluegrass (Poa pratensis); orchardgrass (Dactylis glomerata); perennial ryegrass (Lolium perenne); red fescue (Festuca rubra); redtop (Agrostis alba); rough bluegrass (Poa trivialis); sheep fescue (Festuca ovina); smooth bromegrass (Bromus inermis); tall fescue (Festuca arundinacea); timothy (Phleum pratense); velvet bentgrass (Agrostis canina); weeping alkaligrass (Puccinellia distans); western wheatgrass (Agropyron smithii); Bermuda grass (Cynodon spp.); St.
- Plants of interest include grain plants that provide seeds of interest, oil-seed plants, and leguminous plants.
- Seeds of interest include grain seeds, such as corn, wheat, barley, rice, sorghum, rye, millet, etc.
- Oil-seed plants include cotton, soybean, safflower, sunflower, Brassica, maize, alfalfa, palm, coconut, flax, castor, olive etc.
- Leguminous plants include beans and peas. Beans include guar, locust bean, fenugreek, soybean, garden beans, cowpea, mungbean, lima bean, fava bean, lentils, chickpea, etc.
- the nucleic acid sequences of the embodiments can be stacked with any combination of polynucleotide sequences of interest in order to create plants with a desired phenotype.
- the polynucleotides of the embodiments may be stacked with any other polynucleotides encoding polypeptides having pesticidal and/or insecticidal activity, such as other Bt toxic proteins (described in U.S. Patent Nos. 5,366,892; 5,747,450; 5,736,514; 5,723,756; 5,593,881 ; and Geiser ef a/. (1986) Gene 48:109), pentin (described in U.S. Patent No. 5,981 ,722) and the like.
- the combinations generated can also include multiple copies of any one of the polynucleotides of interest.
- the polynucleotides of the embodiments can also be stacked with any other gene or combination of genes to produce plants with a variety of desired trait combinations including but not limited to traits desirable for animal feed such as high oil genes (e.g., U.S. Patent No. 6,232,529); balanced amino acids (e.g. hordothionins (U.S. Patent Nos. 5,990,389; 5,885,801 ; 5,885,802; and 5,703,049); barley high lysine (Williamson et al. (1987) Eur. J. Biochem.
- the polynucleotides of the embodiments can also be stacked with traits desirable for disease or herbicide resistance (e.g., fumonisin detoxification genes (U.S. Patent No. 5,792,931 ); avirulence and disease resistance genes (Jones et al. (1994) Science 266:789; Martin et al. (1993) Science 262: 1432; and Mindrinos et al.
- diseases or herbicide resistance e.g., fumonisin detoxification genes (U.S. Patent No. 5,792,931 ); avirulence and disease resistance genes (Jones et al. (1994) Science 266:789; Martin et al. (1993) Science 262: 1432; and Mindrinos et al.
- acetolactate synthase (ALS) mutants that lead to herbicide resistance such as the S4 and/or Hra mutations
- inhibitors of glutamine synthase such as phosphinothhcin or basta ⁇ e.g., bar gene
- glyphosate resistance EPSPS gene and GAT gene as disclosed in U.S. Application Serial Nos. 10/004,357; and 10/427,692
- high oil e.g., U.S. Patent No. 6,232,529
- modified oils e.g., fatty acid desaturase genes (U.S. Patent No.
- modified starches e.g., ADPG pyrophosphorylases (AGPase), starch synthases (SS), starch branching enzymes (SBE) and starch debranching enzymes (SDBE)
- AGPase ADPG pyrophosphorylases
- SS starch synthases
- SBE starch branching enzymes
- SDBE starch debranching enzymes
- polymers or bioplastics e.g., U.S. patent No. 5.602,321 ; beta-ketothiolase, polyhydroxybutyrate synthase, and acetoacetyl-CoA reductase (Schubert et al.
- PHAs polyhydroxyalkanoat.es
- agronomic traits such as male sterility (e.g., see U.S. Patent No. 5.583,210), stalk strength, flowering time, or transformation technology traits such as cell cycle regulation or gene targeting (e.g. WO 99/61619; WO 00/17364; WO 99/25821 ), the disclosures of which are herein incorporated by reference.
- stacked combinations can be created by any method including but not limited to cross breeding plants by any conventional or TOPCROSS® methodology, or genetic transformation.
- the traits are stacked by genetically transforming the plants, the polynucleotide sequences of interest can be combined at any time and in any order.
- a transgenic plant comprising one or more desired traits can be used as the target to introduce further traits by subsequent transformation.
- the traits can be introduced simultaneously in a co-transformation protocol with the polynucleotides of interest provided by any combination of transformation cassettes.
- the two sequences can be contained in separate transformation cassettes (trans) or contained on the same transformation cassette (cis). Expression of the sequences can be driven by the same promoter or by different promoters.
- compositions of the embodiments find use in protecting plants, seeds, and plant products in a variety of ways.
- the compositions can be used in a method that involves placing an effective amount of the pesticidal composition in the environment of the pest by a procedure selected from the group consisting of spraying, dusting, broadcasting, or seed coating.
- a procedure selected from the group consisting of spraying, dusting, broadcasting, or seed coating Before plant propagation material (fruit, tuber, bulb, corm, grains, seed), but especially seed, is sold as a commercial product, it is customarily treated with a protectant coating comprising herbicides, insecticides, fungicides, bactericides, nematicides, molluscicides, or mixtures of several of these preparations, if desired together with further carriers, surfactants, or application-promoting adjuvants customarily employed in the art of formulation to provide protection against damage caused by bacterial, fungal, or animal pests.
- the protectant coating may be applied to the seeds either by impregnating the tubers or grains with a liquid formulation or by coating them with a combined wet or dry formulation.
- other methods of application to plants are possible, e.g., treatment directed at the buds or the fruit.
- the plant seed of the embodiments comprising a nucleotide sequence encoding a pesticidal protein of the embodiments may be treated with a seed protectant coating comprising a seed treatment compound, such as, for example, captan, carboxin, thiram, methalaxyl, pihmiphos-methyl, and others that are commonly used in seed treatment.
- a seed protectant coating comprising a pesticidal composition of the embodiments is used alone or in combination with one of the seed protectant coatings customarily used in seed treatment.
- genes encoding the pesticidal proteins can be used to transform insect pathogenic organisms.
- Such organisms include baculoviruses, fungi, protozoa, bacteria, and nematodes.
- a gene encoding a pesticidal protein of the embodiments may be introduced via a suitable vector into a microbial host, and said host applied to the environment, or to plants or animals.
- the term "introduced” in the context of inserting a nucleic acid into a cell means “transfection” or “transformation” or “transduction” and includes reference to the incorporation of a nucleic acid into a eukaryotic or prokaryotic cell where the nucleic acid may be incorporated into the genome of the cell (e.g., chromosome, plasmid, plastid, or mitochondrial DNA), converted into an autonomous replicon, or transiently expressed (e.g., transfected mRNA).
- Microorganism hosts that are known to occupy the "phytosphere" (phylloplane, phyllosphere, rhizosphere, and/or rhizoplana) of one or more crops of interest may be selected. These microorganisms are selected so as to be capable of successfully competing in the particular environment with the wild-type microorganisms, provide for stable maintenance and expression of the gene expressing the pesticidal protein, and desirably, provide for improved protection of the pesticide from environmental degradation and inactivation.
- phytosphere phytosphere
- rhizosphere rhizosphere
- rhizoplana rhizoplana
- microorganisms include bacteria, algae, and fungi.
- microorganisms such as bacteria, e.g., Pseudomonas, Erwinia, Serratia, Klebsiella, Xanthomonas, Streptomyces, Rhizobium, Rhodopseudomonas, Methylius, Agrobacterium, Acetobacter, Lactobacillus, Arthrobacter, Azotobacter, Leuconostoc, and Alcaligenes, fungi, particularly yeast, e.g., Saccharomyces, Cryptococcus, Kluyveromyces, Sporobolomyces, Rhodotorula, and Aureobasidium.
- phytosphere bacterial species as Pseudomonas syringae, Pseudomonas fluorescens, Serratia marcescens, Acetobacter xylinum, Agrobacteria, Rhodopseudomonas spheroides, Xanthomonas campestris, Rhizobium melioti, Alcaligenes entrophus, Clavibacter xyli and Azotobacter vinelandii and phytosphere yeast species such as Rhodotorula rubra, R. glutinis, R. marina, R. aurantiaca, Cryptococcus albidus, C. diffluens, C.
- expression cassettes can be constructed which include the nucleotide constructs of interest operably linked with the transcriptional and translational regulatory signals for expression of the nucleotide constructs, and a nucleotide sequence homologous with a sequence in the host organism, whereby integration will occur, and/or a replication system that is functional in the host, whereby integration or stable maintenance will occur.
- Transcriptional and translational regulatory signals include, but are not limited to, promoters, transcriptional initiation start sites, operators, activators, enhancers, other regulatory elements, hbosomal binding sites, an initiation codon, termination signals, and the like. See, for example, U.S. Patent Nos. 5,039,523 and 4,853,331 ; EPO 0480762A2; Sambrook et al. (1992) Molecular Cloning: A Laboratory Manual, ed. Maniatis et al. (Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York), hereinafter "Sambrook II”; Davis et al., eds. (1980) Advanced Bacterial Genetics (Cold Spring Harbor Laboratory Press), Cold Spring Harbor, New York; and the references cited therein.
- Suitable host cells where the pesticidal protein-containing cells will be treated to prolong the activity of the pesticidal proteins in the cell when the treated cell is applied to the environment of the target pest(s), may include either prokaryotes or eukaryotes, normally being limited to those cells that do not produce substances toxic to higher organisms, such as mammals. However, organisms that produce substances toxic to higher organisms could be used, where the toxin is unstable or the level of application sufficiently low as to avoid any possibility of toxicity to a mammalian host. As hosts, of particular interest will be the prokaryotes and the lower eukaryotes, such as fungi.
- Illustrative prokaryotes both Gram- negative and gram-positive, include Enterobacteriaceae, such as Escherichia, Erwinia, Shigella, Salmonella, and Proteus; Bacillaceae; Rhizobiaceae, such as Rhizobium; Spirillaceae, such as photobactehum, Zymomonas, Serratia, Aeromonas, Vibrio, Desulfovibrio, Spirillum; Lactobacillaceae; Pseudomonadaceae, such as Pseudomonas and Acetobacter; Azotobacteraceae and Nitrobacteraceae.
- Enterobacteriaceae such as Escherichia, Erwinia, Shigella, Salmonella, and Proteus
- Bacillaceae Rhizobiaceae, such as Rhizobium
- Spirillaceae such as photobactehum, Zymomonas, Serratia, Aeromonas, Vibri
- fungi such as Phycomycetes and Ascomycetes, which includes yeast, such as Saccharomyces and Schizosaccharomyces; and Basidiomycetes yeast, such as Rhodotorula, Aureobasidium, Sporobolomyces, and the like.
- Characteristics of particular interest in selecting a host cell for purposes of pesticidal protein production include ease of introducing the pesticidal protein gene into the host, availability of expression systems, efficiency of expression, stability of the protein in the host, and the presence of auxiliary genetic capabilities.
- Characteristics of interest for use as a pesticide microcapsule include protective qualities for the pesticide, such as thick cell walls, pigmentation, and intracellular packaging or formation of inclusion bodies; leaf affinity; lack of mammalian toxicity; attractiveness to pests for ingestion; ease of killing and fixing without damage to the toxin; and the like. Other considerations include ease of formulation and handling, economics, storage stability, and the like.
- Host organisms of particular interest include yeast, such as Rhodotorula spp., Aureobasidium spp., Saccharomyces spp. (such as S. cerevisiae), Sporobolomyces spp., phylloplane organisms such as Pseudomonas spp. (such as P. aeruginosa, P. fluorescens) , Erwinia spp., and Flavobacterium spp., and other such organisms, including Bt, E. coli, Bacillus subtilis, and the like.
- yeast such as Rhodotorula spp., Aureobasidium spp., Saccharomyces spp. (such as S. cerevisiae), Sporobolomyces spp., phylloplane organisms such as Pseudomonas spp. (such as P. aeruginosa, P. fluorescens)
- Genes encoding the pesticidal proteins of the embodiments can be introduced into microorganisms that multiply on plants (epiphytes) to deliver pesticidal proteins to potential target pests.
- Epiphytes for example, can be gram- positive or gram-negative bacteria.
- Root-colonizing bacteria for example, can be isolated from the plant of interest by methods known in the art. Specifically, a Bacillus cereus strain that colonizes roots can be isolated from roots of a plant (see, for example, bottlesman et al. (1991 ) Appl. Environ. Microbiol. 56:713-718). Genes encoding the pesticidal proteins of the embodiments can be introduced into a root-colonizing Bacillus cereus by standard methods known in the art.
- Genes encoding pesticidal proteins can be introduced, for example, into the root-colonizing Bacillus by means of electrotransformation. Specifically, genes encoding the pesticidal proteins can be cloned into a shuttle vector, for example, pHT3101 (Lerecius et al. (1989) FEMS Microbiol. Letts. 60: 211 -218.
- the shuttle vector pHT3101 containing the coding sequence for the particular pesticidal protein gene can, for example, be transformed into the root-colonizing Bacillus by means of electroporation (Lerecius et al. (1989) FEMS Microbiol. Letts. 60: 211 -218).
- Expression systems can be designed so that pesticidal proteins are secreted outside the cytoplasm of gram-negative bacteria, such as E. coli, for example.
- Advantages of having pesticidal proteins secreted are: (1 ) avoidance of potential cytotoxic effects of the pesticidal protein expressed; and (2) improvement in the efficiency of purification of the pesticidal protein, including, but not limited to, increased efficiency in the recovery and purification of the protein per volume cell broth and decreased time and/or costs of recovery and purification per unit protein.
- Pesticidal proteins can be made to be secreted in E. coli, for example, by fusing an appropriate E. coli signal peptide to the amino-terminal end of the pesticidal protein.
- Signal peptides recognized by E. coli can be found in proteins already known to be secreted in E. coli, for example the OmpA protein (Ghrayeb et al. (1984) EMBO J, 3:2437-2442).
- OmpA is a major protein of the E. coli outer membrane, and thus its signal peptide is thought to be efficient in the translocation process.
- OmpA signal peptide does not need to be modified before processing as may be the case for other signal peptides, for example lipoprotein signal peptide (Duffaud et al. (1987) Meth. Enzymol. 153: 492).
- Pesticidal proteins of the embodiments can be fermented in a bacterial host and the resulting bacteria processed and used as a microbial spray in the same manner that Bt strains have been used as insecticidal sprays.
- the secretion signal is removed or mutated using procedures known in the art. Such mutations and/or deletions prevent secretion of the pesticidal protein(s) into the growth medium during the fermentation process.
- the pesticidal proteins are retained within the cell, and the cells are then processed to yield the encapsulated pesticidal proteins. Any suitable microorganism can be used for this purpose.
- Pseudomonas has been used to express Bt toxins as encapsulated proteins and the resulting cells processed and sprayed as an insecticide (Gaertner et al. (1993), in: Advanced Engineered Pesticides, ed. Kim).
- the pesticidal proteins are produced by introducing a heterologous gene into a cellular host. Expression of the heterologous gene results, directly or indirectly, in the intracellular production and maintenance of the pesticide. These cells are then treated under conditions that prolong the activity of the toxin produced in the cell when the cell is applied to the environment of target pest(s). The resulting product retains the toxicity of the toxin.
- These naturally encapsulated pesticidal proteins may then be formulated in accordance with conventional techniques for application to the environment hosting a target pest, e.g., soil, water, and foliage of plants. See, for example EPA 0192319, and the references cited therein.
- a transformed microorganism which includes whole organisms, cells, spore(s), pesticidal protein(s), pesticidal component(s), pest- impacting component(s), mutant(s), living or dead cells and cell components, including mixtures of living and dead cells and cell components, and including broken cells and cell components
- an isolated pesticidal protein 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 or pellet, a wettable powder, and an emulsifiable concentrate, an aerosol or spray, an impregnated granule, an adjuvant, a coatable paste, a colloid, and also encapsulations in, for example, polymer substances.
- Such formulated compositions may be prepared by such conventional means as desiccation, lyophilization, homogenization, extraction, filtration, centhfugation, sedimentation, or concentration
- 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 UV 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, bactericides, nematicides, molluscicides, acahcides, 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 embodiments are normally applied in the form of compositions and can be applied to the crop area, plant, or seed to be treated.
- the compositions of the embodiments may be applied to grain in preparation for or during storage in a grain bin or silo, etc.
- the compositions of the embodiments may be applied simultaneously or in succession with other compounds.
- Methods of applying an active ingredient of the embodiments or an agrochemical composition of the embodiments that contains at least one of the pesticidal proteins produced by the bacterial strains of the embodiments include, but are not limited to, 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; a 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; salt
- 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.
- the compositions of the embodiments can be in a suitable form for direct application or as a concentrate of primary composition that 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% or 0.1 to 50% of a surfactant.
- compositions will be administered at the labeled rate for the commercial product, for example, about 0.01 lb-5.0 Ib. per acre when in dry form and at about 0.01 pts. - 10 pts. per acre when in liquid form.
- the compositions, as well as the transformed microorganisms and pesticidal proteins of the embodiments can be treated prior to formulation to prolong the pesticidal activity when applied to the environment of a target pest as long as the pretreatment is not deleterious to the pesticidal activity.
- Such treatment can be by chemical and/or physical means as long as the treatment does not deletehously affect the properties of the composition(s).
- Examples of chemical reagents include but are not limited to halogenating agents; aldehydes such as 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 (1967) Animal Tissue Techniques (W.H. Freeman and Co.).
- 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 (1967) Animal Tissue Techniques (W.H. Freeman and Co.).
- Cry toxin polypeptides with a protease, for example trypsin, to activate the protein prior to application of a pesticidal protein composition of the embodiments to the environment of the target pest.
- a protease for example trypsin
- Methods for the activation of protoxin by a serine protease are well known in the art. See, for example, Cooksey (1968) Biochem. J. 6:445-454 and Carroll and Ellar (1989) Biochem. J. 261 :99-105, the teachings of which are herein incorporated by reference.
- a suitable activation protocol includes, but is not limited to, combining a polypeptide to be activated, for example a purified novel Cry polypeptide (e.g., having the amino acid sequence set forth in SEQ ID NO:2), and trypsin at a 1/100 weight ratio of protein/trypsin in 20 nM NaHCO3, pH 8 and digesting the sample at 36 0 C for 3 hours.
- a polypeptide to be activated for example a purified novel Cry polypeptide (e.g., having the amino acid sequence set forth in SEQ ID NO:2)
- trypsin at a 1/100 weight ratio of protein/trypsin in 20 nM NaHCO3, pH 8 and digesting the sample at 36 0 C for 3 hours.
- compositions can be applied to the environment of an insect 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.
- the pesticidal protein and/or transformed microorganisms of the embodiments may be mixed with grain to protect the grain during storage. 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 embodiments can conveniently contain another insecticide if this is thought necessary.
- the composition is applied directly to the soil, at a time of planting, in granular form of a composition of a carrier and dead cells of a Bacillus strain or transformed microorganism of the embodiments.
- Another embodiment is a granular form of a composition comprising an agrochemical such as, for example, an herbicide, an insecticide, a fertilizer, an inert carrier, and dead cells of a Bacillus strain or transformed microorganism of the embodiments.
- insects include economically important agronomic, forest, greenhouse, nursery, ornamentals, food and fiber, public and animal health, domestic and commercial structure, household, and stored product pests.
- 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.
- Insects of the order Lepidoptera include, but are not limited to, armyworms, cutworms, loopers, and heliothines in the family Noctuidae /Ag ⁇ of/s ipsilon Hufnagel (black cutworm); A. orthogonia Morrison (western cutworm); A. segetum Denis & Schifferm ⁇ ller (turnip moth); A.
- subterranea Fabhcius granulate cutworm
- Alabama argillacea H ⁇ bner cotton leaf worm
- Anticarsia gemmatalis H ⁇ bner velvetbean caterpillar
- Athetis mindara Barnes and McDunnough rough skinned cutworm
- Earias insulana Boisduval spiny bollworm
- E. vittella Fabricius spotted bollworm
- Egira (Xylomyges) curialis Grote citrus cutworm
- Euxoa messoria Harris darksided cutworm
- Helicoverpa armigera H ⁇ bner American bollworm
- zea Boddie corn earworm or cotton bollworm
- Heliothis virescens Fabricius tobacco budworm
- Hypena scabra Fabricius green cloverworm
- Mamestra configurata Walker Mamestra configurata Walker (bertha armyworm); M. brassicae Linnaeus (cabbage moth); Melanchra picta Harris (zebra caterpillar); Pseudaletia unipuncta Haworth (armyworm); Pseudoplusia includens Walker (soybean looper); Richia albicosta Smith (Western bean cutworm );Spodoptera frugiperda JE Smith (fall armyworm); S. exigua H ⁇ bner (beet armyworm); S.
- litura Fabricius tobacco cutworm, cluster caterpillar
- Trichoplusia ni H ⁇ bner cabbage looper
- borers, casebearers, webworms, coneworms, and skeleton izers from the families Pyralidae and Crambidae such as Achroia grisella Fabricius (lesser wax moth); Amyelois transitella Walker (naval orangeworm); Anagasta kuehniella Zeller (Mediterranean flour moth); Cadra cautella Walker (almond moth); Chilo partellus Swinhoe (spotted stalk borer); C. suppressalis Walker (striped stem/rice borer); C.
- pomonella Linnaeus codling moth
- Endopiza viteana Clemens grape berry moth
- Eupoecilia ambiguella H ⁇ bner vine moth
- Grapholita molesta Busck oriental fruit moth
- Lobesia botrana Denis & Schiffermiiller European grape vine moth
- Platynota flavedana Clemens variable leafroller
- P. stultana Walsingham omnivorous leafroller
- Spilonota ocellana Denis & Schiffermiiller eyespotted bud moth
- Suleima helianthana Riley unsunflower bud moth
- Selected other agronomic pests in the order Lepidoptera include, but are not limited to, Alsophila pometaria Harris (fall cankerworm); Anarsia lineatella Zeller (peach twig borer); Anisota senatoria J. E.
- fiscella a lugubrosa Hulst (Western hemlock looper); Leucoma salicis Linnaeus (satin moth); Lymant ⁇ a dispar Linnaeus (gypsy moth); Malacosoma spp.; Manduca quinquemaculata Haworth (five spotted hawk moth, tomato hornworm); M. sexta Haworth (tomato hornworm, tobacco hornworm);
- Operophtera brumata Linnaeus (winter moth); Orgyia spp.; Paleacrita vernata Peck (spring cankerworm); Papilio cresphontes Cramer (giant swallowtail, orange dog); Phryganidia californica Packard (California oakworm); Phyllocnistis citrella Stainton (citrus leafminer); Phyllonorycter blancardella Fabricius (spotted tentiform leafminer); Pieris brassicae Linnaeus (large white butterfly); P. rapae Linnaeus (small white butterfly); P.
- larvae and adults of the order Coleoptera including weevils from the families Anthribidae, Bruchidae, and Curculionidae including, but not limited to: Anthonomus grandis Boheman (boll weevil); Cylindrocopturus adspersus LeConte (sunflower stem weevil); Diaprepes abbreviatus Linnaeus (Diaprepes root weevil); Hypera punctata Fabhcius (clover leaf weevil); Lissorhoptrus oryzophilus Kuschel (rice water weevil); Metamasius hemipterus hemipterus Linnaeus (West Indian cane weevil); M.
- Anthonomus grandis Boheman boll weevil
- Cylindrocopturus adspersus LeConte unsunflower stem weevil
- Diaprepes abbreviatus Linnaeus Diaprepes root weevil
- sordidus LeConte (gray sunflower seed weevil); Sphenophorus maidis Chittenden (maize billbug); Rhabdoscelus obscurus Boisduval (New Guinea sugarcane weevil); flea beetles, cucumber beetles, rootworms, leaf beetles, potato beetles, and leafminers in the family Chrysomelidae including, but not limited to: Chaetocnema ectypa Horn (desert corn flea beetle); C.
- pulicaria Melsheimer corn flea beetle
- Colaspis brunnea Fabricius grape colaspis
- Diabrotica barberi Smith & Lawrence nodectata howardi Barber (southern corn rootworm); D.
- virgifera virgifera LeConte (western corn rootworm); Leptinotarsa decemlineata Say (Colorado potato beetle); Oulema melanopus Linnaeus (cereal leaf beetle); Phyllotreta cruciferae Goeze (corn flea beetle); Zygogramma exclamationis Fabricius (sunflower beetle); beetles from the family Coccinellidae including, but not limited to: Epilachna varivestis Mulsant (Mexican bean beetle); chafers and other beetles from the family Scarabaeidae including, but not limited to: Antitrogus parvulus Britton (Childers cane grub); Cyclocephala borealis Arrow (northern masked chafer, white grub); C.
- immaculata Olivier (southern masked chafer, white grub); Dermolepida albohirtum Waterhouse (Greyback cane beetle); Euetheola humilis rugiceps LeConte (sugarcane beetle); Lepidiota frenchi Blackburn (French's cane grub); Tomarus gibbosus De Geer (carrot beetle); T. subtropicus Blatchley (sugarcane grub); Phyllophaga crinita Burffle (white grub); P.
- latifrons LeConte (June beetle); Popilliajaponica Newman (Japanese beetle); Rhizotrogus majalis Razoumowsky (European chafer); carpet beetles from the family Dermestidae; wireworms from the family Elatehdae, Eleodes spp., Melanotus spp. including M.
- leafminers Agromyza parvicornis Loew corn blotch leafminer
- midges including, but not limited to: Conta ⁇ nia sorghicola Coquillett (sorghum midge); Mayetiola destructor Say (Hessian fly); Neolasioptera murtfeldtiana Felt, (sunflower seed midge);
- Sitodiplosis mosellana Gehin wheat midge
- fruit flies Tephritidae
- Oscinella frit Linnaeus frit flies
- maggots including, but not limited to: Delia spp. including Delia platura Meigen (seedcorn maggot); D. coarctata Fallen (wheat bulb fly); Fannia canicularis Linnaeus, F.
- femoralis Stein (lesser house flies); Meromyza americana Fitch (wheat stem maggot); Musca domestica Linnaeus (house flies); Stomoxys calcitrans Linnaeus (stable flies)); face flies, horn flies, blow flies, Chrysomya spp.; Phormia spp.; and other muscoid fly pests, horse flies Tabanus spp.; bot flies Gastrophilus spp.; Oestrus spp.; cattle grubs Hypoderma spp.; deer flies Chrysops spp.; Melophagus ovinus Linnaeus (keds); and other Brachycera, mosquitoes Aedes spp.; Anopheles spp.; Culex spp.; black flies Prosimulium spp.; Simulium spp.; biting midges, sand
- insects of interest are those of the order Hemiptera such as, but not limited to, the following families: Adelgidae, Aleyrodidae, Aphididae, Asterolecaniidae, Cercopidae, Cicadellidae, Cicadidae, Cixiidae, Coccidae, Coreidae, Dactylopiidae, Delphacidae, Diaspididae, Ehococcidae, Flatidae,
- Agronomically important members from the order Hemiptera include, but are not limited to: Acrosternum hilare Say (green stink bug); Acyrthisiphon pisum Harris (pea aphid); Adelges spp.
- spiraecola Patch spirea aphid
- Aulacaspis tegalensis Zehntner sugarcane scale
- Aulacorthum solani Kaltenbach foxglove aphid
- Bemisia tabaci Gennadius tobacco whitefly, sweetpotato whitefly
- argentifolii Bellows & Perring (silverleaf whitefly); Blissus leucopterus leucopterus Say (chinch bug); Blostomatidae spp.; Brevicoryne brassicae Linnaeus (cabbage aphid); Cacopsylla pyricola Foerster (pear psylla); Calocoris norvegicus Gmelin (potato capsid bug); Chaetosiphon fragaefolii Cockerell (strawberry aphid); Cimicidae spp.; Coreidae spp.; Corythuca gossypii Fabricius (cotton lace bug); Cyrtopeltis modesta Distant (tomato bug); C.
- Hesperus Knight (Western tarnished plant bug); L. pratensis Linnaeus (common meadow bug); L. rugulipennis Poppius (European tarnished plant bug); Macrosiphum euphorbiae Thomas (potato aphid); Macrosteles quadrilineatus Forbes (aster leafhopper); Magicicada septendecim Linnaeus (periodical cicada); Mahanarva fimbriolata Stal (sugarcane spittlebug); Melanaphis sacchari Zehntner (sugarcane aphid); Melanaspis glomerata Green (black scale); Metopolophium dirhodum Walker (rose grain aphid); Myzus persicae Sulzer (peach-potato aphid, green peach aphid); Nasonovia ⁇ bisnigri Mosley (lettuce aphid); Nephotettix c
- nigropictus Stal (rice leafhopper); Nezara vi ⁇ dula Linnaeus (southern green stink bug); Nilaparvata lugens Stal (brown planthopper); Nysius ericae Schilling (false chinch bug); Nysius raphanus Howard (false chinch bug); Oebalus pugnax Fabricius (rice stink bug); Oncopeltus fasciatus Dallas (large milkweed bug); Orthops campestris Linnaeus; Pemphigus spp.
- root aphids and gall aphids Peregrinus maidis Ashmead (corn planthopper); Perkinsiella saccharicida Kirkaldy (sugarcane delphacid); Phylloxera devastat ⁇ x Pergande (pecan phylloxera); Planococcus citri Risso (citrus mealybug); Plesioco ⁇ s rugicollis Fallen (apple capsid); Poecilocapsus lineatus Fabricius (four-lined plant bug); Pseudatomoscelis se ⁇ atus Reuter (cotton fleahopper); Pseudococcus spp.
- citricida Kirkaldy (brown citrus aphid); Trialeurodes abutiloneus (bandedwinged whitefly) and T. vaporariorum Westwood (greenhouse whitefly); Trioza diospyri Ashmead (persimmon psylla); and Typhlocyba pomaria McAtee (white apple leafhopper).
- Insect pests of the order Thysanura are of interest, such as Lepisma saccharina Linnaeus (silverfish); Thermobia domestica Packard (firebrat).
- arthropod pests covered include: spiders in the order Araneae such as Loxosceles reclusa Gertsch & Mulaik (brown recluse spider); and the Latrodectus mactans Fabhcius (black widow spider); and centipedes in the order Scutigeromorpha such as Scutigera coleoptrata Linnaeus (house centipede).
- insect pests of the order lsoptera are of interest, including those of the termitidae family, such as, but not limited to, Cylindrotermes nordenskioeldi Holmgren and Pseudacanthotermes militaris Hagen (sugarcane termite).
- Insects of the order Thysanoptera are also of interest, including but not limited to thrips, such as Stenchaetothrips minutus van Deventer (sugarcane thrips).
- Insect pests may be tested for pesticidal activity of compositions of the embodiments in early developmental stages, e.g., as larvae or other immature forms.
- the insects may be reared in total darkness at from about 20 0 C to about 30 0 C and from about 30% to about 70% relative humidity.
- Bioassays may be performed as described in Czapla and Lang (1990) J. Econ. Entomol. 83(6): 2480- 2485. Methods of rearing insect larvae and performing bioassays are well known to one of ordinary skill in the art.
- bioassay techniques are known to one skilled in the art. General procedures include addition of the experimental compound or organism to the diet source in an enclosed container. Pesticidal activity can be measured by, but is not limited to, changes in mortality, weight loss, attraction, repellency and other behavioral and physical changes after feeding and exposure for an appropriate length of time. Bioassays described herein can be used with any feeding insect pest in the larval or adult stage.
- Example 1 Bioassay for Testing the Pesticidal Activity of the B. thuringiensis Toxin Against Selected Insects
- Bioassays were conducted to evaluate the effects of the Bt insecticidal toxin peptide, set forth in SEQ ID NO: 2, on selected insect pests as shown in Table 1.
- Feeding assays were conducted on an artificial diet containing the insecticidal protein.
- the insecticidal protein was topically applied using a lepidopteran-specific artificial diet.
- the toxin was applied at a rate of 0.3 ⁇ g per 25 ⁇ l_ sample per well and allowed to dry.
- the protein is in 10 mM carbonate buffer at a pH of 10.
- One neonate larva was placed in each well to feed ad libitum for 5 days.
- Results were expressed as positive for larvae reactions such as stunting and or mortality.
- Results were expressed as negative if the larvae were similar to the negative control that is feeding diet to which the above buffer only has been applied.
- Example 2 Transformation of Maize by Particle Bombardment and Regeneration of Transgenic Plants
- Immature maize embryos from greenhouse donor plants are bombarded with a DNA molecule containing the toxin nucleotide sequence (e.g., SEQ ID NO: 1 ) operably linked to a ubiquitin promoter and the selectable marker gene PAT (Wohlleben et al. (1988) Gene 70: 25-37), which confers resistance to the herbicide Bialaphos.
- the selectable marker gene is provided on a separate DNA molecule. Transformation is performed as follows. Media recipes follow below.
- the ears are husked and surface sterilized in 30% CLOROXTM bleach plus 0.5% Micro detergent for 20 minutes, and rinsed two times with sterile water.
- the immature embryos are excised and placed embryo axis side down (scutellum side up), 25 embryos per plate, on 560Y medium for 4 hours and then aligned within the 2.5 cm target zone in preparation for bombardment.
- a plasmid vector comprising a toxin nucleotide sequence (e.g., SEQ ID NO:
- a suitable transformation vector comprises a UBH promoter from Zea mays, a 5' UTR from UBM and a UBM intron, in combination with a Pinll terminator.
- the vector additionally contains a PAT selectable marker gene driven by a CAMV35S promoter and includes a CAMV35S terminator.
- the selectable marker can reside on a separate plasmid.
- a DNA molecule comprising a toxin nucleotide sequence as well as a PAT selectable marker is precipitated onto 1.1 ⁇ m (average diameter) tungsten pellets using a CaCI 2 precipitation procedure as follows:
- Each reagent is added sequentially to a tungsten particle suspension, while maintained on the multitube vortexer.
- the final mixture is sonicated briefly and allowed to incubate under constant vortexing for 10 minutes.
- the tubes are centrifuged briefly, liquid removed, washed with 500 ml_ 100% ethanol, and centrifuged for 30 seconds. Again the liquid is removed, and 105 ⁇ L 100% ethanol is added to the final tungsten particle pellet.
- the tungsten/DNA particles are briefly sonicated and 10 ⁇ L spotted onto the center of each macrocarrier and allowed to dry about 2 minutes before bombardment.
- sample plates are bombarded at level #4 in particle gun #HE34-1 or #HE34-2. All samples receive a single shot at 650 PSI, with a total of ten aliquots taken from each tube of prepared particles/DNA. Subsequent Treatment
- the embryos are kept on 560Y medium for 2 days, then transferred to 560R selection medium containing 3 mg/liter Bialaphos, and subcultured every 2 weeks. After approximately 10 weeks of selection, selection- resistant callus clones are transferred to 288J medium to initiate plant regeneration. Following somatic embryo maturation (2-4 weeks), well-developed somatic embryos are transferred to medium for germination and transferred to the lighted culture room. Approximately 7-10 days later, developing plantlets are transferred to 272V hormone-free medium in tubes for 7-10 days until plantlets are well established.
- Plants are then transferred to inserts in flats (equivalent to 2.5" pot) containing potting soil and grown for 1 week in a growth chamber, subsequently grown an additional 1 -2 weeks in the greenhouse, then transferred to classic 600 pots (1.6 gallon) and grown to maturity. Plants are monitored and scored for expression of the toxin by assays known in the art or as described above.
- Bombardment medium comprises 4.0 g/L N6 basal salts (SIGMA C- 1416), 1.0 mL/L Eriksson's Vitamin Mix (100Ox SIGMA-1511 ), 0.5 mg/L thiamine HCI, 120.0 g/L sucrose, 1.0 mg/L 2,4-D, and 2.88 g/L L-proline (brought to volume with dl H 2 O following adjustment to pH 5.8 with KOH); 2.0 g/L GelriteTM (added after bringing to volume with dl H 2 O); and 8.5 mg/L silver nitrate (added after sterilizing the medium and cooling to room temperature).
- Selection medium comprises 4.0 g/L N6 basal salts (SIGMA C-1416), 1.0 mL/L Eriksson's Vitamin Mix (100Ox SIGMA-1511 ), 0.5 mg/L thiamine HCI, 30.0 g/L sucrose, and 2.0 mg/L 2,4-D (brought to volume with dl H 2 O following adjustment to pH 5.8 with KOH); 3.0 g/L GelriteTM (added after bringing to volume with dl H 2 O); and 0.85 mg/L silver nitrate and 3.0 mg/L Bialaphos (both added after sterilizing the medium and cooling to room temperature).
- Plant regeneration medium (288J) comprises 4.3 g/L MS salts (GIBCO 11117-074), 5.0 mL/L MS vitamins stock solution (0.100 g nicotinic acid, 0.02 g/L thiamine HCI, 0.10 g/L pyridoxine HCI, and 0.40 g/L Glycine brought to volume with polished D-I H 2 O) (Murashige and Skoog (1962) Physiol. Plant.
- Hormone-free medium comprises 4.3 g/L MS salts (GIBCO 11117- 074), 5.0 mL/L MS vitamins stock solution (0.100 g/L nicotinic acid, 0.02 g/L thiamine HCI, 0.10 g/L pyridoxine HCI, and 0.40 g/L Glycine brought to volume with polished dl H 2 O), 0.1 g/L myo-inositol, and 40.0 g/L sucrose (brought to volume with polished dl H 2 O after adjusting pH to 5.6); and 6 g/L Bacto-agar (added after bringing to volume with polished dl H 2 O), sterilized and cooled to 60° C.
- the method of Zhao can be used (U.S. Patent No. 5,981 ,840, and PCT patent publication WO98/32326; the contents of which are hereby incorporated by reference). Briefly, immature embryos are isolated from maize and the embryos contacted with a suspension of Agrobacte ⁇ um under conditions whereby the bacteria are capable of transferring the toxin nucleotide sequence (SEQ ID NO: 1 ) to at least one cell of at least one of the immature embryos (step 1 : the infection step).
- the immature embryos can be immersed in an Agrobacterium suspension for the initiation of inoculation.
- the embryos are co-cultured for a time with the Agrobacterium (step 2: the co- cultivation step).
- the immature embryos can be cultured on solid medium following the infection step.
- an optional "resting" step is contemplated.
- the embryos are incubated in the presence of at least one antibiotic known to inhibit the growth of Agrobacte ⁇ um without the addition of a selective agent for plant transformants (step 3: resting step).
- the immature embryos can be cultured on solid medium with antibiotic, but without a selecting agent, for elimination of Agrobacterium and for a resting phase for the infected cells.
- inoculated embryos are cultured on medium containing a selective agent and growing transformed callus is recovered (step 4: the selection step).
- the immature embryos are cultured on solid medium with a selective agent resulting in the selective growth of transformed cells.
- the callus is then regenerated into plants (step 5: the regeneration step), and calli grown on selective medium can be cultured on solid medium to regenerate the plants.
- Example 4 Transformation of Soybean Embryos
- Soybean embryos are bombarded with a plasmid containing the toxin nucleotide sequence of SEQ ID NOs: 1 , 3, 5, 7, 9, 11 or 13 operably linked to a pin 11 promoter as follows.
- somatic embryos cotyledons, 3-5 mm in length dissected from surface-sterilized, immature seeds of an appropriate soybean cultivar are cultured in the light or dark at 26 0 C on an appropriate agar medium for six to ten weeks. Somatic embryos producing secondary embryos are then excised and placed into a suitable liquid medium. After repeated selection for clusters of somatic embryos that multiplied as early, globular-staged embryos, the suspensions are maintained as described below.
- Soybean embryogenic suspension cultures can maintained in 35 ml_ liquid media on a rotary shaker, 150 rpm, at 26 0 C with florescent lights on a 16:8 hour day/night schedule. Cultures are subcultured every two weeks by inoculating approximately 35 mg of tissue into 35 ml_ of liquid medium.
- Soybean embryogenic suspension cultures may then be transformed by the method of particle gun bombardment (Klein et al. (1987) Nature (London) 327: 70- 73, U.S. Patent No. 4,945,050).
- a Du Pont Biolistic PDS1000/HE instrument helium retrofit
- a selectable marker gene that can be used to facilitate soybean transformation is a transgene composed of the 35S promoter from Cauliflower Mosaic Virus (Odell et al. (1985) Nature 313: 810-812), the hygromycin phosphotransferase gene from plasmid pJR225 (from E. coli; Gritz et al. (1983) Gene 25: 179-188), and the 3' region of the nopaline synthase gene from the T-DNA of the Ti plasmid of Agrobacterium tumefaciens.
- the expression cassette comprising a toxin nucleotide sequence ⁇ e.g., SEQ ID NO: 1 , 3, 5, 7, 9, 11 or 13) operably linked to the pinll promoter can be isolated as a restriction fragment. This fragment can then be inserted into a unique restriction site of the vector carrying the marker gene.
- Approximately 300-400 mg of a two-week-old suspension culture is placed in an empty 60 x 15 mm petri dish and the residual liquid removed from the tissue with a pipette.
- approximately 5-10 plates of tissue are normally bombarded.
- Membrane rupture pressure is set at 1100 psi, and the chamber is evacuated to a vacuum of 28 inches mercury.
- the tissue is placed approximately 3.5 inches away from the retaining screen and bombarded three times. Following bombardment, the tissue can be divided in half and placed back into liquid and cultured as described above.
- Five to seven days post bombardment the liquid media may be exchanged with fresh media, and eleven to twelve days post-bombardment with fresh media containing 50 mg/mL hygromycin. This selective media can be refreshed weekly.
- green, transformed tissue may be observed growing from untransformed, necrotic embryogenic clusters. Isolated green tissue is removed and inoculated into individual flasks to generate new, clonally propagated, transformed embryogenic suspension cultures. Each new line may be treated as an independent transformation event. These suspensions can then be subcultured and maintained as clusters of immature embryos or regenerated into whole plants by maturation and germination of individual somatic embryos.
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CN201080012854.1A CN102361984B (en) | 2009-01-23 | 2010-01-06 | Novel bacillus thuringiensis gene with lepidopteran activity |
BRPI1007260A BRPI1007260A2 (en) | 2009-01-23 | 2010-01-06 | isolated nucleic acid molecule, DNA construction, host cell, transgenic plant, transformed seed, pesticide-isolated isolated polypeptide, composition and methods for controlling an insect pest population, exterminating an insect pest, to produce a pesticidal activity polypeptide and to protect a plant from a pest. |
MX2011007328A MX2011007328A (en) | 2009-01-23 | 2010-01-06 | Novel bacillus thuringiensis gene with lepidopteran activity. |
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US20140373195A1 (en) * | 2012-03-08 | 2014-12-18 | Athenix Corp. | Axmi345 delta-endotoxin gene and methods for its use |
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CA3184796A1 (en) * | 2013-08-08 | 2015-02-12 | Pioneer Hi-Bred International, Inc. | Insecticidal polypeptides having broad spectrum activity and uses thereof |
AR097280A1 (en) | 2013-08-09 | 2016-03-02 | Athenix Corp | AXMI422 TOXIN GEN AND ITS EMPLOYMENT METHODS |
CN114026111A (en) * | 2019-06-26 | 2022-02-08 | 先正达农作物保护股份公司 | Compositions and methods for controlling plant pests |
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WO2005021585A2 (en) * | 2003-08-28 | 2005-03-10 | Athenix Corporation | Axmi-003, a delta-endotoxin gene and methods for its use |
US7105332B2 (en) * | 2002-06-26 | 2006-09-12 | E.I. Du Pont De Nemours And Company | Genes encoding proteins with pesticidal activity |
WO2006119457A1 (en) * | 2005-05-02 | 2006-11-09 | Athenix Corporation | Axmi-028 and axmi-029, family of novel delta-endotoxin genes and methods for their use |
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CA2395897C (en) * | 1999-12-28 | 2011-11-15 | Bayer Cropscience N.V. | Insecticidal proteins from bacillus thuringiensis |
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US7105332B2 (en) * | 2002-06-26 | 2006-09-12 | E.I. Du Pont De Nemours And Company | Genes encoding proteins with pesticidal activity |
WO2005021585A2 (en) * | 2003-08-28 | 2005-03-10 | Athenix Corporation | Axmi-003, a delta-endotoxin gene and methods for its use |
WO2006119457A1 (en) * | 2005-05-02 | 2006-11-09 | Athenix Corporation | Axmi-028 and axmi-029, family of novel delta-endotoxin genes and methods for their use |
Non-Patent Citations (2)
Title |
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DATABASE GENBANK 20 May 1996 Database accession no. AAB 00376.1 * |
KOO, B. T. ET AL.: 'Cloning of a Novel Crystal Protein Gene crylK from Bacillus thuringiensis subsp. morrisoni' FEMS MICROBIOL. LETT. vol. 134, no. 2-3, December 1995, pages 159 - 164 * |
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US20140373195A1 (en) * | 2012-03-08 | 2014-12-18 | Athenix Corp. | Axmi345 delta-endotoxin gene and methods for its use |
US9725735B2 (en) * | 2012-03-08 | 2017-08-08 | Athenix Corp. | AXMI345 delta-endotoxin gene and methods for its use |
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CN104263741A (en) | 2015-01-07 |
US8445640B2 (en) | 2013-05-21 |
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BRPI1007260A2 (en) | 2015-09-08 |
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