WO2006109197A2 - Reducing levels of nicotinic alkaloids in plants - Google Patents
Reducing levels of nicotinic alkaloids in plants Download PDFInfo
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- WO2006109197A2 WO2006109197A2 PCT/IB2006/001741 IB2006001741W WO2006109197A2 WO 2006109197 A2 WO2006109197 A2 WO 2006109197A2 IB 2006001741 W IB2006001741 W IB 2006001741W WO 2006109197 A2 WO2006109197 A2 WO 2006109197A2
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- plant
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- tobacco
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- nicotine
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Definitions
- the present invention relates to the field of molecular biology and the down-regulation of alkaloid synthesis. More specifically, the invention relates to methodology and constructs for reducing nicotinic alkaloids in a plant, particularly but not exclusively in a tobacco plant.
- nicotinic alkaloids such as nicotine
- a low-nicotine strain of tobacco has been employed, for instance, as breeding stock for low-nicotine cultivars.
- Legg et al Crop Sci 10:212 (1970).
- Genetic engineering methods also can be used to reduce nicotine levels.
- U.S. patents No. 5,369,023, and No. 5,260,205 discuss decreasing nicotine levels via antisense targeting of an endogenous putrescine methyl transferase (PMT) sequence.
- PMT putrescine methyl transferase
- the tobacco quinolate phosphoribosyl transferase (QPT) gene has been cloned, Sinclair et al, Plant MoI. Biol. 44: 603-617 (2000), and its antisense suppression provided significant nicotine reductions in transgenic tobacco plants.
- QPT tobacco quinolate phosphoribosyl transferase
- Reduced-alkaloid tobacco is more amenable for non-traditional purposes, such as biomass and derived products. For example, it is advantageous to use reduced-alkaloid tobacco for producing ethanol and protein co-products.
- Nicotine replacement therapy is not very effective as a smoking cessation treatment because its success rate is less than 20 percent after 6 to 12-months from the end of the nicotine replacement period.
- Bohadana et ah Arch Intern. Med. 160:3128-3134 (2000); Croghan et ah, Nicotine Tobacco Res. 5:181-187 (2003); Stapleton et al, Addiction 90:31-42 (1995). Nicotine-reduced or nicotine-free tobacco cigarettes have assisted smokers in quitting smoking successfully, by weaning the smoker from nicotine yet allowing the smoker to perform the smoking ritual.
- Two genes, A622 and NBBl can be influenced to achieve a decrease of nicotinic alkaloid levels in plants.
- suppression of one or both of A622 and NBBl may be used to decrease nicotine in tobacco plants.
- the invention provides an isolated nucleic acid molecule comprising a nucleotide sequence selected from (a) a nucleotide sequence set forth in SEQ ID NO: 3; (b) a nucleotide sequence that encodes a polypeptide having the amino acid sequence set forth in SEQ ID NO: 4; and (c) a nucleotide sequence that differs from the nucleotide sequences of (a) or (b) due to degeneracy of the genetic code and encodes a polypeptide With. NBBl expression.
- the invention provides an isolated nucleic acid molecule comprising a nucleotide sequence selected from (a) a nucleotide sequence set forth in SEQ ID NO: 1; (b) a nucleotide sequence that encodes a polypeptide having the amino acid sequence set forth in SEQ ID NO: 2; and (c) a nucleotide sequence that differs from the nucleotide sequences of (a) or (b) due to degeneracy of the genetic code and encodes a polypeptide with A622 expression, wherein said nucleotide sequence is operatively linked to a heterologous promoter.
- the invention provides a method for reducing an alkaloid in a plant, comprising decreasing NBBl and A622 expression.
- the invention provides a transgenic plant having reduced A622 expression and alkaloid content, as well as a tobacco plant having reduced NBBl expression and alkaloid content.
- the invention provides also a genetically engineered plant having reduced nicotine and anatabine content.
- the invention provides a reduced-nicotine tobacco product made from a tobacco plant having reduced A622 or NBBl expression.
- FIGURE 2A schematically illustrates pHANNIBAL.
- FIGURE 2B schematically illustrates pHANNIBAL-X in which the multilinker sites have been modified.
- FIGURE 3 depicts the scheme for preparing a plant RNAi binary vector using the modified pHANNIBAL-X as an intermediate plasmid.
- FIGURE 4 depicts the T-DNA region of pRNAi-A622.
- FIGURE 5 depicts nicotinic alkaloid accumulation in BY-2 cells, A662-silenced BY-2 cells, and NBBl -silenced BY-2 cells.
- FIGURE 6 depicts expression of A622, NBBl, and genes for known enzymes in the nicotine biosynthesis pathway in wild-type BY-2 cells, ⁇ 4 ⁇ 522-silenced BY-2 cells, and NBBl -silenced BY-2 cells.
- FIGURE 7 depicts the T-DNA region of the inducible A622 expression vector pXVE-A622RNAi.
- FIGURE 8A depicts the specific suppression of A622 in hairy root lines transformed with an inducible A622 suppression construct after inducing suppression with estradiol.
- FIGURE 8B illustrates reduced-nicotine content in hairy root lines transformed with an inducible A622 suppression construct after inducing suppression with estradiol.
- FIGURE 9 depicts RNA blot analysis of NBBl expression and PMT expression in root and leaf tissue of wild type tobacco and nicl, nic2, and niclnic2 mutants.
- FIGURE 10 depicts an alignment of NBB 1 with Eschscholzia calif ornica berberine bridge enzyme (EcBBE).
- FIGURE 11 depicts a phylogenetic tree constructed using NBB 1 and plant BBE-like protein sequences.
- FIGURE 12 depicts the T-DNA region of the NBBl suppression vector pHANNIB AL-NBBl 3'.
- FIGURE 13 depicts the reduction of nicotinic alkaloid synthesis in NBBl -suppressed tobacco hairy roots.
- FIGURE 14 depicts expression of NBB 1 , A622, and known enzymes involved in nicotine biosynthesis in NBBl -silenced and control hairy root lines.
- FIGURE 15 depicts the T-DNA region of the NBBl suppression vector p AND A-NBB 1 full.
- FIGURE 16 depicts levels of nicotine in the leaves of Nicotiana tabacum plants from lines transformed with the NBBl suppression vector pANDA- NBBl full.
- the present inventors identified two genes, A622 and NBBl, that can be influenced to achieve a decrease of nicotinic alkaloid levels in plants, including but not limited to tobacco. While A622 was identified previously by Hibi et al. Plant Cell 6: 723-735 (1994), the present inventors discovered a role for A622, heretofore unknown, in the context of decreasing nicotine biosynthesis. The field was wholly unaware of NBBl, before the inventor's discovery, and they also elucidated a role for NBBl in an approach, according to the present invention, for reducing nicotinic alkaloid content in plants.
- the present invention encompasses both methodology and constructs for reducing nicotinic alkaloid content in a plant, by suppressing A622 or NBBl expression. That is, nicotinic alkaloid levels can be reduced by suppressing one or both of A622 and NBBl.
- a plant or any part thereof is transformed with a nucleotide sequence, expression of which suppresses at least one of A622 and NBBl and reduces nicotinic alkaloid content.
- nicotine can be further suppressed in a plant by concurrently suppressing expression of any known enzyme in the nicotine biosynthesis pathway, such as QPT or PMT, and at least one of A622 and NBBl.
- the present invention provides a means for concurrently reducing anatabine.
- anatabine levels can be lowered by suppressing a nicotine biosynthesis gene, such as QPT, and at least one of A622 and NBBl.
- A622 and/or NBBl expression By means of affecting A622 and/or NBBl expression, to the ends of reducing nicotinic alkaloid content in a plant, numerous reduced-alkaloid plants and by-products may be obtained, in keeping with the present invention.
- a tobacco plant having suppressed A622 or NBBl expression may be used for producing reduced-nicotine cigarettes, which may find use as a smoking cessation product.
- reduced-nicotine tobacco may be used as a forage crop, animal feed, or a source for human nutrition.
- PCR-primer pairs can be derived from known sequences by known techniques such as using computer programs intended for that purpose, e.g., Primer, Version 0.5, 1991, Whitehead Institute for Biomedical Research, Cambridge, MA. Methods for chemical synthesis of nucleic acids are discussed, for example, in Beaucage & Caruthers, Tetra. Letts. 22:1859-1862 (1981), and Matteucci & Caruthers, J. Am. Chem. Soc. 103:3185 (1981).
- A622 expression is controlled by the NIC 1 and NIC2 gene loci in tobacco plants. Hibi et al., The Plant Cell, 6: 723-735 (1994). It has been reported that A622 exhibits the same expression pattern as PMT. Shoji, T. et al., Plant Cell Physiol, 41:9:1072-1076 (2000a); Shoji, T., et al., Plant MoI Biol, 50:427-440 (2002). Both A622 and PMT are expressed specifically in roots, particularly in the cortex and endodermis of the apical parts of the roots and root hairs. Shoji et al. (2002).
- A622 and PMT have a common pattern of expression in response to NIC regulation and methyl-jasmonate stimulus.
- A622 is induced in the roots of Nicotiana tabacum in response to wounding of aerial tissues.
- N. glauca A622 is induced in wounded leaves under conditions that result in QP T induction. Sinclair et al., Func. Plant Biol., 31:721-9 (2004).
- A662 The nucleic acid sequence of A662 (SEQ ID NO: 1) has been determined. Hibi et al (1994), supra. The protein encoded by this nucleic acid sequence (SEQ ID NO: 2) resembles isoflavone reductases (IFR) and contains an NADPH-binding motif. A622 shows homology to TP7, a tobacco phenylcoumaran benzylic ether reductase (PCBER) involved in lignin biosynthesis. Shoji et al. (2002), supra. No PCBER activity was observed, however, when A622 expressed in E. coli was assayed with two different substrates.
- PCBER tobacco phenylcoumaran benzylic ether reductase
- A622 was proposed to function as a reductase in the final steps of nicotinic alkaloid synthesis. Hibi et al. (1994); Shoji, et al. (2000a). No IFR activity was observed, however, when the protein was expressed in bacteria (id). The function of A622 was unknown previously, and there was no understanding heretofore that A622 plays a role in nicotine synthesis.
- A622 expression refers to biosynthesis of a gene product encoded by SEQ ID NO: 1.
- A622 suppression refers to the reduction of A622 expression.
- A622 suppression has an ability to down-regulate nicotinic alkaloid content in a plant or a plant cell.
- An alkaloid is a nitrogen-containing basic compound found in plants and produced by secondary metabolism.
- a nicotinic alkaloid is nicotine or an alkaloid that is structurally related to nicotine and that is synthesized from a compound produced in the nicotine biosynthesis pathway.
- nicotinic alkaloid content and total alkaloid content are used synonymously.
- Illustrative Nicotiana alkaloids include but are not limited to nicotine, nornicotine, anatabine, anabasine, anatalline, N-methylanatabine, N-methylanabasine, myosmine, anabaseine, N'-formylnornicotine, nicotyrine, and cotinine.
- Nicotine is the primary alkaloid in N. tabacum along with 50-60 percent of other species of Nicotiana. Based on alkaloid accumulation in the leaves, nornicotine, anatabine, and anabasine are the other foremost alkaloids iniV. tabacum. Anatabine is usually not the primary alkaloid in any species but does accumulate to relatively higher amounts in 3 species; anabasine is the primary alkaloid in four species. Nornicotine is the primary alkaloid in 30 to 40 percent of Nicotiana species. Depending on the variety, about 85 to about 95 percent of total alkaloids in N. tabacum is nicotine. Bush, L.P., Tobacco Production, Chemistry and Technology, Coresta 285-291 (1999); Hoffmann, et al., Journal of Toxicology and Environmental Health, 41:1-52, (1994).
- nicotinic alkaloid content can be reduced in a genetically engineered plant by down-regulating at least one of A622 and NBBl. Additionally, a nicotinic alkaloid content can be lowered by down-regulating a nicotine biosynthesis enzyme, such as QPT or PMT, and at least one of A622 and NBBl.
- a nicotine biosynthesis enzyme such as QPT or PMT
- Anatabine is a nicotinic alkaloid. Previous studies have demonstrated that PMT suppression reduces nicotine content but increases putrescine and anatabine levels. Chintapakorn & Hamill, Plant MoI. Biol. 53: 87-105 (2003); Sato etal, Proc. Natl. Acad. Sci. USA 98, 367-372. (2001); Steppuhn, A., etal, PLoS Biol 2(8): e217: 1074-1080 (2004).
- anatabine content can be lowered in a genetically engineered plant by down- regulating at least one of A622 and NBBl.
- Anatabine levels can be lowered further by down-regulating a nicotine biosynthesis enzyme, such as QPT, and at least one of A622 and NBBl.
- a B Y-2 Tobacco Cell is a cell line established in 1960s by Japan Tobacco Co., Ltd. from a tobacco variety Bright Yellow-2. Since this cell line grows very fast in tissue culture, it is easy to grow on a large scale and is amenable for genetic manipulation.
- a B Y-2 tobacco cell is widely used as a model plant cell line in basic research. When cultured in a standard medium, a BY-2 tobacco cell does not produce nicotinic alkaloids. Addition of jasmonate into the culture medium induces formation of nicotinic alkaloids.
- cDNA is a single-stranded DNA molecule that is formed from an mRNA template by the enzyme reverse transcriptase.
- cDNA a double stranded DNA molecule that includes such a single-stranded DNA molecule and its complementary DNA strand.
- a primer complementary to portions of mRNA is employed for the initiation of a reverse transcription process that yields a cDNA.
- Expression refers to the biosynthesis of a gene product.
- expression involves transcription of the structural gene into mRNA and the translation of the mRNA into one or more polypeptides.
- Gene refers to a polynucleotide sequence that comprises control and coding sequences necessary for the production of a polypeptide or precursor.
- the polypeptide can be encoded by a full-length coding sequence or by any portion of the coding sequence.
- a gene may constitute an uninterrupted coding sequence or it may include one or more introns, bound by the appropriate splice junctions.
- a gene may contain one or more modifications in either the coding or the untranslated regions that could affect the biological activity or the chemical structure of the expression product, the rate of expression, or the manner of expression control. Such modifications include, but are not limited to, mutations, insertions, deletions, and substitutions of one or more nucleotides.
- GE Genetically engineered encompasses any methodology for introducing a nucleic acid or specific mutation into a host organism.
- a tobacco plant is genetically engineered when it is transformed with a polynucleotide sequence that suppresses expression of a gene, such as A622 or NBBl, and thereby reduces nicotine levels.
- a tobacco plant that is not transformed with a polynucleotide sequence that suppresses expression of a target gene is a control plant and is referred to as a "non-transformed" plant.
- the "genetically engineered” category includes “transgenic” plants and plant cells (see definition, infra), as well as plants and plant cells produced by means of targeted mutagenesis effected, for example, through the use of chimeric RNA/DNA oligonucleotides, as described by Beetham et al, Proc. Natl Acad. Sci. USA 96: 8774-8778 (1999) and Zhu et al, loc. cit. at 8768-8773, or so-called "recombinagenic olionucleobases,” as described in PCT application WO 03/013226.
- a genetically engineered plant or plant cell may be produced by the introduction of a modified virus, which, in turn, causes a genetic modification in the host, with results similar to those produced in a transgenic plant, as described herein. See, e.g., U.S. patent No. 4,407,956. Additionally, a genetically engineered plant or plant cell may be the product of any native approach (i.e., involving no foreign nucleotide sequences), implemented by introducing only nucleic acid sequences derived from the host plant species or from a sexually compatible plant species. See, e.g., U.S. published application No. 2004/0107455.
- a genomic library is a collection of clones that contains at least one copy of essentially every DNA sequence in the genome.
- NBBl sequence was identified by cDNA microarray prepared from a Nicotiana sylvestris-de ⁇ ived cDNA library, pursuant to the protocol of Katoh et al, Proc. Japan Acad., 79 (Ser. B): 151-154 (2003). NBBl also is controlled by the nicotine biosynthesis regulatory loci, NICl and NIC2. NBBl and PMT have the same pattern of expression in tobacco plants. That NBB 1 is involved in nicotine biosynthesis is indicated by the fact that NBBl, like PMT and A622, is under the control of the NIC genes and exhibits a similar pattern of expression. [0058] NBBl expression refers to biosynthesis of a gene product encoded by SEQ ID NO: 3. NBBl suppression refers to the reduction of NBBl expression. NBBl suppression has an ability to down-regulate nicotinic alkaloid content.
- NICl and NIC2 loci are two independent genetic loci in N. tabacum, formerly designated as A and B. Mutations nicl and nic2 reduce expression levels of nicotine biosynthesis enzymes and nicotine content, generally the nicotine content of wild type > homozygous nic2 > homozygous nicl > homoyzgous nicl and homozygous nic2 plants. Legg & Collins, Can. J. Cyto. 13:287 (1971); Hibi et al, Plant Cell 6: 723-735 (1994); Reed & Jelesko, Plant Science 167:1123 (2004).
- Nicotine is the major alkaloid in N. tabacum and some other species in the Nicotiana genus. Other plants have nicotine-producing ability, including, for example, Di ⁇ oisia, Anthocericis and Salpiglessis genera in the Solanaceae, and Eclipta and Zinnia genera in the Compositae.
- Plant is a term that encompasses whole plants, plant organs (e. g. leaves, stems, roots, etc.), seeds, and plant cells and progeny of the same.
- Plant material includes, without limitation, seeds suspension cultures, embryos, meristematic regions, callus tissues, leaves, roots and shoots, gametophytes, sporophytes, pollen, and microspores.
- the class of plants which can be used in the present invention is generally as broad as the class of higher plants amenable to transformation techniques, including both monocotyledonous and dicotyledonous plants.
- a preferred plant is a plant having nicotine-producing ability of the Nicotiana, Duboisia, Anthocericis and Salpiglessis genera in the Solanaceae or the Eclipta and Zinnia genera in the Compositae.
- a particularly preferred plant is Nicotiana tabacum.
- Protein refers to a polymer of amino acid residues.
- Reduced-nicotine plant encompasses a genetically engineered plant that contains less than half, preferably less than 25%, and more preferably less than 20% or less than 10% of the nicotine content of a non-trans genie control plant of the same type.
- a reduced-nicotine plant also includes a genetically engineered plant that contains less total alkaloids compared with a control plant.
- a structural gene refers to a DNA sequence that is transcribed into messenger RNA (mRNA) which is then translated into a sequence of amino acids characteristic of a specific polypeptide. "Messenger RNA (mRNA)" denotes an RNA molecule that contains the coded information for the amino acid sequence of a protein.
- Sequence identity or "identity" in the context of two nucleic acid or polypeptide sequences includes reference to the residues in the two sequences which are the same when aligned for maximum correspondence over a specified region.
- sequence identity When percentage of sequence identity is used in reference to proteins it is recognized that residue positions which are not identical often differ by conservative amino acid substitutions, where amino acid residues are substituted for other amino acid residues with similar chemical properties, such as charge and hydrophobicity, and therefore do not change the functional properties of the molecule. Where sequences differ in conservative substitutions, the percent sequence identity may be adjusted upwards to correct for the conservative nature of the substitution.
- Sequences which 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, for example, according to the algorithm of Meyers & Miller, Computer Applic. Biol. Sci. 4: 11-17 (1988), as implemented in the program PC/GENE (Intelligenetics, Mountain View, California, USA).
- a percentage of sequence identity denotes a 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.
- Sequence identity has an art-recognized meaning and can be calculated using published techniques. See COMPUTATIONAL MOLECULAR BIOLOGY, Lesk, ed. (Oxford University Press, 1988), BiocoMPUTiNG: INFORMATICS AND GENOME PROJECTS, Smith, ed. (Academic Press, 1993), COMPUTER ANALYSIS OF SEQUENCE DATA, PART I 5 Griffin & Griffin, eds., (Humana Press, 1994), SEQUENCE ANALYSIS IN MOLECULAR BIOLOGY, Von Heinje ed., Academic Press (1987), SEQUENCE ANALYSIS PRIMER, Gribskov & Devereux, eds.
- Tobacco refers to any plant in the Nicotiana genus that produces nicotinic alkaloids. Tobacco also refers to products comprising material produced by a Nicotiana plant, and therefore includes, for example, cigarettes, cigars, chewing tobacco, snuff and cigarettes made from GE reduced-nicotine tobacco for use in smoking cessation. Examples of Nicotiana species include but are not limited to N. alata, N. glauca, N. longiflora, N. per si ca, N. rustica, N. sylvestris, and N. tabacum.
- TSNAs Tobacco-specific nitrosamines
- TSNAs such as 4-(N-nitrosomethylamino)-l-(3- pyridyl)-l-butanone (NNK), N'-nitrosonornicotine (NNN), N'-nitrosoanatabine (NAT), and N'-nitrosoanabasine (NAB), are formed by JV-nitrosation of nicotine and other minor Nicotiana alkaloids, such as nornicotine, anatabine, and anabasine. Reducing nicotinic alkaloids reduces the level of TSNAs in tobacco and tobacco products.
- NNK 4-(N-nitrosomethylamino)-l-(3- pyridyl)-l-butanone
- NNN N'-nitrosonornicotine
- NAT N'-nitrosoanatabine
- NAB N'-nitrosoanabasine
- Tobacco hairy roots refers to tobacco roots that have T-DNA from an Ri plasmid of Agrobacterium rhizogenes integrated in the genome and grow in culture without supplementation of auxin and other prohormones. Tobacco hairy roots produce nicotinic alkaloids as roots of a tobacco plant do.
- Transgenic plant refers to a plant that comprises a nucleic acid sequence that also is present per se in another organism or species or that is optimized, relative to host codon usage, from another organism or species.
- a transgenic plant may be produced by any genetic transformation methodology. Suitable transformation methods include, for example, Agrobacterium- mediated transformation, particle bombardment, electroporation, polyethylene glycol fusion, transposon tagging, and site-directed mutagenesis. Identification and selection of a transgenic plant are well-known techniques, the details of which need not be repeated here.
- a variant is a nucleotide or amino acid sequence that deviates from the standard, or given, nucleotide or amino acid sequence of a particular gene or protein.
- the terms “isoform,” “isotype,” and “analog” also refer to “variant” forms of a nucleotide or an amino acid sequence.
- An amino acid sequence that is altered by the addition, removal or substitution of one or more amino acids, or a change in nucleotide sequence, may be considered a “variant” sequence.
- the variant may have "conservative" changes, wherein a substituted amino acid has similar structural or chemical properties, e.g., replacement of leucine with isoleucine.
- a variant may have "nonconservative" changes, e.g., replacement of a glycine with a tryptophan.
- Analogous minor variations may also include amino acid deletions or insertions, or both.
- Guidance in determining which amino acid residues may be substituted, inserted, or deleted may be found using computer programs well known in the art such as Vector NTI Suite (InforMax, MD) software. "Variant” may also refer to a "shuffled gene” such as those described in Maxygen-assigned patents. [0074]
- the present invention is not limited to the particular methodology, protocols, vectors, and reagents, etc., described here, as these may vary. Furthermore, this specification employs the above-discussed terminology for the purpose of describing particular embodiments only and not to limit the scope of the invention.
- Nicotinic alkaloid biosynthesis genes have been identified in several plant species, exemplified by Nicotiana plants. Accordingly, the present invention embraces any nucleic acid, gene, polynucleotide, DNA, RNA, mRNA, or cDNA molecule that is isolated from the genome of a plant species that down-regulates nicotinic alkaloid biosynthesis.
- suppression of at least one of A622 and NBBl may be used to down-regulate nicotine content in a plant.
- nicotinic alkaloid levels can be reduced further by suppressing expression of a nicotine biosynthesis gene, such as at least one of QPT and PMT, and at least one ofA622 and NBBl .
- Plants with suppression of multiple genes may be obtained by regeneration of plants from plant cells genetically engineered for suppression of multiple genes or by crossing a first plant genetically engineered for suppression of a nicotine biosynthesis gene with a second plant genetically engineered for suppression of at least one of A622 and NBBl.
- the invention provides an isolated nucleic acid molecule comprising SEQ ID NO: 1; polynucleotide sequences encoding a polypeptide set forth in SEQ ID NO: 2; polynucleotide sequences which hybridize to SEQ ID NO: 1 and encode an A622 polypeptide; and polynucleotide sequences which differ from SEQ ID NO: 1 due to the degeneracy of the genetic code.
- a peptide encoded by SEQ ID NO: 1 is a further aspect of the invention and is set forth in SEQ ID NO: 2.
- the invention provides an isolate nucleic acid molecule comprising SEQ ID NO: 3; polynucleotide sequences encoding a polypeptide set forth in SEQ ID NO: 4; polynucleotide sequences which hybridize to SEQ ID NO: 3 and encode an NBBl polypeptide; and polynucleotide sequences which differ from SEQ ID NO: 3 due to the degeneracy of the genetic code.
- a peptide encoded by SEQ ID NO: 3 is a further aspect of the invention and is set forth in SEQ ID NO: 4
- the invention further provides nucleic acids that are complementary to SEQ ID NO: 1 or 3, as well as a nucleic acid, comprising at least 15 contiguous bases, that hybridizes to SEQ ID NO: 1 or 3 under moderate or high stringency conditions, as described below.
- the category of nucleic acids that hybridize to SEQ ID NO: 3 is exclusive of a nucleic acid having the sequence of SEQ ID NO: 559, disclosed in published international application WO 03/097790, and of any fragment thereof.
- a siRNA molecule of the invention comprises a polynucleotide sequence that suppresses expression of either of SEQ ID NO. 1 or 3, although the sequences set forth in SEQ ID NO: 1 or 3 are not limiting.
- a siRNA molecule of the invention can comprise any contiguous A622 or NBBl sequence, e.g., about 15 to about 25 or more, or about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25 or more contiguous nucleotides.
- the category of siRNA molecules is exclusive of a molecule having the nucleotide sequence of the aforementioned SEQ ID NO: 559 in WO 03/097790, as well as any fragment thereof.
- isolated nucleic acid molecule(s) is intended a nucleic acid molecule, DNA or RNA, which has been removed from its native environment.
- recombinant DNA molecules contained in a DNA construct are considered isolated for the purposes of the present invention.
- Further examples of isolated DNA molecules include recombinant DNA molecules maintained in heterologous host cells or DNA molecules that are purified, partially or substantially, in solution.
- Isolated RNA molecules include in vitro RNA transcripts of the DNA molecules of the present invention. Isolated nucleic acid molecules, according to the present invention, further include such molecules produced synthetically.
- Nucleic acid molecules of the present invention may be in the form of RNA, such as mRNA, or in the form of DNA, including, for instance, cDNA and genomic DNA obtained by cloning or produced synthetically.
- the DNA or RNA may be double-stranded or single-stranded.
- Single-stranded DNA may be the coding strand, also known as the sense strand, or it may be the non-coding strand, also called the anti-sense strand.
- nucleotide sequences determined by sequencing a DNA molecule herein were determined using an automated DNA sequencer (such as the Model 373 from Applied Biosystems, Inc.). Therefore, as is known in the art for any DNA sequence determined by this automated approach, any nucleotide sequence determined herein may contain some errors. Nucleotide sequences determined by automation are typically at least about 95% identical, more typically at least about 96% to at least about 99.9% identical to the actual nucleotide sequence of the sequenced DNA molecule. The actual sequence can be more precisely determined by other approaches including manual DNA sequencing methods well known in the art.
- a single insertion or deletion in a determined nucleotide sequence compared to the actual sequence will cause a frame shift in translation of the nucleotide sequence such that the predicted amino acid sequence encoded by a determined nucleotide sequence may be completely different from the amino acid sequence actually encoded by the sequenced DNA molecule, beginning at the point of such an insertion or deletion.
- the invention provides an isolated nucleic acid molecule comprising a polynucleotide that hybridizes, under stringent hybridization conditions, to a portion of the polynucleotide in a nucleic acid molecule of the invention, as described above.
- a polynucleotide that hybridizes to a "portion" of a polynucleotide is intended a polynucleotide, either DNA or RNA, hybridizing to at least about 15 nucleotides, and more preferably at least about 20 nucleotides, and still more preferably at least about 30 nucleotides, and even more preferably more than 30 nucleotides of the reference polynucleotide.
- sequences hybridize when they form a double-stranded complex in a hybridization solution of 6X SSC, 0.5% SDS, 5X Denhardt's solution and lOO ⁇ g of non-specific carrier DNA. See Ausubel etal, supra, at section 2.9, supplement 27 (1994). Sequences may hybridize at "moderate stringency,” which is defined as a temperature of 60 0 C in a hybridization solution of 6X SSC, 0.5% SDS, 5X Denhardt's solution and lOO ⁇ g of non-specific carrier DNA. For "high stringency" hybridization, the temperature is increased to 68 0 C.
- hybridized nucleotides are those that are detected using 1 ng of a radiolabeled probe having a specific radioactivity of 10,000 cpm/ng, where the hybridized nucleotides are clearly visible following exposure to X-ray film at -70 0 C for no more than 72 hours.
- nucleic acid molecules which are at least 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or 100% identical to a nucleic acid sequence described in of SEQ ID NO: 1 or 3.
- nucleic acid molecules which are at least 95%, 96%, 97%, 98%, 99% or 100% identical to the nucleic acid sequence shown in of SEQ ID NO: 1 or 3.
- Differences between two nucleic acid sequences may occur at the 5' or 3' terminal positions of the reference nucleotide sequence or anywhere between those terminal positions, interspersed either individually among nucleotides in the reference sequence or in one or more contiguous groups within the reference sequence.
- nucleic acid molecule is at least 95%, 96%, 97%, 98% or 99% identical to a reference nucleotide sequence refers to a comparison made between two molecules using standard algorithms well known in the art and can be determined conventionally using publicly available computer programs such as the BLASTN algorithm. See Altschul et ah, Nucleic Acids Res. 25: 3389-3402 (1997).
- the heterologous sequence utilized in the antisense methods of the present invention may be selected so as to produce an RNA product complementary to an entire A622 or NBBl mRNA sequence, or to a portion thereof.
- the sequence may be complementary to any contiguous sequence of the natural messenger RNA, that is, it may be complementary to the endogenous mRNA sequence proximal to the 5 '-terminus or capping site, downstream from the capping site, between the capping site and the initiation codon and may cover all or only a portion of the non-coding region, may bridge the non-coding and coding region, be complementary to all or part of the coding region, complementary to the 3 '-terminus of the coding region, or complementary to the 3 '-untranslated region of the mRNA.
- Suitable antisense sequences may be from at least about 13 to about 15 nucleotides, at least about 16 to about 21 nucleotides, at least about 20 nucleotides, at least about 30 nucleotides, at least about 50 nucleotides, at least about 75 nucleotides, at least about 100 nucleotides, at least about 125 nucleotides, at least about 150 nucleotides, at least about 200 nucleotides, or more.
- the sequences may be extended or shortened on the 3' or 5' ends thereof.
- an oligonucleotide of the invention may be a continuous fragment of A 622 or NBBl cDNA sequence in antisense orientation, of any length that is sufficient to achieve the desired effects when transformed into a recipient plant cell.
- the present invention may contemplate sense co-suppression of one or both of A622 and NBBl.
- Sense polynucleotides employed in carrying out the present invention are of a length sufficient to suppress, when expressed in a plant cell, the native expression of the plant A622 or NBBl protein in that plant cell.
- Such sense polynucleotides may be essentially an entire genomic or complementary nucleic acid encoding the A622 or NBBl enzyme, or a fragment thereof, with such fragments typically being at least 15 nucleotides in length. Techniques are generally available for ascertaining the length of sense DNA that results in suppression of the expression of a native gene in a cell.
- plant cells are transformed with a nucleic acid construct containing a polynucleotide segment encoding an enzymatic RNA molecule (a "ribozyme”), which enzymatic RNA molecule is directed against (i.e., cleaves) the mRNA transcript of DNA encoding A622 or NBBl, as described herein.
- Ribozymes contain substrate binding domains that bind to accessible regions of the target mRNA, and domains that catalyze the cleavage of RNA, preventing translation and protein production.
- the binding domains may comprise antisense sequences complementary to the target mRNA sequence; the catalytic motif may be a hammerhead motif or other motifs, such as the hairpin motif.
- Ribozyme cleavage sites within an RNA target may initially be identified by scanning the target molecule for ribozyme cleavage sites (e.g., GUA, GUU or GUC sequences). Once identified, short RNA sequences of 15, 20, 30, or more ribonucleotides corresponding to the region of the target gene containing the cleavage site may be evaluated for predicted structural features.
- ribozyme cleavage sites e.g., GUA, GUU or GUC sequences
- RNA molecules may be produced in accordance with known techniques. For example, see Cecil et al, U.S. patent No. 4,987,071; Keene et al, U.S. patent No. 5,559,021; Donson et al, U.S. patent No. 5,589,367; Torrence et al, U.S. patent No. 5,583,032; Joyce, U.S. patent No. 5,580,967; Gold et al, U.S. patent No. 5,595,877; Wagner et al, U.S. patent No. 5,591,601; and U.S. patent No. 5,622,854.
- ribozyme describes an RNA-containing nucleic acid that functions as an enzyme, such as an endoribonuclease, and may be used interchangeably with “enzymatic RNA molecule.”
- the present invention further includes nucleic acids encoding ribozymes, nucleic acids that encode ribozymes and that have been inserted into an expression vector, host cells containing such vectors, and methodology employing ribozymes to decrease ⁇ 4622 and NBBl expression in plants.
- the present invention provides double-stranded nucleic acid molecules of that mediate RNA interference gene silencing.
- the siNA molecules of the invention consist of duplex nucleic acid molecules containing about 15 to about 30 base pairs between oligonucleotides comprising about 15 to about 30 (e.g., about 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30) nucleotides.
- siNA molecules of the invention comprise duplex nucleic acid molecules with overhanging ends of about 1 to about 32 (e.g., about 1, 2, or 3) nucleotides, for example, about 21 -nucleotide duplexes with about 19 base pairs and 3 '-terminal mononucleotide, dinucleotide, or trinucleotide overhangs.
- siNA molecules of the invention comprise duplex nucleic acid molecules with blunt ends, where both ends are blunt, or alternatively, where one of the ends is blunt.
- An siNA molecule of the present invention may comprise modified nucleotides while maintaining the ability to mediate RNAi.
- the modified nucleotides can be used to improve in vitro or in vivo characteristics such as stability, activity, and/or bioavailability.
- a siNA molecule of the invention can comprise modified nucleotides as a percentage of the total number of nucleotides present in the siNA molecule.
- a siNA molecule of the invention can generally comprise about 5% to about 100% modified nucleotides (e.g., about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 100% modified nucleotides).
- modified nucleotides e.g., about 5%, 10%, 15%, 20%, 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% or 100% modified nucleotides.
- the actual percentage of modified nucleotides present in a given siNA molecule will depend on the total number of nucleotides present in the siNA. If the siNA molecule is single stranded, the percent modification can be based upon the total number of nucleotides present in the single stranded siNA molecules.
- the percent modification can be based upon the total number of nucleotides present in the sense strand, antisense strand, or both the sense and antisense strands.
- A622 and NBBl expression may be decreased through genetic engineering methods that are well known inthe art. Expression can be reduced by introducing a nucleic acid construct that results in expression of an RNA comprising a portion of a sequence encoding A622 or NBBl. The portion of the sequence may be in the sense or antisense orientation. The portion of the sequence may be present in inverted repeats capable of forming a double-stranded RNA region.
- Expression may be reduced by introducing a nucleic acid construct encoding an enzymatic RNA molecule (i.e., a "ribozyme"), which enzymatic RNA molecule is directed against (i.e., cleaves) the niRNA transcript of DNA encoding A622 or NBBl.
- Expression may be reduced by introducing a nucleic acid comprising a portion of an A622 or NBBl sequence that causes targeted in situ mutagenesis of an endogenous gene, resulting in its inactivation.
- the BLAST family of programs that can be used for database similarity searches includes: BLASTN for nucleotide query sequences against nucleotide database sequences; BLASTX for nucleotide query sequences against protein database sequences; BLASTP for protein query sequences against protein database sequences; TBLASTN for protein query sequences against nucleotide database sequences; and TBLASTX for nucleotide query sequences against nucleotide database sequences.
- BLASTN for nucleotide query sequences against nucleotide database sequences
- BLASTP for protein query sequences against protein database sequences
- TBLASTN protein query sequences against nucleotide database sequences
- TBLASTX for nucleotide query sequences against nucleotide database sequences.
- HSPs high scoring sequence pairs
- Cumulative scores are calculated using, for nucleotide sequences, the parameters M (reward score for a pair of matching residues; always > 0) and N (penalty score for mismatching residues; always ⁇ 0).
- M forward score for a pair of matching residues; always > 0
- N penalty score for mismatching residues; always ⁇ 0.
- a scoring matrix is used to calculate the cumulative score. Extension of the word hits in each direction are halted when: the cumulative alignment score falls off by the quantity X from its maximum achieved value; the cumulative score goes to zero or below, due to the accumulation of one or more negative-scoring residue alignments; or the end of either sequence is reached.
- the BLAST algorithm parameters W, T, and X determine the sensitivity and speed of the alignment.
- W wordlength
- E expectation
- BLOSUM62 scoring matrix
- the BLAST algorithm In addition to calculating percent sequence identity, the BLAST algorithm also performs a statistical analysis of the similarity between two sequences (see, e.g., Karlin & Altschul, Proc. Natl. Acad. Sci. USA 90:5873-5877 (1993)).
- One measure of similarity provided by the BLAST algorithm is the smallest sum probability (P(N)), which provides an indication of the probability by which a match between two nucleotide or amino acid sequences would occur by chance.
- the following running parameters are preferred for determining alignments and similarities using BLASTN that contribute to the E values and percentage identity for polynucleotide sequences: Unix running command: blastall -p blastn -d embldb -e 10 -GO -EO -r 1 -v 30 -b 30 -i queryseq -o results; the parameters are: -p Program Name [String]; -d Database [String]; -e Expectation value (E) [Real]; -G Cost to open a gap (zero invokes default behavior) [Integer]; -E Cost to extend a gap (zero invokes default behavior) [Integer]; -r Reward for a nucleotide match (blastn only) [Integer]; -v Number of one-line descriptions (V) [Integer]; -b Number of alignments to show (B) [Integer]; -i Query File [File In];
- the "hits" to one or more database sequences by a queried sequence produced by BLASTN, FASTA, BLASTP or a similar algorithm align and identify similar portions of sequences.
- the hits are arranged in order of the degree of similarity and the length of sequence overlap.
- Hits to a database sequence generally represent an overlap over only a fraction of the sequence length of the queried sequence.
- the BLASTN, FASTA and BLASTP algorithms also produce "Expect" values for alignments.
- the Expect value (E) indicates the number of hits one can "expect” to see over a certain number of contiguous sequences by chance when searching a database of a certain size.
- the Expect value is used as a significance threshold for determining whether the hit to a database, such as the preferred EMBL database, indicates true similarity. For example, an E value of 0.1 assigned to a polynucleotide hit is interpreted as meaning that in a database of the size of the EMBL database, one might expect to see 0.1 matches over the aligned portion of the sequence with a similar score simply by chance.
- the aligned and matched portions of the polynucleotide sequences then have a probability of 90% of being the same.
- the probability of finding a match by chance in the EMBL database is 1% or less using the BLASTN or FASTA algorithm.
- variant polynucleotides with reference to each of the polynucleotides of the present invention, preferably comprise sequences having the same number or fewer nucleic acids than each of the polynucleotides of the present invention and producing an E value of 0.01 or less when compared to the polynucleotide of the present invention. That is, a variant polynucleotide is any sequence that has at least a 99% probability of being the same as the polynucleotide of the present invention, measured as having an E value of 0.01 or less using the BLASTN, FASTA, or BLASTP algorithms set at parameters described above. Alternatively, variant polynucleotides of the present invention hybridize to the polynucleotide sequence of SEQ ID NO: 1 or 3, or complements, reverse sequences, or reverse complements of those sequences, under stringent conditions.
- the present invention also encompasses polynucleotides that differ from the disclosed sequences but that, as a consequence of the degeneracy of the genetic code, encode a polypeptide which is the same as that encoded by a polynucleotide of the present invention.
- polynucleotides comprising sequences that differ from the polynucleotide sequences recited in SEQ ID NO: 1 or 3 or complements, reverse sequences, or reverse complements thereof, as a result of conservative substitutions are contemplated by and encompassed within the present invention.
- polynucleotides comprising sequences that differ from the polynucleotide sequences recited in SEQ ID NO: 1 or 3, or complements, reverse complements or reverse sequences thereof, as a result of deletions and/or insertions totaling less than 10% of the total sequence length are also contemplated by and encompassed within the present invention.
- variant polynucleotides preferably have additional structure and/or functional features in common with the inventive polynucleotide.
- polynucleotides having a specified degree of identity to, or capable of hybridizing to an inventive polynucleotide preferably have at least one of the following features: (i) they contain an open reading frame or partial open reading frame encoding a polypeptide having substantially the same functional properties as the polypeptide encoded by the inventive polynucleotide; or (ii) they have domains in common.
- a variant polynucleotide may encode a polypeptide having the ability to suppress A622 or NBBl .
- a sequence that reduces nicotinic alkaloid biosynthesis is incorporated into a nucleic acid construct that is suitable for plant transformation.
- a nucleic acid construct can be used to decrease at least one O ⁇ A622 or NBBl gene expression in plants.
- an inventive nucleic acid construct may decrease one or both of A622 and NBBl expression, as well as a polynucleotide sequence encoding a nicotine biosynthesis enzyme.
- nucleic acid constructs comprise a sequence that down-regulates nicotinic alkaloid biosynthesis, under the control of a transcriptional initiation region operative in a plant, so that the construct can generate RNA in a host plant cell.
- Recombinant DNA constructs may be made using standard techniques.
- the DNA sequence for transcription may be obtained by treating a vector containing said sequence with restriction enzymes to cut out the appropriate segment.
- the DNA sequence for transcription may also be generated by annealing and ligating synthetic oligonucleotides or by using synthetic oligonucleotides in a polymerase chain reaction (PCR) to give suitable restriction sites at each end.
- PCR polymerase chain reaction
- the DNA sequence then is cloned into a vector containing suitable regulatory elements, such as upstream promoter and downstream terminator sequences.
- Promoter connotes a region of DNA upstream from the start of transcription that is involved in recognition and binding of RNA polymerase and other proteins to initiate transcription.
- a "constitutive promoter” is one that is active throughout the life of the plant and under most environmental conditions. Tissue- specific, tissue-preferred, cell type-specific, and inducible promoters constitute the class of "non-constitutive promoters.”
- "Operably linked” refers to a functional linkage between a promoter and a second sequence, where the promoter sequence initiates and mediates transcription of the DNA sequence corresponding to the second sequence. In general, “operably linked” means that the nucleic acid sequences being linked are contiguous.
- Promoters useful for expression of a nucleic acid sequence introduced into a cell to reduce expression of A 622 or NBBl may be constitutive promoters, or tissue-specific, tissue-preferred, cell type-specific, and inducible promoters.
- Preferred promoters include promoters which are active in root tissues, such as the tobacco RB7promoter (Hsu et al Pestic. Sci. 44:9-19 (1995); U. S. Patent No. 5,459,252) and promoters that are activated under conditions that result in elevated expression of enzymes involved in nicotine biosynthesis such as the tobacco RD2 promoter (U. S. Patent No. 5,837,876), PMT promoters (Shoji T. et al, Plant Cell Physiol, 41 :831-839 (2000b); WO 2002/038588) or an ,4622 promoter (Shoji T. et al, Plant MoI Biol, 50:427-440 (2002)).
- the vectors of the invention may also contain termination sequences, which are positioned downstream of the nucleic acid molecules of the invention, such that transcription of mRNA is terminated, and polyA sequences added.
- termination sequences are the cauliflower mosaic virus (CaMV) 35S terminator and the nopaline synthase gene (Tnos) terminator.
- the expression vector also may contain enhancers, start codons, splicing signal sequences, and targeting sequences.
- Expression vectors of the invention may also contain a selection marker by which transformed plant cells can be identified in culture.
- the marker may be associated with the heterologous nucleic acid molecule, i.e., the gene operably linked to a promoter.
- the term "marker” refers to a gene encoding a trait or a phenotype that permits the selection of, or the screening for, a plant or plant cell containing the marker.
- the marker gene will encode antibiotic or herbicide resistance. This allows for selection of transformed cells from among cells that are not transformed or transfected.
- suitable selectable markers include adenosine deaminase, dihydrofolate reductase, hygromycin-B-phosphotransferase, thymidne kinase, xanthine-guanine phospho-ribosyltransferase, glyphosate and glufosinate resistance, and amino-glycoside 3'-O-phosphotranserase (kanamycin, neomycin and G418 resistance). These markers include resistance to G418, hygromycin, bleomycin, kanamycin, and gentamicin.
- the construct may also contain the selectable marker gene Bar that confers resistance to herbicidal phosphinothricin analogs like ammonium gluphosinate. Thompson et al. , EMBO J. 9: 2519-2523 (1987). Other suitable selection markers are known as well.
- Visible markers such as green florescent protein (GFP) may be used.
- GFP green florescent protein
- Replication sequences may also be included to allow the vector to be cloned in a bacterial or phage host.
- a broad host range prokaryotic origin of replication is used.
- a selectable marker for bacteria may be included to allow selection of bacterial cells bearing the desired construct. Suitable prokaryotic selectable markers also include resistance to antibiotics such as kanamycin or tetracycline.
- T-DNA sequences may be included to facilitate the subsequent transfer to and incorporation into plant chromosomes.
- the present invention comprehends the genetic manipulation of a plant to suppress nicotinic alkaloid synthesis via introducing a polynucleotide sequence that down-regulates expression of a gene, such as A622 and NBBl, that regulates nicotinic alkaloid synthesis.
- a polynucleotide sequence that down-regulates expression of a gene, such as A622 and NBBl, that regulates nicotinic alkaloid synthesis.
- plant denotes any nicotinic alkaloid containing plant material that can be genetically manipulated, including but not limited to differentiated or undifferentiated plant cells, protosomes, whole plants, plant tissues, or plant organs, or any component of a plant such as a leaf, stem, root, bud, tuber, fruit, rhizome, or the like.
- Illustrative plants that can be engineered in accordance with the invention include but are not limited to tobacco, potato, tomato, egg plant, green pepper, and Atropa belladonna.
- Constructs according to the invention may be used to transform any plant cell, using a suitable transformation technique.
- Both monocotyledonous and dicotyledonous angiosperm or gymnosperm plant cells may be transformed in various ways known to the art. For example, see Klein et ah, Biotechnology 4: 583-590 (1993); Bechtold et al, C. R. Acad. ScL Paris 316:1194-1199 (1993); Bent et ah, MoI. Gen. Genet. 204:383-396 (1986); Paszowski et ah, EMBO J. 3: 2717-2722 (1984); Sagi et ah, Plant Cell Rep. 13: 262-266 (1994).
- Agrobacterium species such as A. tumefaciens and A. rhizogenes can be used, for example, in accordance with Nagel et ah, Microbiol Lett 61: 325 (1990). Additionally, plants may be transformed by Rhizobium, Sinorhizobium or Mesorhizobium transformation. Broothaerts et ah, Nature 433:629-633 (2005). [0127]
- Agrobacterium may be transformed with a plant expression vector via, e.g., electroporation, after which the Agrobacterium is introduced to plant cells via, e.g., the well known leaf-disk method.
- Additional methods for accomplishing this include, but are not limited to, electroporation, particle gun bombardment, calcium phosphate precipitation, and polyethylene glycol fusion, transfer into germinating pollen grains, direct transformation (Lorz et ah, MoI. Genet. 199: 179-182 (1985)), and other methods known to the art. If a selection marker, such as kanamycin resistance, is employed, it makes it easier to determine which cells have been successfully transformed.
- a plant or plant cell may be transformed with a plasmid comprising one or more sequences, each operably linked to a promoter.
- an illustrative vector may comprise a QPT sequence operably linked to a promoter.
- the plasmid may comprise a QPT sequence operably linked to a promoter and an A622 sequence operably linked to a promoter.
- a plant or plant cell may be transformed with more than one plasmid.
- a plant or plant cell may be transformed with a first plasmid comprising a QPT sequence operably linked to a promoter, which is distinct from a second plasmid comprising ⁇ mA622 ox NBBl sequence.
- first and second plasmids or portions thereof are introduced into the same plant cell
- Genetically engineered plants of the invention may be produced by conventional breeding.
- a genetically engineered plant having down- regulated QPT and A622 activity may be produced by crossing a transgenic plant having reduced QPT expression with a transgenic plant having reduced A622 expression. Following successive rounds of crossing and selection, a genetically engineered plant having down-regulated QPT and A622 activity can be selected.
- the presence of a protein, polypeptide, or nucleic acid molecule in a particular cell can be measured to determine if, for example, a cell has been successfully transformed or transfected.
- Marker genes may be included within pairs of recombination sites recognized by specific recombinases such as ere or flp to facilitate removal of the marker after selection. See U. S. published application No. 2004/0143874.
- Transgenic plants without marker genes may be produced using a second plasmid comprising a nucleic acid encoding the marker, distinct from a first plasmid that comprises an A622 or NBBl sequence.
- the first and second plasmids or portions thereof are introduced into the same plant cell, such that the selectable marker gene that is transiently expressed, transformed plant cells are identified, and transformed plants are obtained in which the A622 or NBBl sequence is stably integrated into the genome and the selectable marker gene is not stably integrated. See U. S. published application No. 2003/0221213.
- the first plasmid that comprises an A622 or NBBl sequence may optionally be a binary vector with a T-DNA region that is completely made up of nucleic acid sequences present in wild-type non- transgenic N. tabacum or sexually compatible Nicotiana species.
- Plant cells may be transformed with nucleic acid constructs of the present invention without the use of a selectable or visible marker and transgenic plant tissue and transgenic regenerated plants may be identified by detecting the presence of the introduced construct by PCR or other methods of detection of specific nucleic acid sequences. Identification of transformed plant cells may be facilitated by recognition of differences in the growth rate or a morphological feature of said transformed plant cell compared to the growth rate or a morphological feature of a non-transformed plant cell that is cultured under similar conditions (see WO 2004/076625).
- Methods of regenerating a transgenic plant from a transformed cell or culture vary according to the plant species but are based on known methodology. For example, methods for regenerating of transgenic tobacco plants are well-known.
- genetically engineered plants are selected that have down-regulated expression of at least one of A622 and NBBl. Additionally, the inventive genetically engineered plants may have down- regulated expression of a nicotine biosynthesis gene, such as QPT or PMT, and at least one of A622 and NBBl.
- Nicotine serves as a natural pesticide which helps protect tobacco plants from damage by pests and susceptibility of conventionally bred or transgenic low-nicotine tobacco to insect damage has been reported to increase. Legg, P.D., et al, Can. J. Cyto., 13:287-291 (1971); Voelckel, C, et al, Chemoecology 11 :121-126 (2001); Steppuhn, A., et al, PLoS Biol, 2(8): e217: 1074-1080 (2004).
- transgene conferring additional insect protection may be introduced by crossing a transgenic reduced-nicotine plant with a second transgenic plant containing a gene encoding an insect resistance protein.
- Transgenic plants of the invention are characterized by decreased nicotinic alkaloid content.
- Decreased nicotinic alkaloid content in the genetically engineered plant is preferably achieved via decreased expression of a nicotine biosynthesis pathway gene, such as A622 or NBBl.
- the phrase "reduced-nicotine or nicotinic alkaloid content” refers to a quantitative reduction in the amount of nicotinic alkaloid in the plant when compared with a non-transformed control plant.
- a quantitative decrease in nicotinic alkaloid levels can be assayed by several methods, as for example by quantification based on gas-liquid chromatography, high performance liquid chromatography, radioimmunoassays, and enzyme-linked immunosorbent assays.
- nicotinic alkaloid levels were measured by gas-liquid chromatography equipped with a capillary column and an FID detector, as described in Hibi, N. et al, Plant Physiology 100: 826-835 (1992). Redueed-Nicotinic-AIkaloid Products
- the present invention provides a transgenic plant having reduced- nicotinic-alkaloid levels.
- the instant invention contemplates reducing nicotine levels by suppressing at least one of A622 and NBBl expression.
- a variety of products may be made from such a plant.
- TSNAs may also be reduced because there is a significant, positive correlation between alkaloid content in tobacco and TSNA accumulation. For example, a significant correlation coefficient between anatabine and NAT was 0.76. Djordjevic et ah, J. Agric. Food Chem., 37: 752-756 (1989). TSNAs are a class of carcinogens that are predominantly formed in tobacco during curing, processing, and smoking. However, TSNAs are present in small quantities in growing tobacco plants or fresh cut tobacco. Hecht & Hoffman, J. Natl. Cancer Inst. 58, 1841-4 (1977); Wiernik et ah, Recent Adv. Tob.
- TSNAs are considered to be among the most prominent carcinogens in cigarette smoke and their carcinogenic properties are well documented. See Hecht, S. Mutat. Res. 424:127-42 (1999); Hecht, S. Toxicol. 11, 559-603 (1998); Hecht, S., et al., Cancer Surv. 8, 273-294 (1989). TSNAs have been cited as causes of oral cancer, esophageal cancer, pancreatic cancer, and lung cancer (Hecht & Hoffman, IARC Sci. PuU. 54-61 (1991)). In particular, TSNAs have been implicated as the causative agent in the dramatic rise of adenocarcinoma associated with cigarette smoking and lung cancer (Hoffmann et al, Crit. Rev. Toxicol. 26, 199-211 (1996)).
- NNN N'-nitrosonornicotine
- NNK 4-methylnitrosoamino-l-(3-pyridyl)-l- butanone
- NAT N'-nitrosoanatabine
- NAB N'-nitrosoaiiabasine
- Vector 21-41 which is a GE reduced- nicotine tobacco by the down-regulation of QPT, has a total alkaloid level of about 2300 ppm, which is less than 10 percent of the wild-type tobacco.
- Mainstream smoke from the Vector 21-41 cigarettes had less than 10 percent of NNN, NAT, NAB ,and NNK compared to such levels of a standard full flavor cigarette produced from wild- type tobacco.
- U.S. Patent Nos. 5,803,081, 6,135,121, 6,805,134, 6,907,887 and 6,959,712 and U.S. Published Application Nos. 2005/0034365 and 2005/0072047 discuss methods to reduce tobacco-specific nitrosamines (TSNAs).
- TSNAs tobacco-specific nitrosamines
- a reduced-nicotine tobacco product may be in the form of leaf tobacco, shredded tobacco, cut tobacco and tobacco fractions.
- a reduced-nicotine tobacco product may include cigarette tobacco, cigar tobacco, snuff, chewing tobacco, pipe tobacco, and cigarettes made from GE reduced-nicotine tobacco for use in smoking cessation.
- Reduced-nicotine tobacco may also be used to produce reconstituted tobacco (Recon).
- Recon is produced from tobacco stems and/or smaller leaf particles by a process that closely resembles typical paper making. This process entails processing the various tobacco portions that are to be made into Recon and cutting the tobacco into a size and shape that resembles cut rag tobacco made from whole leaf tobacco. This cut recon then gets mixed with cut-rag tobacco and is ready for cigarette making.
- reduced-nicotine tobacco can be used as source for protein, fiber, ethanol, and animal feeds. See U.S. published application No. 2002/0197688.
- reduced-nicotine tobacco may be used as a source of Rubisco (ribulose bisphosphate carboxylase-oxygenase or fraction 1 protein) because unlike other plants, tobacco- derived Rubisco can be readily extracted in crystalline form.
- Rubisco ribulose bisphosphate carboxylase-oxygenase or fraction 1 protein
- Rubisco' s content of essential amino acids equals or exceeds that of the FAO Provisional Pattern. Ershoff, B.H., et al. Society for Experimental Biology and Medicine 157:626-630 (1978); Wildman, S.G. Photosynthesis Research 73:243-250 (2002)).
- Example 1 Preparation of ⁇ iRN AI-A622 Vector for Reducing Alkaloid Content by Down-Regulating A 622 Expression
- the plasmid pHANNIBAL see Wesley et al, Plant J. 27: 581-590 (2001), was modified to produce plasmid pHANNIBAL-X as shown in Figure 2.
- a Sad restriction site between the ampicillin resistance gene (Amp) and 35S promoter was eliminated by Sad cutting and subsequent DNA blunting and ligation.
- the multi- cloning sites (MCS) were modified as follows.
- a Bam H I restriction site was added to the MCS between the promoter and Pdk intron by inserting an adaptor (5' TCGAACGGGATCCCGCCGCTCGAGCGG) between the Xhol and EcoRI sites.
- a Bam Hl site was eliminated from and a Sac I site was inserted into the MCS between the intron and terminator by inserting an adaptor (5' GATCAGCTCTAGAGCCGAGCTCGC) between the BamHI and Xbal sites.
- a plant RNAi binary vector was prepared using pHANNIBAL-X using the scheme diagramed in Figure 3, in which distinct "sense” and “antisense” fragments are first obtained by the addition of specific restriction sites to the ends of a segment of the gene of interest, and then the sense and antisense fragments are inserted in the desired orientations in the modified pHANNIBAL-X plasmid.
- RNAi binary vector The DNA segment containing the sense and antisense fragments and the intervening Pdk intron was substituted for the GUS coding region of pBI121 (Wesley et al, 2001,) to produce an RNAi binary vector.
- the 814 bp-1160 bp region of the A622 cDNA was used as the dsRNA forming region (sense chain, antisense chain).
- PCR was performed using A622 cDNA cloned in pcDNAII as the template and primers with additional bases encoding the indicated restriction enzyme sites, and the target DNA fragment was collected and TA cloned to a pGEM-T vector.
- RNAi region was excised from the pHANNIBAL-X with the incorporated sense and antisense chains by treating with BamH I and Sac I and ligated to pBI121 from which the GUS coding region had been removed by similar treatment to produce the binary vector pRNAi-A622 for plant transformation, which contains a T-DNA segment ( Figure 4) that contains an nptll selectable marker cassette and the A622 RNAi cassette.
- RNAi strain cultured cells were prepared in which mRNA from pRNAi- ⁇ 622 was expressed in cultured tobacco BY-2 cells to suppress A622.
- the vector (pRNAi-A622) was transformed into Agrobacteriiim tumefaciens strain EHl 05, which was used to transform tobacco BY-2 cells.
- the methods for infecting and selecting the tobacco BY-2 cells were as follows. [0163] Four ml of BY-2 cells which had been cultured for 7 days in 100 ml of modified LS medium, s ⁇ Imeir ⁇ shi et al, Plant MoI. Biol., 38: 1101-1111 (1998), were subcultured into 100 ml modified LS medium, and cultured for 4 days.
- the washed cells were spread on modified LS selection medium containing kanamycin (50 mg/1) and carbenicillin (250 mg/1), and transformed cells were selected.
- the transformed cells were then grown in a suspension culture in the dark at 27°C for 1 week in 30 ml of liquid modified LS medium.
- methyljasmonate (MeJa) which had been diluted to 50 ⁇ M with DMSO, the cells were suspension cultured for 48 hours at 27 0 C.
- Jasmonate treated cells were filtered, collected, and freeze dried. Sulfuric acid, 3 ml of 0.1 N, was added to 50 mg of the freeze-dried sample. The mixture was sonicated for 15 minutes, and filtered. A 28% ammonium solution was added to 1 ml of the filtrate, and centrifuged for 10 minutes at 15000 rpm.
- the dried sample was dissolved in 50 ⁇ l of ethanol solution containing 0.1% dodecane.
- a gas chromatograph (GC-14B) equipped with a capillary column and an FID detector was used to analyze the samples.
- a RESTEC Rtx- 5 Amine column (Restec) was used as the capillary column.
- the column temperature was maintained at 100 0 C for 10 min, elevated to 150 0 C at 25 °C/min, held at 150 °C for 1 min, elevated to 170 0 C at 1 °C/min, held at 170 0 C for 2 min, elevated to 300 0 C at 30 °C/min, and then held at 300 0 C for 10 min.
- Injection and detector temperature was 300 0 C.
- One ⁇ l of each sample was injected, and nicotinic alkaloids were quantified by the internal standard method.
- cDNA was synthesized using random hexamers and Superscript First-Strand Synthesis System for RT-PCR (Invitrogen). RT-PCR was performed with 5 ng of the cDNA as a template using a TaKaRa ExTaq (Takara Bio) under the following conditions: for detection of A622, NBBl, AO, QS, QPT, ODC, 22 cycles of 94 °C for 30 sec, 57 0 C for 30 sec, and 72 0 C for 30 sec, for detection of PMT, 24 cycles of 94 0 C for 1 min, 52 °C for 30 sec, and 72 °C for 1 min.
- TaKaRa ExTaq Takara Bio
- A622 is not induced in ⁇ 4622-silenced lines. Other genes for known nicotine biosynthetic pathway enzymes are induced. These results provide evidence that A622 is included in the nicotinic alkaloid biosynthesis pathway, and demonstrate that the nicotinic alkaloid content and particularly the nicotine content of plant cells having nicotine-producing ability can be reduced by down-regulating A622 expression.
- RNAi region containing A622 sense and antisense DNA fragments was excised from the pHANNIB AL-X plasmid with Xho I and Xba I, and ligated into pBluescript KS which had been digested with Xho I and Xba I. The RNAi region was then excised with Xho I and Spe I, and was subcloned between the Xhol and Spel sites in the MCS of the XVE vector pER8 (Zuo J. et al, Plant J., 24: 265-273 (2000)) to produce the binary vector pXVE- ⁇ 4 ⁇ 522RNAi.
- the T-DNA region of pX VE- ⁇ (522RNAi (See Figure 7) contains a cassette for estradiol-inducible expression of the chimeric transcription factor XVE, an hpt selectable marker cassette, and a cassette in which expression of the A622 RNAi is under the control of the LexA-46 promoter, which is activated by XVE.
- the binary vector pXVE-A622RNAi was introduced to Agrobacterium rhizogenes strain 15834 by electroporation. N. tabacum cv. Petit Havana SRl plants were transformed by A. rhizogenes using a leaf-disc method, as described by Kanegae et al, Plant Physiol. 105(2):483-90. (1994). Hygromycin resistance (15 mg/L in B5 medium) was used to select transformed roots. Transgenic hairy roots were grown at 27 0 C in the dark.
- Transgenic hairy roots carrying the T-DNA from pXVE-A622RNAi were grown in the B5 medium for 10 days and then gene silencing was induced by addition of 17-beta-estradiol (2 ⁇ M) for 4 days.
- RT-PCR analysis showed that A622 expression was efficiently suppressed in tobacco hairy root lines A8 and AlO transformed with the estradiol-inducible A622 suppression construct after the estradiol addition. See Figure 8A.
- Nicotine contents were measured in hairy root lines transformed with an inducible A622 suppression construct without (-) and after induction of suppression with estradiol (+).
- the RT-PCR graph in Figure 8B shows that A622 expression was already partially suppressed before estradiol induction. This is especially true with the #8 line. Nicotine contents varied among the A622 suppressed lines but were lower in the A622 suppressed lines than in the wild-type hairy roots.
- Example 5 Identification of NBBl as a Gene Regulated by the NIC loci
- a cDNA micro-array prepared from a Nicotiana sylvestris- ⁇ e ⁇ vQ ⁇ cDNA library was used to search for novel genes which are controlled by the nicotine biosynthesis regulatory NIC loci.
- JV. sylvestris cDNAs were amplified by PCR and spotted onto mirror- coated slides (type 7 star, Amersham) by using Amersham Lucidea array spotter. DNA was immobilized on the slide surface by UV crosslinking (120 mJ/m 2 ).
- JV. tabacum Burley 21 plantlets (WT and niclnicl) were grown on half-strength B5 medium supplemented with 1.5% (WfV) sucrose and 0.35% (W/V) gellan gum (Wako) in Agripot containers (Kirin).
- Roots of eight- week-old plantlets were harvested, immediately frozen with liquid nitrogen, and kept at -80 °C until use.
- Total RNA was isolated using Plant RNeasy Mini kit (Qiagen) from the frozen roots, and mRNA was purified using GenElute mRNA Miniprep kit (Sigma).
- cDNA was synthesized from 0.4 ⁇ g of the purified mRNA by using LabelStar Array Kit (Qiagen) in the presence of Cy 3 or Cy5- dCTP (Amersham).
- cDNA hybridization to the microarray slides and post- hybridization washes were performed using a Lucida Pro hybrid-machine (Amersham).
- Microarrays were scanned using an FLA-8000 scanner (Fujifilm).
- NBBl cDNA was obtained by 5'- and 3'- RACE from total RNA of JV. tabacum by using a SMART RACE cDNA Amplification Kit (Clontech).
- the nucleotide sequence of the NBBl cDNA insert was determined on both strands using an ABI PRISM® 3100 Genetic Analyzer (Applied Biosystems) and a BigDye® Terminator v3.1 Cycle Sequencing Kit (Applied Biosystems).
- the nucleotide sequence of NBBl is set forth in SEQ ID NO: 3.
- the amino acid sequence encoded by the nucleotide sequence is set forth in SEQ ID NO: 4.
- the protein sequence includes a FAD-binding motif. A putative vacuolar signal peptide is located at N-terminus.
- NBBl expression was investigated in tobacco plants by Northern blot analysis.
- Methyl j asmonate treatment was accomplished by adding 0.5 mL of 100 ⁇ M methyl j asmonate to an Agripot container (Kirin, Tokyo) with a solid medium capacity of 80 cm 3 and a gas capacity of 250 cm 3 containing the plants. The treatment times were set at Oh and 24h. The root parts and leaf parts (2 nd through 6 th leaves from a plant body with a total of 7 to 10 leaves) were collected from the plant bodies and immediately stored frozen using liquid nitrogen.
- RNA blotting was carried out according to the ordinary methods given by Sambrook and Russell (Sambrook, J. et ah, Molecular Cloning, Cold Spring Harbor Laboratory, Chapter 7 (2001)).
- sequence fragment from 1278 bp through the end (1759 bp) of the NBBl nucleotide sequence was used as the probe template.
- the template was prepared by amplification from the cDNA clone using PCR using the following primers: primer 1: GGAAAACTAACAACGGAATCTCT primer 2: GATCAAGCTATTGCTTTCCCT
- the probe was labeled with 32 P using a Bcabest labeling kit (Takara) according to the manufacturer's instructions. Hybridization was accomplished using ULTRAhyb (Ambion) as the buffer according to the manufacturer's protocol.
- PMT probe was prepared from a PMT sequence cloned into a pcDNAII vector in E. coli (Hibi et ah, 1994).
- the plasmid was extracted and purified from the E. coli using a QIAprep Spin Miniprep Kit (Qiagen), treated with the restriction enzymes Xbal and HindIII by ordinary methods, and run through agarose gel electrophoresis, and about 1.5 kb DNA fragments were collected.
- a QIAquick Gel Extraction Kit (Qiagen) was used for collection.
- the collected DNA fragments were 32 P labeled by the same methods used for the NBBl probe, and hybridized. The results are shown in Figure 9.
- NBBl and PMT have the same pattern of expression in tobacco plants.
- Evidence that NBBl is involved in nicotine biosynthesis is that, like PMT and A622, NBBl is under the control of the NIC genes, and it exhibits a similar pattern of expression to PMT and A622.
- NBBl polypeptide has 25% identity and 60% homology to the Eschscholzia californica berberine bridge enzyme (BBE). (Dittrich H. et ah, Proc. Natl. Acad. ScI USA, Vol. 88, 9969-9973 (1991)). An alignment of the NBBl polypeptide with EcBBE is shown in Figure 10.
- a phylogenetic tree was constructed using the sequences of NBB 1 polypeptide and plant BBE-like polypeptides (based on Carter and Thornburg, Plant Physiol. 134, 460-469 (2004). The phylogenetic analysis was performed using neighbor-joining method with the CLUSTAL W program. Numbers indicate bootstrap values from 1,000 replicates. The sequences used were: EcBBE, California poppy BBE (GenBank accession no.
- AF005655 opium poppy (Papaver somniferum) probable reticuline oxidase (AF025430); BsBBE, barberry (Berberis stolonifer ⁇ ) BBE (AF049347); VuCPRD2, cowpea (Vigna unguiculata) drought- induced protein (AB056448); NspNEC5, Nicotiana sp.
- Nectarin V (AF503441/AF503442); HaCHOX, sunflower (Helianthus annum) carbohydrate oxidase (AF472609); LsCHOX, lettuce (Lactuca sativ ⁇ ) carbohydrate oxidase (AF472608); and 27 Arabidopsis genes (Atlg01980, Atlgl l770, Atlg26380, Atlg26390, Atlg26400, Atlg26410, Atlg26420, Atlg30700, Atlg30710, Atlg30720, Atlg30730, Atlg30740, Atlg30760, Atlg34575, At2g34790, At2g34810, At4g20800, At4g20820, At4g20830, At4g20840, At4g20860, At5g44360, At5g44380, At5g44390, At5g44400, At5g44410, and At5g44440).
- the 342-bp DNA fragment of the NBBl cDNA was amplified by PCR and cloned into pGEM-T vector using the following primers.
- Resultant PCR products were digested with EcoRI and Xhol for the antisense insertion, and with CIaI and Xbal for sense chain insertion.
- the sense DNA fragment was subcloned into the pHANNIBAL-X, followed by insertion of the antisense fragment.
- the resulting plasmid contained a inverted repeat of the NBBl fragment, separated by the Pdk intron.
- RNAi region was excised from the pHANNIBAL-X with BamH I and Sac I, and ligated into pBI121 to replace the GUS coding region and to produce the binary vector pRNAi-NBBl.
- the T-DNA region of pHANNIB AL-NBBl 3' contains an nptll selectable marker cassette and cassette for expression of a hairpin RNAi with a double-stranded region corresponding to a 3' fragment of NBBl.
- Methyl jasmonate treatment of Tobacco BY-2 cells induces NBBl expression in addition to expression of genes for known enzymes in the nicotine biosynthesis pathway. The effects of NBBl suppression was tested in BY-2 cells.
- the vector pRNAi-NS5i was introduced into A. tumef ⁇ ciens strain EHAl 05, which was used to transform tobacco BY-2 cells.
- BY-2 cells were cultured in 100 ml of modified LS medium.
- Agrob ⁇ cterium tumef ⁇ ciens cells (100 ⁇ l) in YEB medium were added to 4 ml of BY-2 cells and cultured for 40 hours in the dark at 27 °C. After infected tobacco cells were washed twice with modified LS medium, washed tobacco cells were spread on modified LS agar medium containing kanamycin (50 mg/1) and carbenicillin (250 mg/1).
- a gas chromatograph (GC-14B) equipped with a capillary column and an FID detector was used to analyze the samples.
- a RESTEC Rtx-5Amine column (Restec) was used as the capillary column. The column temperature was maintained at 100 °C for 10 min, elevated to 150 °C at 25 °C/min, held at 150 °C for 1 min, elevated to 170 0 C at 1 °C/min, held at 170 0 C for 2 min, elevated to 300 0 C at 30 °C/min, and then held at 300 0 C for 10 min. Injection and detector temperature was 300 °C. One ⁇ l of each sample was injected, and nicotinic alkaloids were quantified by the internal standard method.
- RNAs were isolated from wild-type and transgenic BY-2 cell lines which had been treated with 50 uM MeJA for 48h. RNA levels of specific genes were determined by RT-PCR. The results are shown in Figure 6. [0220] In NBBl-s ⁇ lencQd lines induction of NBBl is not observed, but induction of known genes of the nicotine biosynthetic pathway still occurs, as well as induction of A622. Note also that induction of NBBl is not affected in A662- suppressed lines.
- Tobacco SR-I hairy roots accumulate nicotine as the major alkaloid.
- the effect of NBBl suppression on alkaloid accumulation in hairy roots was studied.
- the binary vector pRNAi-iVB.57 3' was introduced into A. rhizogenes strain 15834 by electroporation. N. tabacum cv. Petit Havana SRl plants were transformed by A. rhizogenes using a leaf-disc method, as described above for suppression of A622 in tobacco hairy roots. Hairy roots were selected and cultured and alkaloids were extracted, purified, and analyzed as described above.
- transgenic root lines HN6, HNl 9, HN20 and HN29
- Two atm-NBBl fragments were amplified by PCR from the NBBl cDNA in pGEM-T vector using a primer set of iVS-97-aatBl and attBl adapter, and a set of NBBl-attB2 and attB2 adapter.
- Adapter primers attBl adapter 5' GGGGAC AAGTTTGTAC A AAA AAGC AGGCT attB2 adapter 5' GGGGACC ACTTTGTACAAGAAAGCTGGGT
- the NBBl ORF was transferred from the pDONR221-NBBl-l vector to a GATEWAY binary vector pANDA 35HK which was designed to express a dsRNA with GUS partial fragment under the CaMV35S promoter (Dr. Ko Shimamoto, NAIST) by LR reaction.
- the resultant NBBl RNAi vector is referred to as pAND A-NBBl full.
- the T-DNA of pAND A-NBB 1 full contains an nptll selectable marker cassette, an NBBl RNAi cassette in which the full length coding region of NBBl is present in inverted repeats separated by a GUS linker, and an hpt selectable marker cassette.
- the binary vector pANDA-NBBlfull was introduced to A. tumef ⁇ ciens strain EHAl 05 by electroporation.
- N. t ⁇ b ⁇ cum cv. Petit Havana SRl plants were transformed by A. tumef ⁇ ciens using a leaf-disk method, basically as described by Kanegae et ⁇ l, Plant Physiol. 105, 483-490 (1994).
- Hygromycin resistance (30 mg/L in MS medium) was used for selection.
- Transgenic plants were regenerated from the leaf discs as described and grown at 27 0 C under continuous light in a growth chamber.
- Leaf tissue was collected from TO generation plants grown for 36 days. Alkaloids were extracted, purified, and analyzed as described above. Levels of nicotine in the leaves of plants from lines transformed with the NBBl suppression vector pANDA-NBBlfull were reduced compared to wild type (See Figure 16). Leaves of transgenic lines (#6, #14 and #22) contained levels of nicotine only about 16% of the level in leaves of wild type plants.
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- Developmental Biology & Embryology (AREA)
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- Natural Medicines & Medicinal Plants (AREA)
- Breeding Of Plants And Reproduction By Means Of Culturing (AREA)
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Abstract
Description
Claims
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AU2006233359A AU2006233359B2 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR1020147019393A KR101538797B1 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
CN200680010544XA CN101155920B (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR1020157036289A KR101672423B1 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR1020137031265A KR101563998B1 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR20137006598A KR101495337B1 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR20147029200A KR20140130238A (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
EP06755965A EP1861501A2 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
KR1020157023754A KR101631597B1 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
JP2007557629A JP4892744B2 (en) | 2005-02-28 | 2006-02-28 | Methods for reducing nicotine-related alkaloid levels in plants |
AP2014007807A AP2014007807A0 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
US11/579,661 US8791329B2 (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
CA2599302A CA2599302C (en) | 2005-02-28 | 2006-02-28 | Reducing levels of nicotinic alkaloids in plants |
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US14/444,511 US9856487B2 (en) | 2005-02-28 | 2014-07-28 | Reducing levels of nicotinic alkaloids in plants |
PH12014502317A PH12014502317A1 (en) | 2005-02-28 | 2014-10-16 | Reducing level of nicotinic alkaloids in plants |
US14/685,361 US9834780B2 (en) | 2005-02-28 | 2015-04-13 | Reducing levels of nicotinic alkaloids in plants |
US15/422,460 US10111456B2 (en) | 2005-02-28 | 2017-02-01 | Methods and compositions for identifying NBB1 mutations |
US15/422,455 US10201182B2 (en) | 2005-02-28 | 2017-02-01 | Methods and compositions for suppressing NBB1 expression |
US15/828,875 US10076134B2 (en) | 2005-02-28 | 2017-12-01 | Reducing levels of nicotinic alkaloids in plants |
US15/828,868 US10085478B2 (en) | 2005-02-28 | 2017-12-01 | Reducing levels of nicotinic alkaloids in plants |
US15/858,599 US10368573B2 (en) | 2005-02-28 | 2017-12-29 | Reducing levels of nicotinic alkaloids in plants |
US16/508,041 US11109617B2 (en) | 2005-02-28 | 2019-07-10 | Reducing levels of nicotine in plants |
US17/463,502 US11839231B2 (en) | 2005-02-28 | 2021-08-31 | Reducing levels of nicotinic alkaloids in plants |
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US14/339,061 Division US8987555B2 (en) | 2005-02-28 | 2014-07-23 | Reducing levels of nicotinic alkaloids in plants |
US14/444,511 Division US9856487B2 (en) | 2005-02-28 | 2014-07-28 | Reducing levels of nicotinic alkaloids in plants |
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US (12) | US8791329B2 (en) |
EP (1) | EP1861501A2 (en) |
JP (1) | JP4892744B2 (en) |
KR (8) | KR101563998B1 (en) |
CN (4) | CN106381327A (en) |
AP (2) | AP2014007807A0 (en) |
AU (1) | AU2006233359B2 (en) |
CA (4) | CA2926297C (en) |
HK (1) | HK1182136A1 (en) |
MX (1) | MX336576B (en) |
PH (1) | PH12014502317A1 (en) |
RU (1) | RU2007135976A (en) |
WO (1) | WO2006109197A2 (en) |
ZA (1) | ZA200708331B (en) |
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