WO2001067861A1 - Materials and methods for the regeneration of plants from cultured plant tissue - Google Patents
Materials and methods for the regeneration of plants from cultured plant tissue Download PDFInfo
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- WO2001067861A1 WO2001067861A1 PCT/US2001/007985 US0107985W WO0167861A1 WO 2001067861 A1 WO2001067861 A1 WO 2001067861A1 US 0107985 W US0107985 W US 0107985W WO 0167861 A1 WO0167861 A1 WO 0167861A1
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Classifications
-
- 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)
- C12N15/8201—Methods for introducing genetic material into plant cells, e.g. DNA, RNA, stable or transient incorporation, tissue culture methods adapted for transformation
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01H—NEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
- A01H4/00—Plant reproduction by tissue culture techniques ; Tissue culture techniques therefor
- A01H4/002—Culture media for tissue culture
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01H—NEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
- A01H4/00—Plant reproduction by tissue culture techniques ; Tissue culture techniques therefor
- A01H4/005—Methods for micropropagation; Vegetative plant propagation using cell or tissue culture techniques
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01H—NEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
- A01H4/00—Plant reproduction by tissue culture techniques ; Tissue culture techniques therefor
- A01H4/008—Methods for regeneration to complete plants
-
- 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
- A01N43/00—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds
- A01N43/34—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one nitrogen atom as the only ring hetero atom
- A01N43/36—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one nitrogen atom as the only ring hetero atom five-membered rings
- A01N43/38—Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with one nitrogen atom as the only ring hetero atom five-membered rings condensed with carbocyclic rings
Definitions
- the present invention relates to the field of agricultural biotechnology.
- the present invention provides compositions and methods for affecting plant growth and regenerating plants from plant tissue or transformed plant tissue.
- Plant growth is affected by a variety of physical and chemical factors. Physical factors include available light, day length, moisture and temperature. Chemical factors include minerals, nitrates, cofactors, nutrient substances and plant growth regulators or hormones, for example, auxins, cytokinins and gibberellins.
- IAA Indole-3 -acetic acid
- IAA is a naturally-occurring plant growth hormone identified in plants. IAA has been shown to be directly responsible for increase in growth in plants in vivo and in vitro. The characteristics influenced by IAA include cell elongation, internodal distance (height), leaf surface area and crop yield. IAA and other compounds exhibiting hormonal regulatory activity similar to that of IAA are included in a class of plant regulators called "auxins.”
- auxins in plants include, for example, 4- chloroindole-3 -acetic acid (4-Cl-IAA) which is a naturally occurring plant growth regulator, acting to induce stem elongation and to promote root formation.
- 4-Cl-IAA 4- chloroindole-3 -acetic acid
- IAA is found in most organs of a plant
- 4-Cl-IAA was shown to be present in immature and mature seeds of Pisum sativum, but not in any other organ (Ulvskov, et al., (1992) 188:182-189).
- Some synthetic auxins include naphthalene- 1 -acetic acid (NAA), 5,6-dichloro-indole-3-acetic acid (5,6-Cl 2 -IAA), 4-chloro-2-methylphenoxyacetic acid (MCPA); 2,4-dichlorophenoxyacetic acid (2,4D); 2,4,5-trichlorophenoxyacetic acid (2,4,5-T); 2-(4-chloro-2- methylphenoxy)propionic acid (CMPP); 4-(2,4-dichlorophenoxy)butyric acid (2,4-DB); 2,4,5-trichlorobenzoic acid (TBA); and 3,5-dichloro-2-methoxybenzoic acid (dicamba), for example.
- NAA naphthalene- 1 -acetic acid
- 5,6-Cl 2 -IAA 5,6-dichloro-indole-3-acetic acid
- MCPA 4-chloro-2-methylphenoxyacetic acid
- CMPP
- Plant genetic engineering techniques enable the following steps: (a) identification of a specific gene; (b) isolation and cloning of the gene; (c) transfer of the gene to recipient plant host cells: (d) integration, transcription and translation of the DNA in the recipient cells; and (e) multiplication and use of the transgenic plant (T. Kosuge, C. P. Meredith and A. Hollaender, eds (1983) Genetic Engineering of Plants, 26:5-25; Rogers et al., (1988) Methods or Plant Molecular Biology, A. Weissbach and H. Weissbach, eds., Academic Press, Inc., San Diego, Calif).
- Newly inserted foreign genes have been shown to be stably maintained during plant regeneration and are transmitted to progeny as typical Mendelian traits (Horsch, et al. (1984) Science 223:496, and DeBlock, et al, (1984) EMBO 3:1681).
- the foreign genes retain their normal tissue specific and developmental expression patterns.
- Agrobacterium tumefaciens-mediated transformation system has proved to be efficient for many dicotyledonous plant species.
- Barton, et ⁇ l., (1983, Cell 32:1033) reported the transformation and regeneration of tobacco plants
- Chang, et ⁇ l., (1994, Pl ⁇ nt ⁇ 5:551-558) described stable genetic transformation of Ar ⁇ bidopsis th ⁇ li ⁇ n ⁇ .
- the Agrobacterium method for gene transfer was also applied to monocotyledonous plants, e.
- Transformation of food crops was obtained with alternative methods, e.g., by polyethylene glycol (PEG)-facilitated DNA uptake (Uchimiya, et al., (1986) Mol Gen. Genet. 204:204-207) and electroporation (Fromm, et al, (1986) N ⁇ twre 319:791-793), both of which used protoplasts as transfer targets.
- PEG polyethylene glycol
- Monocot and dicot tissues may be transformed by bombardment of tissues by D ⁇ A-coated particles (Wang, et al, (1988) Plant Mol. Biol 11 :433-439; Wu, in Plant Biotechnology (1989), Kung and Arntzen, Eds., Butterworth Publishers, Stoneham, Mass.).
- a principal object of the present invention is to provide a growth affecting composition comprising one or more indole-3-acetic acid (IAA) derivatives.
- IAA indole-3-acetic acid
- the compositions of the present invention play a significant role in inducing a number of growth- affecting responses in a variety of plant species. Suitable IAA derivatives are described in United States patent application serial number 08/758,416 entitled Auxinic Analogues of Indole-3 -Acetic Acid, filed November 29, 1996, which is specifically incorporated herein by reference.
- the compositions of the present invention may comprise a substituted derivative of IAA.
- the derivatives of IAA of the present invention may comprise one or more substitutions in the IAA molecule.
- the IAA derivative may be a mono-substituted IAA molecule. In some preferred embodiments, the IAA derivative of the present invention may be a di-substituted IAA. In some preferred embodiments, the IAA derivative of the present invention may be a multi-substituted IAA molecule.
- the derivatives may be in the form of an acid, ester, amide or salt.
- the present invention contemplates growth affecting compositions comprising a mono-substituted IAA with a substituent group in the 2, 4, 5, 6, or 7 position of the IAA wherein the substituent may be a halogen, an alkyl group, an alkoxy group, an acyl group, an acylamido group or an acyloxy group having 1-10 carbons.
- the IAA derivative may be a di-substituted IAA derivative with substituents on two of the 2, 4, 5, 6, or 7 positions of the IAA wherein the substituents may be the same or different and may be a halogen, an alkyl group, an alkoxy group , an acyl group, an acylamido group or an acyloxy group having 1-10 carbons.
- the IAA derivative may be a multi-substituted IAA derivative with substituents on three or more of the 2, 4, 5, 6, or 7 positions of the IAA wherein the substituents may be the same or different and may be a halogen, an alkyl group, an alkoxy group , an acyl group, an acylamido group or an acyloxy group having 1-10 carbons.
- the compositions of the present invention may comprise the IAA derivative 5- bromoindole-3 -acetic acid (5-BrIAA) in the form of an acid, ester, amide or salt in an amount sufficient to achieve a plant growth affecting response.
- the invention contemplates the use of 5-BrIAA to affect growth in both monocotyledonous and dicotyledonous plants. It is also an object of the invention to provide a composition for affecting plant growth comprising one or more indole-3 -acetic acid (IAA) derivatives in a mixture with one or more additional plant growth regulators, for example, an auxin, a cytokinin, a gibberellin, an abscisic acid, etc., in definite proportions and concentrations for wide application to various plants in order to achieve a plant growth affecting response.
- IAA indole-3 -acetic acid
- the composition may comprise one or more mono-substituted IAA derivatives and/or one or more di- substituted IAA derivatives and/or one or more multi-substituted IAA derivatives or mixtures thereof and may further comprise one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- additional plant growth regulators for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the composition may comprise one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substituted IAA derivatives and may further comprise one or more compounds selected from a group consisting of (2,4- Dichlorophenoxy)acetic acid (2, 4-D), 6-benzylaminopurine (BAP), abscisic acid (ABA), zeatin riboside, kinetin, (2-Isopentyl)adenine (2iP) and dicmamba.
- the composition may comprise a mono-substituted IAA derivative and may further comprise at least one plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the composition may comprise 5-BrIAA and may further comprise at least one plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the composition may comprise 5-BrIAA and may further comprise at least one compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the composition may comprise 5-BrIAA, 2,4-D, BAP and ABA.
- the composition may comprise 5-BrIAA, zeatin riboside and ABA.
- the invention was exemplified with compositions comprising 5-BrIAA and a cytokinin to affect the growth of plants.
- the present invention provides a composition formed by mixing one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substituted IAA derivatives or mixtures thereof with one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- additional plant growth regulators for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the composition may be formed by mixing one or more mono-substituted IAA derivatives and or one or more di-substimted IAA derivatives and/or one or more multi- substituted IAA derivatives with one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA. zeatin riboside, kinetin, 2iP and dicmamba.
- the composition can be formed by mixing a mono-substituted IAA with a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the composition can be formed by mixing 5-BrIAA with a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the composition can be formed by mixing 5-BrIAA with a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the composition is formed by mixing 5- BrlAA, 2,4-D. BAP and ABA.
- the composition may be formed by mixing 5-BrIAA. zeatin riboside and ABA.
- It is a further object of the invention to provide a culture medium for affecting plant growth comprising a mixture of one or more indole-3-acetic acid (IAA) derivatives and one or more additional plant growth regulators (e.g. one or more auxins, cytokinins, giberellins and/or abscisic acids) as components of medium which sustains the plant during plant development or tissue regeneration and also serves as a vehicle whereby the one or more indole-3 -acetic acid (IAA) derivatives may be applied.
- additional plant growth regulators e.g. one or more auxins, cytokinins, giberellins and/or abscisic acids
- the medium may comprise one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substituted IAA derivatives or mixtures thereof and may further comprise one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins. one or more abscisic acids and mixtures thereof, etc.
- the medium may comprise one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the medium may comprise a mono-substituted IAA derivative and may further comprise at least one plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the medium may comprise 5-BrIAA and may further comprise at least one plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins. one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the medium may comprise 5-BrIAA and may further comprise at least one compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the medium may comprise 5-BrIAA, 2,4- D, BAP and ABA.
- the medium may comprise 5-BrIAA, zeatin riboside and ABA.
- the invention was exemplified with compositions comprising 5-BrIAA and a cytokinin to affect the growth of plants.
- the callus formation medium may comprise a callus inducing amount of one or more plant growth regulating compounds selected from a group consisting of auxins, cytokinins, giberellins and abscisic acids.
- the callus formation medium comprises one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof and further comprises one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the callus formation medium may comprise one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA. zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the medium may comprise 5-BrIAA.
- the plant sample may be a callus, preferably an embryogenic callus.
- the medium may comprise a regeneration inducing amount of one or more plant hormones selected from a group consisting of auxins, cytokinins, giberellins and abscisic acids.
- the regeneration medium comprises one or more mono-substituted IAA derivatives and/or one or more di- substituted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof, and further comprises one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium may comprise one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof, and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5-BrIAA, zeatin riboside and ABA.
- It is an additional object of the invention to provide a method of affecting plant growth which comprises the step of applying to a plant sample an effective amount of a plant growth-affecting composition comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives, and/or one or more multi-substimted IAA derivatives or mixtures thereof, and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- a plant growth-affecting composition comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives, and/or one or more multi-substimted IAA derivatives or mixtures thereof, and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins
- the composition may comprise one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi- substituted IAA derivatives and mixtures thereof, and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the composition comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the invention was exemplified with compositions comprising 5- BrlAA and a cytokinin to affect the growth of plants.
- the method may further comprise a step of incubating the plant sample in the presence of a plant growth- affecting composition.
- the plant sample may be an entire plant, a plant locus, a plant cell, a plant tissue, a plant seed or a portion of any of these.
- the plant sample is all or a portion of a transgenic plant.
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di-substituted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5-BrIAA, zeatin riboside and ABA.
- the plant tissue sample may be derived from a mature plant tissue. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated as food sources.
- the plant tissue is derived from a mature maize seed.
- the method may further comprise the step of incubating the plant at a reduced temperature before excision of the sample.
- the culturing step is performed in membrane-based liquid culture.
- the callus formation medium may comprise one or more mono-substituted IAA derivatives and/or one or more di-substituted IAA derivatives and/or one or more multi- substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside. kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba. In some embodiments, the callus formation medium comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the method may further comprise the step of transferring the callus to a regeneration medium under conditions causing the regeneration of the callus, the regeneration medium comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi- substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi- substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5- BrlAA, zeatin riboside and ABA.
- the callus formation medium is different from the regeneration medium.
- the plant sample may be derived from a mature plant tissue. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated. In some embodiments, the plant sample may comprise all or a portion of a mature maize seed.
- the method may comprise the additional step of amplifying the callus before transferring the callus to the regeneration medium. In other embodiments, the method may further comprise the step of incubating the plant tissue at a reduced temperature before excision of the sample.
- a reduced temperature may be from about 0°C to about 20°C, preferably from about 0°C to about 10°C, more preferably from about 0°C to about 5°C, and most preferably about 4°C.
- the culturing step is performed in membrane-based liquid culture.
- the method may comprise providing a plant sample, contacting the plant sample with a composition comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substituted IAA derivatives or mixtures thereof, and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc., and culturing the sample under conditions causing the formation of an embryogenic callus.
- a composition comprising one or more mono-substituted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substituted IAA derivatives or mixtures thereof, and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more
- the composition may comprise one or more mono-substimted IAA derivatives and or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the composition comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the composition comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the composition comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the composition may comprise 5-BrIAA.
- the sample may be derived from a mature plant. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated. In some embodiments, the plant sample may be derived from maize.
- the sample may be a seed or a portion of a seed.
- the plant sample may be derived from a maize seed.
- the plant sample may be a seed or a portion of a seed from a maize variety selected from a group consisting of B73, H99 and PA91.
- the method comprises providing a plant sample, incubating the sample at a reduced temperature and culturing the plant sample in the presence of a callus formation medium, the callus formation medium comprising one or more mono-substimted IAA derivatives and/or one
- the callus formation medium may comprise one or more mono-substimted IAA derivatives and/or one or more di- substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the medium may comprise 5-BrIAA.
- a portion of the sample may be excised and cultured after the sample has been incubated at a reduced temperature.
- a reduced temperature may be from about 0°C to about 20°C, preferably from about 0°C to about 10°C, more preferably from about 0°C to about 5°C, and most preferably about 4°C.
- the plant sample may be derived from a mature plant. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated.
- the plant sample may be derived from maize.
- the plant sample may be a seed or a portion of a seed.
- the plant sample may be derived from a maize seed.
- the plant sample may be derived from a maize variety selected from a group consisting of B73, H99 and PA91.
- the incubation step may be performed at 4 °C for from about 1 day to about 10 days. In some embodiments, the incubation step may be performed for 4 days.
- the medium may comprise a regeneration-inducing amount of one or more plant hormones selected from a group consisting of auxins, cytokinins, giberellins and abscisic acids.
- the regeneration medium comprises one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof, and further comprises one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- t he regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5-BrIAA, zeatin riboside and ABA.
- the callus may be derived from a mature plant. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated.
- the callus may be derived from maize.
- the callus may be derived from a seed or a portion of a seed.
- the callus may be derived from a maize seed.
- the callus may be derived from a from a maize variety selected from a group consisting of B73, H99 and PA91.
- the callus formation medium comprising one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures
- the callus formation medium may comprise one or more mono- substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA. zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside. kinetin, 2iP and dicmamba. In some embodiments, the callus formation medium comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the method may further comprise the step of transferring the callus to a regeneration medium under conditions causing the regeneration of the callus, the regeneration medium comprising one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium comprising one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5- BrlAA, zeatin riboside and ABA.
- the callus formation medium is different from the regeneration medium.
- the plant tissue sample may be derived from a mature plant tissue. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated.
- the plant sample may be derived from maize.
- the plant sample may be a seed or a portion of a seed.
- the plant sample may be derived from a maize seed.
- the plant sample may a seed or a portion of a seed from a maize variety selected from a group consisting of B73, H99 and PA91.
- the method may comprise the additional step of amplifying the callus before transferring the callus to the regeneration medium.
- the method may further comprise the step of incubating the plant tissue at a reduced temperature before excision of the sample.
- a reduced temperature may be from about 0°C to about 20°C, preferably from about 0°C to about 10°C, more preferably from about 0°C to about 5°C, and most preferably about 4°C.
- one or more of the steps are performed in membrane-based liquid culture.
- the callus formation medium may comprise one or more mono- substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and may further comprise one or more compounds selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the callus formation medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of 2, 4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the callus formation medium comprises 5-BrIAA, 2,4-D, BAP and ABA.
- the method may further comprise the step of transferring the callus to a regeneration medium under conditions causing the regeneration the callus, the regeneration medium comprising one or more mono- substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium comprising one or more mono- substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives or mixtures thereof and further comprising one or more additional plant growth regulators, for example, one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof, etc.
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di-substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5- BrlAA, zeatin riboside and ABA.
- the callus formation medium is different from the regeneration medium.
- the plant tissue sample may be derived from a mature plant tissue. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated.
- the plant sample may be derived from maize.
- the plant sample may be a seed or a portion of a seed.
- the plant sample may be derived from a maize seed.
- the plant sample may a seed or a portion of a seed from a maize variety selected from a group consisting of B73, H99 and PA91.
- the method may comprise the additional step of amplifying the callus before transferring the callus to the regeneration medium.
- the method may further comprise the step of incubating the plant tissue at a reduced temperature before excision of the sample.
- a reduced temperature may be from about 0°C to about 20°C, preferably from about 0°C to about 10°C, more preferably from about 0°C to about 5°C, and most preferably about 4°C.
- one or more of the steps are performed in membrane-based liquid culture.
- the regeneration medium may comprise one or more mono-substimted IAA derivatives and/or one or more di- substimted IAA derivatives and/or one or more multi-substimted IAA derivatives and mixtures thereof and may further comprise one or more compounds selected from a group consisting of 2,4-D, BAP, ABA, zeatin riboside, kinetin, 2iP and dicmamba.
- the regeneration medium comprises 5-BrIAA and a plant growth regulating compound selected from a group consisting of one or more auxins, one or more cytokinins, one or more gibberellins, one or more abscisic acids and mixtures thereof.
- the regeneration medium comprises 5-BrIAA, zeatin riboside and ABA.
- the plant tissue sample may be derived from a mature plant tissue. Suitable plants include, but are not limited to, maize, wheat, sorghum, sugar beets, potatoes, soy beans, rice and other plants commonly cultivated.
- the plant sample may be derived from maize.
- the plant sample may be a seed or a portion of a seed.
- the plant sample may be derived from a maize seed.
- the plant sample may a seed or a portion of a seed from a maize variety selected from a group consisting of B73, H99 and PA91.
- the method may further comprise the step of incubating the plant tissue at a reduced temperature before excision of the sample.
- a reduced temperature may be from about 0°C to about 20°C, preferably from about 0°C to about 10°C. more preferably from about 0°C to about 5°C, and most preferably about 4°C.
- one or more of the steps are performed in membrane-based liquid culture.
- kits for carrying out the methods of the invention and particularly for use in generating a callus, preferably an embryogenic callus.
- the present invention may provide kits for the transformation and/or regeneration of plant samples.
- kits may include one or more containers, one or more medium formulations, solid supports such as membranes and/or agar.
- Such kits may optionally comprise one or more additional components selected from the group consisting of one or more suitable buffers, one or more cytokinins and one or more auxins.
- Figure 1 is a schematic representation of a maize seed showing the excision of a suitable tissue sample for culture according to the methods of the present invention.
- IAA derivative or 5 -bromoindole-3 -acetic acid or 5-BrIAA as used herein refer not only to the free acid form but also to an amide, an ester or a salt form of the IAA derivative or 5-BrIAA.
- Suitable IAA derivatives are described in United States patent application serial number 08/758,416 entitled Auxinic Analogues of Indole-3-Acetic Acid, filed November 29, 1996, which is specifically incorporated herein by reference. Included in the meaning of IAA derivative or 5-BrIAA are, for example, such salt and ester derivatives as the sodium, potassium, ammonium, dimethylamine, ethanolamine. etc. salts and amides and the lower alkyl esters.
- plant growth regulator or hormone refers to a naturally occurring or synthetic compound that acts as a hormone in affecting plant growth.
- Important growth regulators are exemplified by auxins, cytokinins, abscisic acids and gibberellins.
- auxin refers to a plant growth regulator that affects the growth of plants.
- An auxin is exemplified by a compound such as indole-3 -acetic acid (IAA), indole- 3-butyric acid (IBA), 2, 4-dichlorophenoxy acetic acid (2,4-D), naphthaleneacetic acid (NAA), 5, 6-dichloroindole-3 -acetic acid (5,6-Cl 2 -IAA) and the like.
- cytokinin refers to a plant growth regulator that affects the growth of plants.
- a cytokinin is exemplified by a compound such as 6-benzylamino purine (BAP), N 6 ( ⁇ 2-isopentenyl) adenine (2iP), isopentenylpyrophosphate (ipp), 6-(4-hydroxy-3- methyl-2-transbetenylamino)purine (zeatin), 6-furfurylaminopurine (kinetin) and the like.
- a compound can be tested for auxin activity using a bioassay, e.g., the elongation of coleoptiles of Avena sativa (Bottger, et al, (1978) Planta 140:89) or the root growth inhibition of Chinese cabbage (Marumo, et al., (1974) in Plant Growth Substance, p. 419, Hirokawa Publishing Co., Inc., Tokyo) or the hypocotyl swelling of mung bean (Marumo, et al, (1974) supra).
- a bioassay e.g., the elongation of coleoptiles of Avena sativa (Bottger, et al, (1978) Planta 140:89) or the root growth inhibition of Chinese cabbage (Marumo, et al., (1974) in Plant Growth Substance, p. 419, Hirokawa Publishing Co., Inc., Tokyo) or the hypocotyl swelling of mung bean (Marumo, et al
- Cytokinin activity may be measured in assays designed to evaluate the promotion of growth in plants (e.g., tobacco bioassays, etc.) as is well known in the art (Skoog, et al, (1967) Phytochem 6:1169-1192; Morris, (1986) Ann. Rev. Plant Physiol 37:509-538; Horgan, (1984) in Advanced Plant Physiol. (Wilkins, M. B., ed.) pp. 53-75, Pitman Publishing, London; Letham and Palni, (1983) Ann. Rev. Plant Physiol 34:163-197; and Chen, (1981) in Metabolism and Molecular Activities of Cytokinins (Guern, J.
- cytokinin/auxin concentration ratio causes the enhancement in plant growth to occur preferentially in certain tissues.
- a high cytokinin/auxin ratio promotes growth of shoots
- a low cytokinin to auxin ratio promotes the growth of roots (Depicker, et al, (1983) in Genetic Engineering of Plants, T. Kosunge, C. P. Meredith and A. Hollaender, eds., Plenum Press, New York, p. 154).
- medium or culture medium refers to a composition capable of maintaining viability, supporting growth and/ or regeneration of a plant sample.
- Commonly used media include MS medium, commercially available from Life Technologies, Inc. Rockville, MD and N6 medium, commercially available from Sigma, St. Louis, MO.
- plant sample as used herein refers to a whole plant or a part of a plant. This term is seen to include, but is not limited to, a locus of a plant, a cell of a plant, a tissue of a plant, an explant, seeds of a plant, or portions of a seeds of a plant.
- This term further contemplates a plant in the form of a suspension culture or a tissue culture including, but not limited to, a culture of calli, protoplasts, embryos, organs, organelles, etc.
- the term transformed as it relates to plants, plant samples and/or plant tissues as used herein refers to introduction of a foreign nucleic acid into a plant, plant sample and/or plant tissue.
- the foreign nucleic acid may be DNA, RNA, a mixture of DNA and RNA or a hybrid in which one or more molecules contain both ribo- and deoxyribo-nucleotides.
- transgenic plant or transgenic plant tissue refers to a plant or plant tissue stably transformed with a foreign nucleic acid molecule introduced into the individual plant cells.
- transient expression refers to the synthesis of an RNA from a DNA molecule.
- Transient expression is expression that occurs for only a finite period of time. In general, transient expression will be used to refer to the expression that occurs from a DNA molecule that has been introduced into a host cell immediately after introduction of the DNA.
- genetic engineering refers to the introduction of foreign, often chimeric, genes into one or more plant cells which can be regenerated into whole, viable plants. In some cases the plants thus produced can be self-pollinated or cross-pollinated with other plants of the same species so that the foreign gene, carried in the germ line, can be inserted into or bred into agriculturally useful plant varieties.
- regeneration refers to the production of at least one newly developed or regenerated plant tissue, e.g., root, shoot, callus, etc., from a cultured plant sample or unit, e.g., leaf disc, seed, etc.
- percent regeneration, % regeneration or regeneration efficiency refer to the number of tissue cultured plant units producing at least one newly developed or regenerated tissue as a percentage of the total number of tissue cultured plant units, e.g., (# of plant units having newly developed tissue/total # of plant units) X 100.
- affecting plant growth or growth affecting or affector or affect refer to any one of a number of plant responses which improve or change, relative to what is observed in the absence of the growth regulator, some characteristic of overall plant growth including, but not limited to, stimulation of seed germination, inducing rooting, suppressing shooting, promoting cell proliferation, stimulating callus growth, etc.
- the term effective amount as used herein refers to the amount or concentration of a compound that is a plant growth regulator or hormone administered to a plant such that the compound stimulates or invokes one or more of a variety of plant growth responses.
- a plant growth response includes, but is not limited to, the induction of stem elongation, the promotion of root formation, the stimulation of callus formation, enhancement of leaf growth, stimulation of seed germination, increase in the dry weight content of a number of plants and plant parts, and the like.
- membrane-based liquid culture as used herein refers to a method of culturing plant samples in which a sample is placed on top of a membrane that is supported by a float on the top of a liquid media.
- the technique can be performed with reagents and equipment that are commercially available from Life Technologies, Inc. Rockville MD.
- the present invention relates to the discovery that IAA derivatives, and especially 5- BrlAA, have utility as plant growth affecting compounds.
- 5-BrIAA was found to be superior to IAA in functioning as an auxin in both monocots and dicots.
- the present invention contemplates novel compositions for affecting plant growth comprising at least one IAA derivative.
- the novel compositions of the present invention will comprise 5-BrIAA.
- the growth effect of the novel compositions of the present invention is the stimulation of the production of an embryogenic callus from a plant tissue.
- 5-BrIAA was between two and four times more effective than IAA in stimulating the regeneration of green calli from Arabidopsis thaliana.
- the effect of 5-BrIAA is all the more remarkable in light of the prior art teaching for Arabidopsis tissue culture responses that "callus induction and regeneration frequencies are high for root, lower for anther and stem and lowest for leaf explants.”
- 5- BrlAA gave an efficiency of 100% for regeneration from Arabidopsis thaliana leaves (see United States patent no. 5, 674,731).
- the growth effect of the novel compositions of the present invention may be the stimulation of regeneration of a plant sample.
- the compositions of the present invention are unexpectedly superior to prior art compositions for the regeneration of a plant sample. Superiority of 5-BrIAA was also observed in monocot regeneration. Prior art methods used to obtain tissue regeneration from monocotyledonous plants, for example, rice, require approximately three months and incubation of immature seeds in two or more different culture media.
- 5-BrIAA as auxin
- regeneration of shoots from rice embryonic callus derived from mature seeds was obtained in about one and a half months, requiring only one incubation medium comprising 5-BrIAA and a cytokinin (e.g., BAP) and yielding a regeneration efficiency of 100%.
- 5-BrIAA functioned as an auxin to stimulate growth at least as well as. and in many cases better than, IAA, the auxin standard of the art.
- compositions of the present invention may comprise one or more indole-3 -acetic acid (IAA) derivatives optionally in a mixture with one or more additional plant growth regulators, for example, an auxin, a cytokinin, a gibberellin, an abscisic acid etc.
- additional plant growth regulators for example, an auxin, a cytokinin, a gibberellin, an abscisic acid etc.
- 5-BrIAA, or a mixture of 5-BrIAA and one or more additional plant growth regulators, such as an auxin, an abscisic acid, a cytokinin, a gibberellin or the like may be mixed with a carrier or auxiliary nutrients.
- BAP, 2iP and kinetin has been exemplified in particular embodiments of this invention.
- cytokinins or other plant growth regulators known to the art can be utilized with 5-BrIAA to make a growth affecting composition of the invention. It is also contemplated that more than one cytokinin or a different plant growth regulator (e.g., gibberellin, etc.) can be mixed with 5-BrIAA to make a growth enhancing composition of the invention. Also, the choice of plant growth regulator can be varied at different stages of the incubation or application cycles characterizing the growth of a particular plant. Plant growth regulators are known to the art and include, but are not limited to, BAP, 2iP, ipp, zeatin, kinetin, gibberellin, and the like, as described in Skoog, et al.
- the practice of the present invention contemplates a wide variety of plant growth responses including, but not limited to, stimulation of seed germination and breaking of dormancy; increasing yields; hastening ripening and color production in fruit; increasing flowering and fruiting; stimulating shoot formation; inducing callus development; inducing rooting and causing cell proliferation; increasing the hardiness of various plant species; and increasing the dry weight content of a number of plants and plant parts.
- any other modification of a plant, seed, fruit or vegetable, so long as the net result is to affect the growth or maximize any beneficial or desired property of the agricultural and horticultural crop or seed, is intended to be included within the scope of advantageous responses achieved by the practice of the present invention.
- Suitable applications of the growth enhancing compositions of the present invention to cultures of plant tissues were shown to induce the regeneration of shoots, roots or calli. This effect was exemplified in both monocotyledonous and dicotyledonous plant species and is applicable to a wide variety of plants.
- compositions of the instant invention were further utilized for plant regeneration from transgenic plants.
- Genetic engineering of plants generally involves two complementary processes.
- the first process involves the genetic transformation of one or more plant cells of a specifically characterized type.
- transformation it is meant that a foreign gene, typically a chimeric gene construct, is introduced into the genome of the individual plant cells, typically through the aid of a vector which has the ability to transfer the gene of interest into the genome of the plant cells in culture.
- the second process then involves the regeneration of the transformed plant cells into whole sexually competent plants. Neither the transformation nor regeneration process need be 100% successful but must have a reasonable degree of reliability and reproducibility so that a reasonable percentage of the cells can be transformed and regenerated into whole plants.
- the two processes, transformation and regeneration, must be complementary.
- the complementarity of the two processes must be such that the tissues that are successfully genetically transformed by the transformation process must be of a type and character, and must be in sufficient health, competency and vitality, so that they can be successfully regenerated into whole plants.
- the most common methodology used for the transformation of cells of dicot plant species involves the use of the plant pathogen Agrobacterium tumefaciens.
- Agrobacterium-mediated transformation has been achieved in some monocots, other methods of gene transfer have been more effective, e.g., the polyethylene glycol method, electroporation, direct injection, particle bombardment, etc., as described by Wu in Plant Biotechnology (1989) pp. 35-51, Butterworth Publishers, Stoneham, Mass.
- the present invention will be useful with any method of transformation that includes plant regeneration steps.
- the invention envisions the genetic transformation of plant tissues in culture.
- the tissues may be derived from leaf discs or hypocotyl explants.
- the transformed tissues can be induced to form plant tissue structures, which can be regenerated into whole plants.
- the invention contemplates the transformation of tissues in culture derived from a mature seed.
- the transformed tissue may be regenerated into whole plants.
- the tissue may be derived from mature maize seed.
- the transformation technique of the present invention may be one that makes use of the Ti plasmid of A. tumefaciens. In using an A.
- the chimeric construct including a foreign gene of interest may contain a promoter which is effective in plant cells to cause transcription of the gene of interest and a polyadenylation sequence or transcription control sequence also recognized in plant cells.
- Promoters known to be effective in plant cells include the nopaline synthase promoter, isolated from the T-DNA of Agrobacterium, and the cauliflower mosaic virus 35S promoter. Other suitable promoters are known in the art.
- the vector that harbors the foreign gene of interest also contain therein one or more selectable marker genes so that the transformed cells can be selected from nontransformed cells in culture.
- preferred marker genes include antibiotic resistance genes and/or herbicide resistance genes so that the appropriate antibiotic and/or herbicide can be used to segregate and select for transformed cells from among cells which are not transformed.
- the details of the construction of the vectors containing such foreign genes of interest are known to those skilled in the art of plant genetic engineering and do not differ in kind from those practices which have previously been demonstrated to be effective in tobacco, petunia and other model plant species.
- the foreign gene should obviously be selected as a marker gene (Jefferson, et al. (1987) EMBO J. 6:3901-3907) or to accomplish some desirable effect in plant cells. This effect may be growth promotion, disease resistance, a change in plant morphology or plant product quality, or any other change that can be accomplished by genetic manipulation.
- the chimeric gene construction can code for the expression of one or more exogenous proteins, or can cause the transcription of negative strand RNAs to control or inhibit either a disease process or an undesirable endogenous plant function.
- tissues are seeds
- the seeds may be allowed to germinate on an appropriate germinating medium containing a fungicide.
- the hypocotyl portion of the immature plant is removed and sectioned into small segments averaging approximately 0.5 centimeters apiece. The hypocotyl explants are allowed to stabilize and remain viable in a liquid or agar plant tissue culture medium.
- the tissues can promptly be inoculated with a suspension culture of transformation competent non-oncogenic Agrobacterium.
- the inoculation process is allowed to proceed for a short period, e.g., two days, at room temperature, i.e., 24°C.
- the remaining treated tissues can be transferred to a selective agar medium, which contains one or more antibiotics toxic to Agrobacterium but not to plant tissues, at a concentration sufficient to kill any Agrobacterium remaining in the culture.
- Suitable antibiotics for use in such a medium include, but are not limited to, carbenicillin, cefotaxime, etc. as the bacteriocide for Agrobacterium and kanamycin, hygromycin, PPT etc. as the selective antibiotic for transformed plant tissues.
- the tissues are now cultivated on a tissue culture medium which, in addition to its normal components, contains a selection agent.
- the selection agent exemplified herein by kanamycin, is toxic to nontransformed cells but not to transformed cells which have incorporated genetic resistance to the selection agent and are expressing that resistance.
- a suitable tissue culture medium is the MS medium to which is added the phytohormones 5- BrlAA and a cytokinin, with or without antibiotics.
- the surviving transformed tissues may be transferred to a secondary medium to induce tissue regeneration. The surviving transformed tissue will thus continue to be regenerated into a whole plant through the regeneration technique of the present invention or through any other alternative plant regeneration protocols.
- the methods of the present invention include methods for the production of a callus, preferably an embryogenic callus, from a plant sample. It has been unexpectedly found that the efficiency of the production of calli from plant samples can be increased by subjecting the samples to incubation at a reduced temperature. By reduced temperature it is meant that the temperature of the incubation will be lower than room temperature.
- the samples may be incubated at a temperature of from about 0 °C to about 15°C, preferably from about 0° C to about 10 °C, and more preferably from about 0 °C to about 5 °C.
- the plant sample may be frozen.
- the incubation at a reduced temperature may be performed for a period of time sufficient to stimulate the production of calli from plant samples.
- the incubation may be performed from about 1 hour to about 10 days, preferably from about 1 day to about 7 days, and more preferably for about 4 days.
- the incubation may be performed while the sample is exposed to the ambient atmosphere.
- the sample may be incubated in a refrigerator.
- the incubation may be performed while the sample is exposed to a liquid.
- the sample may be incubated at a reduced temperature while soaking in water.
- the sample may be incubated at a reduced temperature while soaking in a solution of salts and/or buffers.
- the samples may be soaked in a solution comprising plant growth-affecting compounds.
- the sample may be incubated at a reduced temperature in a solution comprising one or more of the IAA derivatives of the present invention, for example, 5-BrIAA.
- the precise amount of growth affecting compositions employed in the practice of the present invention will depend upon the type of response desired, the formulation used and the type of plant treated.
- the invention contemplates the use of a ratio of cytokinin concentration to auxin concentration of between approximately 50.0 and 0.001, and preferably between approximately 5.0 and 0.05, and more preferably between approximately 2.0 and 0.25.
- concentrations of the growth affecting compounds will typically be within the range of from about 1 ⁇ g/mL to about 100 mg/mL, preferably from about 500 ⁇ g/mL to about 10 mg/mL, and more preferably from about 1 mg/mL to about 5 mg/mL.
- the chemical compounds employed as active components of the growth enhancing compositions of the present invention may be prepared in accordance with processes well known in the prior art or may be obtained commercially from readily available sources.
- the present compositions may be applied at any developmental stage of the plant species to obtain plant hormone or maintenance effects throughout maturity and to expedite regrowth in damaged tissues during early developmental stages, depending upon the concentration used, the formulation employed and the type of plant species treated.
- the compositions of the present invention are preferably used in conjunction with specific auxiliary nutrients or other plant growth regulators in precise proportions to achieve a particular synergistic, growth enhancing response in various types of plants.
- the present compositions may additionally be used in association with fungicides to increase the disease resistance of various plants, making the plant tissue resistant to invasion by pathogens by influencing the enzyme and plant processes that regulate natural disease immunity. While the present compositions possess essentially no phytotoxic activity of their own, they may sometimes be used in conjunction with herbicides to stimulate the growth of unwanted plants in order to make such plants more susceptible to a herbicide. However, it is preferred to regard the results achieved in the practice of the present invention as growth enhancing responses in agricultural and horticultural crops, as well as perennial and annual household plants species.
- MS salt based medium GIBCO BRL Murashige and Skoog (MS) Complete Medium-50X Concentrate (Cat. # 10494-011) was used. 20 ml of each of the components Salt I, Salt II and Acid Soluble was mixed with 940 ml of sterilized water for membrane based liquid growth format. When the culturing was done in a semi-solid format, either 0.8% agar or 0.25% Gelrite (Sigma. Cat. # G1910) was included in the mixmre. For N6 salt + B5 vitamin, CHU (N6) basal salt mixture (Sigma, Cat. # C1416) was mixed with 1 ml of Gamborg's vitamin solution (Sigma, Cat# G1019) in a final volume of 1 liter of medium preparation.
- CHU N6 basal salt mixture
- Gamborg's vitamin solution Sigma, Cat# G1019
- the base media were supplemented with one of the plant growth regulator mixtures.
- the regulators added to the media and their final concentration in the media are shown in Table 1.
- EXAMPLE 2 Preparation of a plant tissue sample for culture.
- Seeds of sweet corn were obtained from USDA, Iowa. The accession of numbers are Ames 19325 for PA 91; Ames 15931 for H99 and PI 550473 for V924-6.
- the maize seeds were sterilized by first placing them in sterile water while gently stirring for 30 minutes. The seeds were then immersed in 95% alcohol for 1 min. The alcohol solution was removed and the seeds were placed into a side-arm-flask. A solution of 15% commercial bleach plus 0. 1% Tween® 20 (polyoxyethylene (20) sorbitan monolaurate) was prepared and added to the flask. A vacuum was applied to the seeds for 20 minutes while shaking. The vacuum was removed and shaking continued for an additional 25 minutes.
- Tween® 20 polyoxyethylene (20) sorbitan monolaurate
- the seeds were rinsed three times with sterile water in a clean hood.
- the seeds may be soaked for another 5 days in sterile water at room temperature.
- the seed may be soaked one day at room temperature and then incubated 4 days at 4°C in sterile water.
- the embryos can be dissected from seeds under a dissecting microscope.
- the embryos may be cut into three sections (apical, middle and root) where the middle section has part of the apical and root sections as shown in Figure 1.
- the middle sections of a mature embryo derived from a seed may ' be placed onto the MS medium, which contains different growth regulator mixtures for stimulation of embryogenic callus formation.
- the middle section must be positioned with the root area touching the medium or on the side but never upside down. The sections are then incubated at 25°C in the dark for six to eight weeks.
- PA91 mature seeds (20-30 seeds) were surface sterilized, dissected and transfened onto different medium with plant growth regulator mixtures SECF-3 as described.
- the membrane-based liquid culture was performed as follows: PA91 mamre seeds (20-30 seeds) were surface sterilized, dissected and cultured on LifeRaft membranes in membrane-based liquid culture as described by Lin, et al., (FOCUS 17, 95, 1995). The results shown in Table 4 were obtained after incubation of the tissues in the dark at room temperature for two months. Table 4
- the effect of temperature on embryogenic callus formation was investigated. After surface sterilization of maize seeds, PA91, as described above, the seeds were soaked in sterilized water for 5 days at room temperature. The embryogenic callus forming ability of these seeds was compared to seeds that had been soaked in sterile water for 4 days at 4°C followed by one day at room temperamre before dissection of embryos. The dissected embryos were transfened on to the N6 salts + B5 vitamin medium supplemented with the SECF-1 mixmre and incubated in the dark at room temperamre for two months. The results are presented in Table 5.
- the callus may be transfened onto MS salt or N6 salt based medium with 2 mg 2,4-D for amplification of callus.
- the callus may be incubated in the dark at 25 °C for 1 month.
- EXAMPLE 4 Regeneration of shoots from embryogenic calli.
- Embryogenic calli prepared as described above may be transfened to a new shoot regeneration medium with different plant growth regulator mixtures.
- the embryogenic calli may be incubated in a cycle of 16 h light and 8 h dark at 25 °C for 2-3 weeks for shoot regeneration.
- the regenerated shoots may be transfened onto the MS medium free of plant growth regulator mixtures for further plant development.
- the effects of different plant growth regulator mixtures on the regeneration of shoots from embryogenic calli was investigated.
- Embryogenic calli prepared as described above were incubated in the presence of the shoot regeneration medium indicated, and the results are presented in Table 6.
Abstract
Description
Claims
Priority Applications (3)
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JP2001566343A JP2004505887A (en) | 2000-03-10 | 2001-03-12 | Materials and methods for plant regeneration from cultured plant tissue |
EP01918614A EP1265484A4 (en) | 2000-03-10 | 2001-03-12 | Materials and methods for the regeneration of plants from cultured plant tissue |
AU2001245670A AU2001245670A1 (en) | 2000-03-10 | 2001-03-12 | Materials and methods for the regeneration of plants from cultured plant tissue |
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US18826800P | 2000-03-10 | 2000-03-10 | |
US60/188,268 | 2000-03-10 |
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JP (1) | JP2004505887A (en) |
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Cited By (2)
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WO2010011175A1 (en) * | 2008-07-23 | 2010-01-28 | Temasek Life Sciences Laboratory Limited | Method of high frequency regeneration of sorghum |
WO2021168207A1 (en) * | 2020-02-20 | 2021-08-26 | Valent Biosciences Llc | Methods of improving stress tolerance, growth and yield in plants |
Citations (1)
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US4806483A (en) * | 1986-08-18 | 1989-02-21 | Sungene Technologies Corporation | Process for regenerating corn |
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US5445961A (en) * | 1990-06-26 | 1995-08-29 | Dekalb Genetics Corporation | Isolated microscope and anther culture of maize |
US5674731A (en) * | 1995-04-27 | 1997-10-07 | Life Technologies, Inc. | Regeneration of both plant tissues and transgenic plant tissues using a new plant hormone, 5-bromoindole-3-acetic acid |
AU1276497A (en) * | 1995-11-30 | 1997-06-19 | Life Technologies, Inc. | Auxinic analogues of indole-3-acetic acid |
-
2001
- 2001-03-12 JP JP2001566343A patent/JP2004505887A/en active Pending
- 2001-03-12 EP EP01918614A patent/EP1265484A4/en not_active Withdrawn
- 2001-03-12 WO PCT/US2001/007985 patent/WO2001067861A1/en not_active Application Discontinuation
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US4806483A (en) * | 1986-08-18 | 1989-02-21 | Sungene Technologies Corporation | Process for regenerating corn |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2010011175A1 (en) * | 2008-07-23 | 2010-01-28 | Temasek Life Sciences Laboratory Limited | Method of high frequency regeneration of sorghum |
US8431402B2 (en) | 2008-07-23 | 2013-04-30 | Temasek Life Sciences Laboratory Limited | Method of high frequency regeneration of Sorghum |
AU2008359743B2 (en) * | 2008-07-23 | 2014-08-07 | Temasek Life Sciences Laboratory Limited | Method of high frequency regeneration of sorghum |
WO2021168207A1 (en) * | 2020-02-20 | 2021-08-26 | Valent Biosciences Llc | Methods of improving stress tolerance, growth and yield in plants |
US11812745B2 (en) | 2020-02-20 | 2023-11-14 | Valent Biosciences Llc | Method of improving stress tolerance, growth and yield in plants |
EP4106523A4 (en) * | 2020-02-20 | 2024-03-20 | Valent Biosciences Llc | Methods of improving stress tolerance, growth and yield in plants |
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JP2004505887A (en) | 2004-02-26 |
AU2001245670A1 (en) | 2001-09-24 |
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