Abstract: The present invention relates to methods and compositions for modifying a target site in the genome of a plant cell. Such modifications include integration of a transgene and mutations. The present invention also relates to methods and compositions for identifying and enriching for cells which comprise a modified target site.

Abstract: The present invention relates to methods and compositions for modifying a target site in the genome of a plant cell. Such modifications include integration of a transgene and mutations. The present invention also relates to methods and compositions for identifying and enriching for cells which comprise a modified target site.

Abstract: The invention provides methods and compositions for detecting and/or quantifying vector backbone in a nucleic acid preparation comprising a polynucleotide of interest using amplification assays that amplify a junction located between the polynucleotide of interest and the vector backbone, under conditions whereby amplification can occur, wherein the junction comprises a recognition site for a nuclease, and detecting the absence of an amplification product, whereby the absence of the amplification product indicates low or no vector backbone and/or quantifying the amount of amplification product to determine the amount of vector backbone in the nucleic acid preparation.

Abstract: The present invention relates to methods and compositions for modifying a target site in the genome of a plant cell. Such modifications include integration of a transgene and mutations. The present invention also relates to methods and compositions for identifying and enriching for cells which comprise a modified target site.

Abstract: The invention includes transformation selection medias and methods, including transformation selection media comprising a negative selection agent and containing differing amounts of carbohydrate during incubation of transformed cells during the selection process, including providing an amount of carbohydrate in a transformation selection media and culturing transformed cells therein for a period of time in an incubation step followed by transferring the transformed cells into transformation selection media comprising a negative selection agent and having an amount of carbohydrate that differs from the amount of carbohydrate used in the previous transformation selection media and incubating the cells for another period of time in a second incubation step.

Abstract: Methods for the transformation of sugar cane are provided. The methods comprise utilizing sugar cane immature shoots as the source of plant material for transformation. Segments of the immature shoot are excised and transformed by any suitable transformation methodology. In some embodiments, the segments are cultured in embryogenic culture induction medium prior to transformation. Transformation can be performed via Agrobacterium-mediated gene delivery, biolistic transformation, and the like. Transgenic plants are regenerated from plantlets grown under conditions favoring growth of transformed cells while substantially inhibiting growth of non-transformed cells.

Abstract: The invention provides methods and compositions for detecting and/or quantifying vector backbone in a nucleic acid preparation comprising a polynucleotide of interest using amplification assays that amplify a junction located between the polynucleotide of interest and the vector backbone, under conditions whereby amplification can occur, wherein the junction comprises a recognition site for a nuclease, and detecting the absence of an amplification product, whereby the absence of the amplification product indicates low or no vector backbone and/or quantifying the amount of amplification product to determine the amount of vector backbone in the nucleic acid preparation.

Abstract: A method for introducing a nucleic acid sequence into the genome of a plant cell and regenerating a transformed plant therefrom, including culturing the plant cell on at least one plant transformation media, the at least one plant transformation media comprising an effective amount of a compound or compounds which may modulate oxidative burst, such as melatonin, 6-hydroxy melatonin (a melatonin analog), N-t-butyl hydroxylamine (NtBH), thiamazole, 1,3 dimethylthiourea, Resveratrol, epicatechin, NADPH, or NADH.

Abstract: Methods for the transformation of sugar cane are provided. The methods comprise utilizing sugar cane immature shoots as the source of plant material for transformation. Segments of the immature shoot are excised and transformed by any suitable transformation methodology. In some embodiments, the segments are cultured in embryogenic culture induction medium prior to transformation. Transformation can be performed via Agrobacterium-mediated gene delivery, biolistic transformation, and the like. Transgenic plants are regenerated from plantlets grown under conditions favoring growth of transformed cells while substantially inhibiting growth of non-transformed cells.

Abstract: A method for introducing a nucleic acid sequence into the genome of a plant cell and regenerating a transformed plant therefrom, including culturing the plant cell on at least one plant transformation media, the at least one plant transformation media comprising an effective amount of a compound or compounds which may modulate oxidative burst, such as melatonin, 6-hydroxy melatonin (a melatonin analog), N-t-butyl hydroxylamine (NtBH), thiamazole, 1,3 dimethylthiourea, Resveratrol, epicatechin, NADPH, or NADH.

Abstract: The present disclosure provides methods for the transformation of soybean cells or tissue and regeneration of the soybean cells or tissue into transformed plants. The disclosed methods utilize an explant prepared from an immature soybean inflorescence, shoot apex, leaf axillary, shoot axillary, or combination thereof which can be induced directly to form shoots that give rise to transgenic plants via organogenesis.

Abstract: Multiple shoot structures are induced from plant tissues (e.g., shoot apices or axillary buds on an artificial medium) to produce multiple shoot cultures. These multi-shoot cultures are then transformed by known transformation methods. Plants are subsequently regenerated from the transformed cells. Crops that may be efficiently transformed by this method include plants normally recalcitrant to transformation such as sugar beet, sunflower, soybean, cotton, tobacco, tomato, peanuts, melons, watermelon, squash, Brassica, and pepper.

Abstract: Multiple shoot structures are induced from plant tissues (e.g., shoot apices or axillary buds on an artificial medium) to produce multiple shoot cultures. These multi-shoot cultures are then transformed by known transformation methods. Plants are subsequently regenerated from the transformed cells. Crops that may be efficiently transformed by this method include plants normally recalcitrant to transformation such as sugar beet, sunflower, soybean, cotton, tobacco, tomato, peanuts, melons, watermelon, squash, Brassica, and pepper.

Abstract: A method for isolating a cereal plant with foreign DNA by bombarding meristem primordia tissue with particles coated with the foreign DNA in a culture media is described. The foreign DNA in the transformed plants can provide proteins which impart disease and/or insect resistance or other desirable properties.

Abstract: A method for asexual in vitro propagation of corn plants is described. The plant tissue (shoot tips or apices) are differentiated with 2,4-dichlorophenoxy acetic acid (2,4-D) and N.sup.6 -benzyladenine (BA) and mixtures thereof and then the differentiated tissue is grown in indole-3-butyric acid (IBA) to produce the corn plant which is fertile.

Abstract: A method for in vitro sexual reproduction in corn plants is described. The method involves differentiation of shoot tips with N.sup.6 -benzyladenine (BA) into ears and then ovaries and pollinating the ovaries to produce kernels. The kernels are then germinated to produce the plant. The method is particularly useful for maintaining lives of corn and for genetic manipulation by using different pollens.