1
Paul C Anderson, Kenneth A Hibberd: Herbicide resistance in plants. Molecular Genetics, Pennie & Edmonds, August 2, 1988: US04761373 (204 worldwide citation)

This invention is directed to the production of plants, plant tissues and plant seeds which are resistant to inhibition by an herbicide which normally inhibits the growth and development of those plants, plant tissues and plant seeds. In particular this invention is directed to altered acetohydroxya ...


2
Richard A Krzyzek, Cheryl R M Laursen, Paul C Anderson: Genetic transformation of maize cells by electroporation of cells pretreated with pectin degrading enzymes. DeKalb Genetics Corporation, Warren D Woessner, January 24, 1995: US05384253 (202 worldwide citation)

The present invention provides a method to increase the susceptibility of cultured Zea mays cells to stable transformation with recombinant DNA via electroporation, by pretreating the Zea mays cells with certain pectin-degrading enzymes, so that the cells retain their ability to regenerate fertile, ...


3
Kenneth A Hibberd, Paul C Anderson, Melanie Barker: Tryptophan overproducer mutants of cereal crops. Molecular Genetics Research and Development, Pennie & Edmonds, April 15, 1986: US04581847 (168 worldwide citation)

This invention is directed to the production of novel plant genotypes or lines which produce increased free tryptophan levels and are resistant to inhibition by analogs which normally inhibit the activity of the enzyme anthranilate synthase before alteration. This invention further relates to genes ...


4
Kenneth A Hibberd, Paul C Anderson, Melanie Barker: Tryptophan overproducer mutants of cereal crops. Molecular Genetics Research and Development Partnership, Pennie & Edmonds, February 10, 1987: US04642411 (138 worldwide citation)

This invention is direction to the production of novel plant genotypes or lines which produce increased free tryptophan levels and are resistant to inhibition by analogs which normally inhibit the activity of the enzyme anthranilate synthase before alteration. This invention further relates to genes ...


5
Paul C Anderson, Kenneth A Hibberd: Herbicide resistance in plants. MGI Pharma, Pennie & Edmonds, April 19, 1994: US05304732 (107 worldwide citation)

This invention is directed to the production of plants, plant tissues and seeds which are resistant to inhibition by an herbicide which normally inhibits the growth and development of those plants, plant tissues and plant seeds. In particular this invention is directed to altered acetohydroxyacid sy ...


6
Paul C Anderson, Kenneth A Hibberd: Herbicide resistance in plants. MGI Pharma, Pennie & Edmonds, July 19, 1994: US05331107 (104 worldwide citation)

This invention is directed to the production of plants, plant tissues and plant seeds which are resistant to inhibition by an herbicide which normally inhibits the growth and development of those plants, plant tissues and plant seeds. In particular this invention is directed to altered acetohydroxya ...


7
Richard A Krzyzek, Cheryl R M Laursen, Paul C Anderson: Stable transformation of maize cells by electroporation. DeKalb Genetics Corporation, Schwegman Lundberg & Woessner, December 5, 1995: US05472869 (72 worldwide citation)

The present invention provides a method to increase the susceptibility of cultured Zea mays cells to stable transformation with recombinant DNA via electroporation, by pretreating the Zea mays cells with certain pectin-degrading enzymes, so that the cells retain their ability to regenerate fertile, ...


8
Paul C Anderson, Paul S Chomet, Matthew C Griffor, Alan L Kriz: Anthranilate synthase gene and method of use thereof for conferring tryptophan overproduction. DeKalb Genetic Corporation, Schwegman Lundberg Woessner and Kluth P A, September 12, 2000: US06118047 (58 worldwide citation)

The present invention provides a method for conferring tolerance to an amino acid analog of tryptophan to a plant and/or altering the tryptophan content of a plant by introducing and expressing an isolated DNA segment encoding an anthranilate synthase in the cells of the plant. Transgenic plants tra ...


9
Paul C Anderson, Christopher E Flick, William J Gordon Kamm, Albert P Kausch, Catherine J Mackey, Emil M Orozco, Peter Orr, Michael A Stephens, David A Walters, Donald S Walters: Methods and compositions for the production of stably transformed, fertile monocot plants and cells thereof. Dekalb Genetics, Schwegman Lundberg Woessner & Kluth P A, June 4, 2002: US06399861 (52 worldwide citation)

This invention relates to a reproducible system for the production of stable, genetically transformed maize cells, and to methods of selecting cells that have been transformed. One method of selection disclosed employs the Streptomyces bar gene introduced by microprojectile bombardment into embryoge ...


10
George Singletary, Paul C Anderson, Sean J Coughlan: Methods of producing high-oil seed by modification of starch levels. Pioneer Hi Bred International, Pioneer Hi Bred International, May 15, 2001: US06232529 (41 worldwide citation)

The present invention provides methods of obtaining a greater than normal concentration of oil in the seed of a plant, the method comprising altering the carbon metabolism in the seed leading to an alteration in the partitioning of assimilates from starch biosynthesis to enhance the biosynthesis and ...



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