Binary methods of increasing accumulation of essential amino aci

Multicellular living organisms and unmodified parts thereof and – Plant – seedling – plant seed – or plant part – per se – Higher plant – seedling – plant seed – or plant part

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800278, 800282, 800284, 800287, 8003173, 800322, 536 231, 536 236, 435414, 435415, 435426, 435428, A01H 500, A01H 510, C12N 1529, C12N 504

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060809132

ABSTRACT:
The present invention provides methods for genetically modifying plants to increase the levels of essential amino acids in seed. The present methods involve a combination of:

REFERENCES:
patent: 5258300 (1993-11-01), Glassman et al.
patent: 5487991 (1996-01-01), Vandekerckhove et al.
patent: 5633436 (1997-05-01), Wandelt
Staswick, Paul E., "Preferential Loss of an Abundant Storage Protein from Soybean Pods during Seed Development", Plant Physiology, vol. 90, pp. 1252-1255, 1989.
Leopold et al (Eds]. Flowering . in `Plant Growth and Dvelopment`, pp. 318-321, McGraw-Hill Inc., New-York, 1975.
Burow, et al. "Suppression of Phaseolin and Lectin in Seeds of Common Bean, Phaseolus vulgaris L.: Increased Accumulation of 54 kDa Polypeptides is not Associated with Higher Seed Methionine Concentrations"; Mol. Gen. Genet.; vol. 241; pp. 431-439; (1993).
Karchi, et al. "Seed-specific Expression of a Bacterial Desensitized Aspartate Kinase Increases the Production of Seed Threonine and Methionine in Transgenic Tobacco"; The Plant Journal; vol. 3(5); pp. 721-727; (1993).
Thompson, et al. "Structural Elements Regulating Zein Gene Expression"; BioEssays; vol. 10(4); pp. 108-113; (1989).
Bray, et al. "Expression of the .beta.-subunit of .beta.-conglycinin in Seeds of Transgenic Plants"; Planta; vol. 172; pp. 364-370; (1987).
Pedersen, et al. "Cloning and Sequence Analysis Reveal Structural Variation Among Related Zein Genes in Maize"; Cell; vol. 29; pp. 1015-1026; (1982).
Kirihara, et al. "Differential Expression of a Gene for a Methionine-rich Storage Protein in Maize"; Mol. Gen. Genet.; vol. 211; pp. 477-484; (1988).
Coulter, et al. "Chracterization of a Small Sulphur-Rich Storage Albumin in Seeds of Alfalfa (Medicago sativa L.)"; J. Experimental Botany; vol. 41 (233); pp. 1541-1547; (1990).
Altenbach, et al. "Cloning and Sequence Analysis of a cDNA encoding a Brazil Nut Protein Exceptionally Rich in Methionine"; Plant Molecular Biology; vol. 8; pp. 239-250; (1987).
Lilley, et al. "Isolation and Primary Structure for a Novel, Methionine-rich Protein from Sunflowerseeds (Helianthus annus. L.)" Proceedings of the World Congress on Vegetable Protein Utilization in Human Foods and Animal Feedstuffs:; pp., 497-502; (1989).
Kortt, et al. "Low Molecular Weight Albumins from Sunflower Seed: Identification of a Methionine-rich Albumin"; Phytochemistry; vol. 29(9); 2805-2810; (1990).
Masumura, et al. "cDNA Cloning of an mRNA Encoding a Sulfur-rich 10 kDa Prolamin Polypeptide in Rice Seeds"; Plant Molecular Biology; vol. 12, pp. 123-130; (1989).
Shewry et al. "Seed Storage Proteins: Structures and Biosynthesis"; The Plant Cell; vol. 7; pp. 945-956; (1995).
Phillips, et al., "Induction and Development of Somatic Embryos from Cell Suspension Cultures of Soybean"; Plant Cell Tissue Organ Culture; vol. 1; pp. 123-129; (1981).
Paterson, et al., "Regeneration of Helianthus annuus Inbred Plants from Callus"; Plant Sci.; vol. 42; pp. 125-132; (1985).
Wright, et al., "Regeneration of Soybean (Glycine max L. Merr.) from Cultured Primary Leaf Tissue"; Plant Cell Reports; vol. 6; pp. 83-89; (1987).
Barwale, et al., "Plant Regeneration from Callus Cultures of Several Soybean Genotypes via Embryogenesis and Organogenesis"; Planta; vol. 167; pp. 473-481; (1986).
Florack, et al., "Expression of Biologically Active Hordothionins in Tobacco. Effects of Pre- and Pro-sequences at the Amino and Carboxyl Termini of the Hordothionin Precursor on Mature Protein Expression and Sorting"; Plant Mol. Biol.; vol. 24; pp. 83-96; (1994).
Rhee, et al., "Nucleotide Sequence of a Soybean Vegetative Storage Protein vspA Gene"; Plant Physiol.; vol. 98; pp. 792-793; (1992).
Kollipara, et al., "Characterization of Trypsin and Chymotrypsin Inhibitors in the Wild Perennial Glycine Species"; J. Agric. Food Chem.; vol. 40; pp. 2356-2363; (1992).
Geiger, Reinhard; "Chymotrypsin"; Methods of Enzymatic Analysis; pp. 99-109; (1984).
Sengupta-Gopalan, et al., "Developmentally Regulated Expression of the Bean .beta.-Phaseolin Gene in Tobacco Seed"; Proc. Nat'l. Acad. Sci.; vol. 82; pp. 3320-3324; (1985).
Wandelt, et al., "Vicilin with Carboxy-terminal KDEL is Retained in the Endoplasmic Reticulum and Accumulates to High Levels in the Leaves of Transgenic Plants"; The Plant Journal; vol. 2(2); pp. 181-192; (1992).
Armstrong, et al., "Development and Availability of Germplasm with High Type II Culture Formation Response"; Maize Genetics Coop. News; vol. 65; pp. 92-93; (1991).
Chu, et al., "Establishment of an Efficient Medium for Anther Culture of Rice Through Comparative Experiments on the Nitrogen Sources"; Sci. Sin.; vol. 18(5); pp. 659-668; (1975).
Eriksson, Tage; "Studies on the Growth Requirements and Growth Measurements of Cell Cultures of Haplopappus gracilis"; Physiol. Plant.; vol. 18; pp. 976-993; (1965).
Murashinge, et al., "A Revised Medium for Rapid Growth and Bio Assays with Tobacco Tissue Cultures"; Physiol. Plant.; vol. 15, pp. 473-497; (1962).
Wallace, et al., "New Methods for Extraction and Quantitation of Zeins Reveal a High Content of .gamma.-Zein in Modified Opaque-2 Maize"; Plant Physiol.; vol. 92; pp. 191-196; (1990).
Laemmli, U.K., "Cleavage of Structural Proteins During the Assembly of the Head of Bacteriophage T4"; Nature; vol. 227; pp. 680-685; (1970).
Lending, et al., "Structure of Maize Protein Bodies and Immunocytochemical Localization of Zeins"; Protoplasma; vol. 143; pp. 51-62; (1988).
Knecht, et al., "Visualization of Antigenic Proteins on Western Blots"; Anal. Biochem.; vol. 136; pp. 180-184; (1984).

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