Abstract: The invention is directed to blood proteins produced in monocot seeds and isolated therefrom for use in therapeutic compositions, as well as to methods of making these isolated blood proteins and to therapeutic compositions comprising them.

Abstract: The invention is directed to monocot plant seed products comprising human serum albumin, and to methods of making said monocot plant seed products comprising human serum albumin and to therapeutic compositions comprising them.

Abstract: The invention is directed to blood proteins produced in monocot seeds and isolated therefrom for use in therapeutic compositions, and to methods of making these isolated blood proteins and to therapeutic compositions comprising them.

Abstract: The invention is directed to seed and seed extract compositions containing levels of a human milk protein between 3-40% or higher of the total protein weight of the soluble protein extractable from the seed. Also disclosed is a method of producing the seed with high levels of extractable human milk protein. The method includes transforming a monocotyledonous plant with a chimeric gene having a protein-coding sequence encoding a protein normally present in human milk under the control of a seed maturation-specific promoter. The method may further includes a leader DNA sequence encoding a monocot seed-specific transit sequence capable to target a linked milk protein to a storage body.

Abstract: The invention is directed to food and food additive compositions comprising one or more human milk proteins produced in the seeds of a transgenic plant and methods of making the same. The invention is further directed to improved infant formula comprising such food supplement composition.

Abstract: The invention is directed to seed and seed extract compositions containing levels of a human milk protein between 3-40% or higher of the total protein weight of the soluble protein extractable from the seed. Also disclosed is a method of producing the seed with high levels of extractable human milk protein. The method includes transforming a monocotyledonous plant with a chimeric gene having a protein-coding sequence encoding a protein normally present in human milk under the control of a seed maturation-specific promoter. The method may further includes a leader DNA sequence encoding a monocot seed-specific transit sequence capable to target a linked milk protein to a storage body.

Abstract: The invention is directed to seed and seed extract compositions containing levels of a human milk protein between 3-40% or higher of the total protein weight of the soluble protein extractable from the seed. Also disclosed is a method of producing the seed with high levels of extractable human milk protein. The method includes transforming a monocotyledonous plant with a chimeric gene having a protein-coding sequence encoding a protein normally present in human milk under the control of a seed maturation-specific promoter. The method may further includes a leader DNA sequence encoding a monocot seed-specific transit sequence capable to target a linked milk protein to a storage body.

Abstract: The invention is directed to food and food additive compositions comprising one or more human milk proteins produced in the seeds of a transgenic plant and methods of making the same. The invention is further directed to improved infant formula comprising such food supplement composition.

Abstract: The present invention relates to a method for producing a gene product by expressing a gene encoding said gene product in angiosperm host cells, which method comprises: a) constructing a vector expressible in angiosperm host cells, said vector comprising a promoter region derived from an amylase gene selected from SBAmyA, SBAmyB, SBAmyC genes or SBAmyD of the sugar beet and a gene encoding a desired gene product; b) transforming a compatible angiosperm host cell with said vector; c) cultivating the resulting transformant host cell to a sugar-depleted or sugar-free condition to promote the expression of said gene under the control of such promoter region; and d) recovering the product of the expressed gene. The sugar beet gene when incorporated into a dicot seed or plant has improved biological properties. The gene sequences and the products thereof are claimed.

Abstract: The invention is directed to food and food additive compositions comprising one or more human milk proteins produced in the seeds of a transgenic plant and methods of making the same. The invention is further directed to improved infant formula comprising such food supplement composition.

Abstract: A chimeric plant promoter which is responsive to sugar depletion or deprivation is disclosed. The promoter includes a promoter element and, carried in the element, a heterologous sequence from the rice Amy3D that is responsive to sugar depletion. Also disclosed is a plant transfecting vector containing the sequence, and plant cell transfected with the vector.

Abstract: A plant transformation vector for transforming host plant cells with a chimeric selectable marker gene is disclosed. The gene includes, operatively linked in sequence in a 5′ to 3′ direction, (i) a DNA promoter sequence from the rice beta-glucanase 9 (gns9) gene; (ii) a selectable marker gene, and (iii) a 3′ untranslated terminator region. Also disclosed are a vector pair containing the transformation vector, a method of obtaining transformed monocots whose seeds produce a selected heterologous protein during sed germination, and a plant whose cells are transformed with the chimeric selectable marker gene.

Abstract: The invention is directed to seed and seed extract compositions containing levels of a human milk protein between 3-40% or higher of the total protein weight of the soluble protein extractable from the seed. Also disclosed is a method of producing the seed with high levels of extractable human milk protein. The method includes transforming a monocotyledonous plant with a chimeric gene having a protein-coding sequence encoding a protein normally present in human milk under the control of a seed maturation-specific promoter. The method may further includes a leader DNA sequence encoding a monocot seed-specific transit sequence capable to target a linked milk protein to a storage body.

Abstract: The present invention relates to a method for producing a gene product by expressing a gene encoding said gene product in angiosperm host cells, which method comprises: a) constructing a vector expressible in angiosperm host cells, said vector comprising a promoter region derived from an amylase gene selected from SBAmyA, SBAmyB, SBAmyC genes or SBAmyD of the sugar beet and a gene encoding a desired gene product; b) transforming a compatible angiospasm host cell with said vector; c) cultivating the resulting transformant host cell to a sugar-depleted or sugar-free condition to promote the expression of said gene under the control of such promoter region; and d) recovering the product of the expressed gene. The sugar beet gene when incorporated into a dicot seed or plant has improved biological properties. The gene sequences and the products thereof are claimed.

Abstract: A chimeric plant promoter which is responsive to sugar depletion or deprivation is disclosed. The promoter includes a promoter element and, carried in the element, a heterologous sequence from the rice Amy3D that is responsive to sugar depletion. Also disclosed is a plant transfecting vector containing the sequence, and plant cell transfected with the vector.

Abstract: The invention is directed to food and food additive compositions comprising one or more human milk proteins produced in the seeds of a transgenic plant and methods of making the same. The invention is further directed to improved infant formula comprising such food supplement composition.

Abstract: The invention is directed to improved animal feed compositions comprising one or more milk proteins produced in the seeds of a transgenic plant and methods of making and using the same.

Abstract: A chimeric plant promoter which is responsive to sugar depletion or deprivation is disclosed. The promoter includes a promoter element and, carried in the element, a heterologous sequence from the rice Amy3D that is responsive to sugar depletion. Also disclosed is a plant transfecting vector containing the sequence, and plant cell transfected with the vector.

Abstract: A plant transformation vector for transforming host plant cells with a chimeric selectable marker gene is disclosed. The gene includes, operatively linked in sequence in a 5′ to 3′ direction, (i) a DNA promoter sequence from the rice beta-glucanase 9 (gns9) gene; (ii) a selectable marker gene, and (iii) a 3′ untranslated terminator region. Also disclosed are a vector pair containing the transformation vector, a method of obtaining transformed monocots whose seeds produce a selected heterologous protein during sed germination, and a plant whose cells are transformed with the chimeric selectable marker gene.

Abstract: A group of novel rice &bgr;-glucanase genes, identified as &bgr;-glucanases 2-9 (Gns 2-9), and the corresponding &bgr;-glucanase enzymes, are disclosed. The genes, and the gene promoters, are useful in a variety of transgenic monocot plants, for achieving increased plant resistance to fungal infection, improved growth characteristics, and high levels of expression of heterologous protein in various tissues obtained from the plants.