Abstract: This invention relates to an isolated nucleic acid fragment encoding a polyphenol oxidase enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the polyphenol oxidase enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the polyphenol oxidase enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a plant enzyme that catalyzes steps in the biosynthesis of lysine, threonine, methionine, cysteine and isoleucine from aspartate, the enzyme a member selected from the group consisting of: dihydrodipicolinate reductase, diaminopimelate epimerase, threonine synthase, threonine deaminase and S-adenosylmethionine synthetase. The invention also relates to the construction of a chimeric gene encoding all or a portion of the enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a branched-chain biosynthetic enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the branched-chain biosynthetic enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the branched-chain biosynthetic enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a tetrahydrofoláte metabolism enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the tetrahydrofolate metabolism enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the tetrahydrofolate metabolism enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a squalene metabolic enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the squalene metabolic enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the squalene metabolic enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to a plant transgene expression system. It is comprised of two chromosomally-integrated components that are individually heritable. One component is an inactive replicon, which contains cis-acting viral sequences required for replication and is unable to replicate episomally. The other component is a chimeric transactivating gene comprising a regulated promoter operably-linked to the coding region for a protein that can transactivate replicon replication. Regulated expression of the transactivation protein in plant cells also containing the inactive replicon will trigger the release of free replicon from the integrated inactive replicon and allow its episomal replication. The episomal system is useful for the regulated expression of foreign genes through gene amplification in plant tissue. Tissue-specific expression is controlled by the choice of promoter controlling the transcription of the transactivation gene.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a cholinephosphate cytidylyltransferase. The invention also relates to the construction of a chimeric gene encoding all or a portion of the cholinephosphate cytidylyltransferase, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the cholinephosphate cytidylyltransferase in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a chorismate synthase. The invention also relates to the construction of a chimeric gene encoding all or a portion of the chorismate synthase, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the chorismate synthase in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a chorismate biosynthetic enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the chorismate biosynthetic enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the chorismate biosynthetic enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a hemicellulose biosynthesis protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the hemicellulose biosynthesis protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the hemicellulose biosynthesis protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a sulfate assimilation protein. The invention also relates to the construction of a chimeric gene encoding all or a portion of the sulfate assimilation protein, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the sulfate assimilation protein in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a tyrosine biosynthetic enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the tyrosine biosynthetic enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the tyrosine biosynthetic enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a tetrahydrofolate metabolism enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the tetrahydrofolate metabolism enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the tetrahydrofolate metabolism enzyme in a transformed host cell.

Abstract: This invention relates to an isolated nucleic acid fragment encoding a polyphenol oxidase enzyme. The invention also relates to the construction of a chimeric gene encoding all or a portion of the polyphenol oxidase enzyme, in sense or antisense orientation, wherein expression of the chimeric gene results in production of altered levels of the polyphenol oxidase enzyme in a transformed host cell.