Abstract: The invention is directed to transgenic plants transformed with nucleic acids that encode a plant transcription factor that increases the transgenic plant's size and yield and/or delays flowering in the plant, and methods of using and producing the transgenic plants.

Abstract: The invention provides methods and compositions for identifying compounds that can enhance plant resistance to stress.

Abstract: The present invention provides methods for transforming Crambe species plants by producing embryogenic callus or somatic tissue, which is transformed, selected and regenerated into whole transgenic plants. The invention also pertains to a plant of the genus Crambe, and a method for producing the plant, where the plant has greater hypocotyl regenerability than a control plant.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: Polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. The polypeptides of the invention regulate transcription in these plants and have been shown to confer at least one regulatory activity that results in increased size, biomass, growth rate, and/or yield as compared to a control plan.

Abstract: Polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. The polypeptides of the invention have been shown to confer at least one regulatory activity and confer increased yield, greater height, greater early season growth, greater canopy coverage, greater stem diameter, greater late season vigor, increased secondary rooting, more rapid germination, greater cold tolerance, greater tolerance to water deprivation, reduced stomatal conductance, altered C/N sensing, increased low nitrogen tolerance, increased low phosphorus tolerance, or increased tolerance to hyperosmotic stress as compared to the control plant as compared to a control plant.

Abstract: Polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. The polypeptides of the invention have been shown to confer at least one regulatory activity and confer increased yield, greater height, greater early season growth, greater canopy coverage, greater stem diameter, greater late season vigor, increased secondary rooting, more rapid germination, greater cold tolerance, greater tolerance to water deprivation, reduced stomatal conductance, altered C/N sensing, increased low nitrogen tolerance, increased low phosphorus tolerance, or increased tolerance to hyperosmotic stress as compared to the control plant as compared to a control plant.

Abstract: Polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. The polypeptides of the invention have been shown to confer at least one regulatory activity and confer increased yield, greater height, greater early season growth, greater canopy coverage, greater stem diameter, greater late season vigor, increased secondary rooting, more rapid germination, greater cold tolerance, greater tolerance to water deprivation, reduced stomatal conductance, altered C/N sensing, increased low nitrogen tolerance, increased low phosphorus tolerance, or increased tolerance to hyperosmotic stress as compared to the control plant as compared to a control plant.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: Expression of two Arabidopsis thaliana GARP-family transcription factors, AtGLK1, SEQ ID NO: 2, and AtGLK2, SEQ ID NO: 4, in tomato plants resulted in intensely green fruit that ripen to a normal red color. These Golden2-like (GLK) transcription factors were expressed under the control of several promoters in transgenic tomato lines. When AtGLK1 or AtGLK2 expression was regulated with the constitutive 35S promoter or with three promoters that enhanced expression in fruit tissues, the chlorophyll content of mature green fruit was increased by as much as 100%. The chloroplasts in green fruit expressing AtGLK1 or AtGLK2 developed earlier, were enlarged and had more extensive thylakoid granal development. In addition, expression of AtGLK1 or AtGLK2 resulted in increased starch accumulation in green fruit and higher levels of sugars in ripe fruit. In contrast to wild-type fruit, fruit expressing AtGLK1 developed full green color when they developed in the absence of light.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: Polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. The polypeptides of the invention have been shown to confer at least one regulatory activity and confer increased yield, greater height, greater early season growth, greater canopy coverage, greater stem diameter, greater late season vigor, increased secondary rooting, more rapid germination, greater cold tolerance, greater tolerance to water deprivation, reduced stomatal conductance, altered C/N sensing, increased low nitrogen tolerance, increased low phosphorus tolerance, or increased tolerance to hyperosmotic stress as compared to the control plant as compared to a control plant.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference or control plant, including increased plant size, seed size, increased leaf size, lignification, water deprivation tolerance, cold tolerance, or altered flowering time. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: In this invention, a method is described that allows for the efficient creation and identification of validated biological materials that greatly enhance the ability to perform polysome-mediated RNA profiling, such as constitutive, cell type-, tissue type-, or condition-enhanced RNA profiling. The method relies on the use of a tri-partite plant binary expression vector comprised of the following components: a) a DNA promoter element that drives expression of a sequence specific transcription activator protein such as a LexA:Gal4 fusion protein in a unique desired pattern, b) a DNA promoter element comprising a target site for the transcriptional activator protein, such as opLexA, fused to a nucleotide encoding an epitope tagged ribosomal component protein and c) a DNA promoter element comprising a target site for the transcriptional activator protein, such as opLexA, fused to a nucleotide encoding an in vivo reporter protein.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having improved tolerance to drought, shade, and low nitrogen conditions, as compared to wild-type or reference plants.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods is also disclosed.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

Abstract: Transcription factor polynucleotides and polypeptides incorporated into expression vectors have been introduced into plants and were ectopically expressed. Transgenic plants transformed with many of these expression vectors have been shown to be more resistant to disease (in some cases, to more than one pathogen), or more tolerant to an abiotic stress (in some cases, to more than one abiotic stress). The abiotic stress may include salt, hyperosmotic stress, heat, cold, drought, or low nitrogen conditions.