Abstract: The invention provides plant gene promoters and regulatory elements that are root-specific and/or induced by parasitic nematodes. The promoters of the invention are useful for controlling expression of nucleic acids of interest in plants roots.

Abstract: The invention provides polynucleotides encoding N-terminal truncated forms of sucrose isomerase polypeptides which are capable of conferring increased nematode resistance in a plant. The invention also provides methods of producing transgenic plants with increased nematode resistance, seeds of such transgenic plants, and expression vectors, all of which comprise the polynucleotides of the invention.

Abstract: The invention provides promoter polynucleotides that are root-specific and/or induced by parasitic nematodes. The promoters of the invention are useful for controlling expression of nucleic acids of interest in plant roots.

Abstract: Herbicide-resistant rice plants, isolated polynucleotides that encode herbicide resistant and wild-type acetohydroxy-acid synthase large subunit 1 (AHASL1) polypeptides, and the amino acid sequences of these polypeptides, are described. Expression cassettes and transformation vectors comprising the polynucleotides of the invention, as well as plants and host cells transformed with the polynucleotides, are described. Methods of using the polynucleotides to enhance the resistance of plants to imidazolinone herbicides, and methods for controlling weeds in the vicinity of herbicide-resistant plants are also described.

Abstract: The present invention concerns double stranded RNA compositions and transgenic plants capable of inhibiting expression of genes essential to establishing or maintaining nematode infestation in a plant, and methods associated therewith. Specifically, the invention relates to the use of RNA interference to inhibit expression of a target plant gene, which is a CDPK-like gene, and relates to the generation of plants that have increased resistance to parasitic nematodes.

Abstract: The invention provides plant gene promoters and regulatory elements that are root-specific and/or induced by parasitic nematodes. The promoters of the invention are useful for controlling expression of nucleic acids of interest in plants roots.

Abstract: The invention relates to methods and compositions for analyzing plant acetohydroxy acid synthase large subunit (AHASL) genes. In particular, the invention relates to methods for the detection of wild-type AHASL alleles and mutant AHASL alleles that encode imidazolinone-tolerant AHASL proteins. The methods involve the use of PCR amplification and novel compositions comprising allele-specific and gene-specific primers to detect the presence of mutant and/or wild-type alleles present at the individual AHASL genes of a plant. Specifically, the methods and compositions are useful for analyzing the three AHASL genes of Triticum aestivum and the two AHASL genes of Triticum turgidum ssp. durum.

Abstract: The invention provides plant gene promoters, and essential promoter elements, which are root-specific and/or induced by parasitic nematodes. The promoters of the invention are useful for controlling expression of nucleic acids of interest in plant roots.

Abstract: The invention relates to methods and compositions for analyzing plant acetohydroxy acid synthase large subunit (AHASL) genes. In particular, the invention relates to methods for the detection of wild-type AHASL alleles and mutant AHASL alleles that encode imidazolinone-tolerant AHASL proteins. The methods involve the use of PCR amplification and novel compositions comprising allele-specific and gene-specific primers to detect the presence of mutant and/or wild-type alleles present at the individual AHASL genes of a plant. Specifically, the methods and compositions are useful for analyzing the three AHASL genes of Triticum aestivum and the two AHASL genes of Triticum turgidum ssp. durum.

Abstract: The invention relates to methods and compositions for analyzing plant acetohydroxy acid synthase large subunit (AHASL) genes. In particular, the invention relates to methods for the detection of wild-type AHASL alleles and mutant AHASL alleles that encode imidazolinone-tolerant AHASL proteins. The methods involve the use of PCR amplification and novel compositions comprising allele-specific and gene-specific primers to detect the presence of mutant and/or wild-type alleles present at the individual AHASL genes of a plant. Specifically, the methods and compositions are useful for analyzing the three AHASL genes of Triticum aestivum and the two AHASL genes of Triticum turgidum ssp. durum.

Abstract: Isolated polynucleotides that encode acetohydroxyacid synthase small subunit (AHASS) polypeptides, and the amino acid sequences encoding these polypeptides, are described. Expression cassettes and expression vectors comprising the polynucleotides of the invention, as well as plants and host cells transformed with the polynucleotides, expression cassettes, and expression vectors, are described. Methods of using the polynucleotides to enhance the resistance of plants to herbicides are also described.

Abstract: The invention relates to methods and compositions for analyzing plant acetohydroxy acid synthase large subunit (AHASL) genes. In particular, the invention relates to methods for the detection of wild-type AHASL alleles and mutant AHASL alleles that encode imidazolinone-tolerant AHASL proteins. The methods involve the use of PCR amplification and novel compositions comprising allele-specific and gene-specific primers to detect the presence of mutant and/or wild-type alleles present at the individual AHASL genes of a plant. Specifically, the methods and compositions are useful for analyzing the three AHASL genes of Triticum aestivum and the two AHASL genes of Triticum turgidum ssp. durum.

Abstract: The present inventors have discovered that antisense suppression of a chlorophyll synthase (CS) gene results in plants exhibiting one or more of chlorosis, reduced growth, and altered development. Thus, the present inventors have discovered that the protein encoded by the CS gene is essential for normal plant growth and development, and is useful as a target for the identification of compounds as antibiotics and herbicides, especially herbicides.

Abstract: The present inventors have discovered that pectin esterase is essential for plant growth. Specifically, the inhibition of pectin esterase gene expression resulted in seedlings that were damaged, short, and stunted at a very early growth stage. Thus, pectin esterase can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit pectin esterase expression or activity, comprising: contacting a compound with a pectin esterase and detecting the presence and/or absence of binding between said compound and said pectin esterase, or detecting a decrease in pectin esterase expression or activity. The methods of the invention are useful for the identification of herbicides.

Abstract: The present inventors have discovered that Biotin synthase (BS) is essential for plant growth. Specifically, inhibition of BS gene expression in plant seedlings results in severe chlorosis and reduced growth. Thus, BS can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit BS expression or activity, and as such, the methods of the invention are useful for the identification of herbicides.

Abstract: The present inventors have discovered that Flavanone 3-hydroxylase (“FHT”) is essential for plant growth. Specifically, the inhibition of FHT gene expression in plant seedlings results in small and chlorotic seedlings. Thus, FHT can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit FHT expression or activity. The present invention can be used to identify compounds having herbicide activity by contacting a compound with FHT and detecting the presence and/or absence of binding between the compound and the FHT, or alternatively, detecting a decrease in FHT expression or activity.

Abstract: The present inventors have discovered that 3-oxo-5-alpha-steroid 4-dehydrogenase (DET2) is essential for plant growth. Specifically, the inhibition of DET2 gene expression in plant seedlings resulted in seedlings that are shorter than controls and chlorotic. Thus, DET2 can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit DET2 expression or activity, comprising: contacting a compound with a DET2 and detecting the presence and/or absence of binding between said compound and said DET2, or detecting a decrease in DET2 expression or activity. The methods of the invention are useful for the identification of herbicides.

Abstract: The present inventors have discovered that LCBH is essential for plant growth. Specifically, the inhibition of LCBH gene expression in Arabidopsis results in reduced growth and abnormal development. Thus, LCBH is useful as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of herbicides by measuring the activity of a LCBH in the presence and absence of a compound, where an alteration of LCBH activity in the presence of the compound indicates the compound as a candidate for a herbicide.

Abstract: The present inventors have discovered that Carbonic Anhydrase (CA) is essential for plant growth. Specifically, the inhibition of CA gene expression in plant seedlings results in reduced growth, and chlorosis. Thus, CA can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit CA expression or activity, comprising: contacting a compound with an CA and detecting the presence and/or absence of binding between said compound and said an CA, or detecting a change in CA expression or activity. The methods of the invention are useful for the identification of herbicides.

Abstract: The present inventors have discovered that ferredoxin NADP oxidoreductase (FNR) is essential for plant growth. Specifically, the inhibition of FNR gene expression in plant seedlings resulted in seedlings that looked pale and very stunted. Thus, FNR can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit FNR expression or activity, comprising: contacting a compound with a FNR and detecting the presence and/or absence of binding between the compound and the FNR, or detecting a decrease in FNR expression or activity. The methods of the invention are useful for the identification of herbicides.