Abstract: The present invention provides DNA compositions and assays for detecting the presence of the DNA compositions in PV-GHGT07(1445) cotton event based on the DNA sequence of the recombinant construct inserted into the cotton genome and of the genomic sequences flanking the insertion site. Kits and conditions useful in conducting the assays are provided.

Abstract: The present invention discloses DNA sequences encoding plant and novel lipid acyl hydrolase proteins having coleopteran specific insect inhibitory activity, as well as variants and permuteins having enhanced levels of activity directed to controlling coleotperan insect infestation and enhanced levels of expression in planta. Additionally, catalytic dyad active site conformation is disclosed for both dicot and monocot plant derived non-specific lipid acyl hydrolases having coleopteran insect inhibitory properties.

Abstract: An antifungal polypeptide, AlyAFP, that controls fungal damage to plants is provided. DNA encoding this polypeptide can be cloned into vectors for transformation of plant-colonizing microorganisms or plants, thereby providing a method of inhibiting fungal growth on plants. The polypeptide can be formulated into compositions that can be used to control undesired fungi on plants and elsewhere.

Abstract: Provided are two plant cDNA clones that are homologs of the bacterial CelA genes that encode the catalytic subunit of cellulose synthase, derived from cotton (Gossypium hirsutum). Also provided are genomic promoter regions to these encoding regions to cellulose synthase. Methods for using cellulose synthase in cotton fiber and wood quality modification are also provided.

Abstract: A novel protein was isolated from Fusarium culmorum and characterized. The protein, termed FCWP1, demonstrated significant antifungal activity against several fungal species. Mutations in proteolytic consensus sequences contained within FCWP1 improved the stability of its antifungal activity. In addition, a class of proteins related to FCWP1 was identified and characterized. This class is made up of ribosomal proteins and displayed similar values for pI and molecular weight. A representative number of proteins from this class were tested and found to have significant antifungal activities. The antifungal proteins disclosed herein are useful in controlling fungal infections in plants. Transgenic plants may be produced that are more resistant to fungal infections relative to non-transgenic plants of the same species. Alternatively, the proteins may be applied to plants exogenously.

Abstract: A method to protect corn against feeding damage by one or more pests includes the treatment of corn seed having a transgenic event that is targeted against at least one of the pests with a pesticide in an amount that is effective against the same or another of the one or more pests. Seeds having such protection are also disclosed, as well as a means for deploying a non-transgenic refuge crop into a field of transgenic crops.

Abstract: The invention describes a new method to isolate disease resistance genes in plants. The method teaches to transiently express in susceptible plants large numbers of R-gene homologs or non-host inducible genes isolated from non-host resistant plants. These plants can be screened for either disease resistance or ability to respond with a hypersensitive response to pathogen-elicitor subjection. The invention also reports several R-genes and non-host inducible genes that have been successfully isolated using the described method. These R-genes trigger a hypersensitive response in tobacco that is dependent on the presence of the ubiquitous P. infestans elicitor INF1. The presented R-genes are predicted to be both the first R-genes isolated that confer resistance against P. infestans and the first R-genes involved in non-host resistance.

Abstract: A novel gene encoding a Coleopteran inhibitory Bacillus thuringiensis insecticidal crystal protein is disclosed. The protein, tIC851, is insecticidally active and provides plant protection from at least cotton boll weevil, Anthomomus grandis, when applied to plants in an insecticidally effective composition.

Abstract: The invention describes new acquired resistance genes in plants. A method of using the genes to make transgenic plants that are resistant to disease is also provided.

Abstract: The present invention discloses methods and compositions comprising a group of novel expression cassettes which provide significantly improved levels of accumulation of Coleopteran inhibitory Cry3B and Cry3B variant amino acid sequences when these are expressed in plants. The preferred embodiments of the invention provide at least up to ten fold higher levels of insect controlling protein relative to the highest levels obtained using prior compositions. In particular, transgenic maize expressing higher levels of a protein designed to exhibit increased toxicity toward Coleopteran pests deliver superior levels of insect protection and are less likely to sponsor development of populations of target insects that are resistant to the insecticidally active protein.

Abstract: Disclosed is a means of controlling plant pests by a novel method of expressing Cry2Ab B. thuringiensis &dgr;-endotoxins in plants, targeted to the plastids. The invention comprises novel nucleic acid segments encoding proteins comprising Cry2Ab B. thuringiensis &dgr;-endotoxins. The nucleic acid segments are disclosed, as are transformation vectors containing the nucleic acid segments, plants transformed with the claimed segments, methods for transforming plants, and methods of controlling plant infestation by pests.

Abstract: The invention relates in general to plants, plant cells, methods of making, and methods of using plants and plant cells transformed to contain a DNA sequence encoding an AMPA-N-acetyltransferase, and to plants and plant cells exhibiting resistance to AMPA in an amount which inhibits the growth of a plant or plant cell lacking a sequence encoding an AMPA-N-acetyltransferase.

Abstract: Arrays of polynucleotide or polypeptide target molecules immobilized on a surface of a substrate where the target molecules are arranged in the array according to intensity of organism expression of cognate probe molecules which hybridize to the target molecules. For instance, target molecules having a higher than average indicia of hybridization, e.g. at least a factor of 2, are segregated at a peripheral region of the substrate and at a lower surface density. Preferred arrays can contain animal, plant or microorganism target molecules including Aspergillus nidulans. Diagnostic arrays can comprise targets from mixed species, e.g. human, mouse and virus; plant breeding arrays can comprise targets from mixed plants, e.g. Arabidopsis thaliana, maize, soy, cotton, wheat, rice, canola and potato.

Abstract: DNA encoding glyphosate-tolerant 5-enolpyruvyl-3-phosphoshikimate (EPSP) synthases, plant genes encoding the glyphosate-tolerant enzymes, and plant transformation vectors containing the genes are disclosed. The DNA encodes glyphosate-tolerant EPSP synthases modified by substitution of an alanine residue for a glycine residue in a first conserved sequence found between positions 80 and 120, and a threonine residue for an alanine residue in a second conserved sequence found between positions 170 and 210 in the mature wild type EPSP synthase.

Abstract: Glyphosate-tolerant 5-enolpyruvyl-3-phosphoshikimate (EPSP) synthases, DNA encoding glyphsate-tolerant EPSP synthases, plant genes encoding the glyphosate-tolerant enzymes, plant transformation vectors containing the genes, transformed plant cells and differentiated transformed plants containing the plant genes are disclosed. The glyphosate-tolerant EPSP synthases are prepared by substituting an alanine residue for a glycine residue in a first conserved sequence found between positions 80 and 120, and a threonine residue for an alanine residue in a second conserved sequence found between positions 170 and 210 in the mature wild type EPSP synthase.

Abstract: Genes encoding a glyphosate oxidoreductase enzyme are disclosed. The genes are useful in producing transformed bacteria and plants which degrade glyphosate herbicide as well as crop plants which are tolerant to glyphosate herbicide.

Abstract: This invention provides DNA molecules which comprise 5' non-translated leader sequences derived from genes coding for heat shock proteins that enhance gene expression in plants when present in a chimeric gene. Plant cells and plants containing same are also provided herewith. Further provided is a method for enhancing gene expression in plants.

Abstract: Genes encoding Class II EPSPS enzymes are disclosed. The genes are useful in producing transformed bacteria and plants which are tolerant to glyphosate herbicide. Class II EPSPS genes share little homology with known, Class I EPSPS genes, and do not hybridize to probes from Class I EPSPS's. The Class II EPSPS enzymes are characterized by being more kinetically efficient than Class I EPSPS's in the presence of glyphosate. Plants transformed with Class II EPSPS genes are also disclosed as well as a method for selectively controlling weeds in a planted transgenic crop field.

Abstract: Genes encoding Class II EPSPS enzymes are disclosed. The genes are useful in producing transformed bacteria and plants which are tolerant to glyphosate herbicide. Class II EPSPS genes share little homology with known, Class I EPSPS genes, and do not hybridize to probes from Class I EPSPS's. The Class II EPSPS enzymes are characterized by being more kinetically efficient than Class I EPSPS's in the presence of glyphosate. Plants transformed with Class II EPSPS genes are also disclosed as well as a method for selectively controlling weeds in a planted transgenic crop field.

Abstract: TFM7 and TFM9, promoters for expression of a gene of choice in fruits such as tomato; DNA molecules, plant cells and plants containing them.