Patent application number | Description | Published |
20080250525 | Non-pungent ornamental peppers - The present invention relates to new, distinct and stable | 10-09-2008 |
20090208964 | Soybean Polymorphisms and Methods of Genotyping - Polymorphic soybean DNA loci are useful for genotyping between at least two varieties of soybean. Sequences of the loci are useful for designing primers and probe oligonucleotides for detecting polymorphisms in soybean DNA. Polymorphisms are useful for genotyping applications in soybean. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for soybean QTLs and genes linked to polymorphisms. | 08-20-2009 |
20100100980 | Methods and Compositions to Enhance Plant Breeding - The present invention provides breeding methods and compositions to enhance the germplasm of a plant. The methods describe the identification and accumulation of transgenes and favorable haplotype genomic regions in the germplasm of a breeding population of crop plants. | 04-22-2010 |
20100223293 | Polymorphic Markers and Methods of Genotyping Corn - Polymorphic corn DNA loci useful for genotyping between at least two varieties of corn. Sequences of the loci are useful for designing primers and probe oligonucleotides for detecting polymorphisms in corn DNA. Polymorphisms are useful for genotyping applications in corn. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for corn QTLs and genes linked to polymorphisms. | 09-02-2010 |
20100240061 | Soybean Polymorphisms and Methods of Genotyping - Polymorphic soybean DNA loci useful for genotyping between at least two varieties of soybean. Sequences of the loci are useful for designing primers and probe oligonucleotides for detecting polymorphisms in soybean DNA. Polymorphisms are useful for genotyping applications in soybean. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for soybean QTLs and genes linked to polymorphisms. | 09-23-2010 |
20100275286 | Soybean Polymorphisms And Methods Of Genotyping - Polymorphic soybean DNA loci useful for genotyping between at least two varieties of soybean. Sequences of the loci are useful for providing the basis for designing primers and probe oligonucleotides for detecting polymorphisms in soybean DNA. Polymorphisms are useful for genotyping applications in soybean. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, hybrid prediction and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for soybean QTLs and genes linked to polymorphisms. | 10-28-2010 |
20110008793 | Maize Polymorphisms and Methods of Genotyping - Polymorphic maize DNA loci useful for genotyping between at least two varieties of maize. Sequences of the loci are useful for designing primers and probe oligonucleotides for detecting polymorphisms in maize DNA. Polymorphisms are useful for genotyping applications in maize. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, hybrid prediction and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for maize QTLs and genes linked to polymorphisms. | 01-13-2011 |
20140038845 | Corn Polymorphisms and Methods of Genotyping - Polymorphic corn DNA loci useful for genotyping between at least two varieties of corn. Sequences of the loci are useful for providing the basis for designing primers and probe oligonucleotides for detecting polymorphisms in maize DNA. Polymorphisms are useful for genotyping applications in corn. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, hybrid prediction and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for corn QTLs and genes linked to polymorphisms. | 02-06-2014 |
20140255922 | Cotton polymorphisms and methods of genotyping - Polymorphic cotton DNA loci useful for genotyping between at least two varieties of cotton. Sequences of the loci are useful for providing the basis for designing primers and probe oligonucleotides for detecting polymorphisms in cotton DNA. Polymorphisms are useful for genotyping applications in cotton. The polymorphic markers are useful to establish marker/trait associations, e.g. in linkage disequilibrium mapping and association studies, positional cloning and transgenic applications, marker-aided breeding and marker-assisted selection, hybrid prediction and identity by descent studies. The polymorphic markers are also useful in mapping libraries of DNA clones, e.g. for cotton QTLs and genes linked to polymorphisms. | 09-11-2014 |
20140259221 | METHODS AND COMPOSITIONS TO ENHANCE PLANT BREEDING - The present invention provides breeding methods and compositions to enhance the germplasm of a plant. The methods describe the identification and accumulation of transgenes and favorable haplotype genomic regions in the germplasm of a breeding population of crop plants. | 09-11-2014 |