Gepts, Paul L.
Paul L. Gepts práce v oboru genetika rostlin
Gepts, Paul L., 1953-
Gepts, Paul
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VIAF ID: 109790887 (Personal)
Permalink: http://viaf.org/viaf/109790887
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200 _ | ‡a Gepts ‡b Paul L. ‡f 1953-....
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Gepts, Paul
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100 1 _ ‡a Gepts, Paul
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Gepts, Paul L.
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Gepts, Paul L.
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100 1 _ ‡a Gepts, Paul L.
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Gepts, Paul L.
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100 1 _ ‡a Gepts, Paul L.
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100 1 _ ‡a Gepts, Paul L.
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100 1 _ ‡a Gepts, Paul L. ‡d (1953- ).
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Gepts, Paul L.
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100 1 _ ‡a Gepts, Paul L., ‡d 1953-
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Paul L. Gepts
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práce v oboru genetika rostlin
4xx's: Alternate Name Forms (9)
5xx's: Related Names (1)
Works
| Title | Sources |
|---|---|
| Aux origines de la diversité de la patate douce (Ipomoea batatas) : une enquête phylogéographique en Amérique tropicale (aire d'origine) et en Océanie (aire d'introduction) |
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| Biodiversity in agriculture : domestication, evolution, and sustainability |
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| The contribution of genetic and genomic approaches to plant domestication studies |
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| Current perspectives and the future of domestication studies |
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| Cytogenetic mapping of common bean chromosomes reveals a less compartmentalized small-genome plant species |
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| Detecting |
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| Detecting (trans)gene flow to landraces in centers of crop origin: lessons from the case of maize in Mexico |
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| Development of a genome-wide anchored microsatellite map for common bean (Phaseolus vulgaris L.). |
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| Development of four phylogenetically-arrayed BAC libraries and sequence of the APA locus in Phaseolus vulgaris |
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| Different Seed Selection and Conservation Practices for Fresh Market and Dried Chile Farmers in Aguascalientes, Mexico |
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| Ecophysiological tradeoffs and biophysical constraints within cereal crops˸ impacts of agronomic selection and environmental conditions. |
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| Enhanced available methionine concentration associated with higher phaseolin levels in common bean seeds. |
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| Evolution of plant materials for ecological restoration: insights from the applied and basic literature |
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| Extension of the core map of common bean with EST-SSR, RGA, AFLP, and putative functional markers |
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| Extensive introgression of Middle American germplasm into Chilean common bean cultivars |
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| A family of LRR sequences in the vicinity of the Co-2 locus for anthracnose resistance in Phaseolus vulgaris and its potential use in marker-assisted selection. |
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| Farmers’ Varietal Identification in a Reference Sample of Local Phaseolus Species in the Sierra Juárez, Oaxaca, Mexico |
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| The Future of Plant Breeding |
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| Gene Flow and Genetic Structure in the Wild–Weedy–Domesticated Complex of L. in its Mesoamerican Center of Domestication and Diversity |
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| Genetic Composition and Spatial Distribution of Farmer-managed Bean Plantings: An Example from a Village in Oaxaca, Mexico |
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| Genetic diversity and ecological distribution ofPhaseolus vulgaris (Fabaceae) in northwestern South America |
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| Genetic diversity in cowpea [Vigna unguiculata (L.) Walp.] as revealed by RAPD markers |
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| Genetic resources of Phaseolus beans : their maintenance, domestication, evolution, and utilization |
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| Genetic structure and mating system of wild cowpea populations in West Africa |
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| Genetics of resistance to the geminivirus, Bean dwarf mosaic virus, and the role of the hypersensitive response in common bean. |
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| A genome-wide analysis of differentiation between wild and domesticated Phaseolus vulgaris from Mesoamerica. |
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| Genome-Wide Association Study and Genomic Prediction for Soybean Cyst Nematode Resistance in USDA Common Bean (<i>Phaseolus vulgaris</i>) Core Collection |
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| Genome-wide identification of SNPs and copy number variation in common bean (Phaseolus vulgaris L.) using genotyping-by-sequencing (GBS) |
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| Genomic history of the origin and domestication of common bean unveils its closest sister species |
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| Global agricultural intensification during climate change: a role for genomics |
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| Identification and characterization of a homologue to the Arabidopsis INDEHISCENT gene in common Bean |
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| Influence of cryptic population structure on observed mating patterns in the wild progenitor of maize (Zea mays ssp. parviglumis) |
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| Inheritance of Partial Resistance AgainstColletotrichum lindemuthianuminPhaseolus vulgarisand Co-localization of Quantitative Trait Loci with Genes Involved in Specific Resistance |
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| Integrating Phenotypic Evaluations with a Molecular Diversity Assessment of a Brazilian Collection of Common Bean Landraces |
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| Introduction: The Domestication of Plants and Animals: Ten Unanswered Questions |
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| Legumes as a model plant family. Genomics for food and feed report of the Cross-Legume Advances Through Genomics Conference |
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| Leveraging genomic resources of model species for the assessment of diversity and phylogeny in wild and domesticated lentil |
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| Linkage mapping of the Phg-1 and Co-1(4) genes for resistance to angular leaf spot and anthracnose in the common bean cultivar AND 277. |
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| Long-distance pollen flow assessment through evaluation of pollinator foraging range suggests transgene escape distances |
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| Low stomatal sensitivity to vapor pressure deficit in irrigated common, lima and tepary beans |
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| Mapping homologous sequences for determinacy and photoperiod sensitivity in common bean (Phaseolus vulgaris). |
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| Multiple lines of evidence for the origin of domesticated chili pepper, Capsicum annuum, in Mexico |
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| A new collection of wild populations of Capsicum in Mexico and the southern United States |
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| Nodulation ability in different genotypes of Phaseolus lunatus by rhizobia from California agricultural soils |
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| Nucleotide diversity of a genomic sequence similar to SHATTERPROOF (PvSHP1) in domesticated and wild common bean (Phaseolus vulgaris L.). |
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| Nutritional and evolutionary implications ... 1984 |
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| Plants, genes and agriculture : sustainability through biotechnology |
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| Pod indehiscence is a domestication and aridity resilience trait in common bean |
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| Prebreeding in Common Bean and Use of Genetic Diversity from Wild Germplasm |
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| Pulsed-field gel electrophoresis analysis of the phaseolin locus region in Phaseolus vulgaris. |
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| The Putative Mesoamerican Domestication Center of Is Located in the Lerma–Santiago Basin of Mexico |
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| Release of tepary bean TARS‐Tep 23 germplasm with broad abiotic stress tolerance and rust and common bacterial blight resistance |
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| The Role of epistasis in controlling seed yield and other agronomic traits in an Andean × Mesoamerican cross of common bean (Phaseolus vulgaris L.) |
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| Signatures of Environmental Adaptation During Range Expansion of Wild Common Bean |
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| Spatial and Temporal Scales of Range Expansion in Wild Phaseolus vulgaris |
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| Spatially structured genetic diversity of the Amerindian yam (Dioscorea trifida L.) assessed by SSR and ISSR markers in Southern Brazil |
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| Structure and Genetic Diversity of Wild Populations of Lima Bean ( L.) from the Yucatan Peninsula, Mexico |
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| Structure of genetic diversity in the two major gene pools of common bean (Phaseolus vulgaris L., Fabaceae). |
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| Tagging the signatures of domestication in common bean (Phaseolus vulgaris) by means of pooled DNA samples |
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| Toward the introgression of PvPdh1 for increased resistance to pod shattering in common bean |
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| Towards an integrated linkage map of common bean : 1. Development of genomic DNA probes and levels of restriction fragment length polymorphism |
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| Transgenes in Mexican maize: molecular evidence and methodological considerations for GMO detection in landrace populations |
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| Unravelling the origins of the diversity of sweet potato (Ipomoea batatas (L.) Lam.). |
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| Vignin diversity in wild and cultivated taxa ofVigna unguiculata (L.) walp. (fabaceae) |
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| Who owns biodiversity, and how should the owners be compensated? |
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