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To select a plant genotype that will thrive in targeted environments it is critical to understand the genotype by environment interaction (GEI). In this study, multi-environment QTL analysis was used to characterize node addition rate (NAR, node day− 1) on the main stem of the common bean (Phaseo...


Zhang, LiGezan, Salvador A.Vallejos, C. EduardoJones, James W.Boote, Kenneth J.Clavijo Michelangeli, Jose A.Bhakta, Mehul S.Osorno, Juan M.Rao, Idupulapati M.Beebe, Stephen E.Roman Paoli, Elvin O.González, AbiezerBeaver, James S.Ricaurte Oyola, José JaumerColbert, RaphaelCorrell, Melanie J.[Development of a QTL-environment-based predictive model for node addition rate in common bean]Development of a QTL-environment-based predictive model for node addition rate in common bean

The common bean is a tropical facultative short day legume that is now grown in tropical and temperate zones. This observation underscores how domestication and modern breeding can change the adaptive phenology of a species. A key adaptive trait is the optimal timing of the transition from the ve...


Bhakta, Mehul S.Gezan, Salvador A.Clavijo Michelangeli, Jose A.Carvalho, MelissaZhang, LiJones, James W.Boote, Kenneth J.Correll, Melanie J.Beaver, James S.Osorno, Juan M.Colbert, RaphaelRao, Idupulapati M.Beebe, Stephen E.González, AbiezerRicaurte Oyola, José JaumerVallejos, C. Eduardo[A Predictive Model for Time-to-Flowering in the Common Bean Based on QTL and Environmental Variables]A Predictive Model for Time-to-Flowering in the Common Bean Based on QTL and Environmental Variables

Certain crosses of common bean (Phaseolus vulgaris) result in temperature-dependent hybrid weakness associated with a severe root phenotype. This is controlled by the interaction of the root- and shoot-expressed semidominant alleles dosage-dependent lethal 1 (DL1) and DL2, which communicate via l...


Hannah, MAKramer, KMGeffroy, VKopka, JBlair, Matthew W.Erban, AVallejos, C. EduardoHeyer, AGSanders, FETMillner, PAPilbeam, DJ[Hybrid weakness controlled by the dosage-dependent lethal (DL) gene system in common bean (Phaseolus vulgaris) is caused by a shoot-derived inhibitory signal leading to salicylic acid-asociated root death]Hybrid weakness controlled by the dosage-dependent lethal (DL) gene system in common bean (Phaseolus vulgaris) is caused by a shoot-derived inhibitory signal leading to salicylic acid-asociated root death

Three RFLP maps, as well as several RAPD maps have been developed in common bean (Phaseolus vulgaris L.). In order to align these maps, a core linkage map was established in the recombinant inbred population BAT93×Jalo EEP558 (BJ). This map has a total length of 1226?cM and comprises 563 markers,...


Freyre, R.Skroch, PWGeffroy, VAdam-Blondon, Anne-FrançoiseShirmohamadali, AJohnson, William C.Llaca, VNodari, ROPereira, PATsai, Siu MuiTohme, Joseph M.Dron, MichelNienhuis, JamesVallejos, C. EduardoGepts, Paul L.[Towards an integrated linkage map of common bean. 4. Development of a core linkage map and alignment of RFLP maps]Towards an integrated linkage map of common bean. 4. Development of a core linkage map and alignment of RFLP maps

Clavijo Michelangeli, Jose A.Boote, Kenneth J.Jones, James W.Corell, MGezan, S.Bhakta, MZhang, LOsorno, JRao, Idupulapati M.Beebe, Stephen E.Roman Paoli, Elvin O.González, A.Beaver, James S.Ricaurte Oyola, José JaumerColbert, RCarvalho, M.Vallejos, C. Eduardo[Modeling genetic traits of five common bean (Phaseolus vulgaris) genotypes in multi-location trials]Modeling genetic traits of five common bean (Phaseolus vulgaris) genotypes in multi-location trials

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