Development and use of chloroplast microsatellites in <i>Phaseolus</i> spp. and other legumes

Angioi, Simonetta Agostina; Desiderio, Francesca; Rau, Domenico; Bitocchi, Elena; Attene, Giovanna; Papa, Roberto

doi:10.1111/j.1438-8677.2008.00143.x

Cited by 44 publications

(49 citation statements)

References 70 publications

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“…It should be noted that there is a discrepancy between the numbers of markers analysed in each genome, with fewer derived from the cpDNA. However, our results are in agreement with those proposed following analysis of cpSSRs (Angioi et al, 2009;Desiderio et al, 2013), which suggests that our study assessed sufficient plastid markers to draw valid inferences. Interestingly, results based on the nuclear genome reflect sympatric associations: wild P. dumosus more closely resembles the Guatemalan accessions of P. coccineus than those of any other locality.…”

Section: Discussionsupporting

confidence: 91%

Origin of year-long bean (Phaseolus dumosusMacfady, Fabaceae) from reticulated hybridization events between multiplePhaseolusspecies

Mina-Vargas

McKeown

Flanagan

et al. 2016

Ann Bot

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Background and Aims Improved understanding of the secondary gene pools of crops is essential for advancing genetic gain in breeding programmes. Common bean, Phaseolus vulgaris, is a staple crop with several wild relatives in its secondary gene pool. The year-long bean, P. dumosus, an important crop in Guatemala, is considered particularly closely related to P. vulgaris and a potential source of novel variation. However, the genetic diversity and relationship to other Phaseolus species of P. dumosus remain unclear.Methods We conducted the first comprehensive investigation of P. dumosus genetic diversity using both nuclear and chloroplast genome markers. Our nuclear marker set included over 700 markers present within the Phaseolus DArT (Diversity Arrays Technology) array, which we applied to P. dumosus and other relatives of P. vulgaris (including every secondary gene pool species: P. acutifolius, P. albescens, P. coccineus and P. costaricensis).Key Results Phaseolus dumosus arose from hybridization of P. vulgaris and P. coccineus, followed by at least two later hybridizations with sympatric congener populations. Existing P. dumosus collections have low genetic diversity.Conclusions The under-utilized crop P. dumosus has a complex hybrid origin. Further sampling in the region in which it arose may uncover additional germplasm for introgressing favourable traits into crops within the P. vulgaris gene pool.

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Section: Discussionsupporting

confidence: 91%

Origin of year-long bean (Phaseolus dumosusMacfady, Fabaceae) from reticulated hybridization events between multiplePhaseolusspecies

Mina-Vargas

McKeown

Flanagan

et al. 2016

Ann Bot

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“…Two independent domestication events in the Americas have been documented in several studies, and a large set of coherent data have been obtained using different approaches based on molecular markers and morphological characteristics (Gepts et al 1986;Gepts and Bliss 1988;Koenig and Gepts 1989;Gepts and Debouk 1991;Singh et al 1991a, b, c;Becerra Velasquez and Gepts 1994;Freyre et al 1996;Tohme et al 1996;Gepts 1998;Delgado-Salinas et al 1999;Papa and Gepts 2003;Blair et al 2006a, b;Diaz and Blair 2006;Angioi et al 2009a;Rossi et al 2009;Nanni et al 2011;Blair et al 2012;Bitocchi et al 2013). These two independent domestication events, one in Mesoamerica and one in the Andes, gave origin to two major domesticated gene pools (Papa et al 2006;Acosta-Gallegos et al 2007;Angioi et al 2009a). Following domestication, the domesticated gene pools of the common bean appear to have been organized into four Mesoamerican (Durango, Jalisco, Mesoamerica, Guatemala) and three Andean (Nueva Granada, Peru, Chile) races (Singh et al 1991c;Beebe et al 2000Beebe et al , 2001.…”

Section: Domestication Of P Vulgarismentioning

confidence: 99%

“…The lack of a cytoplasmic bottleneck in Europe is somewhat surprising, because cpSSR markers are very sensitive indicators of such phenomena, due to their uniparental inheritance, hypervariabilty and haploidy (Provan et al 2001;Ebert and Peakall 2009;Angioi et al 2009a). The most likely explanation for this is that the founding common bean populations that colonized Europe were highly variable in their cytoplasmic DNA or that different releases may have had different source populations.…”

Section: The Diversity Of the 'Out-of-america' Germplasm And Their Dmentioning

confidence: 99%

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Genomics of Origin, Domestication and Evolution of Phaseolus vulgaris

Bellucci

Bitocchi

Rau

et al. 2013

Genomics of Plant Genetic Resources

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“…These two gene pools are characterized by partial reproductive isolation (3,4), and they are seen in both wild and domesticated materials. They have been recognized in several studies based on morphology (5-7), agronomic traits (7), seed proteins (8), allozymes (9), and different types of molecular markers (10)(11)(12)(13)(14)(15), which have given the overall indication of the occurrence of at least two independent domestication events in the two different hemispheres. The existence of these two geographically distinct and isolated evolutionary lineages that predate the domestication of the common bean represents a unique scenario among crops.…”

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confidence: 99%

Mesoamerican origin of the common bean ( Phaseolus vulgaris L.) is revealed by sequence data

Bitocchi

Nanni

Bellucci

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

317

295

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Knowledge about the origins and evolution of crop species represents an important prerequisite for efficient conservation and use of existing plant materials. This study was designed to solve the ongoing debate on the origins of the common bean by investigating the nucleotide diversity at five gene loci of a large sample that represents the entire geographical distribution of the wild forms of this species. Our data clearly indicate a Mesoamerican origin of the common bean. They also strongly support the occurrence of a bottleneck during the formation of the Andean gene pool that predates the domestication, which was suggested by recent studies based on multilocus molecular markers. Furthermore, a remarkable result was the genetic structure that was seen for the Mesoamerican accessions, with the identification of four different genetic groups that have different relationships with the sets of wild accessions from the Andes and northern Peru–Ecuador. This finding implies that both of the gene pools from South America originated through different migration events from the Mesoamerican populations that were characteristic of central Mexico

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Development and use of chloroplast microsatellites in Phaseolus spp. and other legumes

Cited by 44 publications

References 70 publications

Origin of year-long bean (Phaseolus dumosusMacfady, Fabaceae) from reticulated hybridization events between multiplePhaseolusspecies

Origin of year-long bean (Phaseolus dumosusMacfady, Fabaceae) from reticulated hybridization events between multiplePhaseolusspecies

Genomics of Origin, Domestication and Evolution of Phaseolus vulgaris

Mesoamerican origin of the common bean ( Phaseolus vulgaris L.) is revealed by sequence data

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