BACKGROUND AND AIMS: The actual number of domestications of a crop is one of the key questions in domestication studies. Answers to this question have generally been based on relationships between wild progenitors and domesticated descendants determined with anonymous molecular markers. In this study, this question was investigated by determining the number of instances a domestication phenotype had been selected in a crop species. One of the traits that appeared during domestication of common bean (Phaseolus vulgaris) is determinacy, in which stems end with a terminal inflorescence. It has been shown earlier that a homologue of the arabidopsis TFL1 gene - PvTFL1y - controls determinacy in a naturally occurring variation of common bean. METHODS: Sequence variation was analysed for PvTFL1y in a sample of 46 wild and domesticated accessions that included determinate and indeterminate accessions. KEY RESULTS: Indeterminate types - wild and domesticated - showed only synonymous nucleotide substitutions. Determinate types - observed only among domesticated accessions - showed, in addition to synonymous substitutions, non-synonymous substitutions, indels, a putative intron-splicing failure, a retrotransposon insertion and a deletion of the entire locus. The retrotransposon insertion was observed in 70 % of determinate cultivars, in the Americas and elsewhere. Other determinate mutants had a more restricted distribution in the Americas only, either in the Andean or in the Mesoamerican gene pool of common bean. CONCLUSIONS: Although each of the determinacy haplotypes probably does not represent distinct domestication events, they are consistent with the multiple (seven) domestication pattern in the genus Phaseolus. The predominance of determinacy in the Andean gene pool may reflect domestication of common bean prior to maize introduction in the Andes.
BACKGROUND AND AIMS: The actual number of domestications of a crop is one of the key questions in domestication studies. Answers to this question have generally been based on relationships between wild progenitors and domesticated descendants determined with anonymous molecular markers. In this study, this question was investigated by determining the number of instances a domestication phenotype had been selected in a crop species. One of the traits that appeared during domestication of common bean (Phaseolus vulgaris) is determinacy, in which stems end with a terminal inflorescence. It has been shown earlier that a homologue of the arabidopsisTFL1 gene - PvTFL1y - controls determinacy in a naturally occurring variation of common bean. METHODS: Sequence variation was analysed for PvTFL1y in a sample of 46 wild and domesticated accessions that included determinate and indeterminate accessions. KEY RESULTS: Indeterminate types - wild and domesticated - showed only synonymous nucleotide substitutions. Determinate types - observed only among domesticated accessions - showed, in addition to synonymous substitutions, non-synonymous substitutions, indels, a putative intron-splicing failure, a retrotransposon insertion and a deletion of the entire locus. The retrotransposon insertion was observed in 70 % of determinate cultivars, in the Americas and elsewhere. Other determinate mutants had a more restricted distribution in the Americas only, either in the Andean or in the Mesoamerican gene pool of common bean. CONCLUSIONS: Although each of the determinacy haplotypes probably does not represent distinct domestication events, they are consistent with the multiple (seven) domestication pattern in the genus Phaseolus. The predominance of determinacy in the Andean gene pool may reflect domestication of common bean prior to maize introduction in the Andes.
Authors: Zhixi Tian; Xiaobo Wang; Rian Lee; Yinghui Li; James E Specht; Randall L Nelson; Phillip E McClean; Lijuan Qiu; Jianxin Ma Journal: Proc Natl Acad Sci U S A Date: 2010-04-26 Impact factor: 11.205
Authors: Sarah A Palmer; Alan J Clapham; Pamela Rose; Fábio O Freitas; Bruce D Owen; David Beresford-Jones; Jonathan D Moore; James L Kitchen; Robin G Allaby Journal: Mol Biol Evol Date: 2012-02-14 Impact factor: 16.240
Authors: C M Keerthi; S Ramesh; M Byregowda; A Mohan Rao; B S Rajendra Prasad; P V Vaijayanthi Vaijayanthi Journal: J Genet Date: 2016-03 Impact factor: 1.166
Authors: Samira Mafi Moghaddam; Atena Oladzad; Chushin Koh; Larissa Ramsay; John P Hart; Sujan Mamidi; Genevieve Hoopes; Avinash Sreedasyam; Andrew Wiersma; Dongyan Zhao; Jane Grimwood; John P Hamilton; Jerry Jenkins; Brieanne Vaillancourt; Joshua C Wood; Jeremy Schmutz; Sateesh Kagale; Timothy Porch; Kirstin E Bett; C Robin Buell; Phillip E McClean Journal: Nat Commun Date: 2021-05-11 Impact factor: 14.919