Departamento de Genética, Universidade Federal de Pernambuco, Recife, Pernambuco, Brazil.
Department of Soil and Crop Sciences, Colorado State University, Fort Collins, CO, USA.
Chromosome Res. 2020 Dec;28(3-4):293-306. doi: 10.1007/s10577-020-09635-0. Epub 2020 Jul 11.
Comparative cytogenetic mapping is a powerful approach to gain insights into genome organization of orphan crops, lacking a whole sequenced genome. To investigate the cytogenomic evolution of important Vigna and Phaseolus beans, we built a BAC-FISH (fluorescent in situ hybridization of bacterial artificial chromosome) map of Vigna aconitifolia (Vac, subgenus Ceratotropis), species with no sequenced genome, and compared with V. unguiculata (Vu, subgenus Vigna) and Phaseolus vulgaris (Pv) maps. Seventeen Pv BACs, eight Vu BACs, and 5S and 35S rDNA probes were hybridized in situ on the 11 Vac chromosome pairs. Five Vac chromosomes (Vac6, Vac7, Vac9, Vac10, and Vac11) showed conserved macrosynteny and collinearity between V. unguiculata and P. vulgaris. On the other hand, we observed collinearity breaks, identified by pericentric inversions involving Vac2 (Vu2), Vac4 (Vu4), and Vac3 (Pv3). We also detected macrosynteny breaks of translocation type involving chromosomes 1 and 8 of V. aconitifolia and P. vulgaris; 2 and 3 of V. aconitifolia and P. vulgaris; and 1 and 5 of V. aconitifolia and V. unguiculata. Considering our data and previous BAC-FISH studies, six chromosomes (1, 2, 3, 4, 5, and 8) are involved in major karyotype divergences between genera and five (1, 2, 3, 4, and 5) between Vigna subgenera, including mechanisms such as duplications, inversions, and translocations. Macrosynteny breaks between Vigna and Phaseolus suggest that the major chromosomal rearrangements have occurred within the Vigna clade. Our cytogenomic comparisons bring new light on the degree of shared macrosynteny and mechanisms of karyotype diversification during Vigna and Phaseolus evolution.
比较细胞遗传学作图是一种深入了解缺乏全基因组测序的孤儿作物基因组组织的强大方法。为了研究重要的豇豆属和菜豆属豆类的细胞基因组进化,我们构建了一个无基因组测序的野豇豆(Vigna aconitifolia,Ceratotropis 亚属)的 BAC-FISH(细菌人工染色体荧光原位杂交)图谱,并与豇豆(V. unguiculata,Vigna 亚属)和菜豆(P. vulgaris)图谱进行了比较。17 个 Pv BAC、8 个 Vu BAC、5S 和 35S rDNA 探针在 11 对 Vac 染色体上进行了原位杂交。五个 Vac 染色体(Vac6、Vac7、Vac9、Vac10 和 Vac11)在 V. unguiculata 和 P. vulgaris 之间表现出保守的宏观同线性和共线性。另一方面,我们观察到涉及 Vac2(Vu2)、Vac4(Vu4)和 Vac3(Pv3)的着丝粒倒位导致的共线性断裂。我们还检测到涉及 V. aconitifolia 和 P. vulgaris 的 1 号和 8 号染色体、V. aconitifolia 和 P. vulgaris 的 2 号和 3 号染色体以及 V. aconitifolia 和 V. unguiculata 的 1 号和 5 号染色体的易位型宏观同线性断裂。考虑到我们的数据和以前的 BAC-FISH 研究,有六个染色体(1、2、3、4、5 和 8)涉及属间的主要核型分歧,五个染色体(1、2、3、4 和 5)涉及 Vigna 亚属间的主要核型分歧,包括复制、倒位和易位等机制。Vigna 和 Phaseolus 之间的宏观同线性断裂表明,主要的染色体重排发生在 Vigna 分支内。我们的细胞基因组比较为 Vigna 和 Phaseolus 进化过程中共享的宏观同线性程度和核型多样化机制提供了新的认识。
