Cornell University, Ithaca, New York 14853, USA.
Am J Bot. 2011 Oct;98(10):1633-46. doi: 10.3732/ajb.1000318. Epub 2011 Sep 29.
Although there is growing evidence that autopolyploidy is a widespread and important evolutionary phenomenon, it has received less attention than allopolyploidy. Medicago sativa comprises several diploid and autopolyploid taxa, including autotetraploid cultivated alfalfa, and affords an opportunity to elucidate the evolutionary history of a morphologically and genetically complex autopolyploid system.
Phylogenies and haplotype networks were constructed from two chloroplast noncoding regions (rpl20-rps12 and trnS-trnG spacers) across seven diploid and polyploid infraspecific taxa of M. sativa and five additional closely related Medicago species, and genetic differentiation was estimated.
The two most prominent M. sativa autopolyploids have contrasting evolutionary histories. Chloroplast data support a simple autopolyploid origin of subsp. sativa (alfalfa) from diploid subsp. caerulea, from which it is distinguishable in several quantitative characters. In contrast, morphologically identical diploid and autopolyploid cytotypes of subsp. falcata were found to possess very different chloroplast haplotypes, suggesting past introgression from M. prostrata into the polyploid. Despite the presence of hybrids between tetraploid subspecies falcata and sativa, there was little evidence of introgression of chloroplast genomes from either subspecies into the other.
Autopolyploid evolution in M. sativa is complicated and has followed very different paths in different subspecific taxa. The potential exists for gene flow in virtually all combinations of subspecies both within and between ploidies, yet despite the existence of hybrids, morphologically and genetically distinctive subspecies persist.
尽管越来越多的证据表明,自体多倍体是一种广泛而重要的进化现象,但它受到的关注不如异源多倍体多。紫花苜蓿包括几个二倍体和自体多倍体分类群,包括自体四倍体栽培的紫花苜蓿,为阐明形态和遗传复杂的自体多倍体系统的进化历史提供了机会。
从两个叶绿体非编码区(rpl20-rps12 和 trnS-trnG 间隔区)构建了七个紫花苜蓿二倍体和多倍体亚种以及五个其他密切相关的 Medicago 种的系统发育和单倍型网络,并估计了遗传分化。
两个最突出的紫花苜蓿自体多倍体具有不同的进化历史。叶绿体数据支持 subsp. sativa(紫花苜蓿)从二倍体 subsp. caerulea 简单的自体多倍体起源,在几个数量性状上可与后者区分开来。相比之下,形态相同的 subsp. falcata 的二倍体和自体多倍体细胞型却具有非常不同的叶绿体单倍型,这表明过去曾从 M. prostrata 向多倍体中发生过基因渗入。尽管存在四倍体亚种 falcata 和 sativa 之间的杂种,但几乎没有证据表明叶绿体基因组从一个亚种渗入到另一个亚种。
紫花苜蓿的自体多倍体进化是复杂的,在不同的亚种中遵循着非常不同的途径。在种内和种间的几乎所有亚种组合中都存在基因流的潜力,但尽管存在杂种,形态和遗传上独特的亚种仍然存在。
