University of Wisconsin-Madison, Botany Department/Birge Hall, 430 Lincoln Drive, Madison, Wisconsin 53706-1381 USA.
Am J Bot. 2009 Oct;96(10):1839-48. doi: 10.3732/ajb.0800359. Epub 2009 Sep 17.
Many crops are polyploids, and it can be challenging to untangle the often complicated history of their origins of domestication and origins of polyploidy. To complement other studies of the origins of polyploidy of the octoploid tuber crop oca (Oxalis tuberosa) that used DNA sequence data and phylogenetic methods, we here compared AFLP data for oca with four wild, tuber-bearing Oxalis taxa found in different regions of the central Andes. Results confirmed the divergence of two use-categories of cultivated oca that indigenous farmers use for different purposes, suggesting the possibility that they might have had separate origins of domestication. Despite previous results with nuclear-encoded, chloroplast-expressed glutamine synthetase suggesting that O. picchensis might be a progenitor of oca, AFLP data of this species, as well as different populations of wild, tuber-bearing Oxalis found in Lima Department, Peru, were relatively divergent from O. tuberosa. Results from all analytical methods suggested that the unnamed wild, tuber-bearing Oxalis found in Bolivia and O. chicligastensis in NW Argentina are the best candidates as the genome donors for polyploid O. tuberosa, but the results were somewhat equivocal about which of these two taxa is the more strongly supported as oca's progenitor.
许多作物都是多倍体,要理清它们的驯化起源和多倍体起源的复杂历史往往具有挑战性。为了补充其他关于八倍体块根作物秘鲁菝葜(Oxalis tuberosa)多倍体起源的研究,这些研究使用了 DNA 序列数据和系统发育方法,我们在这里比较了 AFLP 数据与在安第斯山脉中部不同地区发现的四个野生、具块根的 Oxalis 类群。结果证实了两种栽培秘鲁菝葜用途类别的分化,当地农民出于不同目的使用这两种用途类别,这表明它们可能有不同的驯化起源。尽管先前使用核编码、叶绿体表达的谷氨酰胺合成酶的结果表明 O. picchensis 可能是秘鲁菝葜的祖先,但该物种的 AFLP 数据以及在秘鲁利马省发现的不同野生、具块根的 Oxalis 种群与 O. tuberosa 差异较大。所有分析方法的结果表明,在玻利维亚发现的未命名野生、具块根的 Oxalis 和在阿根廷西北部的 O. chicligastensis 是多倍体 O. tuberosa 的最佳基因组供体候选,但这些结果在这两个类群中哪一个更强烈地支持作为秘鲁菝葜的祖先有些模棱两可。
