The effect of massive gene loss following whole genome duplication on the algorithmic reconstruction of the ancestral populus diploid.

Chunfang Zheng, P Kerr Wall, Jim Leebens-Mack, Victor A Albert, Claude dePamphilis, David Sankoff
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Abstract

We improve on guided genome halving algorithms so that several thousand gene sets, each containing two paralogs in the descendant T of the doubling event and their single ortholog from an undoubled reference genome R, can be analyzed to reconstruct the ancestor A of T at the time of doubling. At the same time, large numbers of defective gene sets, either missing one paralog from T or missing their ortholog in R, may be incorporated into the analysis in a consistent way. We apply this genomic rearrangement distance-based approach to the recently sequenced poplar (Populus trichocarpa) and grapevine (Vitis vinifera) genomes, as T and R respectively.

全基因组复制后大量基因丢失对杨树祖先二倍体算法重建的影响。
我们改进了引导基因组减半算法,从而可以分析数千个基因集,每个基因集在加倍事件的后代T中包含两个相似物,并且它们的单一同源物来自未加倍的参考基因组R,从而重建T在加倍时的祖先A。同时,大量有缺陷的基因集,无论是T中缺少一个平行序列,还是R中缺少其同源序列,都可以以一致的方式纳入分析。我们将这种基于距离的基因组重排方法应用于最近测序的杨树(Populus trichocarpa)和葡萄藤(Vitis vinifera)基因组,分别作为T和R。
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