祖先GC含量的不准确重建会产生“消失的等密度区”效应。

Inaccurate reconstruction of ancestral GC levels creates a "vanishing isochores" effect.

作者信息

Alvarez-Valin Fernando, Clay Oliver, Cruveiller Stéphane, Bernardi Giorgio

机构信息

Secciòn Biomatemàtica, Facultad de Ciencias, Montevideo 11400, Uruguay.

出版信息

Mol Phylogenet Evol. 2004 May;31(2):788-93. doi: 10.1016/j.ympev.2004.01.016.

DOI:10.1016/j.ympev.2004.01.016

PMID:15062812

Abstract

It has recently been proposed, based on an analysis of orthologous gene sequences from closely related species, that GC-rich regions of primate and cetartiodactyl genomes are becoming GC-poorer, i.e., that GC-rich isochores are now vanishing in these lineages. We review an artefact of parsimony-based ancestor reconstruction in GC-rich DNA, and show that its magnitude explains the apparent vanishing of the GC-richest regions in cetartiodactyls, even if they are in fact at compositional equilibrium. The presently available data do not allow the disequilibrium hypothesis to be entirely ruled out in primates, yet, as we argue here, second-order artefacts can accumulate. They are therefore likely to explain many if not all of the observations, rendering unnecessary the general hypothesis of vanishing GC-rich isochores in mammals.

摘要

最近，基于对密切相关物种直系同源基因序列的分析提出，灵长类动物和偶蹄目动物基因组中富含GC的区域正变得GC含量更低，也就是说，富含GC的等密度区目前正在这些谱系中消失。我们回顾了基于简约法的富含GC的DNA中祖先重建的一个假象，并表明其程度解释了偶蹄目动物中最富含GC区域明显消失的现象，即使它们实际上处于组成平衡状态。目前可得的数据尚不能完全排除灵长类动物中的不平衡假说，然而，正如我们在此所论证的，二阶假象可能会累积。因此，它们很可能解释许多（如果不是全部）观察结果，使得哺乳动物中富含GC的等密度区消失这一普遍假说变得不必要。

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祖先GC含量的不准确重建会产生“消失的等密度区”效应。

Inaccurate reconstruction of ancestral GC levels creates a "vanishing isochores" effect.

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