关于基因组复杂性进化或人类地位持续被撼动的非适应主义观点。

A non-adaptationist perspective on evolution of genomic complexity or the continued dethroning of man.

作者信息

Koonin Eugene V

机构信息

National Center for Biotechnology Information, National Library of Medicine, National Institutes of Health, 8600 Rockville Pike, Bldg. 38A, Bethesda, Maryland 20894, USA.

出版信息

Cell Cycle. 2004 Mar;3(3):280-5. Epub 2004 Mar 1.

PMID:14726650

Abstract

A new, non-adaptationist theory of evolution of genomic complexity was recently proposed by Lynch and Conery. This concept holds that increase in complexity seen in eukaryotic genomes is a 'syndrome' caused by increase in genome entropy, which is inevitably triggered by reduction of population size. Here, I discuss the definitions of genomic entropy and complexity and the evidence supporting the entropic theory of genome complexity evolution, including new observations on concordant gain and loss of genes and introns in eukaryotic genomes. I further consider the far-reaching biological and philosophical implications of this theory.

摘要

林奇（Lynch）和科纳里（Conery）最近提出了一种全新的、非适应性的基因组复杂性进化理论。这一概念认为，真核生物基因组中所观察到的复杂性增加是由基因组熵增加所导致的一种“综合征”，而基因组熵的增加不可避免地是由种群规模缩小所引发的。在此，我将讨论基因组熵和复杂性的定义，以及支持基因组复杂性进化熵理论的证据，包括关于真核生物基因组中基因和内含子协同增减的新观察结果。我还将进一步思考这一理论所具有的深远生物学和哲学意义。

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关于基因组复杂性进化或人类地位持续被撼动的非适应主义观点。

A non-adaptationist perspective on evolution of genomic complexity or the continued dethroning of man.

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