Cooperative genes in smart systems: Toward an inclusive new synthesis in evolution

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-07 DOI:10.1016/j.pbiomolbio.2024.04.001
Peter A. Corning
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Abstract

For more than half a century, biologist Julian Huxley's term, the “Modern Synthesis”, has been used as a label for a model of biological evolution where genetic influences are viewed as a principal source of creativity and change. Over the years, as evidence has accumulated that there are many other, far more important factors at work in evolution, theoretical “compromises,” such as the so-called “Extended Synthesis”, have been proposed. This is no longer tenable. It is time to abandon the Modern Synthesis, and its doppelganger “The Selfish Gene”. Here is the case for a new, multi-faceted, open-ended, “inclusive” evolutionary synthesis, where living systems themselves are recognized as purposeful (teleonomic) “agents” and cooperative effects (synergies) of various kinds are seen as all-important influences.

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智能系统中的合作基因:进化中的包容性新合成
半个多世纪以来,生物学家朱利安-赫胥黎(Julian Huxley)提出的 "现代综合"(Modern Synthesis)一词,一直被用作生物进化模式的标签,在这个模式中,基因影响被视为创造力和变化的主要来源。多年来,随着越来越多的证据表明在进化过程中还有许多其他更为重要的因素在起作用,人们提出了一些理论上的 "折衷方案",如所谓的 "扩展综合"。这已经站不住脚了。现在是放弃现代综合法及其对偶 "自私基因 "的时候了。这里需要一种新的、多方面的、开放式的、"包容性 "的进化综合法,在这种综合法中,生命系统本身被认为是有目的的(目的论)"代理人",而各种合作效应(协同作用)被认为是最重要的影响因素。
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4.30%
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567
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