哺乳动物的衰老是一种程序化的生命周期功能--解决因果难题。

IF 3.2 3区 生物学 Q3 MATERIALS SCIENCE, BIOMATERIALS
Theodore C. Goldsmith
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引用次数: 0

摘要

由于衰老和由内部决定的寿命在同类物种之间存在很大差异,现在人们普遍认为衰老是一种进化的特征,由此产生了两类进化衰老理论:衰老是由复杂的生物机制编程的,而衰老则不是编程的。早在 2002 年,人们就认为程序化衰老在理论上是不可能的。然而,遗传学的发现、选择性繁殖的结果以及其他直接证据有力地支持了这样一种观点,即衰老创造了一种进化优势,因此哺乳动物和其他多配偶生物进化出了控制衰老的复杂生物机制。与控制繁殖、生长和绝经的生命周期程序一样,衰老程序可以在个体生命过程中调整衰老特征,以补偿外部条件的暂时或局部变化,从而改变特定物种种群的最佳寿命。遗传学的发现也有力地支持了可进化性概念,即有性繁殖的物种可以进化出提高其进化能力的设计特征,衰老就是这样的特征之一。遗传学的发现还证明,生物遗传涉及任何生物的亲代和后代之间以数字形式传递生物设计信息。这对进化过程具有重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mammal Aging as a Programmed Life Cycle Function – Resolving the Cause and Effect Conundrum

Mammal Aging as a Programmed Life Cycle Function – Resolving the Cause and Effect Conundrum

Because aging and internally determined lifespan vary greatly between similar species it is now widely accepted that aging is an evolved trait, resulting in two classes of evolutionary aging theories: aging is programmed by complex biological mechanisms, and aging is not programmed. As recently as 2002 programmed aging is thought to be theoretically impossible. However, genetics discoveries, results of selective breeding, and other direct evidence strongly support the idea that aging creates an evolutionary advantage and that therefore complex biological mechanisms evolved that control aging in mammals and other multiparous organisms. Like life-cycle programs that control reproduction, growth, and menopause the aging program can adjust the aging trait during an individual's life to compensate for temporary or local changes in external conditions that alter the optimum lifespan for a particular species population. Genetics discoveries also strongly support the evolvability concept to the effect that sexually reproducing species can evolve design features that increase their ability to evolve, and that aging is one such feature. Genetics discoveries also prove that biological inheritance involves transmission of organism design information in digital form between parent and descendant of any organism. This has major implications for the evolution process.

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来源期刊
Advanced biology
Advanced biology Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
6.60
自引率
0.00%
发文量
130
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