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从基因到社会。

From genes to societies.

作者信息

Rueppell Olav, Amdam Gro V, Page Robert E, Carey James R

机构信息

Department of Biology, University of North Carolina, Greensboro, NC 27403, USA.

出版信息

Sci Aging Knowledge Environ. 2004 Feb 4;2004(5):pe5. doi: 10.1126/sageke.2004.5.pe5.

DOI:10.1126/sageke.2004.5.pe5
PMID:14762222
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2398693/
Abstract

Research on model organisms has substantially advanced our understanding of aging. However, these studies collectively lack any examination of the element of sociality, an important feature of human biology. Social insects present a number of unique possibilities for investigating social influences on aging and potentially detecting new mechanisms for extremely prolonged, healthy life spans that have evolved naturally. Social evolution has led to life spans in reproductive females that are much longer (up to over 100-fold) than those of males or of nonreproductive worker castes. These differences are particularly dramatic because they are due to environmental influences, as all individuals develop from the same genomes. Social insect colonies consist of semi-autonomous individuals, and the relationship between the colony and the individual creates many interesting predictions in the light of the common theories of aging. Furthermore, the variety of lifestyles of social insects creates the potential for crucial comparative analyses across distinct social systems.

摘要

对模式生物的研究极大地推进了我们对衰老的理解。然而,这些研究总体上缺乏对社会性这一人类生物学重要特征的任何考察。社会性昆虫为研究社会对衰老的影响以及潜在地发现自然进化出的极其长寿且健康的新机制提供了许多独特的可能性。社会进化导致生殖雌性的寿命比雄性或非生殖工蚁阶层的寿命长得多(高达100倍以上)。这些差异尤为显著,因为它们是由环境影响造成的,因为所有个体都由相同的基因组发育而来。社会性昆虫群体由半自主个体组成,根据衰老的常见理论,群体与个体之间的关系产生了许多有趣的预测。此外,社会性昆虫多样的生活方式为跨不同社会系统进行关键的比较分析创造了潜力。

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