自私基因元件促进果蝇的一妻多夫制。

Selfish genetic elements promote polyandry in a fly.

作者信息

Price T A R, Hodgson D J, Lewis Z, Hurst G D D, Wedell N

机构信息

School of Biosciences, University of Exeter, Cornwall Campus, Penryn TR10 9EZ, UK.

出版信息

Science. 2008 Nov 21;322(5905):1241-3. doi: 10.1126/science.1163766.

DOI:10.1126/science.1163766

PMID:19023079

Abstract

It is unknown why females mate with multiple males when mating is frequently costly and a single copulation often provides enough sperm to fertilize all a female's eggs. One possibility is that remating increases the fitness of offspring, because fertilization success is biased toward the sperm of high-fitness males. We show that female Drosophila pseudoobscura evolved increased remating rates when exposed to the risk of mating with males carrying a deleterious sex ratio-distorting gene that also reduces sperm competitive ability. Because selfish genetic elements that reduce sperm competitive ability are generally associated with low genetic fitness, they may represent a common driver of the evolution of polyandry.

摘要

尚不清楚为何在交配往往代价高昂且单次交配通常就能提供足够精子使雌性所有卵子受精的情况下，雌性仍会与多个雄性交配。一种可能性是再次交配会提高后代的适应性，因为受精成功偏向于高适应性雄性的精子。我们发现，当雌性黑腹果蝇面临与携带有害性别比例扭曲基因且会降低精子竞争能力的雄性交配的风险时，它们进化出了更高的再次交配率。由于降低精子竞争能力的自私遗传元件通常与低遗传适应性相关，它们可能是一妻多夫制进化的一个常见驱动因素。

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自私基因元件促进果蝇的一妻多夫制。

Selfish genetic elements promote polyandry in a fly.

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