A meiotic driver alters sperm form and function in house mice: a possible example of spite.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-09-01 Epub Date: 2022-06-01 DOI:10.1007/s10577-022-09695-4
Lennart Winkler, Anna K Lindholm
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Abstract

The ability to subvert independent assortment of chromosomes is found in many meiotic drivers, such as the t haplotype in house mice Mus musculus, in which the t-bearing chromosomal homolog is preferentially transmitted to offspring. This is explained by a poison-antidote system, in which developing + and t sperm in testes of + /t males are exposed to 'poison' coded by t loci, from which t sperm are protected, allowing t sperm an overwhelming fertilisation advantage in monogamous matings. This system is thought to result in poorly and normally motile sperm subpopulations within + /t sperm, leaving t sperm unharmed. Conversely, we found that the fastest quartile of sperm from + /t males swam more slowly, both forwards and along their travel path, and had reduced straightness and linearity, compared to the fastest quartile of + / + sperm. Moreover, sperm from + /t males had shorter tails and narrower heads than + / + sperm, and these morphological differences covaried with motility differences. Finally, + /t traits did not show evidence of bimodal distributions. We conclude that the t haplotype drive results in lasting damage to the motility of both + and t developing sperm, although previous studies indicate that + must be more harmed than t sperm. This damage to all sperm may explain the low success of + /t males in sperm competition with + / + males, seen in earlier studies. We propose that the harm the t causes to itself could be termed 'spiteful', which may also be common to other gamete-harming meiotic drive systems.

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减数分裂驱动因素改变家鼠精子的形态和功能:一个可能的例子
许多减数分裂驱动因子都具有颠覆染色体独立分类的能力,例如家鼠麝的 t 单倍型,其中携带 t 的染色体同源物优先传递给后代。这可以用 "毒-解毒剂 "系统来解释,在该系统中,+/t 雄性睾丸中发育中的 + 和 t 精子暴露于由 t 基因座编码的 "毒药 "中,而 t 精子则受到保护,从而使 t 精子在一夫一妻制交配中具有压倒性的受精优势。这一系统被认为会导致+ /t精子中运动能力差且正常的精子亚群,而t精子则不会受到伤害。相反,我们发现,与+ / +精子中最快的四分之一相比,+ /t雄性精子中最快的四分之一向前游动和沿游动路径游动的速度更慢,直线度和线性度也更低。此外,与+ / +精子相比,+ /t雄性精子的尾部更短,头部更窄,这些形态差异与运动性差异相关。最后,+ /t性状没有显示出双峰分布的证据。我们的结论是,t单倍型驱动会对发育中的+和t精子的运动能力造成持久损害,尽管之前的研究表明+精子受到的损害一定比t精子更大。对所有精子造成的这种损害也许可以解释为什么在早期的研究中,+/t 雄性在与 + / + 雄性的精子竞争中成功率很低。我们认为,t对自身造成的伤害可以被称为 "唾弃",这可能也是其他配子伤害减数分裂驱动系统的共同特点。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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