利用输卵管生物学为人工授精服务。

William V. Holt, R. M. Elliott, Alireza Fazeli, E. Sostaric, A. S. Georgiou, N. Satake, N. Prathalingam, Paul F. Watson
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引用次数: 16

摘要

精子发挥着单一的作用,即通过将单倍体基因组输送到其对应的配子卵母细胞来实现同父异母。尽管这看起来很简单,但却充满了许多困难,尤其是在雌性与几只雄性交配繁殖后能够选择精子的生物过程面前。相反,女性生殖道在不同的时间段内将一个特权精子亚群隔离在输卵管峡部,在受精时机释放它们。最近对女性生殖道中精子运输的研究表明,这些现象涉及精子与女性生殖道环境之间的信号对话。相互发出信号的机会是巨大的,但受到的关注相对较少。输卵管是调节精子功能的重要器官,可能是决定精子选择和竞争的许多方面的最重要部位之一。输卵管环境具有提高精子存活率、根据需要抑制和激活精子活力的潜力,并通过产生新的蛋白质来响应精子的到来。虽然精子-输卵管对话的生物学性质本身就很有趣,但控制这些过程的机制为改进人工授精程序提供了机会。如果输卵管蛋白能提高精子的存活率,那么它们就为开发长寿命精液稀释剂提供了机会。相反,如果我们了解精子选择的基础,我们可能能够集中精力识别和使用最好的精子亚群,以提高动物繁殖效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Harnessing the biology of the oviduct for the benefit of artificial insemination.
Spermatozoa fulfil a single role, namely achieving syngamy by transporting the haploid genome to their counterpart gamete, the oocyte. Simple as this may seem, it is fraught with many difficulties, especially in the face of biological processes that enable females to select spermatozoa after they have mated multiply with several males. Conversely, the female reproductive tract sequesters a privileged sperm subpopulation in the oviductal isthmus for variable periods of time, releasing them when the time is opportune for fertilisation. Recent studies of sperm transport in the female reproductive tract suggest that these phenomena involve signalling dialogues between spermatozoa and the female reproductive tract environment. Opportunities for mutual signalling are immense but have received relatively little attention. The oviduct is an organ of crucial significance in modulating sperm function and may be one of the most important sites for determining many aspects of sperm selection and competition. The oviductal environment possesses the potential for enhancing sperm survival, suppressing and activating sperm motility as required, and responds to the arrival of spermatozoa by producing novel proteins. While the biological nature of the sperm-oviduct dialogue is interesting for its own sake, the mechanisms that govern these processes offer opportunities for the improvement of artificial insemination procedures. If oviductal proteins enhance sperm survival, they offer opportunities for the development of long-life semen diluents. Conversely, if we understood the basis of sperm selection we may be able to concentrate on identifying and using only the best sperm subpopulations for improved animal breeding efficiency.
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