Molecular kinetics of proteins at the surface of porcine sperm before and during fertilization.

Pei-Shiue Tsai, B. Gadella
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引用次数: 18

Abstract

Fertilization is a decisive moment in life and enables the combination of the DNA from two gametes to ultimately form a new organism. The sperm surface, especially the head area, has distinguishable subdomains that are involved in distinct fertilization processes. It is known that the sperm head surface undergoes constant remodelling during epididymal maturation and migration in the male and female genital tract. But intriguingly, the identity, origin and spatial ordering of proteins at the sperm surface that are involved in mammalian fertilization are essentially unknown. This review deals with sperm surface protein modifications that are under somatic cell control. As soon as the sperm is released from the seminiferous tubules it is subjected to these modifications. These surface reorganisations continue until the sperm reside in the fallopian tube where they meet the oocyte and may fertilize it. Most likely, a selective process allows only functionally mature and intact sperm to optimally interact and fertilize the oocyte. Recent data suggest that even the perivitelline fluid is involved in sperm surface remodelling as it contains factors which could facilitate the first penetrating sperm to fertilize the oocyte. In this contribution, the kinetics of proteins at the sperm surface will be overviewed. Better understanding of this would help to design strategies to improve male fertility or to devise novel contraceptives.
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受精前后猪精子表面蛋白质的分子动力学。
受精是生命中一个决定性的时刻,它使两个配子的DNA结合,最终形成一个新的有机体。精子表面,特别是头部区域,具有可区分的子结构域,参与不同的受精过程。众所周知,在男性和女性生殖道的附睾成熟和迁移过程中,精子头部表面经历了不断的重塑。但有趣的是,与哺乳动物受精有关的精子表面蛋白质的身份、起源和空间顺序基本上是未知的。本文综述了受体细胞控制的精子表面蛋白修饰。一旦精子从精管中释放出来,它就会受到这些修饰。这些表面重组一直持续到精子在输卵管中与卵母细胞相遇并使其受精。最有可能的是,选择过程只允许功能成熟和完整的精子最佳地相互作用并使卵母细胞受精。最近的数据表明,即使卵泡周围液也参与了精子表面重塑,因为它含有有助于第一次穿透精子使卵母细胞受精的因素。在这篇文章中,将概述精子表面蛋白质的动力学。更好地理解这一点将有助于设计提高男性生育能力的策略或设计新的避孕方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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