脊椎动物的胎生进化。

4区 生物学 Q3 Medicine
Wesley C Warren, Frank Grutzner
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引用次数: 2

摘要

在脊椎动物的生命树中,胎生或活产已经独立进化了许多次,从而产生了丰富多样的生殖策略。胎生被认为是一种生殖模式,从祖先的卵生或产卵状态进化而来,其中大多数胎儿的发育发生在体外。今天,没有一个简单的宇称转换模型来解释这种繁殖模式上的物种特异性差异。大多数证据表明,一系列渐进的进化适应解释了这种繁殖现象,各种胎生鳞片动物优雅地展示了由母体和胚胎组织并列形成的胎盘,这与兽类哺乳动物形成胎盘的组织具有重要的同源性。在一个许多脊椎动物物种的基因组变得可用的时代,研究现在正在探索这种从卵生到胎生的转变的分子基础,以及在一些罕见的情况下其可能的可逆性,例如澳大利亚三趾石龙子(Saiphos equalis)。与鳞片动物的胎次多样性相反,哺乳动物是胎生的,产卵的单孔动物除外。先进的计算工具,加上利用不同生殖策略的物种间基因组可用性的增加,有望揭示祖先从卵生到胎生过渡的分子基础。因此,伴随这些胎次变化的生殖生理学和解剖学的巨大变化可以被重新解释。本章将使用系统发育框架简要探讨脊椎动物的繁殖模式,并在可能的情况下强调潜在候选基因的作用,这些基因可能有助于解释活产的多基因起源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Evolution of Viviparity in Vertebrates.

In the vertebrate tree of life, viviparity or live birth has independently evolved many times, resulting in a rich diversity of reproductive strategies. Viviparity is believed to be a mode of reproduction that evolved from the ancestral condition of oviparity or egg laying, where most of the fetal development occurs outside the body. Today, there is not a simple model of parity transition to explain this species-specific divergence in modes of reproduction. Most evidence points to a gradual series of evolutionary adaptations that account for this phenomenon of reproduction, elegantly displayed by various viviparous squamates that exhibit placentae formed by the appositions of maternal and embryonic tissues, which share significant homology with the tissues that form the placenta in therian mammals. In an era where the genomes of many vertebrate species are becoming available, studies are now exploring the molecular basis of this transition from oviparity to viviparity, and in some rare instances its possible reversibility, such as the Australian three-toed skink (Saiphos equalis). In contrast to the parity diversity in squamates, mammals are viviparous with the notable exception of the egg-laying monotremes. Advancing computational tools coupled with increasing genome availability across species that utilize different reproductive strategies promise to reveal the molecular underpinnings of the ancestral transition of oviparity to viviparity. As a result, the dramatic changes in reproductive physiology and anatomy that accompany these parity changes can be reinterpreted. This chapter will briefly explore the vertebrate modes of reproduction using a phylogenetic framework and where possible highlight the role of potential candidate genes that may help explain the polygenic origins of live birth.

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来源期刊
CiteScore
2.00
自引率
0.00%
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期刊介绍: "Advances in Anatomy, Embryology and Cell Biology" presents critical reviews on all topical fields of normal and experimental anatomy including cell biology. The multi-perspective presentation of morphological aspects of basic biological phenomen in the human constitutes the main focus of the series. The contributions re-evaluate the latest findings and show ways for further research.
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