On the evolution of development.

J. Torday
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引用次数: 40

Abstract

Perhaps development is more than just morphogenesis. We now recognize that the conceptus expresses epigenetic marks that heritably affect it phenotypically, indicating that the offspring are to some degree genetically autonomous, and that ontogeny and phylogeny may coordinately determine the fate of such marks. This scenario mechanistically links ecology, ontogeny and phylogeny together as an integrated mechanism for evolution for the first time. As a functional example, the Parathyroid Hormone-related Protein (PTHrP) signaling duplicated during the Phanerozoic water-land transition. The PTHrP signaling pathway was critical for the evolution of the skeleton, skin barrier, and lung function, based on experimental evidence, inferring that physiologic stress can profoundly affect adaptation through internal selection, giving seminal insights to how and why vertebrates were able to evolve from water to land. By viewing evolution from its inception in unicellular organisms, driven by competition between pro- and eukaryotes, the emergence of complex biologic traits from the unicellular cell membrane offers a novel way of thinking about the process of evolution from its beginnings, rather than from its consequences as is traditionally done. And by focusing on the epistatic balancing mechanisms for calcium and lipid homeostasis, the evolution of unicellular organisms, driven by competition between pro- and eukaryotes, gave rise to the emergence of complex biologic traits derived from the unicellular plasma lemma, offering a unique way of thinking about the process of evolution. By exploiting the cellular-molecular mechanisms of lung evolution as ontogeny and phylogeny, the sequence of events for the evolution of the skin, kidney and skeleton become more transparent. This novel approach to the evolution question offers equally novel insights to the primacy of the unicellular state, hologenomics and even a priori bioethical decisions.
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论发展的演变。
也许发育不仅仅是形态发生。我们现在认识到,这个概念表达了表观遗传标记,这些标记在表型上遗传地影响着它,这表明后代在某种程度上是遗传自主的,个体发育和系统发育可能协调地决定了这些标记的命运。这一设想首次将生态学、个体发生学和系统发生学有机地联系在一起,形成一个完整的进化机制。作为一个功能上的例子,甲状旁腺激素相关蛋白(PTHrP)信号在显生宙水陆过渡期间复制。基于实验证据,PTHrP信号通路对骨骼、皮肤屏障和肺功能的进化至关重要,推断生理应激可以通过内部选择深刻影响适应,为脊椎动物如何以及为什么能够从水进化到陆地提供了重要的见解。通过观察单细胞生物在原核生物和真核生物之间竞争的驱动下的进化,从单细胞细胞膜中出现的复杂生物特征提供了一种新的方式来思考进化过程的开始,而不是像传统的那样从其后果出发。通过关注钙和脂质稳态的上位平衡机制,在真核生物和原核生物竞争的驱动下,单细胞生物的进化产生了源自单细胞浆原质的复杂生物性状,为思考进化过程提供了一种独特的方式。通过将肺进化作为个体发生和系统发生的细胞分子机制加以利用,皮肤、肾脏和骨骼的进化事件序列变得更加透明。这种解决进化问题的新方法为单细胞状态、全基因组学甚至先验的生物伦理决策提供了同样新颖的见解。
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