Astyanax mexicanus, the Blind Mexican Cave Fish: A Model for Studies in Development and Morphology.

CSH protocols Pub Date : 2008-11-01 DOI:10.1101/pdb.emo107
Richard Borowsky
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引用次数: 30

Abstract

INTRODUCTIONThe perpetual darkness of caves has two important consequences for permanent inhabitants. First, eyes and pigmentation lose their primary functions. Second, in the absence of photosynthesis, food is rare. For these reasons, cave-adapted species typically have reduced eyes and pigmentation and increased or more efficient metabolisms. Additionally, other senses are usually augmented to compensate for the loss of vision. Identifying the genetic bases underlying these phenotypic changes will enhance our understanding of the specific pathways involved in control of these phenotypes and, in general, the evolutionary process. Unfortunately, the genetics of most cave animals cannot be studied because they are not easily bred. Blind Mexican tetras, Astyanax mexicanus, are the valuable exception to this rule because fish from the various cave populations are fully interfertile with one another and with eyed sister forms still living in nearby surface streams. Hybrids between surface and cave forms permit genetic analysis of their differences, and study of the pure forms as well as of hybrids allows study of their developmental differences. Quantitative trait loci (QTL) analysis has already identified some specific genes responsible for differences between cave and surface forms as well as other likely candidates; more will be added in the future. This system is a valuable addition to the array of existing models for the study of developmental and evolutionary genetics because cave populations are repositories of numerous naturally occurring mutations affecting development of the eyes and other senses, pigmentation, bone structure, metamerism, and metabolism. These alleles have been prescreened by natural selection for high viability, which simplifies their study. In contrast, new alleles obtained through mutagenesis in other model species are typically burdened with lower viability.

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盲墨西哥洞穴鱼:发育和形态研究的一个模型。
洞穴的永久黑暗对永久居民有两个重要的后果。首先,眼睛和色素丧失了它们的主要功能。第二,在没有光合作用的情况下,食物很稀少。由于这些原因,适应洞穴的物种通常有更少的眼睛和色素沉着,增加或更有效的代谢。此外,其他感官通常会增强,以弥补视力的丧失。识别这些表型变化的遗传基础将增强我们对控制这些表型的特定途径的理解,总的来说,是对进化过程的理解。不幸的是,大多数洞穴动物的基因无法研究,因为它们不容易繁殖。盲眼墨西哥鲤(Astyanax mexicanus)是有价值的例外,因为来自不同洞穴种群的鱼彼此之间完全干涉,并且与仍生活在附近地表溪流中的有眼的姐妹形式完全干涉。地表和洞穴形态之间的杂交可以对它们的差异进行遗传分析,对纯形态和杂交形态的研究可以研究它们的发育差异。数量性状位点(QTL)分析已经确定了一些导致洞穴和地表形态差异的特定基因,以及其他可能的候选基因;将来还会添加更多。这个系统是对发育和进化遗传学研究的现有模型阵列的一个有价值的补充,因为洞穴种群是许多自然发生的突变的储存库,这些突变影响着眼睛和其他感官的发育、色素沉着、骨骼结构、同质性和新陈代谢。这些等位基因通过自然选择被预先筛选为高生存能力,从而简化了它们的研究。相比之下,在其他模式物种中通过诱变获得的新等位基因通常具有较低的生存力。
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