螺旋幼虫研究的新趋势。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Yan Liang, Allan M. Carrillo-Baltodano, José M. Martín-Durán
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引用次数: 0

摘要

许多动物经历了间接发育,胚胎发生产生了一个中间生命阶段,即幼虫,通常是自由生活的,后来蜕变为成虫。与成虫一样,幼虫可以具有独特多样的形态,占据各种生态位。鉴于其广泛的系统发育分布,幼虫一直是动物进化假说的核心。然而,这些中间形式的进化以及使动物生命周期多样化的发育机制仍存在争议。这篇综述的重点是Spiralia,这是一个由两侧对称动物组成的庞大而多样的分支,具有一系列迷人的幼虫形式,最著名的是典型的轮柄幼虫。我们探索了经典研究和现代进步如何提高我们对螺旋幼虫及其发育和进化的理解。具体来说,我们检查了螺旋幼虫的三个形态特征:前神经系统、睫状带和后尿道下裂。将分子和发育证据与现代高通量技术相结合,如比较基因组学、单细胞转录组学和表观基因组学,是一种很有前途的策略,将导致关于螺旋体和动物幼虫进化和生命周期背后机制的新的可测试假设。我们预测,螺旋体可用基因组数量的增加以及全基因组和单细胞方法的优化将开启对许多新兴螺旋体分类群的研究,改变我们对该动物群及其幼虫进化的看法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Emerging trends in the study of spiralian larvae

Emerging trends in the study of spiralian larvae

Emerging trends in the study of spiralian larvae

Many animals undergo indirect development, where their embryogenesis produces an intermediate life stage, or larva, that is often free-living and later metamorphoses into an adult. As their adult counterparts, larvae can have unique and diverse morphologies and occupy various ecological niches. Given their broad phylogenetic distribution, larvae have been central to hypotheses about animal evolution. However, the evolution of these intermediate forms and the developmental mechanisms diversifying animal life cycles are still debated. This review focuses on Spiralia, a large and diverse clade of bilaterally symmetrical animals with a fascinating array of larval forms, most notably the archetypical trochophore larva. We explore how classic research and modern advances have improved our understanding of spiralian larvae, their development, and evolution. Specifically, we examine three morphological features of spiralian larvae: the anterior neural system, the ciliary bands, and the posterior hyposphere. The combination of molecular and developmental evidence with modern high-throughput techniques, such as comparative genomics, single-cell transcriptomics, and epigenomics, is a promising strategy that will lead to new testable hypotheses about the mechanisms behind the evolution of larvae and life cycles in Spiralia and animals in general. We predict that the increasing number of available genomes for Spiralia and the optimization of genome-wide and single-cell approaches will unlock the study of many emerging spiralian taxa, transforming our views of the evolution of this animal group and their larvae.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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