The gastropod Lottia peitaihoensis as a model to study the body patterning of trochophore larvae

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Pin Huan, Baozhong Liu
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引用次数: 0

Abstract

The body patterning of trochophore larvae is important for understanding spiralian evolution and the origin of the bilateral body plan. However, considerable variations are observed among spiralian lineages, which have adopted varied strategies to develop trochophore larvae or even omit a trochophore stage. Some spiralians, such as patellogastropod mollusks, are suggested to exhibit ancestral traits by producing equal-cleaving fertilized eggs and possessing “typical” trochophore larvae. In recent years, we developed a potential model system using the patellogastropod Lottia peitaihoensis (= Lottia goshimai). Here, we introduce how the species were selected and establish sources and techniques, including gene knockdown, ectopic gene expression, and genome editing. Investigations on this species reveal essential aspects of trochophore body patterning, including organizer signaling, molecular and cellular processes connecting the various developmental functions of the organizer, the specification and behaviors of the endomesoderm and ectomesoderm, and the characteristic dorsoventral decoupling of Hox expression. These findings enrich the knowledge of trochophore body patterning and have important implications regarding the evolution of spiralians as well as bilateral body plans.

Abstract Image

以腹足类 Lottia peitaihoensis 为模型,研究蹄足类幼虫的身体形态。
套虫幼虫的身体形态对于了解螺旋体的进化和双侧身体计划的起源非常重要。然而,螺旋亚纲各系之间存在着相当大的差异,它们采取了不同的策略来发育套管幼虫,甚至省略了套管阶段。一些螺旋纲动物,如腹足类软体动物,被认为通过产生等裂受精卵和拥有 "典型的 "蹄足幼虫来展示其祖先的特征。近年来,我们利用腹足类 Lottia peitaihoensis(= Lottia goshimai)建立了一个潜在的模型系统。在此,我们介绍了如何选择该物种,并建立了基因敲除、异位基因表达和基因组编辑等来源和技术。对该物种的研究揭示了三鳃蛙身体模式化的重要方面,包括组织器信号转导、连接组织器各种发育功能的分子和细胞过程、内胚层和外胚层的规范和行为,以及 Hox 表达的背腹分离特征。这些发现丰富了关于蹄足类身体形态的知识,对螺旋体和双侧身体计划的进化具有重要意义。
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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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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