Regulatory Genes in Eyespot Formation and Function of Mytilus coruscus

IF 2.6 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Minhui Xu, Jiji Li, Hongfei Li, Pengzhi Qi, Yingying Ye, Xiaojun Yan
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引用次数: 0

Abstract

Light sensitivity is important for marine benthic invertebrates, and it plays a vital role in the marine bivalves settling. Animal visual systems are enormously diverse; their development appears to be controlled by a set of conserved retinal determination genes (RDGs). Eyespots, as the simplest animal eyes, their appearance indicates the important effect on mussel larvae attachment. Nevertheless, the molecular mechanism of the eyespot’s development in Mytilus coruscus larvae is not clear. In this study, we identified 11 genes which play a regulatory role in the visual system (i.e. Pax1/9, Pax2/5/8, Pax6, Pax3/7, Six1/2, Six3/6, Six4/5, Dach, Eya, Brn and Tbx2) from transcriptome data and the whole genome sequence of M. coruscus. The results of chromosome localization showed that 11 genes were distributed on different chromosomes. Subcellular mapping revealed that all the proteins except Brn were located in the nucleus. Phylogeny and gene structure analyses revealed that the Pax members were divided into four subfamilies, the Six members were divided into three subfamilies and structures within the same subfamily were relatively conserved. Quantitative real-time PCR (qPCR) showed that Dach, Pax6, Pax3/7, Six1/2 and Six4/5 were expressed at high levels during the pediveliger stage. Moreover, Six1/2 and Six4/5 were highly expressed in mantle tissues. Subsequent overall in situ hybridization experiments in the planktonic larval stage revealed that Pax6, Six1/2 and Six4/5 detected signals in the region of the eyespot. Based on these analyses, we suggested that the development of vision in M. coruscus not only depended on the expression pattern of Pax6, but perhaps also related to Six1/2 and Six4/5 in the planktonic larval stage, while Six1/2 and Six4/5 were the dominant genes for visual function in the adult mussel. This study made a comprehensive analysis of the visual function of M. coruscus at the genome level, which helps us to understand the intrinsic mechanism of the visual system of marine bivalves, and also provides a molecular basis for improving the attachment and metamorphosis rate of M. coruscus larvae.

珊瑚贻贝眼斑形成和功能的调控基因
光敏感性对海洋底栖无脊椎动物非常重要,在海洋双壳类动物的定居过程中也发挥着至关重要的作用。动物的视觉系统多种多样,它们的发育似乎受一组保守的视网膜决定基因(RDGs)控制。眼点作为最简单的动物眼睛,其出现对贻贝幼体的附着有重要影响。然而,贻贝幼体眼点发育的分子机制尚不清楚。本研究从转录组数据和珊瑚贻贝全基因组序列中发现了11个在视觉系统中起调控作用的基因(即Pax1/9、Pax2/5/8、Pax6、Pax3/7、Six1/2、Six3/6、Six4/5、Dach、Eya、Brn和Tbx2)。染色体定位结果显示,11 个基因分布在不同的染色体上。亚细胞图谱显示,除 Brn 外,所有蛋白质都位于细胞核中。系统进化和基因结构分析表明,Pax 成员分为四个亚家族,Six 成员分为三个亚家族,同一亚家族内的结构相对保守。实时定量 PCR(qPCR)结果表明,Dach、Pax6、Pax3/7、Six1/2 和 Six4/5 在幼虫期高水平表达。此外,Six1/2 和 Six4/5 在套管组织中也有高表达。随后在浮游幼虫阶段进行的整体原位杂交实验显示,Pax6、Six1/2 和 Six4/5 在眼点区域检测到信号。根据这些分析,我们认为角杯贻贝的视觉发育不仅取决于Pax6的表达模式,而且可能与浮游幼体期的Six1/2和Six4/5有关,而在成贻贝期,Six1/2和Six4/5是视觉功能的优势基因。该研究在基因组水平上对角杯贻贝的视觉功能进行了全面分析,有助于我们了解海洋双壳类动物视觉系统的内在机制,也为提高角杯贻贝幼体的附着力和变态率提供了分子基础。
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来源期刊
Marine Biotechnology
Marine Biotechnology 工程技术-海洋与淡水生物学
CiteScore
4.80
自引率
3.30%
发文量
95
审稿时长
2 months
期刊介绍: Marine Biotechnology welcomes high-quality research papers presenting novel data on the biotechnology of aquatic organisms. The journal publishes high quality papers in the areas of molecular biology, genomics, proteomics, cell biology, and biochemistry, and particularly encourages submissions of papers related to genome biology such as linkage mapping, large-scale gene discoveries, QTL analysis, physical mapping, and comparative and functional genome analysis. Papers on technological development and marine natural products should demonstrate innovation and novel applications.
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