Genome-wide identification and expression profiling of the Wnt gene family in three abalone species.

IF 1.6 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Genes & genomics Pub Date : 2024-10-14 DOI:10.1007/s13258-024-01579-7

Qian Zhang, Yangtao Fu, Yanyan Zhang, Hourong Liu

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引用次数: 0

Abstract

Background: The Wnt gene family plays pivotal roles in a variety of biological processes including cell proliferation and differentiation, apoptosis, and embryonic development. Identifying the Wnt signaling pathway in abalone could provide a basis for elucidating growth and development mechanisms and improving quality.

Objective: To identify the number, protein physicochemical properties, gene structure, phylogenetic analysis, and expression profiles of the Wnt gene family in abalone.

Methods: A comprehensive genome-wide analysis was performed to identify the Wnt gene family in the genomes of three abalone species (Haliotis discus hannai, H. rubra, and H. rufescens).

Results: Ten single-copy Wnt genes were identified in each abalone species, suggesting that the number of Wnt genes was relatively conserved in Haliotis. Eight Wnt gene subfamilies, including Wnt1, Wnt4, Wnt5, Wnt6, Wnt7, Wnt10, Wnt16, and WntA, are present in all three species. Each abalone species contains two species-specific subfamilies (Wnt9 and Wnt11 in H. discus hannai, Wnt2 and Wnt11 in H. rubra, and Wnt2 and Wnt9 in H. rufescens), reflecting polymorphisms of the Wnt genes in Haliotis. Interestingly, gastropods are characterised by the loss of Wnt8, suggesting a potential evolutionary specificity in gastropods. As expected, Wnt3 is absent in all protostomes, including the abalone. In addition, spatio-temporal expression profiling revealed differential expression levels of the Wnt genes at different developmental stages and in different tissues of H. discus hannai. HdWnt5 and HdWntA might participate in several processes during larval development stages, including germ layer formation and body axis elongation. HdWnt5 may be involved in eye and tentacle development. HdWnt10 may be related to muscle development, and HdWnt6 may be involved in shell formation in abalone.

Conclusion: To our knowledge, the results of this study, which is the first genome-wide investigation of the Wnt gene family in abalone, lay the groundwork for future research on the evolution and function of the Wnt gene family in Gastropoda.

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三种鲍鱼中 Wnt 基因家族的全基因组鉴定和表达谱分析。

背景：Wnt基因家族在细胞增殖和分化、细胞凋亡和胚胎发育等多种生物学过程中发挥着关键作用。确定鲍鱼体内的 Wnt 信号通路可为阐明鲍鱼的生长发育机制和提高鲍鱼品质提供依据：确定鲍鱼体内 Wnt 基因家族的数量、蛋白质理化性质、基因结构、系统发育分析和表达谱：方法：对三种鲍鱼（Haliotis discus hannai、H. rubra 和 H. rufescens）基因组中的 Wnt 基因家族进行了全面的全基因组分析：结果：在每个鲍鱼物种中都发现了 10 个单拷贝 Wnt 基因，这表明鲍鱼中 Wnt 基因的数量相对保守。三个物种中都存在八个 Wnt 基因亚家族，包括 Wnt1、Wnt4、Wnt5、Wnt6、Wnt7、Wnt10、Wnt16 和 WntA。每个鲍鱼物种都包含两个物种特异性亚家族（H. discus hannai 的 Wnt9 和 Wnt11，H. rubra 的 Wnt2 和 Wnt11，以及 H. rufescens 的 Wnt2 和 Wnt9），反映了鲍鱼体内 Wnt 基因的多态性。有趣的是，腹足纲动物的特点是 Wnt8 的缺失，这表明腹足纲动物可能具有进化特异性。不出所料，包括鲍鱼在内的所有原脊椎动物都没有 Wnt3。此外，时空表达谱分析显示，在盘鲍的不同发育阶段和不同组织中，Wnt基因的表达水平存在差异。HdWnt5和HdWntA可能参与了幼体发育阶段的多个过程，包括胚层形成和体轴伸长。HdWnt5 可能参与了眼睛和触角的发育。HdWnt10 可能与肌肉发育有关，而 HdWnt6 可能参与鲍鱼壳的形成：据我们所知，本研究是首次对鲍鱼的 Wnt 基因家族进行全基因组调查，其结果为今后研究腹足纲动物中 Wnt 基因家族的进化和功能奠定了基础。

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

Genes & genomics 生物-生化与分子生物学

CiteScore

3.70

自引率

4.80%

发文量

131

审稿时长

6-12 weeks

期刊介绍： Genes & Genomics is an official journal of the Korean Genetics Society (http://kgenetics.or.kr/). Although it is an official publication of the Genetics Society of Korea, membership of the Society is not required for contributors. It is a peer-reviewed international journal publishing print (ISSN 1976-9571) and online version (E-ISSN 2092-9293). It covers all disciplines of genetics and genomics from prokaryotes to eukaryotes from fundamental heredity to molecular aspects. The articles can be reviews, research articles, and short communications.