New genes helped acorn barnacles adapt to a sessile lifestyle

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dc.contributor.authorZhaofang Ha
dc.contributor.author韩兆方
dc.contributor.authorZhixuan Wang
dc.contributor.author王志轩
dc.contributor.authorDaniel Rittschof
dc.contributor.authorZekun Huang 
dc.contributor.author黄泽坤
dc.contributor.authorLiying Chen
dc.contributor.author陈丽英
dc.contributor.authorHuanhuan Hao
dc.contributor.author郝欢欢
dc.contributor.authorShanshan Yao
dc.contributor.author姚珊珊
dc.contributor.authorPei Su
dc.contributor.author苏培
dc.contributor.authorMiaoqin Huang
dc.contributor.author黄妙琴
dc.contributor.authorYuan-Ye Zhang
dc.contributor.author张原野
dc.contributor.authorCaihuan Ke
dc.contributor.author柯才焕
dc.contributor.authorDanqing Feng
dc.contributor.author冯丹青
dc.date.accessioned2024-11-12T07:46:27Z
dc.date.available2024-11-12T07:46:27Z
dc.date.issued2024-04-23
dc.description藤壶作为海洋“躺平侠”,是甲壳动物中唯一营固着生活的类群。藤壶能够分泌藤壶胶,具有在水环境下快速凝固的特征,是重要的仿生材料。但是,藤壶常会附着于船舶、水产养殖网衣等设施表面,对海洋民用和军用装备造成了严重危害,是代表性污损生物。然而,藤壶固着及其适应固着生活的外壳都是其在适应特殊生境过程中形成的独特性状,这些独特性状的遗传基础可能源于类群特有的、在演化过程中形成的新基因。海洋与地球学院、海水养殖生物育种全国重点实验室柯才焕、冯丹青教授团队和环境与生态学院、滨海湿地生态系统教育部重点实验室张原野副教授团队合作在海洋生物基因组学和污损生物附着研究领域取得最新进展。该研究分析了代表性海洋污损生物藤壶附着和壳形成过程,通过探究新基因bcs-6和bsf的起源和功能,揭示了新基因为生物适应独特生境提供关键遗传基础,为海洋防污损技术和仿生材料研发提供重要见解。 该论文共同第一作者为厦门大学海洋与地球学院博士后韩兆方和博士生王志轩,共同通讯作者包括海洋与地球学院冯丹青教授、柯才焕教授和环境与生态学院张原野副教授。其他作者包括美国杜克大学教授Daniel Rittschof,厦门大学博士后黄泽坤,博士生陈丽英、郝欢欢、姚珊珊,工程师苏培、黄妙琴。zh_CN
dc.description.abstract【Abstract】Barnacles are the only sessile lineages among crustaceans, and their sessile life begins with the settlement of swimming larvae (cyprids) and the formation of protective shells. These processes are crucial for adaptation to a sessile lifestyle, but the underlying molecular mechanisms remain poorly understood. While investigating these mechanisms in the acorn barnacle, Amphibalanus amphitrite, we discovered a new gene, bcs-6, which is involved in the energy metabolism of cyprid settlement and originated from a transposon by acquiring the promoter and cis-regulatory element. Unlike mollusks, the barnacle shell comprises alternate layers of chitin and calcite and requires another new gene, bsf, which generates silk-like fibers that efficiently bind chitin and aggregate calcite in the aquatic environment. Our findings highlight the importance of exploring new genes in unique adaptative scenarios, and the results will provide important insights into gene origin and material development.zh_CN
dc.description.sponsorshipWe thank Y. Wu for assistance with sample collection, Y. Zou for help with data submission and G. Duan and M. Han for their support in making the schematic drawings of barnacles, all from Xiamen University. Z.F. acknowledges funding from the National Natural Science Foundation of China (32102775). Y.-Y.Z. acknowledges funding from the National Natural Science Foundation of China (32071485). D.F. acknowledges funding from the National Natural Science Foundation of China (42376090), the National Key Research and Development Program of China (2022YFC3106004 and 2022YFC3103904), the Project of Fujian Ocean Synergy Alliance (FOCAL2023-0302), the Science and Technology Project of Fujian Province (2022H0003) and the MEL-RLAB Program (202101). 该研究获得国家自然科学基金项目(32102775,32071485和42376090)以及国家重点研发计划项目(2022YFC3106004和2022YFC3103904)等的联合资助。zh_CN
dc.identifier.citationNature Genetics,2024,56:970-981zh_CN
dc.identifier.issn1061-4036
dc.identifier.urihttps://www.nature.com/articles/s41588-024-01733-7
dc.identifier.urihttps://doi.org/10.1038/s41588-024-01733-7
dc.identifier.urihttps://dspace.xmu.edu.cn/handle/2288/220360
dc.language.isoenzh_CN
dc.publisherSpringer Nature Limitedzh_CN
dc.relation.isreferencedbyhttps://news.xmu.edu.cn/info/1045/466361.htm
dc.subjectFunctional genomicszh_CN
dc.subjectGene expressionzh_CN
dc.titleNew genes helped acorn barnacles adapt to a sessile lifestylezh_CN
dc.typeJournal Paperzh_CN

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