扇贝基因组为两侧对称动物核型的进化及发育提供了见解。

Scallop genome provides insights into evolution of bilaterian karyotype and development.

作者信息

Wang Shi, Zhang Jinbo, Jiao Wenqian, Li Ji, Xun Xiaogang, Sun Yan, Guo Ximing, Huan Pin, Dong Bo, Zhang Lingling, Hu Xiaoli, Sun Xiaoqing, Wang Jing, Zhao Chengtian, Wang Yangfan, Wang Dawei, Huang Xiaoting, Wang Ruijia, Lv Jia, Li Yuli, Zhang Zhifeng, Liu Baozhong, Lu Wei, Hui Yuanyuan, Liang Jun, Zhou Zunchun, Hou Rui, Li Xue, Liu Yunchao, Li Hengde, Ning Xianhui, Lin Yu, Zhao Liang, Xing Qiang, Dou Jinzhuang, Li Yangping, Mao Junxia, Guo Haobing, Dou Huaiqian, Li Tianqi, Mu Chuang, Jiang Wenkai, Fu Qiang, Fu Xiaoteng, Miao Yan, Liu Jian, Yu Qian, Li Ruojiao, Liao Huan, Li Xuan, Kong Yifan, Jiang Zhi, Chourrout Daniel, Li Ruiqiang, Bao Zhenmin

机构信息

Key Laboratory of Marine Genetics and Breeding (Ocean University of China), Ministry of Education, Qingdao 266003, China.

Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao 266237, China.

出版信息

Nat Ecol Evol. 2017 Apr 3;1(5):120. doi: 10.1038/s41559-017-0120.

DOI:10.1038/s41559-017-0120

PMID:28812685

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10970998/

Abstract

Reconstructing the genomes of bilaterian ancestors is central to our understanding of animal evolution, where knowledge from ancient and/or slow-evolving bilaterian lineages is critical. Here we report a high-quality, chromosome-anchored reference genome for the scallop Patinopecten yessoensis, a bivalve mollusc that has a slow-evolving genome with many ancestral features. Chromosome-based macrosynteny analysis reveals a striking correspondence between the 19 scallop chromosomes and the 17 presumed ancestral bilaterian linkage groups at a level of conservation previously unseen, suggesting that the scallop may have a karyotype close to that of the bilaterian ancestor. Scallop Hox gene expression follows a new mode of subcluster temporal co-linearity that is possibly ancestral and may provide great potential in supporting diverse bilaterian body plans. Transcriptome analysis of scallop mantle eyes finds unexpected diversity in phototransduction cascades and a potentially ancient Pax2/5/8-dependent pathway for noncephalic eyes. The outstanding preservation of ancestral karyotype and developmental control makes the scallop genome a valuable resource for understanding early bilaterian evolution and biology.

摘要

重建两侧对称动物祖先的基因组对于我们理解动物进化至关重要，来自古老和/或进化缓慢的两侧对称动物谱系的知识至关重要。在此，我们报告了栉孔扇贝（Patinopecten yessoensis）的高质量、染色体锚定参考基因组，栉孔扇贝是一种双壳类软体动物，其基因组进化缓慢，具有许多祖先特征。基于染色体的宏观共线性分析揭示了19条扇贝染色体与17个假定的祖先两侧对称动物连锁群之间惊人的对应关系，其保守程度前所未见，这表明扇贝的核型可能与两侧对称动物祖先的核型相近。扇贝Hox基因的表达遵循一种新的亚簇时间共线性模式，这种模式可能是祖先的，并且可能在支持多样化的两侧对称动物身体结构方面具有巨大潜力。对扇贝外套膜眼的转录组分析发现，光转导级联反应中存在意想不到的多样性，以及一条可能古老的、依赖Pax2/5/8的非头部眼睛通路。祖先核型和发育控制的出色保存使得扇贝基因组成为理解早期两侧对称动物进化和生物学的宝贵资源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/089d/10970998/b2ff42a9e7e8/41559_2017_Article_BFs415590170120_Fig1_HTML.jpg

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扇贝基因组为两侧对称动物核型的进化及发育提供了见解。

Scallop genome provides insights into evolution of bilaterian karyotype and development.

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