Chromosomal level reference genome of Tachypleus tridentatus provides insights into evolution and adaptation of horseshoe crabs

生物 马蹄蟹 适应(眼睛) 基因组 基因 进化生物学 遗传学 动物 生态学 神经科学
作者
Li Gong,Guangyi Fan,Yandong Ren,Yongjiu Chen,Qiang Qiu,Liqin Liu,Yanli Qin,Bingjian Liu,Lihua Jiang,Haorong Li,Yan Zeng,Qionghua Gao,Chen Zhang,Zhongkai Wang,Hui Jiang,Jinfu Tian,He Zhang,Xin Liu,Xun Xu,Wen Wang
出处
期刊:Molecular Ecology Resources [Wiley]
卷期号:19 (3): 744-756 被引量:30
标识
DOI:10.1111/1755-0998.12988
摘要

Abstract Horseshoe crabs including Tachypleus tridentatus are a group of marine arthropods and living fossil species which have existed on the earth for ~500 million years. However, the genetic mechanisms underlying their unique adaptive ability are still unclear. Here, we assembled the first chromosome‐level T. tridentatus genome, and proved that this genome is of high quality with contig N50 1.69 Mb. By comparison with other arthropods, some gene families of T. tridentatus experienced significant expansion, which are related to several signaling pathways, endonuclease activities, and metabolic processes. Based on the results of comparative analysis of genomics and 27 transcriptomes from nine tissues, we found that the expanded Dscam genes are located at key hub positions of immune network. Furthermore, the Dscam genes showed higher levels of expression in the yellow connective tissue (the birthplace of blood cells with strong differentiation capability) than the other eight tissues. Besides, the Dscam genes are positively correlated with the expression of the core immunity gene, clotting factor B, which is involved in the coagulation cascade reaction. The effective and unusual immune ability endowed by the expansion and expression of Dscam genes in the horseshoe crab may be a factor that makes the species have a strong environmental adaptability within ~500 million years. The high quality chromosome level genome of a horseshoe crab and unique genomic features reported in this study provide important data resources for future studies on the evolution of marine ecological systems.
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