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Molecular mechanisms underlying hematophagia revealed by comparative analyses of leech genomes

Jinghui Zheng, Xiaobo Wang, Tong Feng, Saif ur Rehman, Xiuying Yan, Huiquan Shan, Xiaocong Ma, Weiguan Zhou, Wenhua Xu, Liying Lu, Jiasheng Liu, Xier Luo, Kuiqing Cui, Chaobin Qin, Wei‐Hua Chen, Jun Yu, Zhipeng Li, Jue Ruan, Qingyou Liu

2022GigaScience23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Leeches have been used in traditional Chinese medicine since prehistoric times to treat a spectrum of ailments, but very little is known about their physiological, genetic, and evolutionary characteristics. FINDINGS: We sequenced and assembled chromosome-level genomes of 3 leech species (bloodsucking Hirudo nipponia and Hirudinaria manillensis and nonbloodsucking Whitmania pigra). The dynamic population histories and genome-wide expression patterns of the 2 bloodsucking leech species were found to be similar. A combined analysis of the genomic and transcriptional data revealed that the bloodsucking leeches have a presumably enhanced auditory sense for prey location in relatively deep fresh water. The copy number of genes related to anticoagulation, analgesia, and anti-inflammation increased in the bloodsucking leeches, and their gene expressions responded dynamically to the bloodsucking process. Furthermore, the expanded FBN1 gene family may help in rapid body swelling of leeches after bloodsucking, and the expanded GLB3 gene family may be associated with long-term storage of prey blood in a leech's body. CONCLUSIONS: The high-quality reference genomes and comprehensive datasets obtained in this study may facilitate innovations in the artificial culture and strain optimization of leeches.

Topics & Concepts

LeechGenomeBiologyPopulationGeneEvolutionary biologyHirudo medicinalisGeneticsZoologyMedicineWorld Wide WebEnvironmental healthComputer scienceLeech Biology and ApplicationsMarine Invertebrate Physiology and EcologyTurtle Biology and Conservation
Molecular mechanisms underlying hematophagia revealed by comparative analyses of leech genomes | Litcius