Author
Listed:
- Yuli Li
(Ocean University of China)
- Xiaoqing Sun
(Novogene Bioinformatics Institute)
- Xiaoli Hu
(Ocean University of China
Qingdao National Laboratory for Marine Science and Technology)
- Xiaogang Xun
(Ocean University of China)
- Jinbo Zhang
(Novogene Bioinformatics Institute)
- Ximing Guo
(Rutgers University)
- Wenqian Jiao
(Ocean University of China)
- Lingling Zhang
(Ocean University of China
Qingdao National Laboratory for Marine Science and Technology)
- Weizhi Liu
(Ocean University of China
Qingdao National Laboratory for Marine Science and Technology)
- Jing Wang
(Ocean University of China)
- Ji Li
(Novogene Bioinformatics Institute)
- Yan Sun
(Ocean University of China)
- Yan Miao
(Ocean University of China)
- Xiaokang Zhang
(Ocean University of China)
- Taoran Cheng
(Ocean University of China)
- Guoliang Xu
(Novogene Bioinformatics Institute)
- Xiaoteng Fu
(Ocean University of China)
- Yangfan Wang
(Ocean University of China)
- Xinran Yu
(Novogene Bioinformatics Institute)
- Xiaoting Huang
(Ocean University of China)
- Wei Lu
(Ocean University of China)
- Jia Lv
(Ocean University of China)
- Chuang Mu
(Ocean University of China)
- Dawei Wang
(Novogene Bioinformatics Institute)
- Xu Li
(Ocean University of China)
- Yu Xia
(Ocean University of China)
- Yajuan Li
(Ocean University of China)
- Zhihui Yang
(Ocean University of China)
- Fengliang Wang
(Ocean University of China)
- Lu Zhang
(Ocean University of China)
- Qiang Xing
(Ocean University of China)
- Huaiqian Dou
(Ocean University of China)
- Xianhui Ning
(Ocean University of China)
- Jinzhuang Dou
(Ocean University of China)
- Yangping Li
(Ocean University of China)
- Dexu Kong
(Ocean University of China)
- Yaran Liu
(Ocean University of China)
- Zhi Jiang
(Novogene Bioinformatics Institute)
- Ruiqiang Li
(Novogene Bioinformatics Institute)
- Shi Wang
(Ocean University of China
Qingdao National Laboratory for Marine Science and Technology)
- Zhenmin Bao
(Ocean University of China
Qingdao National Laboratory for Marine Science and Technology)
Abstract
Bivalve molluscs are descendants of an early-Cambrian lineage superbly adapted to benthic filter feeding. Adaptations in form and behavior are well recognized, but the underlying molecular mechanisms are largely unknown. Here, we investigate the genome, various transcriptomes, and proteomes of the scallop Chlamys farreri, a semi-sessile bivalve with well-developed adductor muscle, sophisticated eyes, and remarkable neurotoxin resistance. The scallop’s large striated muscle is energy-dynamic but not fully differentiated from smooth muscle. Its eyes are supported by highly diverse, intronless opsins expanded by retroposition for broadened spectral sensitivity. Rapid byssal secretion is enabled by a specialized foot and multiple proteins including expanded tyrosinases. The scallop uses hepatopancreas to accumulate neurotoxins and kidney to transform to high-toxicity forms through expanded sulfotransferases, probably as deterrence against predation, while it achieves neurotoxin resistance through point mutations in sodium channels. These findings suggest that expansion and mutation of those genes may have profound effects on scallop’s phenotype and adaptation.
Suggested Citation
Yuli Li & Xiaoqing Sun & Xiaoli Hu & Xiaogang Xun & Jinbo Zhang & Ximing Guo & Wenqian Jiao & Lingling Zhang & Weizhi Liu & Jing Wang & Ji Li & Yan Sun & Yan Miao & Xiaokang Zhang & Taoran Cheng & Guo, 2017.
"Scallop genome reveals molecular adaptations to semi-sessile life and neurotoxins,"
Nature Communications, Nature, vol. 8(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01927-0
DOI: 10.1038/s41467-017-01927-0
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