Scallop genome reveals molecular adaptations to semi-sessile life and neurotoxins

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 s...

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Published in	Nature communications Vol. 8; no. 1; pp. 1721 - 11
Main Authors	Li, Yuli, Sun, Xiaoqing, Hu, Xiaoli, Xun, Xiaogang, Zhang, Jinbo, Guo, Ximing, Jiao, Wenqian, Zhang, Lingling, Liu, Weizhi, Wang, Jing, Li, Ji, Sun, Yan, Miao, Yan, Zhang, Xiaokang, Cheng, Taoran, Xu, Guoliang, Fu, Xiaoteng, Wang, Yangfan, Yu, Xinran, Huang, Xiaoting, Lu, Wei, Lv, Jia, Mu, Chuang, Wang, Dawei, Li, Xu, Xia, Yu, Li, Yajuan, Yang, Zhihui, Wang, Fengliang, Zhang, Lu, Xing, Qiang, Dou, Huaiqian, Ning, Xianhui, Dou, Jinzhuang, Li, Yangping, Kong, Dexu, Liu, Yaran, Jiang, Zhi, Li, Ruiqiang, Wang, Shi, Bao, Zhenmin
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 23.11.2017 Nature Publishing Group Nature Portfolio
Subjects	631/181/735 631/208/514/2254 631/208/726 Adaptation Adaptation, Physiological - genetics Adductor muscle Animals Cambrian Evolution, Molecular Feet Genome Genomes Hepatopancreas Hepatopancreas - physiology Humanities and Social Sciences Kidney - physiology Kidneys Metabolic Networks and Pathways - genetics Models, Biological Molecular modelling Mollusks multidisciplinary Muscle, Smooth - physiology Muscles Mutation Neurotoxins Neurotoxins - metabolism Neurotoxins - toxicity Opsins Opsins - genetics Opsins - physiology Pectinidae - anatomy & histology Pectinidae - genetics Pectinidae - physiology Photoreceptor Cells, Invertebrate - physiology Phylogeny Predation Proteins Retina - physiology Science Science (multidisciplinary) Secretion Skeletal muscle Smooth muscle Sodium channels Spectral sensitivity Toxicity Toxins
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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. Bivalve molluscs have evolved various characteristics to adapt to benthic filter-feeding. Here, Li et al investigate the genome, transcriptomes and proteomes of scallop Chlamys farreri , revealing evidences of molecular adaptations to semi-sessile life and neurotoxins.
AbstractList	Bivalve molluscs have evolved various characteristics to adapt to benthic filter-feeding. Here, Li et al investigate the genome, transcriptomes and proteomes of scallop Chlamys farreri, revealing evidences of molecular adaptations to semi-sessile life and neurotoxins. 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. Bivalve molluscs have evolved various characteristics to adapt to benthic filter-feeding. Here, Li et al investigate the genome, transcriptomes and proteomes of scallop Chlamys farreri , revealing evidences of molecular adaptations to semi-sessile life and neurotoxins. 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. 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.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.
ArticleNumber	1721
Author	Li, Yuli Wang, Dawei Yu, Xinran Lu, Wei Liu, Yaran Huang, Xiaoting Kong, Dexu Li, Ruiqiang Sun, Yan Zhang, Lingling Wang, Fengliang Zhang, Lu Dou, Jinzhuang Hu, Xiaoli Jiao, Wenqian Mu, Chuang Xia, Yu Zhang, Xiaokang Wang, Shi Zhang, Jinbo Xun, Xiaogang Li, Xu Jiang, Zhi Ning, Xianhui Wang, Jing Yang, Zhihui Cheng, Taoran Dou, Huaiqian Liu, Weizhi Xu, Guoliang Guo, Ximing Li, Yajuan Lv, Jia Xing, Qiang Li, Yangping Bao, Zhenmin Fu, Xiaoteng Sun, Xiaoqing Miao, Yan Wang, Yangfan Li, Ji
Author_xml	– sequence: 1 givenname: Yuli surname: Li fullname: Li, Yuli organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 2 givenname: Xiaoqing surname: Sun fullname: Sun, Xiaoqing organization: Novogene Bioinformatics Institute – sequence: 3 givenname: Xiaoli surname: Hu fullname: Hu, Xiaoli organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China, Laboratory for Marine Fisheries Science and Food Production Processes, Qingdao National Laboratory for Marine Science and Technology – sequence: 4 givenname: Xiaogang surname: Xun fullname: Xun, Xiaogang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 5 givenname: Jinbo surname: Zhang fullname: Zhang, Jinbo organization: Novogene Bioinformatics Institute – sequence: 6 givenname: Ximing orcidid: 0000-0002-6758-2709 surname: Guo fullname: Guo, Ximing organization: Haskin Shellfish Research Laboratory, Department of Marine and Coastal Sciences, Rutgers University – sequence: 7 givenname: Wenqian surname: Jiao fullname: Jiao, Wenqian organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 8 givenname: Lingling surname: Zhang fullname: Zhang, Lingling organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China, Laboratory for Marine Fisheries Science and Food Production Processes, Qingdao National Laboratory for Marine Science and Technology – sequence: 9 givenname: Weizhi surname: Liu fullname: Liu, Weizhi organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China, Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology – sequence: 10 givenname: Jing surname: Wang fullname: Wang, Jing organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 11 givenname: Ji surname: Li fullname: Li, Ji organization: Novogene Bioinformatics Institute – sequence: 12 givenname: Yan surname: Sun fullname: Sun, Yan organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 13 givenname: Yan surname: Miao fullname: Miao, Yan organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 14 givenname: Xiaokang surname: Zhang fullname: Zhang, Xiaokang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 15 givenname: Taoran surname: Cheng fullname: Cheng, Taoran organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 16 givenname: Guoliang surname: Xu fullname: Xu, Guoliang organization: Novogene Bioinformatics Institute – sequence: 17 givenname: Xiaoteng surname: Fu fullname: Fu, Xiaoteng organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 18 givenname: Yangfan surname: Wang fullname: Wang, Yangfan organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 19 givenname: Xinran surname: Yu fullname: Yu, Xinran organization: Novogene Bioinformatics Institute – sequence: 20 givenname: Xiaoting surname: Huang fullname: Huang, Xiaoting organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 21 givenname: Wei surname: Lu fullname: Lu, Wei organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 22 givenname: Jia surname: Lv fullname: Lv, Jia organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 23 givenname: Chuang surname: Mu fullname: Mu, Chuang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 24 givenname: Dawei surname: Wang fullname: Wang, Dawei organization: Novogene Bioinformatics Institute – sequence: 25 givenname: Xu surname: Li fullname: Li, Xu organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 26 givenname: Yu surname: Xia fullname: Xia, Yu organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 27 givenname: Yajuan surname: Li fullname: Li, Yajuan organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 28 givenname: Zhihui surname: Yang fullname: Yang, Zhihui organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 29 givenname: Fengliang surname: Wang fullname: Wang, Fengliang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 30 givenname: Lu surname: Zhang fullname: Zhang, Lu organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 31 givenname: Qiang surname: Xing fullname: Xing, Qiang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 32 givenname: Huaiqian surname: Dou fullname: Dou, Huaiqian organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 33 givenname: Xianhui surname: Ning fullname: Ning, Xianhui organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 34 givenname: Jinzhuang surname: Dou fullname: Dou, Jinzhuang organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 35 givenname: Yangping surname: Li fullname: Li, Yangping organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 36 givenname: Dexu surname: Kong fullname: Kong, Dexu organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 37 givenname: Yaran surname: Liu fullname: Liu, Yaran organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China – sequence: 38 givenname: Zhi surname: Jiang fullname: Jiang, Zhi organization: Novogene Bioinformatics Institute – sequence: 39 givenname: Ruiqiang surname: Li fullname: Li, Ruiqiang organization: Novogene Bioinformatics Institute – sequence: 40 givenname: Shi orcidid: 0000-0002-9571-9864 surname: Wang fullname: Wang, Shi email: swang@ouc.edu.cn organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China, Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology – sequence: 41 givenname: Zhenmin surname: Bao fullname: Bao, Zhenmin email: zmbao@ouc.edu.cn organization: Key Laboratory of Marine Genetics and Breeding (Ministry of Education), Ocean University of China, Laboratory for Marine Fisheries Science and Food Production Processes, Qingdao National Laboratory for Marine Science and Technology
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/29167427$$D View this record in MEDLINE/PubMed
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Snippet	Bivalve molluscs are descendants of an early-Cambrian lineage superbly adapted to benthic filter feeding. Adaptations in form and behavior are well recognized,... Bivalve molluscs have evolved various characteristics to adapt to benthic filter-feeding. Here, Li et al investigate the genome, transcriptomes and proteomes...
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SubjectTerms	631/181/735 631/208/514/2254 631/208/726 Adaptation Adaptation, Physiological - genetics Adductor muscle Animals Cambrian Evolution, Molecular Feet Genome Genomes Hepatopancreas Hepatopancreas - physiology Humanities and Social Sciences Kidney - physiology Kidneys Metabolic Networks and Pathways - genetics Models, Biological Molecular modelling Mollusks multidisciplinary Muscle, Smooth - physiology Muscles Mutation Neurotoxins Neurotoxins - metabolism Neurotoxins - toxicity Opsins Opsins - genetics Opsins - physiology Pectinidae - anatomy & histology Pectinidae - genetics Pectinidae - physiology Photoreceptor Cells, Invertebrate - physiology Phylogeny Predation Proteins Retina - physiology Science Science (multidisciplinary) Secretion Skeletal muscle Smooth muscle Sodium channels Spectral sensitivity Toxicity Toxins
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Title	Scallop genome reveals molecular adaptations to semi-sessile life and neurotoxins
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