The American lobster genome reveals insights on longevity, neural, and immune adaptations

The American lobster, , is integral to marine ecosystems and supports an important commercial fishery. This iconic species also serves as a valuable model for deciphering neural networks controlling rhythmic motor patterns and olfaction. Here, we report a high-quality draft assembly of the genome wi...

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Veröffentlicht in:	Science advances 2021-06, Vol.7 (26)
Hauptverfasser:	Polinski, Jennifer M, Zimin, Aleksey V, Clark, K Fraser, Kohn, Andrea B, Sadowski, Norah, Timp, Winston, Ptitsyn, Andrey, Khanna, Prarthana, Romanova, Daria Y, Williams, Peter, Greenwood, Spencer J, Moroz, Leonid L, Walt, David R, Bodnar, Andrea G
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Sprache:	eng
Schlagworte:	Animals Ecosystem Genetics Longevity - genetics Nephropidae - genetics Nephropidae - metabolism Nervous System Neuroscience SciAdv r-articles
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creator	Polinski, Jennifer M Zimin, Aleksey V Clark, K Fraser Kohn, Andrea B Sadowski, Norah Timp, Winston Ptitsyn, Andrey Khanna, Prarthana Romanova, Daria Y Williams, Peter Greenwood, Spencer J Moroz, Leonid L Walt, David R Bodnar, Andrea G
description	The American lobster, , is integral to marine ecosystems and supports an important commercial fishery. This iconic species also serves as a valuable model for deciphering neural networks controlling rhythmic motor patterns and olfaction. Here, we report a high-quality draft assembly of the genome with 25,284 predicted gene models. Analysis of the neural gene complement revealed extraordinary development of the chemosensory machinery, including a profound diversification of ligand-gated ion channels and secretory molecules. The discovery of a novel class of chimeric receptors coupling pattern recognition and neurotransmitter binding suggests a deep integration between the neural and immune systems. A robust repertoire of genes involved in innate immunity, genome stability, cell survival, chemical defense, and cuticle formation represents a diversity of defense mechanisms essential to thrive in the benthic marine environment. Together, these unique evolutionary adaptations contribute to the longevity and ecological success of this long-lived benthic predator.
doi_str_mv	10.1126/sciadv.abe8290
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subjects	Animals Ecosystem Genetics Longevity - genetics Nephropidae - genetics Nephropidae - metabolism Nervous System Neuroscience SciAdv r-articles
title	The American lobster genome reveals insights on longevity, neural, and immune adaptations
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