Diverse deep-sea anglerfishes share a genetically reduced luminous symbiont that is acquired from the environment

Lydia Baker; Lindsay L Freed; Cole Easson; Jose Lopez; Dante Fenolio; Tracey Sutton; Spencer Nyholm; Tory Hendry

doi:10.7554/elife.47606.001

Diverse deep-sea anglerfishes share a genetically reduced luminous symbiont that is acquired from the environment

Lydia Baker
, Lindsay L Freed
, Cole Easson
, Jose Lopez
, Dante Fenolio
, Tracey Sutton
, Spencer Nyholm
, Tory Hendry

Research output: Contribution to journal › Article › peer-review

Abstract

Deep-sea anglerfishes are relatively abundant and diverse, but their luminescent bacterial symbionts remain enigmatic. The genomes of two symbiont species have qualities common to vertically transmitted, host-dependent bacteria. However, a number of traits suggest that these symbionts may be environmentally acquired. To determine how anglerfish symbionts are transmitted, we analyzed bacteria-host codivergence across six diverse anglerfish genera. Most of the anglerfish species surveyed shared a common species of symbiont. Only one other symbiont species was found, which had a specific relationship with one anglerfish species, Cryptopsaras couesii . Host and symbiont phylogenies lacked congruence, and there was no statistical support for codivergence broadly. We also recovered symbiont-specific gene sequences from water collected near hosts, suggesting environmental persistence of symbionts. Based on these results we conclude that diverse anglerfishes share symbionts that are acquired from the environment, and that these bacteria have undergone extreme genome reduction although they are not vertically transmitted.

Original language	American English
Article number	e47606
Journal	eLife
Volume	8
Issue number	8
DOIs	https://doi.org/10.7554/elife.47606.001
State	Published - Oct 1 2019

Bibliographical note

Publisher Copyright:
© Baker et al.

Funding

We thank Peter Herring for identification of samples and the crew of the RRS Discovery who were instrumental in collections during cruise D243 in the Northeast Atlantic. We thank the DEEPEND ‘Deep Pelagic Nekton Dynamics of the Gulf of Mexico’ Consortium for the collection of the Gulf of Mexico fish specimens. This research was made possible in part by a grant from The Gulf of Mexico Research Initiative. All data are publicly available through NCBI and the Gulf of Mexico Research Initiative Information and Data Cooperative (GRIIDC) at https://data.gulfresearchinitiative.org (doi: 10. 7266/N7P55KWX, 10.7266/N7VX0DK2, 10.7266.N7R49NTN, 10.7266.N70P0X3T, 10.7266/ N7XP7385, and 10.7266/N7902234). We also thank the Cornell Genomics Facility for consultation and assistance with genomic sequencing.

Funders	Funder number
DEEPEND ‘Deep Pelagic Nekton Dynamics of the Gulf of Mexico’ Consortium
Gulf of Mexico Research Initiative Information and Data Cooperative	10.7266/ N7XP7385, 10.7266, 7266/N7P55KWX
Gulf of Mexico fish specimens
NCBI
Gulf of Mexico Research Initiative

ASJC Scopus Subject Areas

General Immunology and Microbiology
General Biochemistry,Genetics and Molecular Biology
General Neuroscience

Disciplines

Biology
Life Sciences
Marine Biology

Access to Document

10.7554/elife.47606.001License: CC BY

Diverse deep-sea anglerfishes share a genetically reduced luminouFinal published version, 715 KBLicense: CC BY
Diverse deep-sea anglerfishes share a genetically reduced luminouFinal published version, 715 KBLicense: CC BY

Cite this

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title = "Diverse deep-sea anglerfishes share a genetically reduced luminous symbiont that is acquired from the environment",

abstract = " Deep-sea anglerfishes are relatively abundant and diverse, but their luminescent bacterial symbionts remain enigmatic. The genomes of two symbiont species have qualities common to vertically transmitted, host-dependent bacteria. However, a number of traits suggest that these symbionts may be environmentally acquired. To determine how anglerfish symbionts are transmitted, we analyzed bacteria-host codivergence across six diverse anglerfish genera. Most of the anglerfish species surveyed shared a common species of symbiont. Only one other symbiont species was found, which had a specific relationship with one anglerfish species, Cryptopsaras couesii . Host and symbiont phylogenies lacked congruence, and there was no statistical support for codivergence broadly. We also recovered symbiont-specific gene sequences from water collected near hosts, suggesting environmental persistence of symbionts. Based on these results we conclude that diverse anglerfishes share symbionts that are acquired from the environment, and that these bacteria have undergone extreme genome reduction although they are not vertically transmitted.",

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AU - Baker, Lydia

AU - Freed, Lindsay L

AU - Easson, Cole

AU - Lopez, Jose

AU - Fenolio, Dante

AU - Sutton, Tracey

AU - Nyholm, Spencer

AU - Hendry, Tory

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Deep-sea anglerfishes are relatively abundant and diverse, but their luminescent bacterial symbionts remain enigmatic. The genomes of two symbiont species have qualities common to vertically transmitted, host-dependent bacteria. However, a number of traits suggest that these symbionts may be environmentally acquired. To determine how anglerfish symbionts are transmitted, we analyzed bacteria-host codivergence across six diverse anglerfish genera. Most of the anglerfish species surveyed shared a common species of symbiont. Only one other symbiont species was found, which had a specific relationship with one anglerfish species, Cryptopsaras couesii . Host and symbiont phylogenies lacked congruence, and there was no statistical support for codivergence broadly. We also recovered symbiont-specific gene sequences from water collected near hosts, suggesting environmental persistence of symbionts. Based on these results we conclude that diverse anglerfishes share symbionts that are acquired from the environment, and that these bacteria have undergone extreme genome reduction although they are not vertically transmitted.

AB - Deep-sea anglerfishes are relatively abundant and diverse, but their luminescent bacterial symbionts remain enigmatic. The genomes of two symbiont species have qualities common to vertically transmitted, host-dependent bacteria. However, a number of traits suggest that these symbionts may be environmentally acquired. To determine how anglerfish symbionts are transmitted, we analyzed bacteria-host codivergence across six diverse anglerfish genera. Most of the anglerfish species surveyed shared a common species of symbiont. Only one other symbiont species was found, which had a specific relationship with one anglerfish species, Cryptopsaras couesii . Host and symbiont phylogenies lacked congruence, and there was no statistical support for codivergence broadly. We also recovered symbiont-specific gene sequences from water collected near hosts, suggesting environmental persistence of symbionts. Based on these results we conclude that diverse anglerfishes share symbionts that are acquired from the environment, and that these bacteria have undergone extreme genome reduction although they are not vertically transmitted.

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M1 - e47606

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Diverse deep-sea anglerfishes share a genetically reduced luminous symbiont that is acquired from the environment

Abstract

Bibliographical note

Funding

ASJC Scopus Subject Areas

Disciplines

Access to Document

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