Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins

Cetaceans have a long history of commitment to a fully aquatic lifestyle that extends back to the Eocene. Extant species have evolved a spectacular array of adaptations in conjunction with their deployment into a diverse array of aquatic habitats. Sensory systems are among those that have experience...

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Published in:PLoS Genetics
Main Authors: Meredith, Robert, Gatesy, John, Emerling, Christopher A., York, Vincent M., Springer, Mark S.
Format: Text
Language:unknown
Published: Montclair State University Digital Commons 2013
Subjects:
baleen whales
Mesoplodon bidens
Physeter macrocephalus
Sowerby's beaked whale
Sperm whale
toothed whales
Online Access:https://digitalcommons.montclair.edu/biology-facpubs/90
https://doi.org/10.1371/journal.pgen.1003432
id ftmontclairstuni:oai:digitalcommons.montclair.edu:biology-facpubs-1090
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spelling ftmontclairstuni:oai:digitalcommons.montclair.edu:biology-facpubs-1090 2023-07-23T04:18:30+02:00 Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins Meredith, Robert Gatesy, John Emerling, Christopher A. York, Vincent M. Springer, Mark S. 2013-04-01T07:00:00Z https://digitalcommons.montclair.edu/biology-facpubs/90 https://doi.org/10.1371/journal.pgen.1003432 unknown Montclair State University Digital Commons https://digitalcommons.montclair.edu/biology-facpubs/90 doi:10.1371/journal.pgen.1003432 Department of Biology Faculty Scholarship and Creative Works text 2013 ftmontclairstuni https://doi.org/10.1371/journal.pgen.1003432 2023-07-03T21:49:21Z Cetaceans have a long history of commitment to a fully aquatic lifestyle that extends back to the Eocene. Extant species have evolved a spectacular array of adaptations in conjunction with their deployment into a diverse array of aquatic habitats. Sensory systems are among those that have experienced radical transformations in the evolutionary history of this clade. In the case of vision, previous studies have demonstrated important changes in the genes encoding rod opsin (RH1), short-wavelength sensitive opsin 1 (SWS1), and long-wavelength sensitive opsin (LWS) in selected cetaceans, but have not examined the full complement of opsin genes across the complete range of cetacean families. Here, we report protein-coding sequences for RH1 and both color opsin genes (SWS1, LWS) from representatives of all extant cetacean families. We examine competing hypotheses pertaining to the timing of blue shifts in RH1 relative to SWS1 inactivation in the early history of Cetacea, and we test the hypothesis that some cetaceans are rod monochomats. Molecular evolutionary analyses contradict the "coastal" hypothesis, wherein SWS1 was pseudogenized in the common ancestor of Cetacea, and instead suggest that RH1 was blue-shifted in the common ancestor of Cetacea before SWS1 was independently knocked out in baleen whales (Mysticeti) and in toothed whales (Odontoceti). Further, molecular evidence implies that LWS was inactivated convergently on at least five occasions in Cetacea: (1) Balaenidae (bowhead and right whales), (2) Balaenopteroidea (rorquals plus gray whale), (3) Mesoplodon bidens (Sowerby's beaked whale), (4) Physeter macrocephalus (giant sperm whale), and (5) Kogia breviceps (pygmy sperm whale). All of these cetaceans are known to dive to depths of at least 100 m where the underwater light field is dim and dominated by blue light. The knockout of both SWS1 and LWS in multiple cetacean lineages renders these taxa rod monochromats, a condition previously unknown among mammalian species. Text baleen whales Mesoplodon bidens Physeter macrocephalus Sowerby's beaked whale Sperm whale toothed whales Montclair State University Digital Commons PLoS Genetics 9 4 e1003432
institution Open Polar
collection Montclair State University Digital Commons
op_collection_id ftmontclairstuni
language unknown
description Cetaceans have a long history of commitment to a fully aquatic lifestyle that extends back to the Eocene. Extant species have evolved a spectacular array of adaptations in conjunction with their deployment into a diverse array of aquatic habitats. Sensory systems are among those that have experienced radical transformations in the evolutionary history of this clade. In the case of vision, previous studies have demonstrated important changes in the genes encoding rod opsin (RH1), short-wavelength sensitive opsin 1 (SWS1), and long-wavelength sensitive opsin (LWS) in selected cetaceans, but have not examined the full complement of opsin genes across the complete range of cetacean families. Here, we report protein-coding sequences for RH1 and both color opsin genes (SWS1, LWS) from representatives of all extant cetacean families. We examine competing hypotheses pertaining to the timing of blue shifts in RH1 relative to SWS1 inactivation in the early history of Cetacea, and we test the hypothesis that some cetaceans are rod monochomats. Molecular evolutionary analyses contradict the "coastal" hypothesis, wherein SWS1 was pseudogenized in the common ancestor of Cetacea, and instead suggest that RH1 was blue-shifted in the common ancestor of Cetacea before SWS1 was independently knocked out in baleen whales (Mysticeti) and in toothed whales (Odontoceti). Further, molecular evidence implies that LWS was inactivated convergently on at least five occasions in Cetacea: (1) Balaenidae (bowhead and right whales), (2) Balaenopteroidea (rorquals plus gray whale), (3) Mesoplodon bidens (Sowerby's beaked whale), (4) Physeter macrocephalus (giant sperm whale), and (5) Kogia breviceps (pygmy sperm whale). All of these cetaceans are known to dive to depths of at least 100 m where the underwater light field is dim and dominated by blue light. The knockout of both SWS1 and LWS in multiple cetacean lineages renders these taxa rod monochromats, a condition previously unknown among mammalian species.
format Text
author Meredith, Robert
Gatesy, John
Emerling, Christopher A.
York, Vincent M.
Springer, Mark S.
spellingShingle Meredith, Robert
Gatesy, John
Emerling, Christopher A.
York, Vincent M.
Springer, Mark S.
Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
author_facet Meredith, Robert
Gatesy, John
Emerling, Christopher A.
York, Vincent M.
Springer, Mark S.
author_sort Meredith, Robert
title Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
title_short Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
title_full Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
title_fullStr Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
title_full_unstemmed Rod Monochromacy and the Coevolution of Cetacean Retinal Opsins
title_sort rod monochromacy and the coevolution of cetacean retinal opsins
publisher Montclair State University Digital Commons
publishDate 2013
url https://digitalcommons.montclair.edu/biology-facpubs/90
https://doi.org/10.1371/journal.pgen.1003432
genre baleen whales
Mesoplodon bidens
Physeter macrocephalus
Sowerby's beaked whale
Sperm whale
toothed whales
genre_facet baleen whales
Mesoplodon bidens
Physeter macrocephalus
Sowerby's beaked whale
Sperm whale
toothed whales
op_source Department of Biology Faculty Scholarship and Creative Works
op_relation https://digitalcommons.montclair.edu/biology-facpubs/90
doi:10.1371/journal.pgen.1003432
op_doi https://doi.org/10.1371/journal.pgen.1003432
container_title PLoS Genetics
container_volume 9
container_issue 4
container_start_page e1003432
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