Draft genome assembly and transcriptome data of the icefish Chionodraco myersi reveal the key role of mitochondria for a life without hemoglobin at subzero temperatures

Antarctic fish belonging to Notothenioidei represent an extraordinary example of radiation in the cold. In addition to the absence of hemoglobin, icefish show a number of other striking peculiarities including large-diameter blood vessels, high vascular densities, mitochondriarich muscle cells, and...

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Bibliographic Details
Published in:Communications Biology
Main Authors: Bargelloni, Luca, Babbucci, Massimiliano, Ferraresso, Serena, Papetti, Chiara, Vitulo, Nicola, Carraro, Roberta, Pauletto, Marianna, Santovito, Gianfranco, Lucassen, Magnus, Mark, Felix Christopher, Zane, Lorenzo, Patarnello, Tomaso
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Antarctic
Southern Ocean
Antarc*
Icefish
Online Access:https://epic.awi.de/id/eprint/50864/
https://epic.awi.de/id/eprint/50864/1/Bargelloni_etal2019.pdf
https://doi.org/10.1038/s42003-019-0685-y
https://hdl.handle.net/10013/epic.836c991b-73dd-477f-b1a8-52690a81a3f5
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Summary:Antarctic fish belonging to Notothenioidei represent an extraordinary example of radiation in the cold. In addition to the absence of hemoglobin, icefish show a number of other striking peculiarities including large-diameter blood vessels, high vascular densities, mitochondriarich muscle cells, and unusual mitochondrial architecture. In order to investigate the bases of icefish adaptation to the extreme Southern Ocean conditions we sequenced the complete genome of the icefish Chionodraco myersi. Comparative analyses of the icefish genome with those of other teleost species, including two additional white-blooded and five red-blooded notothenioids, provided a new perspective on the evolutionary loss of globin genes. Muscle transcriptome comparative analyses against red-blooded notothenioids as well as temperate fish revealed the peculiar regulation of genes involved in mitochondrial function in icefish. Gene duplication and promoter sequence divergence were identified as genome-wide patterns that likely contributed to the broad transcriptional program underlying the unique features of icefish mitochondria.

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