Evolution of the fish heart by sub/neofunctionalization of an elastin gene

Nature Communications
Yuuta MoriyamaKazuko Koshiba-Takeuchi

Abstract

The evolution of phenotypic traits is a key process in diversification of life. However, the mechanisms underlying the emergence of such evolutionary novelties are largely unknown. Here we address the origin of bulbus arteriosus (BA), an organ of evolutionary novelty seen in the teleost heart outflow tract (OFT), which sophisticates their circulatory system. The BA is a unique organ that is composed of smooth muscle while the OFTs in other vertebrates are composed of cardiac muscle. Here we reveal that the teleost-specific extracellular matrix (ECM) gene, elastin b, was generated by the teleost-specific whole-genome duplication and neofunctionalized to contribute to acquisition of the BA by regulating cell fate determination of cardiac precursor cells into smooth muscle. Furthermore, we show that the mechanotransducer yap is involved in this cell fate determination. Our findings reveal a mechanism of generating evolutionary novelty through alteration of cell fate determination by the ECM.

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Citations

Jun 20, 2020·Molecular Biology and Evolution·Elise PareyCamille Berthelot
Jul 16, 2017·BMC Evolutionary Biology·Natascha TuretzekNikola-Michael Prpic
May 23, 2018·Nature Communications·Anastasia FelkerChristian Mosimann
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Feb 4, 2021·Annals of Biomedical Engineering·Nabid SalehinCheng-Jen Chuong
Feb 12, 2021·Biomedicines·Seyed Ehsan MousaviJawahar G Patil
May 27, 2021·BMC Ecology and Evolution·Yuwei Wang, Baocheng Guo
Nov 18, 2021·Journal of the Royal Society, Interface·Adam N KeenHolly A Shiels

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Datasets Mentioned

BETA
LC099968
LC099969
LC099970
LC099971
LC099966
LC099967

Methods Mentioned

BETA
in vitro transcription

Software Mentioned

PhyML
Guide RNA Target Design Tool
XCed

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