A calcineurin-mediated scaling mechanism that controls a K.sup.+-leak channel to regulate morphogen and growth factor transcription

The increase in activity of the two-pore potassium-leak channel Kcnk5b maintains allometric juvenile growth of adult zebrafish appendages. However, it remains unknown how this channel maintains allometric growth and how its bioelectric activity is regulated to scale these anatomical structures. We s...

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Veröffentlicht in:	eLife 2021-04, Vol.10
Hauptverfasser:	Yi, Chao, Spitters, Tim WGM, Al-Far, Ezz Al-Din Ahmed, Wang, Sen, Xiong, TianLong, Cai, Simian, Yan, Xin, Guan, Kaomei, Wagner, Michael, El-Armouche, Ali, Antos, Christopher L
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Sprache:	eng
Schlagworte:	Genes Genetic aspects Genetic transcription Genetically modified organisms Post-translational modification Stem cells
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creator	Yi, Chao Spitters, Tim WGM Al-Far, Ezz Al-Din Ahmed Wang, Sen Xiong, TianLong Cai, Simian Yan, Xin Guan, Kaomei Wagner, Michael El-Armouche, Ali Antos, Christopher L
description	The increase in activity of the two-pore potassium-leak channel Kcnk5b maintains allometric juvenile growth of adult zebrafish appendages. However, it remains unknown how this channel maintains allometric growth and how its bioelectric activity is regulated to scale these anatomical structures. We show the activation of Kcnk5b is sufficient to activate several genes that are part of important development programs. We provide in vivo transplantation evidence that the activation of gene transcription is cell autonomous. We also show that Kcnk5b will induce the expression of different subsets of the tested developmental genes in different cultured mammalian cell lines, which may explain how one electrophysiological stimulus can coordinately regulate the allometric growth of diverse populations of cells in the fin that use different developmental signals. We also provide evidence that the post-translational modification of serine 345 in Kcnk5b by calcineurin regulates channel activity to scale the fin. Thus, we show how an endogenous bioelectric mechanism can be regulated to promote coordinated developmental signaling to generate and scale a vertebrate appendage.
doi_str_mv	10.7554/eLife.60691
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Thus, we show how an endogenous bioelectric mechanism can be regulated to promote coordinated developmental signaling to generate and scale a vertebrate appendage.</abstract><pub>eLife Science Publications, Ltd</pub><doi>10.7554/eLife.60691</doi></addata></record>
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source	DOAJ Directory of Open Access Journals; PubMed Central Open Access; EZB-FREE-00999 freely available EZB journals; PubMed Central
subjects	Genes Genetic aspects Genetic transcription Genetically modified organisms Post-translational modification Stem cells
title	A calcineurin-mediated scaling mechanism that controls a K.sup.+-leak channel to regulate morphogen and growth factor transcription
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