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Ancient origins of RGK protein function: modulation of voltage-gated calcium channels preceded the protostome and deuterostome split.


ABSTRACT: RGK proteins, Gem, Rad, Rem1, and Rem2, are members of the Ras superfamily of small GTP-binding proteins that interact with Ca2+ channel ? subunits to modify voltage-gated Ca2+ channel function. In addition, RGK proteins affect several cellular processes such as cytoskeletal rearrangement, neuronal dendritic complexity, and synapse formation. To probe the phylogenetic origins of RGK protein-Ca2+ channel interactions, we identified potential RGK-like protein homologs in genomes for genetically diverse organisms from both the deuterostome and protostome animal superphyla. RGK-like protein homologs cloned from Danio rerio (zebrafish) and Drosophila melanogaster (fruit flies) expressed in mammalian sympathetic neurons decreased Ca2+ current density as reported for expression of mammalian RGK proteins. Sequence alignments from evolutionarily diverse organisms spanning the protostome/deuterostome divide revealed conservation of residues within the RGK G-domain involved in RGK protein--Cav? subunit interaction. In addition, the C-terminal eleven residues were highly conserved and constituted a signature sequence unique to RGK proteins but of unknown function. Taken together, these data suggest that RGK proteins, and the ability to modify Ca2+ channel function, arose from an ancestor predating the protostomes split from deuterostomes approximately 550 million years ago.

SUBMITTER: Puhl HL 

PROVIDER: S-EPMC4081519 | biostudies-literature | 2014

REPOSITORIES: biostudies-literature

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Ancient origins of RGK protein function: modulation of voltage-gated calcium channels preceded the protostome and deuterostome split.

Puhl Henry L HL   Lu Van B VB   Won Yu-Jin YJ   Sasson Yehezkel Y   Hirsch Joel A JA   Ono Fumihito F   Ikeda Stephen R SR  

PloS one 20140703 7


RGK proteins, Gem, Rad, Rem1, and Rem2, are members of the Ras superfamily of small GTP-binding proteins that interact with Ca2+ channel β subunits to modify voltage-gated Ca2+ channel function. In addition, RGK proteins affect several cellular processes such as cytoskeletal rearrangement, neuronal dendritic complexity, and synapse formation. To probe the phylogenetic origins of RGK protein-Ca2+ channel interactions, we identified potential RGK-like protein homologs in genomes for genetically di  ...[more]

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