The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.

The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.

Rho GTPases are important members of the Ras superfamily, which represents the largest signaling protein family in eukaryotes, and function as key molecular switches in converting and amplifying external signals into cellular responses. Although numerous analyses of Rho family genes have been report...

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Main Authors: Xue Li, Ruijia Wang, Xiaogang Xun, Wenqian Jiao, Mengran Zhang, Shuyue Wang, Shi Wang, Lingling Zhang, Xiaoting Huang, Xiaoli Hu, Zhenmin Bao
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4669188?pdf=render
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spelling doaj-bc52ecb0e8d5477c8e36fe43c04200d02020-11-25T00:05:34ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-011012e014393210.1371/journal.pone.0143932The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.Xue LiRuijia WangXiaogang XunWenqian JiaoMengran ZhangShuyue WangShi WangLingling ZhangXiaoting HuangXiaoli HuZhenmin BaoRho GTPases are important members of the Ras superfamily, which represents the largest signaling protein family in eukaryotes, and function as key molecular switches in converting and amplifying external signals into cellular responses. Although numerous analyses of Rho family genes have been reported, including their functions and evolution, a systematic analysis of this family has not been performed in Mollusca or in Bivalvia, one of the most important classes of Mollusca.In this study, we systematically identified and characterized a total set (Rho, Rac, Mig, Cdc42, Tc10, Rnd, RhoU, RhoBTB and Miro) of thirty Rho GTPase genes in three bivalve species, including nine in the Yesso scallop Patinopecten yessoensis, nine in the Zhikong scallop Chlamys farreri, and twelve in the Pacific oyster Crassostrea gigas. Phylogenetic analysis and interspecies comparison indicated that bivalves might possess the most complete types of Rho genes in invertebrates. A multiple RNA-seq dataset was used to investigate the expression profiles of bivalve Rho genes, revealing that the examined scallops share more similar Rho expression patterns than the oyster, whereas more Rho mRNAs are expressed in C. farreri and C. gigas than in P. yessoensis. Additionally, Rho, Rac and Cdc42 were found to be duplicated in the oyster but not in the scallops. Among the expanded Rho genes of C. gigas, duplication pairs with high synonymous substitution rates (Ks) displayed greater differences in expression.A comprehensive analysis of bivalve Rho GTPase family genes was performed in scallop and oyster species, and Rho genes in bivalves exhibit greater conservation than those in any other invertebrate. This is the first study focusing on a genome-wide characterization of Rho GTPase genes in bivalves, and the findings will provide a valuable resource for a better understanding of Rho evolution and Rho GTPase function in Bivalvia.http://europepmc.org/articles/PMC4669188?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Xue Li
Ruijia Wang
Xiaogang Xun
Wenqian Jiao
Mengran Zhang
Shuyue Wang
Shi Wang
Lingling Zhang
Xiaoting Huang
Xiaoli Hu
Zhenmin Bao
spellingShingle Xue Li
Ruijia Wang
Xiaogang Xun
Wenqian Jiao
Mengran Zhang
Shuyue Wang
Shi Wang
Lingling Zhang
Xiaoting Huang
Xiaoli Hu
Zhenmin Bao
The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
PLoS ONE
author_facet Xue Li
Ruijia Wang
Xiaogang Xun
Wenqian Jiao
Mengran Zhang
Shuyue Wang
Shi Wang
Lingling Zhang
Xiaoting Huang
Xiaoli Hu
Zhenmin Bao
author_sort Xue Li
title The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
title_short The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
title_full The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
title_fullStr The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
title_full_unstemmed The Rho GTPase Family Genes in Bivalvia Genomes: Sequence, Evolution and Expression Analysis.
title_sort rho gtpase family genes in bivalvia genomes: sequence, evolution and expression analysis.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description Rho GTPases are important members of the Ras superfamily, which represents the largest signaling protein family in eukaryotes, and function as key molecular switches in converting and amplifying external signals into cellular responses. Although numerous analyses of Rho family genes have been reported, including their functions and evolution, a systematic analysis of this family has not been performed in Mollusca or in Bivalvia, one of the most important classes of Mollusca.In this study, we systematically identified and characterized a total set (Rho, Rac, Mig, Cdc42, Tc10, Rnd, RhoU, RhoBTB and Miro) of thirty Rho GTPase genes in three bivalve species, including nine in the Yesso scallop Patinopecten yessoensis, nine in the Zhikong scallop Chlamys farreri, and twelve in the Pacific oyster Crassostrea gigas. Phylogenetic analysis and interspecies comparison indicated that bivalves might possess the most complete types of Rho genes in invertebrates. A multiple RNA-seq dataset was used to investigate the expression profiles of bivalve Rho genes, revealing that the examined scallops share more similar Rho expression patterns than the oyster, whereas more Rho mRNAs are expressed in C. farreri and C. gigas than in P. yessoensis. Additionally, Rho, Rac and Cdc42 were found to be duplicated in the oyster but not in the scallops. Among the expanded Rho genes of C. gigas, duplication pairs with high synonymous substitution rates (Ks) displayed greater differences in expression.A comprehensive analysis of bivalve Rho GTPase family genes was performed in scallop and oyster species, and Rho genes in bivalves exhibit greater conservation than those in any other invertebrate. This is the first study focusing on a genome-wide characterization of Rho GTPase genes in bivalves, and the findings will provide a valuable resource for a better understanding of Rho evolution and Rho GTPase function in Bivalvia.
url http://europepmc.org/articles/PMC4669188?pdf=render
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