Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives
<p>Abstract</p> <p>Background</p> <p>Gene duplication provides raw genetic materials for evolutionary novelty and adaptation. The evolutionary fate of duplicated transcription factor genes is less studied although transcription factor gene plays important roles in many...
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| Series: | BMC Evolutionary Biology |
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doaj-2ff9cdaff9b34a3f912d664d28de85082021-09-02T14:06:03ZengBMCBMC Evolutionary Biology1471-21482010-05-0110112810.1186/1471-2148-10-128Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relativesSun Hong-ZhengGe Song<p>Abstract</p> <p>Background</p> <p>Gene duplication provides raw genetic materials for evolutionary novelty and adaptation. The evolutionary fate of duplicated transcription factor genes is less studied although transcription factor gene plays important roles in many biological processes. TFIIAγ is a small subunit of TFIIA that is one of general transcription factors required by RNA polymerase II. Previous studies identified two <it>TFIIAγ</it>-like genes in rice genome and found that these genes either conferred resistance to rice bacterial blight or could be induced by pathogen invasion, raising the question as to their functional divergence and evolutionary fates after gene duplication.</p> <p>Results</p> <p>We reconstructed the evolutionary history of the <it>TFIIAγ </it>genes from main lineages of angiosperms and demonstrated that two <it>TFIIAγ </it>genes (<it>TFIIAγ1 </it>and <it>TFIIAγ5</it>) arose from a whole genome duplication that happened in the common ancestor of grasses. Likelihood-based analyses with branch, codon, and branch-site models showed no evidence of positive selection but a signature of relaxed selective constraint after the <it>TFIIAγ </it>duplication. In particular, we found that the nonsynonymous/synonymous rate ratio (ω = <it>d</it><sub>N</sub>/<it>d</it><sub>S</sub>) of the <it>TFIIAγ1 </it>sequences was two times higher than that of <it>TFIIAγ5 </it>sequences, indicating highly asymmetric rates of protein evolution in rice tribe and its relatives, with an accelerated rate of <it>TFIIAγ1 </it>gene. Our expression data and EST database search further indicated that after whole genome duplication, the expression of <it>TFIIAγ1 </it>gene was significantly reduced while <it>TFIIAγ5 </it>remained constitutively expressed and maintained the ancestral role as a subunit of the TFIIA complex.</p> <p>Conclusion</p> <p>The evolutionary fate of TFIIA<it>γ </it>duplicates is not consistent with the neofunctionalization model that predicts that one of the duplicated genes acquires a new function because of positive Darwinian selection. Instead, we suggest that subfunctionalization might be involved in <it>TFIIAγ </it>evolution in grasses. The fact that both <it>TFIIAγ1 </it>and <it>TFIIAγ5 </it>genes were effectively involved in response to biotic or abiotic factors might be explained by either Dykhuizen-Hartl effect or buffering hypothesis.</p> http://www.biomedcentral.com/1471-2148/10/128 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Sun Hong-Zheng Ge Song |
| spellingShingle |
Sun Hong-Zheng Ge Song Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives BMC Evolutionary Biology |
| author_facet |
Sun Hong-Zheng Ge Song |
| author_sort |
Sun Hong-Zheng |
| title |
Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives |
| title_short |
Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives |
| title_full |
Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives |
| title_fullStr |
Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives |
| title_full_unstemmed |
Molecular evolution of the duplicated <it>TFIIAγ </it>genes in Oryzeae and its relatives |
| title_sort |
molecular evolution of the duplicated <it>tfiiaγ </it>genes in oryzeae and its relatives |
| publisher |
BMC |
| series |
BMC Evolutionary Biology |
| issn |
1471-2148 |
| publishDate |
2010-05-01 |
| description |
<p>Abstract</p> <p>Background</p> <p>Gene duplication provides raw genetic materials for evolutionary novelty and adaptation. The evolutionary fate of duplicated transcription factor genes is less studied although transcription factor gene plays important roles in many biological processes. TFIIAγ is a small subunit of TFIIA that is one of general transcription factors required by RNA polymerase II. Previous studies identified two <it>TFIIAγ</it>-like genes in rice genome and found that these genes either conferred resistance to rice bacterial blight or could be induced by pathogen invasion, raising the question as to their functional divergence and evolutionary fates after gene duplication.</p> <p>Results</p> <p>We reconstructed the evolutionary history of the <it>TFIIAγ </it>genes from main lineages of angiosperms and demonstrated that two <it>TFIIAγ </it>genes (<it>TFIIAγ1 </it>and <it>TFIIAγ5</it>) arose from a whole genome duplication that happened in the common ancestor of grasses. Likelihood-based analyses with branch, codon, and branch-site models showed no evidence of positive selection but a signature of relaxed selective constraint after the <it>TFIIAγ </it>duplication. In particular, we found that the nonsynonymous/synonymous rate ratio (ω = <it>d</it><sub>N</sub>/<it>d</it><sub>S</sub>) of the <it>TFIIAγ1 </it>sequences was two times higher than that of <it>TFIIAγ5 </it>sequences, indicating highly asymmetric rates of protein evolution in rice tribe and its relatives, with an accelerated rate of <it>TFIIAγ1 </it>gene. Our expression data and EST database search further indicated that after whole genome duplication, the expression of <it>TFIIAγ1 </it>gene was significantly reduced while <it>TFIIAγ5 </it>remained constitutively expressed and maintained the ancestral role as a subunit of the TFIIA complex.</p> <p>Conclusion</p> <p>The evolutionary fate of TFIIA<it>γ </it>duplicates is not consistent with the neofunctionalization model that predicts that one of the duplicated genes acquires a new function because of positive Darwinian selection. Instead, we suggest that subfunctionalization might be involved in <it>TFIIAγ </it>evolution in grasses. The fact that both <it>TFIIAγ1 </it>and <it>TFIIAγ5 </it>genes were effectively involved in response to biotic or abiotic factors might be explained by either Dykhuizen-Hartl effect or buffering hypothesis.</p> |
| url |
http://www.biomedcentral.com/1471-2148/10/128 |
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AT sunhongzheng molecularevolutionoftheduplicatedittfiiagitgenesinoryzeaeanditsrelatives AT gesong molecularevolutionoftheduplicatedittfiiagitgenesinoryzeaeanditsrelatives |
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