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Identification of a novel fused gene family implicates convergent evolution in eukaryotic calcium signaling.


ABSTRACT:

Background

Both calcium signals and protein phosphorylation responses are universal signals in eukaryotic cell signaling. Currently three pathways have been characterized in different eukaryotes converting the Ca2+ signals to the protein phosphorylation responses. All these pathways have based mostly on studies in plants and animals.

Results

Based on the exploration of genomes and transcriptomes from all the six eukaryotic supergroups, we report here in Metakinetoplastina protists a novel gene family. This family, with a proposed name SCAMK, comprises SnRK3 fused calmodulin-like III kinase genes and was likely evolved through the insertion of a calmodulin-like3 gene into an SnRK3 gene by unequal crossover of homologous chromosomes in meiosis cell. Its origin dated back to the time intersection at least 450 million-year-ago when Excavata parasites, Vertebrata hosts, and Insecta vectors evolved. We also analyzed SCAMK's unique expression pattern and structure, and proposed it as one of the leading calcium signal conversion pathways in Excavata parasite. These characters made SCAMK gene as a potential drug target for treating human African trypanosomiasis.

Conclusions

This report identified a novel gene fusion and dated its precise fusion time in Metakinetoplastina protists. This potential fourth eukaryotic calcium signal conversion pathway complements our current knowledge that convergent evolution occurs in eukaryotic calcium signaling.

SUBMITTER: Chen F 

PROVIDER: S-EPMC5924475 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Identification of a novel fused gene family implicates convergent evolution in eukaryotic calcium signaling.

Chen Fei F   Zhang Liangsheng L   Lin Zhenguo Z   Cheng Zong-Ming Max ZM  

BMC genomics 20180427 1


<h4>Background</h4>Both calcium signals and protein phosphorylation responses are universal signals in eukaryotic cell signaling. Currently three pathways have been characterized in different eukaryotes converting the Ca<sup>2+</sup> signals to the protein phosphorylation responses. All these pathways have based mostly on studies in plants and animals.<h4>Results</h4>Based on the exploration of genomes and transcriptomes from all the six eukaryotic supergroups, we report here in Metakinetoplasti  ...[more]

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