在公开的单细胞转录组数据中收集真核生物特异性DNA聚合酶。

IF 1.9 3区 生物学 Q4 MICROBIOLOGY Protist Pub Date : 2023-12-01 DOI:10.1016/j.protis.2023.125997
Ryo Harada , Yuji Inagaki
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引用次数: 0

摘要

编码A家族DNA聚合酶(famA DNAPs)的多个基因在真核生物基因组中被发现,它们是细菌和噬菌体中DNA聚合酶I (PolI)的进化亲戚,其中许多蛋白质主要用于细胞器。在真核动物门的成员中,发现了不同类型的famA DNAP, PolIA, PolIBCD+, POP和eugPolA。有趣的是,在无脊椎动物的进化过程中,famA dna序列是如何建立起来的,但dna序列数据还没有从分类群中取样,不足以代表该门的多样性。特别是,直到最近,关于裸藻类基支种的序列数据还很少。得益于来自共生体和吞噬性真核生物的单细胞转录组数据,我们有机会覆盖真核生物深部分支中famA dna库的“漏洞”。目前的研究分别从33种吞噬性真核生物和2种共生体的转录组数据中鉴定出16个新的famA dna序列。基于新发现的famA DNAP序列,讨论了真生动物famA DNAP的多样性及其进化。
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Gleaning Euglenozoa-specific DNA polymerases in public single-cell transcriptome data

Multiple genes encoding family A DNA polymerases (famA DNAPs), which are evolutionary relatives of DNA polymerase I (PolI) in bacteria and phages, have been found in eukaryotic genomes, and many of these proteins are used mainly in organelles. Among members of the phylum Euglenozoa, distinct types of famA DNAP, PolIA, PolIBCD+, POP, and eugPolA, have been found. It is intriguing how the suite of famA DNAPs had been established during the evolution of Euglenozoa, but the DNAP data have not been sampled from the taxa that sufficiently represent the diversity of this phylum. In particular, little sequence data were available for basal branching species in Euglenozoa until recently. Thanks to the single-cell transcriptome data from symbiontids and phagotrophic euglenids, we have an opportunity to cover the “hole” in the repertory of famA DNAPs in the deep branches in Euglenozoa. The current study identified 16 new famA DNAP sequences in the transcriptome data from 33 phagotrophic euglenids and two symbiontids, respectively. Based on the new famA DNAP sequences, the updated diversity and evolution of famA DNAPs in Euglenozoa are discussed.

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来源期刊
Protist
Protist 生物-微生物学
CiteScore
3.60
自引率
4.00%
发文量
43
审稿时长
18.7 weeks
期刊介绍: Protist is the international forum for reporting substantial and novel findings in any area of research on protists. The criteria for acceptance of manuscripts are scientific excellence, significance, and interest for a broad readership. Suitable subject areas include: molecular, cell and developmental biology, biochemistry, systematics and phylogeny, and ecology of protists. Both autotrophic and heterotrophic protists as well as parasites are covered. The journal publishes original papers, short historical perspectives and includes a news and views section.
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