Tourasse Nicolas J, Choquet Yves, Vallon Olivier
UMR 7141 CNRS/UPMC; Institut de Biologie Physico-Chimique; F-75005 Paris, France.
RNA Biol. 2013;10(9):1526-42. doi: 10.4161/rna.26127. Epub 2013 Aug 28.
Using the repeat finding algorithm FT-Rep, we have identified 154 pentatricopeptide repeat (PPR) proteins in nine fully sequenced genomes from green algae (with a total of 1201 repeats) and grouped them in 47 orthologous groups. All data are available in a database, PPRdb, accessible online at http://giavap-genomes.ibpc.fr/ppr. Based on phylogenetic trees generated from the repeats, we propose evolutionary scenarios for PPR proteins. Two PPRs are clearly conserved in the entire green lineage: MRL1 is a stabilization factor for the rbcL mRNA, while HCF152 binds in plants to the psbH-petB intergenic region. MCA1 (the stabilization factor for petA) and PPR7 (a short PPR also acting on chloroplast mRNAs) are conserved across the entire Chlorophyta. The other PPRs are clade-specific, with evidence for gene losses, duplications, and horizontal transfer. In some PPR proteins, an additional domain found at the C terminus provides clues as to possible functions. PPR19 and PPR26 possess a methyltransferase_4 domain suggesting involvement in RNA guanosine methylation. PPR18 contains a C-terminal CBS domain, similar to the CBSPPR1 protein found in nucleoids. PPR16, PPR29, PPR37, and PPR38 harbor a SmR (MutS-related) domain similar to that found in land plants pTAC2, GUN1, and SVR7. The PPR-cyclins PPR3, PPR4, and PPR6, in addition, contain a cyclin domain C-terminal to their SmR domain. PPR31 is an unusual PPR-cyclin containing at its N terminus an OctotricoPeptide Repeat (OPR) and a RAP domain. We consider the possibility that PPR proteins with a SmR domain can introduce single-stranded nicks in the plastid chromosome.
利用重复序列查找算法FT-Rep,我们在来自绿藻的9个全序列基因组中鉴定出了154个五肽重复(PPR)蛋白(共有1201个重复序列),并将它们分为47个直系同源组。所有数据都可在一个名为PPRdb的数据库中获取,该数据库可通过在线访问http://giavap-genomes.ibpc.fr/ppr获得。基于从这些重复序列生成的系统发育树,我们提出了PPR蛋白的进化情景。有两个PPR在整个绿色谱系中明显保守:MRL1是rbcL mRNA的稳定因子,而HCF152在植物中与psbH-petB基因间隔区结合。MCA1(petA的稳定因子)和PPR7(一种也作用于叶绿体mRNA的短PPR)在整个绿藻纲中保守。其他PPR是特定分支的,有基因丢失、复制和水平转移的证据。在一些PPR蛋白中,在C末端发现的一个额外结构域为其可能的功能提供了线索。PPR19和PPR26具有一个甲基转移酶_4结构域,表明其参与RNA鸟苷甲基化。PPR18含有一个C末端CBS结构域,类似于在类核中发现的CBSPPR1蛋白。PPR16、PPR29、PPR37和PPR38含有一个与陆地植物pTAC2、GUN1和SVR7中发现的结构域相似的SmR(MutS相关)结构域。此外,PPR细胞周期蛋白PPR3、PPR4和PPR6在其SmR结构域的C末端含有一个细胞周期蛋白结构域。PPR31是一种不寻常的PPR细胞周期蛋白,在其N末端含有一个八肽重复(OPR)和一个RAP结构域。我们考虑了具有SmR结构域的PPR蛋白可能在质体染色体中引入单链切口的可能性。