Martin Georges, Keller Walter
Department of Cell Biology, Biozentrum, University of Basel, CH-4056 Basel, Switzerland.
RNA. 2004 Jun;10(6):899-906. doi: 10.1261/rna.5242304.
ATP(CTP):tRNA nucleotidyl transferases, tRNA maturing enzymes found in all organisms, and eubacterial poly(A) polymerases, enzymes involved in mRNA degradation, are so similar that until now their biochemical functions could not be distinguished by their amino acid sequence. BLAST searches and analysis with the program "Sequence Space" for the prediction of functional residues revealed sequence motifs which define these two protein families. One of the poly(A) polymerase defining motifs specifies a structure that we propose to function in binding the 3' terminus of the RNA substrate. Similar motifs are found in other homopolyribonucleotidyl transferases. Phylogenetic classification of nucleotidyl tranferases from sequenced genomes reveals that eubacterial poly(A) polymerases have evolved relatively recently and are found only in a small group of bacteria and surprisingly also in plants, where they may function in organelles.
ATP(CTP):tRNA核苷酸转移酶是在所有生物体中都能找到的tRNA成熟酶,而真细菌聚腺苷酸聚合酶则参与mRNA降解,这两种酶非常相似,以至于到目前为止,无法通过它们的氨基酸序列来区分它们的生化功能。使用“序列空间”程序进行BLAST搜索和分析以预测功能残基,揭示了定义这两个蛋白质家族的序列基序。聚腺苷酸聚合酶定义基序之一指定了一种结构,我们认为该结构在结合RNA底物的3'末端中起作用。在其他同聚核糖核苷酸转移酶中也发现了类似的基序。对已测序基因组中的核苷酸转移酶进行系统发育分类表明,真细菌聚腺苷酸聚合酶是最近才进化出来的,仅在一小群细菌中发现,令人惊讶的是在植物中也有发现,它们可能在细胞器中发挥作用。