Krupa A, Srinivasan N
Molecular Biophysics Unit, Indian Institute of Science, Bangalore 560 012, India.
Protein Sci. 2002 Jun;11(6):1580-4. doi: 10.1110/ps.3560102.
By means of profile-matching procedures, conservation of functionally important residues, and fold-recognition techniques, we show that two distinct families of lipopolysaccharide kinases encoded in the genomes of Gram-negative bacteria are related to each other and to two distinct classes of proteins, namely eukaryotic protein kinases and right open reading frame (RIO1). Members of one of the lipopolysaccharide kinase families are identified only in pathogenic bacteria. Phosphorylation by these enzymes is relevant in the construction of outer membrane, immune response, and pathogenic virulence. The class of proteins called RIO1, also related to eukaryotic protein kinases and previously known to occur only in archaea and eukaryotes, are now identified in eubacteria as well. It has been suggested here that RIO1 proteins are intermediately related to lipopolysaccharide kinases and eukaryotic protein kinases implying an evolutionary relationship between the three classes of proteins.
通过轮廓匹配程序、功能重要残基的保守性分析以及折叠识别技术,我们发现革兰氏阴性菌基因组中编码的两个不同的脂多糖激酶家族彼此相关,并且与两类不同的蛋白质相关,即真核蛋白激酶和右开放阅读框(RIO1)。其中一个脂多糖激酶家族的成员仅在病原菌中被鉴定出来。这些酶的磷酸化作用与外膜构建、免疫反应和致病毒力相关。一类被称为RIO1的蛋白质,也与真核蛋白激酶相关,以前已知仅存在于古细菌和真核生物中,现在在真细菌中也被鉴定出来。本文提出,RIO1蛋白与脂多糖激酶和真核蛋白激酶存在中间关联,这意味着这三类蛋白质之间存在进化关系。