Kinoshita K, Sadanami K, Kidera A, Go N
Division of Chemistry, Graduate School of Science, Kyoto University, Japan.
Protein Eng. 1999 Jan;12(1):11-4. doi: 10.1093/protein/12.1.11.
In order to search for a common structural motif in the phosphate-binding sites of protein-mononucleotide complexes, we investigated the structural variety of phosphate-binding schemes by an all-against-all comparison of 491 binding sites found in the Protein Data Bank. We found four frequently occurring structural motifs composed of protein atoms interacting with phosphate groups, each of which appears in different protein superfamilies with different folds. The most frequently occurring motif, which we call the structural P-loop, is shared by 13 superfamilies and is characterized by a four-residue fragment, GXXX, interacting with a phosphate group through the backbone atoms. Various sequence motifs, including Walker's A motif or the P-loop, turn out to be a structural P-loop found in a few specific superfamilies. The other three motifs are found in pairs of superfamilies: protein kinase and glutathione synthetase ATPase domain like, actin-like ATPase domain and nucleotidyltransferase, and FMN-linked oxidoreductase and PRTase.
为了在蛋白质 - 单核苷酸复合物的磷酸结合位点中寻找共同的结构基序,我们通过对蛋白质数据库中发现的491个结合位点进行全对全比较,研究了磷酸结合模式的结构多样性。我们发现了四种常见的由与磷酸基团相互作用的蛋白质原子组成的结构基序,每种基序出现在具有不同折叠的不同蛋白质超家族中。最常见的基序,我们称之为结构P环,由13个超家族共享,其特征是一个四残基片段GXXX,通过主链原子与磷酸基团相互作用。各种序列基序,包括沃克A基序或P环,结果是在一些特定超家族中发现的结构P环。其他三个基序存在于超家族对中:蛋白激酶和谷胱甘肽合成酶ATP酶结构域样、肌动蛋白样ATP酶结构域和核苷酸转移酶,以及FMN连接的氧化还原酶和PRT酶。
