Hwang Y W, Miller D L
New York State Office of Mental Retardation and Developmental Disabilities, Staten Island, New York 10314.
J Biol Chem. 1987 Sep 25;262(27):13081-5.
A single amino acid substitution (Asp to Asn) at position 138 of Escherichia coli elongation factor Tu (EF-Tu) was introduced in the tufA gene clone by oligonucleotide site-directed mutagenesis. The mutated tufA gene was then expressed in maxicells. The properties of [35S]methionine-labeled mutant and wild type EF-Tu were compared by in vitro assays. The Asn-138 mutation greatly reduced the protein's affinity for GDP; however, this mutation dramatically increased the protein's affinity for xanthosine 5'-diphosphate. The mutant protein forms a stable complex with Phe-tRNA and xanthosine 5'-triphosphate, which binds to ribosomes, whereas it does not form a complex with Phe-tRNA and GTP (10 microM). These results suggest that in EF-Tu.nucleoside diphosphate complexes, amino acid residue 138 must interact with the substituent on C-2 of the purine ring. Thus, in wild type EF-Tu, Asp-138 would hydrogen bond to the 2-amino group of GDP, and in the mutant EF-Tu, Asn-138 would form an equivalent hydrogen bond with the 2-carbonyl group of xanthosine 5'-diphosphate. Aspartic acid 138 is conserved in the homologous sequences of all GTP regulatory proteins. This mutation would allow one to specifically alter the nucleotide specificity of other GTP regulatory proteins.
通过寡核苷酸定点诱变,在大肠杆菌延伸因子Tu(EF-Tu)的tufA基因克隆中引入了位于第138位的单个氨基酸替换(天冬氨酸替换为天冬酰胺)。然后,在最大细胞中表达突变的tufA基因。通过体外试验比较了[35S]甲硫氨酸标记的突变型和野生型EF-Tu的特性。天冬酰胺138突变大大降低了该蛋白质对GDP的亲和力;然而,此突变显著增加了该蛋白质对5'-二磷酸黄苷的亲和力。突变蛋白与苯丙氨酰-tRNA和5'-三磷酸黄苷形成稳定复合物,该复合物可与核糖体结合,而它不与苯丙氨酰-tRNA和GTP(10微摩尔)形成复合物。这些结果表明,在EF-Tu·核苷二磷酸复合物中,氨基酸残基138必须与嘌呤环C-2上的取代基相互作用。因此,在野生型EF-Tu中,天冬氨酸138会与GDP的2-氨基形成氢键,而在突变型EF-Tu中,天冬酰胺138会与5'-二磷酸黄苷的2-羰基形成等效氢键。天冬氨酸138在所有GTP调节蛋白的同源序列中是保守的。此突变将使人们能够特异性改变其他GTP调节蛋白的核苷酸特异性。
