Baur H, Tricot C, Stalon V, Haas D
Mikrobiologisches Institut, Eidgenössische Technische Hochschule, Zürich, Switzerland.
J Biol Chem. 1990 Sep 5;265(25):14728-31.
Pseudomonas aeruginosa has an anabolic and a catabolic ornithine carbamoyltransferase (OTCase). In vitro, these homologous enzymes catalyze the same reaction (ornithine + carbamoyl phosphate (CP) in equilibrium citrulline + Pi), yet in vivo they function unidirectionally owing to specific kinetic properties. The catabolic OTC-ase cannot promote the anabolic reaction (citrulline formation) in vivo because of a sigmoidal CP saturation curve and a high CP concentration for half-maximal velocity. The structural basis for this kinetic specialization was examined. The catabolic OTCase lost most of its homotropic cooperativity and gained anabolic activity when an amino acid residue near the CP binding site, Glu-106, was replaced by alanine or glycine. In the anabolic OTCase of Escherichia coli the glutamine residue corresponding to Glu-106 was exchanged for glutamate; however, in this case no CP cooperativity was acquired. Thus, in catabolic OTCase, sequence features in addition to Glu-106 are important for sigmoidal CP saturation, and such a sequence was identified in the C-terminal part. By an in vivo gene fusion technique the 9 C-terminal amino acids of catabolic OTCase were replaced by the homologous 8 amino acids from anabolic OTCase of E. coli; the hybrid enzyme had a markedly reduced homotropic cooperativity. This gene fusion method should be generally useful for directed enzyme evolution.
铜绿假单胞菌具有一种合成代谢型和一种分解代谢型鸟氨酸氨甲酰基转移酶(OTCase)。在体外,这些同源酶催化相同的反应(鸟氨酸+氨甲酰磷酸(CP)生成瓜氨酸+磷酸处于平衡状态),然而在体内,由于特定的动力学特性,它们单向发挥作用。分解代谢型OTCase在体内不能促进合成代谢反应(瓜氨酸形成),因为其CP饱和曲线呈S形,且达到最大速度一半时所需的CP浓度很高。研究了这种动力学特异性的结构基础。当CP结合位点附近的一个氨基酸残基Glu-106被丙氨酸或甘氨酸取代时,分解代谢型OTCase失去了大部分同向协同性并获得了合成代谢活性。在大肠杆菌的合成代谢型OTCase中,与Glu-106对应的谷氨酰胺残基被替换为谷氨酸;然而,在这种情况下并没有获得CP协同性。因此,在分解代谢型OTCase中,除了Glu-106之外的序列特征对于S形CP饱和很重要,并且在C末端部分鉴定出了这样一个序列。通过体内基因融合技术,分解代谢型OTCase的9个C末端氨基酸被大肠杆菌合成代谢型OTCase的同源8个氨基酸所取代;杂合酶的同向协同性明显降低。这种基因融合方法应该普遍适用于定向酶进化。
