Ho H T, Falk P J, Ervin K M, Krishnan B S, Discotto L F, Dougherty T J, Pucci M J
Department of Microbiology, Bristol-Myers Squibb Pharmaceutical Research Institute, Wallingford, Connecticut 06492.
Biochemistry. 1995 Feb 28;34(8):2464-70. doi: 10.1021/bi00008a009.
D-Glutamate is an essential component of the bacterial peptidoglycan. In Escherichia coli, the biosynthesis of D-glutamate is catalyzed by a glutamate racemase (encoded by the dga gene) and is regulated by UDP-N-acetylmuramyl-L-alanine [Doublet et al. (1994) Biochemistry 33, 5285], a bacterial peptidoglycan subunit precursor. Investigation was conducted to elucidate the interaction between the enzyme and its regulator. Whole and N-terminal truncated enzymes, encoded by individual constructs containing either a full-length or an N-terminal truncated dga gene, were evaluated. In the absence of the regulator, the purified whole enzyme showed a low-level basal racemase activity for which a Km value of 18.9 mM and a Vmax of 0.4 mumol/(min.mg) were determined, using D-glutamate as the substrate. Using the same substrate, in the presence of 6.5 microM UDP-N-acetylmuramyl-L-alanine, a Km value of 4.2 mM and a Vmax of 34 mumol/(min.mg) were measured. Similar kinetic parameters for the activated enzyme were obtained using L-glutamate as the substrate. The N-terminal truncated E. coli enzyme, with a 21 amino acid region removed, is similar in size to the Pediococcus pentosaceus glutamate racemase. Effects of the regulator on the full-length and the N-terminal truncated enzyme in the dialyzed cell lysate were compared. A host cell line, E. coli WM335 delta recA, containing a nonfunctional chromosomal dga gene was used to minimize the background interference. With 6.5 microM regulator added, the N-terminal truncated enzyme displayed a loss of more than 80% of the activity compared to the full-length enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
D-谷氨酸是细菌肽聚糖的重要组成部分。在大肠杆菌中,D-谷氨酸的生物合成由谷氨酸消旋酶(由dga基因编码)催化,并受UDP-N-乙酰胞壁酰-L-丙氨酸调节[Doublet等人(1994年),《生物化学》33卷,5285页],后者是一种细菌肽聚糖亚基前体。为阐明该酶与其调节因子之间的相互作用展开了研究。对由包含全长或N端截短的dga基因的单个构建体编码的完整酶和N端截短酶进行了评估。在没有调节因子的情况下,纯化的完整酶显示出低水平的基础消旋酶活性,以D-谷氨酸为底物时,测得其Km值为18.9 mM,Vmax为0.4 μmol/(min·mg)。使用相同底物,在6.5 μM UDP-N-乙酰胞壁酰-L-丙氨酸存在下,测得Km值为4.2 mM,Vmax为34 μmol/(min·mg)。以L-谷氨酸为底物时,活化酶获得了相似的动力学参数。去除了21个氨基酸区域的N端截短的大肠杆菌酶,其大小与戊糖片球菌谷氨酸消旋酶相似。比较了调节因子对透析细胞裂解物中全长酶和N端截短酶的影响。使用含有无功能染色体dga基因的宿主细胞系大肠杆菌WM335ΔrecA,以尽量减少背景干扰。添加6.5 μM调节因子后,与全长酶相比,N端截短酶的活性丧失了80%以上。(摘要截短于250字)
