Schou C, Rasmussen G, Kaltoft M B, Henrissat B, Schülein M
Department of Biochemistry and Nutrition, Technical University of Denmark, Lyngby.
Eur J Biochem. 1993 Nov 1;217(3):947-53. doi: 10.1111/j.1432-1033.1993.tb18325.x.
The catalytic activity of nine enzymes (endoglucanases I-III, V, VI and cellobiohydrolases I and II from Humicola insolens; endoglucanases A and C from Bacillus lautus), representative of cellulase families A-C, H, J and K, has been investigated using a series of reduced cellooligosaccharides (cellotriitol to cellohexaitol) as substrates. For each enzyme, the specificity of cleavage was determined by analytical HPLC while the kinetic constants were obtained from a kinetic assay involving a cellobiose dehydrogenase purified from H. insolens as a coupled enzyme using 2,6-dichloroindophenol as the electron acceptor. These data were used to estimate the number of subsites in the enzymes. The stereochemical course of hydrolysis by seven enzymes, representing the six different families, was assessed using 1H-NMR. The enzymes belonging to families which had already been investigated (A-C), showed results in agreement with previous studies. The three other families (H, J and K), for which no mechanistic data was previously available, gave results which indicated that enzymes in group H had retaining-type activity and enzymes in groups J and K had inverting-type activity. The retaining endoglucanases I and III displayed a high glycosyl-transferase activity under the conditions used during the NMR experiments resulting in precipitates of higher oligomers.
以一系列还原纤维寡糖(纤维三糖醇至纤维六糖醇)为底物,研究了代表纤维素酶家族A - C、H、J和K的九种酶(来自特异腐质霉的内切葡聚糖酶I - III、V、VI以及纤维二糖水解酶I和II;来自劳氏芽孢杆菌的内切葡聚糖酶A和C)的催化活性。对于每种酶,通过分析型高效液相色谱法确定切割特异性,同时通过动力学测定获得动力学常数,该动力学测定涉及从特异腐质霉纯化的纤维二糖脱氢酶作为偶联酶,使用2,6 - 二氯靛酚作为电子受体。这些数据用于估计酶中结合位点的数量。使用1H - NMR评估了代表六个不同家族的七种酶的水解立体化学过程。属于已研究家族(A - C)的酶,其结果与先前的研究一致。其他三个家族(H、J和K),以前没有可用的机制数据,其结果表明H组的酶具有保留型活性,J组和K组的酶具有转化型活性。在NMR实验所用条件下,保留型内切葡聚糖酶I和III表现出高糖基转移酶活性,导致形成更高寡聚物的沉淀。
