Contribution of buried distal amino acid residues in horse liver alcohol dehydrogenase to structure and catalysis.Shanmuganatham, K.K., Wallace, R.S., Ting-I Lee, A., Plapp, B.V.
(2018) Protein Sci. 27: 750-768
- PubMed: 29271062
- DOI: 10.1002/pro.3370
- Primary Citation of Related Structures:
- PubMed Abstract:
The dynamics of enzyme catalysis range from the slow time scale (∼ms) for substrate binding and conformational changes to the fast time (∼ps) scale for reorganization of substrates in the chemical step. The contribution of global dynamics to catalysi ...
The dynamics of enzyme catalysis range from the slow time scale (∼ms) for substrate binding and conformational changes to the fast time (∼ps) scale for reorganization of substrates in the chemical step. The contribution of global dynamics to catalysis by alcohol dehydrogenase was tested by substituting five different, conserved amino acid residues that are distal from the active site and located in the hinge region for the conformational change or in hydrophobic clusters. X-ray crystallography shows that the structures for the G173A, V197I, I220 (V, L, or F), V222I, and F322L enzymes complexed with NAD + and an analogue of benzyl alcohol are almost identical, except for small perturbations at the sites of substitution. The enzymes have very similar kinetic constants for the oxidation of benzyl alcohol and reduction of benzaldehyde as compared to the wild-type enzyme, and the rates of conformational changes are not altered. Less conservative substitutions of these amino acid residues, such as G173(V, E, K, or R), V197(G, S, or T), I220(G, S, T, or N), and V222(G, S, or T) produced unstable or poorly expressed proteins, indicating that the residues are critical for global stability. The enzyme scaffold accommodates conservative substitutions of distal residues, and there is no evidence that fast, global dynamics significantly affect the rate constants for hydride transfers. In contrast, other studies show that proximal residues significantly participate in catalysis.
No 92, Jing Mao 1st Rd., Taichung, Taiwan, 406, Republic of China.,Diagnostic Virology Laboratory, USDA, Ames, IA, 50010.,Department of Biochemistry, The University of Iowa, Iowa City, IA, 52242-1109.,Department of Physiology, School of Biomedical Sciences, University of Otago, Dunedin, 9054, New Zealand.