Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/19192
Title: Structure and Dynamics of a Thermostable Alcohol Dehydrogenase from the Antarctic Psychrophile Moraxella sp. TAE123
Authors: Petratos, Kyriacos 
Gessmann, Renate 
Daskalakis, Vangelis 
Papadovasilaki, Maria 
Papanikolau, Yannis 
Tsigos, Iason 
Bouriotis, Vassilis 
Major Field of Science: Engineering and Technology
Field Category: Chemical Engineering
Keywords: (His-tagged at C-terminus;MoADH
Issue Date: 23-Jun-2020
Source: ACS Omega, 2020, vol. 5, iss. 24, pp. 14523-14534
Volume: 5
Issue: 24
Start page: 14523
End page: 14534
Journal: ACS Omega 
Abstract: © 2020 American Chemical Society. The structure of a recombinant (His-tagged at C-terminus) alcohol dehydrogenase (MoADH) from the cold-adapted bacterium Moraxella sp. TAE123 has been refined with X-ray diffraction data extending to 1.9 Å resolution. The enzyme assumes a homo-tetrameric structure. Each subunit comprises two distinct structural domains: the catalytic domain (residues 1-150 and 288-340/345) and the nucleotide-binding domain (residues 151-287). There are two Zn2+ ions in each protein subunit. Two additional zinc ions have been found in the crystal structure between symmetry-related subunits. The structure has been compared with those of homologous enzymes from Geobacillus stearothermophilus (GsADH), Escherichia coli (EcADH), and Thermus sp. ATN1 (ThADH) that thrive in environments of diverse temperatures. Unexpectedly, MoADH has been found active from 10 to at least 53 °C and unfolds at 89 °C according to circular dichroism spectropolarimetry data. MoADH with substrate ethanol exhibits a small value of activation enthalpy ΔH‡ of 30 kJ mol-1. Molecular dynamics simulations for single subunits of the closely homologous enzymes MoADH and GsADH performed at 280, 310, and 340 K showed enhanced wide-ranging mobility of MoADH at high temperatures and generally lower but more distinct and localized mobility for GsADH. Principal component analysis of the fluctuations of both ADHs resulted in a prominent open-close transition of the structural domains mainly at 280 K for MoADH and 340 K for GsADH. In conclusion, MoADH is a very thermostable, cold-adapted enzyme and the small value of activation enthalpy allows the enzyme to function adequately at low temperatures.
URI: https://hdl.handle.net/20.500.14279/19192
ISSN: 24701343
DOI: 10.1021/acsomega.0c01210
Rights: This is an open access article published under a Creative Commons Attribution (CC-BY) License, which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
Type: Article
Affiliation : Foundation for Research & Technology-Hellas (F.O.R.T.H.) 
Cyprus University of Technology 
University of Crete 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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