A molecular dynamics investigation on the interaction properties of AzrC and its cofactor |
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| Authors: | Fariba Dehghanian Hamed Haghshenas Maryam Kay Hossein Tavakol |
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| Affiliation: | 1.Division of Genetics, Department of Biology, Faculty of Sciences,University of Isfahan,Isfahan,Iran;2.Division of Biochemistry, Department of Biology, Faculty of Sciences,Shahrekord University,Shahrekord,Iran;3.Department of Molecular Genetics, Faculty of Biological Sciences,Tarbiat Modares University,Tehran,Iran;4.Department of Chemistry,Isfahan University of Technology,Isfahan,Iran |
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| Abstract: | In this report, the main contributions of FMN were employed in the reductive cleavage reaction of AzrC protein (as a member of azoreductase family). Molecular dynamics simulations of three models in the presence and absence of FMN and ligand were performed to gather information about the dynamic nature of active site residues of AzrC. Combination of pairwise decomposition and alanine scanning calculations provides critical information about the FMN binding sites. The MD results analyzed by alanine scanning method revealed the high negative scores for N 10 (A) A, N 12 (A) A, S 17 (A) A and Y 151 (A) A mutations, which were in agreement with pairwise decomposition analyses. Hydrogen bond analyses indicated that these residues play critical roles in establishing appropriate hydrogen bonds between AzrC and FMN. Negative energy results for nonpolar residues such as W 103 (A), M 102 (A) and F 105 (A) and binding free energy analyses of three complexes indicate that the VDW interactions could be regarded as some favorable contribution in FMN and AzrC protein and confirmed the critical role of FMN in ligand binding (35.84 %), in addition to its catalytic function. This information could be used for future experimental investigations. |
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