锰过氧化物酶对阴离子型聚丙烯酰胺的生物降解：对接、基于亲和力的虚拟突变、QM/MM 计算和分子动力学模拟。

Biodegradation of anionic polyacrylamide by manganese peroxidase: docking, virtual mutation based on affinity, QM/MM calculation and molecular dynamics simulation.

机构信息

School of Material Science and Engineering, Anhui University of Science and Technology, Huainan, 232001, China.

School of Mechanical and Electrical Engineering, Huainan Normal University, Huainan, 232001, China.

出版信息

Bioprocess Biosyst Eng. 2022 Aug;45(8):1349-1358. doi: 10.1007/s00449-022-02750-8. Epub 2022 Jun 30.

DOI:10.1007/s00449-022-02750-8

PMID:35771268

Abstract

Manganese peroxidase (Mn P) is capable of effectively degrading anionic polyacrylamide (HPAM). However, the interaction of Mn P with HPAM at molecular level is lacking until now. Here, the HPAM model compounds, HPAM-2, HPAM-3, HPAM-4, and HPAM-5, were selected to reveal their binding mechanisms with Mn P. The results showed that the most suitable substrate for Mn P was HPAM-5, and the main reason for MnP-HPAM-5 with maximal affinity was strong hydrogen bond. LYS96 was the important key residue in all complexes, and the number of key residue was largest in MnP-HPAM-5. The optimal THR27ILE mutant may enhance the affinity of Mn P to HPAM-4. The stability of Mn P binding to HPAM-4 was the optimal. These results were helpful in designing highly efficient Mn P against HPAM to protect the ecological environment.

摘要

锰过氧化物酶 (Mn P) 能够有效地降解阴离子型聚丙烯酰胺 (HPAM)。然而，到目前为止，Mn P 与 HPAM 之间在分子水平上的相互作用仍不清楚。在这里，选择了 HPAM 模型化合物 HPAM-2、HPAM-3、HPAM-4 和 HPAM-5，以揭示它们与 Mn P 的结合机制。结果表明，Mn P 最适合的底物是 HPAM-5，而 MnP-HPAM-5 具有最大亲和力的主要原因是氢键较强。LYS96 是所有复合物中的重要关键残基，而 MnP-HPAM-5 中的关键残基数量最多。最佳 THR27ILE 突变体可能会增强 Mn P 对 HPAM-4 的亲和力。Mn P 与 HPAM-4 结合的稳定性最佳。这些结果有助于设计高效的 Mn P 来对抗 HPAM，以保护生态环境。

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锰过氧化物酶对阴离子型聚丙烯酰胺的生物降解：对接、基于亲和力的虚拟突变、QM/MM 计算和分子动力学模拟。

Biodegradation of anionic polyacrylamide by manganese peroxidase: docking, virtual mutation based on affinity, QM/MM calculation and molecular dynamics simulation.

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