木质素
化学
克隆(编程)
拉伤
微生物学
生物
生物化学
芽孢杆菌(形态)
过氧化物酶
酶
木质素过氧化物酶
植物
程序设计语言
解剖
计算机科学
作者
Sanam Islam Khan,Numan Saleh Zada,Miray Şahinkaya,Dilşat Nigar Çolak,Safia Ahmed,Fariha Hasan,Ali Osman Beldüz,Sabriye Çanakçı,Samiullah Khan,Malik Badshah,Aamer Ali Shah
标识
DOI:10.1016/j.enzmictec.2021.109917
摘要
Lignin is a major byproduct of pulp and paper industries, which is resistant to depolymerization due to its heterogeneous structure. The enzymes peroxidases can be utilized as potent bio-catalysts to degrade lignin. In the current study, an Efeb gene of 1251bp encoding DyP-type peroxidase from Bacillus sp. strain BL5 (DyPBL5) was amplified, cloned into a pET-28a (+) vector and expressed in Escherichia coli BL21 (DE3) cells. A 46 kDa protein of DyPBL5 was purified through ion-exchange chromatography. Purified DyPBL5 was active at wide temperature (25-50 °C) and pH (3.0-8.0) range with optimum activity at 35 °C and pH 5.0. Effects of different chemicals on DyPBL5 were determined. The enzyme activity was strongly inhibited by SDS, DDT and β-mercaptoethanol, whereas stimulated in the presence of organic solvents such as methanol and ethanol. The kinetic parameters were determined and Km, Vmax and Kcat values were 1.06 mM, 519.75 μmol/min/mg and 395 S̶ 1, respectively. Docking of DyPBL5 with ABTS revealed that, Asn 244, Arg 339, Asp 383 and Thr 389 are putative amino acids, taking part in the oxidation of ABTS. The recombinant DyPBL5 resulted in the reduction of lignin contents up to 26.04 %. The SEM and FT-IR analysis of test samples gave some indications about degradation of lignin by DyPBL5. Various low molecular weight lignin degradation products were detected by analyzing the samples through gas chromatography mass spectrometry. High catalytic efficiency and lignin degradation rate make DyPBL5 an ideal bio-catalyst for remediation of lignin-contaminated sites.
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