分子动力学模拟分析超高压对固液两态多酚氧化酶稳定性的影响  

作　　者：李镜浩 梁展鸿 肖更生 徐玉娟[1,2] 余元善 吴继军[1,2] 彭健 李璐[1,2] 程丽娜 LI Jinghao;LIANG Zhanhong;XIAO Gengsheng;XU Yujuan;YU Yuanshan;WU Jijun;PENG Jian;LI Lu;CHENG Lina(Guangdong Key Laboratory of Agricultural Products Processing,Key Laboratory of Functional Foods,Ministry of Agriculture and Rural Affairs,Sericultural&Agri-food Research Institute,Guangdong Academy of Agricultural Sciences,Guangzhou 510610,China;Guangdong Laboratory for Lingnan Modern Agriculture,Guangzhou 510610,China;College of Food Science and Technology,Zhongkai University of Agricultural and Engineering,Guangzhou 510631,China;School of Food Science,Guangdong Pharmaceutical University,Zhongshan 528400,China)

机构地区：[1]广东省农业科学院蚕业与农产品加工研究所,农业农村部功能食品重点实验室,广东省农产品加工重点实验室,广东广州510610 [2]岭南现代农业科学与技术广东省实验室,广东广州510610 [3]仲恺农业工程学院轻工食品学院,广东广州510631 [4]广东药科大学食品科学学院,广东中山528400

出　　处：《食品科学》2024年第16期33-44,共12页Food Science

基　　金：岭南现代农业实验室科研项目(NZ2021031);广州市科技计划项目(2023B01J2004);河科社农大专项(2023015);广东省科学技术协会青年科技人才培育计划项目(SKXRC202318);广州市科协青年托举人才项目(QT20220101055);广东省农业科学院“十四五”农业优势产业学科团队项目(202109TD);广东省农业科学院科技人才引进专项资金项目(R2020YJ-YB2001)。

摘　　要：以固态晶体(crystal,C-)、液态(liquid,L-)多酚氧化酶(polyphenol oxidase,PPO)为对象,采用分子动力学模拟的方法,分析其在常温(298.15 K)常压/高压(0.1~400.0 MPa)条件下分子构象的变化。结果表明:固液两态PPO的空间结构均随压力(0.1~400.0 MPa)增大而变的不稳定;与L-PPO相比,C-PPO对压力更敏感,表现出更高的残基波动,溶剂可及表面积和体积减小,蛋白结构更致密;α-螺旋向无规卷曲过渡,导致氢键数量不稳定,螺旋弹性也降低,整体构象差异明显;活性位点Cu^(2+)位置疏远,残基之间距离发生改变、运动出现随机化,干扰底物催化结合。因此,物理状态和压力改变PPO空间结构、残基运动模式和底物结合范围,影响酶稳定性。因此,PPO状态和压力因素对酶变性程度可排序为:固态>液态,物理状态>压力水平。This study evaluated the conformational changes of polyphenol oxidase(PPO)in the crystalline solid(C-)and liquid(L-)states at room temperature(298.15 K)and normal or ultra-high pressure(0.1-400.0 MPa).The results indicated that when the pressure increased from 0.1 to 400.0 MPa,the spatial structure of PPO in both states became unstable.Compared with L-PPO,C-PPO was more susceptible to pressure,and exhibited higher residue fluctuations,reduced solvent accessible surface area and volume and a denser structure.With the transition ofα-helices to random coils under high pressure conditions,the number of hydrogen bonds became unstable andα-helix elasticity decreased,thus leading to significant conformational differences.The active site of the Cu^(2+)position was displaced,the inter-residue distance was altered and random motion appeared,thereby interfering with substrate binding.In conclusion,both physical state and pressure level can influence PPO’s spatial structure,residue mobility,and substrate binding range,ultimately impacting the enzyme’s stability,and their impacts on the degree of enzyme denaturation can be ranked as follows:solid state>liquid state,and physical state>pressure level.

关 键 词：多酚氧化酶 分子动力学模拟 物理状态 超高压 稳定性 

分 类 号：TS255.1[轻工技术与工程—农产品加工及贮藏工程]