> Reversible‐addition‐fragmentation chain transfer polymerization method was adopted here in this st'/>
机译:青霉素G酰化酶热敏共聚物载体的设计与合成研究
State Key Laboratory of Gansu Advanced Non‐ferrous Metal MaterialsLanzhou University of Technology Materials Science and EngineeringLanzhou 730050 China;
State Key Laboratory of Gansu Advanced Non‐ferrous Metal MaterialsLanzhou University of Technology Materials Science and EngineeringLanzhou 730050 China;
State Key Laboratory of Gansu Advanced Non‐ferrous Metal MaterialsLanzhou University of Technology Materials Science and EngineeringLanzhou 730050 China;
Electronic Materials Research Laboratory Key Laboratory of the Ministry of Education and International Center for Dielectric ResearchXi'an Jiaotong UniversityXi'an 710049 China;
Guangzhou Key Laboratory for Surface Chemistry of Energy Materials New Energy Research Institute School of Environment and EnergySouth China University of Technology Guangzhou Higher Education Mega CentreGuangzhou 510006 China;
Chemistry DepartmentXavier University of LouisianaNew Orleans LA 70125 USA;
College of Textile and GarmentSouthwest UniversityChongqing 400715 China;
Department of Physics and EngineeringFrostburg State UniversityFrostburg MD 21532 USA;
carrier; copolymerization; enzyme; synthesis; tri‐block thermo‐sensitive copolymer;
机译:青霉素G酰化酶热敏共聚物载体的设计与合成研究
机译:青霉素G acylase对热敏三嵌段共聚物系统的工程及固定
机译:聚乙酸乙烯酯-共二乙烯基苯珠粒作为载体固定化青霉素酰基转移酶和动力学的青霉素酰基转移酶的研究
机译:聚(乙酸乙烯酯-共-二乙烯基苯)珠作为载体固定化的研究青霉素酰化酶和固定化青霉素酰化酶的动力学
机译:设计,合成和评估HPMA共聚物-Tat偶联物作为潜在的药物递送载体。
机译:围绕固定在丙烯酸载体上的青霉素G酰基转移酶活性位点周围的微环境的调节改善了头孢菌素的酶促合成
机译:对丙烯酸载体上固定的青霉素G酰基转移酶活性位点微环境的调节改善了头孢菌素的酶促合成