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Journal Abstract Search
310 related items for PubMed ID: 37945666
1. Computational design of highly efficient thermostable MHET hydrolases and dual enzyme system for PET recycling. Zhang J, Wang H, Luo Z, Yang Z, Zhang Z, Wang P, Li M, Zhang Y, Feng Y, Lu D, Zhu Y. Commun Biol; 2023 Nov 09; 6(1):1135. PubMed ID: 37945666 [Abstract] [Full Text] [Related]
8. Comparative Performance of PETase as a Function of Reaction Conditions, Substrate Properties, and Product Accumulation. Erickson E, Shakespeare TJ, Bratti F, Buss BL, Graham R, Hawkins MA, König G, Michener WE, Miscall J, Ramirez KJ, Rorrer NA, Zahn M, Pickford AR, McGeehan JE, Beckham GT. ChemSusChem; 2022 Jan 10; 15(1):e202101932. PubMed ID: 34587366 [Abstract] [Full Text] [Related]
15. Emerging Roles of PETase and MHETase in the Biodegradation of Plastic Wastes. Maity W, Maity S, Bera S, Roy A. Appl Biochem Biotechnol; 2021 Aug 10; 193(8):2699-2716. PubMed ID: 33797026 [Abstract] [Full Text] [Related]
17. Machine learning-aided engineering of hydrolases for PET depolymerization. Lu H, Diaz DJ, Czarnecki NJ, Zhu C, Kim W, Shroff R, Acosta DJ, Alexander BR, Cole HO, Zhang Y, Lynd NA, Ellington AD, Alper HS. Nature; 2022 Apr 10; 604(7907):662-667. PubMed ID: 35478237 [Abstract] [Full Text] [Related]
18. Ideonella sakaiensis, PETase, and MHETase: From identification of microbial PET degradation to enzyme characterization. Yoshida S, Hiraga K, Taniguchi I, Oda K. Methods Enzymol; 2021 Apr 10; 648():187-205. PubMed ID: 33579403 [Abstract] [Full Text] [Related]