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Journal Abstract Search

191 related items for PubMed ID: 39269430

  • 1.
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  • 2. Active Site Flexibility as a Hallmark for Efficient PET Degradation by I. sakaiensis PETase.
    Fecker T, Galaz-Davison P, Engelberger F, Narui Y, Sotomayor M, Parra LP, Ramírez-Sarmiento CA.
    Biophys J; 2018 Mar 27; 114(6):1302-1312. PubMed ID: 29590588
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  • 4. Structural studies reveal the molecular mechanism of PETase.
    Chen CC, Han X, Ko TP, Liu W, Guo RT.
    FEBS J; 2018 Oct 27; 285(20):3717-3723. PubMed ID: 30048043
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  • 5. [Advances in the structure and function of MHETase].
    Yang M, Fan F, He L, Chen J, Wang L, Qiu S, Lyu C, Huang J.
    Sheng Wu Gong Cheng Xue Bao; 2024 Sep 25; 40(9):2812-2830. PubMed ID: 39319709
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  • 8. Efficient biodegradation of highly crystallized polyethylene terephthalate through cell surface display of bacterial PETase.
    Chen Z, Wang Y, Cheng Y, Wang X, Tong S, Yang H, Wang Z.
    Sci Total Environ; 2020 Mar 20; 709():136138. PubMed ID: 31887523
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  • 9. Functional expression of polyethylene terephthalate-degrading enzyme (PETase) in green microalgae.
    Kim JW, Park SB, Tran QG, Cho DH, Choi DY, Lee YJ, Kim HS.
    Microb Cell Fact; 2020 Apr 28; 19(1):97. PubMed ID: 32345276
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  • 11. Using a marine microalga as a chassis for polyethylene terephthalate (PET) degradation.
    Moog D, Schmitt J, Senger J, Zarzycki J, Rexer KH, Linne U, Erb T, Maier UG.
    Microb Cell Fact; 2019 Oct 10; 18(1):171. PubMed ID: 31601227
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  • 12. In Silico Identification of Potential Sites for a Plastic-Degrading Enzyme by a Reverse Screening through the Protein Sequence Space and Molecular Dynamics Simulations.
    Charupanit K, Tipmanee V, Sutthibutpong T, Limsakul P.
    Molecules; 2022 May 23; 27(10):. PubMed ID: 35630830
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  • 13. Structural bioinformatics-based protein engineering of thermo-stable PETase from Ideonella sakaiensis.
    Son HF, Joo S, Seo H, Sagong HY, Lee SH, Hong H, Kim KJ.
    Enzyme Microb Technol; 2020 Nov 23; 141():109656. PubMed ID: 33051015
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  • 14. Structural insight into catalytic mechanism of PET hydrolase.
    Han X, Liu W, Huang JW, Ma J, Zheng Y, Ko TP, Xu L, Cheng YS, Chen CC, Guo RT.
    Nat Commun; 2017 Dec 13; 8(1):2106. PubMed ID: 29235460
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  • 15. Optimization of polyethylene terephthalate biodegradation using a self-assembled multi-enzyme cascade strategy.
    Aer L, Jiang Q, Zhong L, Si Q, Liu X, Pan Y, Feng J, Zeng H, Tang L.
    J Hazard Mater; 2024 Sep 05; 476():134887. PubMed ID: 38901251
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  • 16. Protein engineering of stable IsPETase for PET plastic degradation by Premuse.
    Meng X, Yang L, Liu H, Li Q, Xu G, Zhang Y, Guan F, Zhang Y, Zhang W, Wu N, Tian J.
    Int J Biol Macromol; 2021 Jun 01; 180():667-676. PubMed ID: 33753197
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  • 17. Engineered polyethylene terephthalate hydrolases: perspectives and limits.
    Kawai F, Iizuka R, Kawabata T.
    Appl Microbiol Biotechnol; 2024 Jul 02; 108(1):404. PubMed ID: 38953996
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  • 19. Ca2+ and Mg2+ binding site engineering increases the degradation of polyethylene terephthalate films by polyester hydrolases from Thermobifida fusca.
    Then J, Wei R, Oeser T, Barth M, Belisário-Ferrari MR, Schmidt J, Zimmermann W.
    Biotechnol J; 2015 Apr 02; 10(4):592-8. PubMed ID: 25545638
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  • 20. 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 02; 193(8):2699-2716. PubMed ID: 33797026
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