Emerging Strategies in Polyethylene Terephthalate Hydrolase Research for Biorecycling.
Animals
Bacteria
Binding Sites
Carboxylic Ester Hydrolases
/ genetics
Gene Expression Regulation
Humans
Hydrolases
/ genetics
Hydrolysis
Models, Molecular
Mutation
Nanoparticles
/ chemistry
Polyethylene Terephthalates
/ metabolism
Protein Binding
Protein Conformation
Protein Stability
Structure-Activity Relationship
PET hydrolase
biorecycling
cutinases
polyethylene terephthalate
waste plastics
Journal
ChemSusChem
ISSN: 1864-564X
Titre abrégé: ChemSusChem
Pays: Germany
ID NLM: 101319536
Informations de publication
Date de publication:
05 Oct 2021
05 Oct 2021
Historique:
revised:
02
05
2021
received:
10
04
2021
pubmed:
6
5
2021
medline:
15
12
2021
entrez:
5
5
2021
Statut:
ppublish
Résumé
The research on polyethylene terephthalate (PET) hydrolyzing enzymes started in 2005; several studies are now nearing the objective of their application in biorecycling of PET, which is an urgent environmental issue. The thermostability of PET hydrolases must be higher than 70 °C, which has already been established by several thermophilic cutinases, as higher thermostability results in higher activity. Additionally, pretreatment of waste PET to more enzyme-attackable forms is necessary for PET biorecycling. This Minireview summarizes research on enzymatic PET hydrolysis from two viewpoints: 1) improvement of PET hydrolases by focusing on their thermostabilities by mutation of enzyme genes, their expression in several hosts, and their modifications; and 2) processing of waste PET to readily biodegradable forms. Finally, the outlook of PET biorecycling is described.
Identifiants
pubmed: 33949146
doi: 10.1002/cssc.202100740
doi:
Substances chimiques
Polyethylene Terephthalates
0
Hydrolases
EC 3.-
Carboxylic Ester Hydrolases
EC 3.1.1.-
cutinase
EC 3.1.1.-
Types de publication
Journal Article
Review
Langues
eng
Sous-ensembles de citation
IM
Pagination
4115-4122Informations de copyright
© 2021 Wiley-VCH GmbH.
Références
R. C. Thompson, C. J. Moore, F. S. Vom Saal, S. H. Swan, Philos. Trans. R. Soc. London Ser. B 2009, 364, 2153-2166.
PlasticEurope (2019). Plastics-the Facts 2019. Retrieved from https://www.plasticseurope.org/application/files/9715/7129/9584/FINAL_web_version_Plastics_the_facts2019_14102019.pdf.
R. Geyer, J. R. Jambeck, K. L. Law, Sci. Adv. 2017, 3, e1700782.
World Economic Forum (2016). The New Plastics Economy: Rethinking the future of plastics. Retrieved from http://www3.weforum.org/docs/WEF_The_New_Plastics_Economy.pdf.
J. Gigault, A. T. Halle, M. Baudrimont, P.-Y. Pascal, F. Gauffre, T.-L. Phi, H. E. Hadri, B. Grassl, S. Reynaud, Environ. Pollut. 2018, 235, 1030-1034.
R. M. Blair, S. Waldron, V. Phoenix, C. Gauchotte-Lindsay, Springer Sci. Rev. 2017, DOI: 10.1007/s40362-017-0044-7.
R. D. Field, F. Rodriguez, R. K. Finn, J. Appl. Polym. Sci. 1974, 18, 3571-3579.
P. J. Baker, C. Poultney, Z. Liu, R. Gross, J. K. Montclare, Appl. Microbiol. Biotechnol. 2012, 93, 229-240.
F. Kawai, K. Nakadai, E. Nishioka, H. Nakajima, H. Ohara, K. Masaki, H. Iefuji, Polym. Degrad. Stab. 2011, 96, 1342-1348.
M. Knoll, T. M. Hamm, F. Wagner, V. Martinez, J. Pleiss, BMC Bioinf. 2009, 10, 89.
D. Stanica-Ezeanu, D. Matei, Sci. Rep. 2021, 11, 4431.
C. A. Murphy, J. A. Cameron, S. J. Huang, R. T. Vinopal, Appl. Environ. Microbiol. 1996, 62, 456-460.
E. Nikolaivits, M. Kanelli, M. Dimarogona, E. Topakas, Catalysis 2018, 8, 612.
F. Kawai, T. Kawabata, M. Oda, Appl. Microbiol. Biotechnol. 2019, 103, 4253-4268.
W. Zimmermann, S. Billig, Adv. Biochem. Eng./Biotechnol. 2011, 125, 97-120.
F. Kawai, T. Kawabata, M. Oda, ACS Sustainable Chem. Eng. 2020, 8, 8894-8908.
F. Kawai, Catalysis 2021, 11, 206.
R.-J. Müller, H. Schrader, J. Profe, K. Dresler, W.-D. Deckwer, Macromol. Rapid Commun. 2005, 26, 1400-1405.
R. Wei, T. Oeser, J. Schmidt, R. Meier, M. Barth, J. Then, W. Zimmermann, Biotechnol. Bioeng. 2016, 113, 1658-1665.
U. Thumarat, T. Kawabata, M. Nakajima, M. Nakajima, A. Sugiyama, K. Yazaki, T. Tada, T. Waku, N. Tanaka, F. Kawai, J. Biosci. Bioeng. 2015, 120, 491-497.
D. Ribitsch, E. H. Acero, K. Greimel, I. Eiteljoerg, E. Trotscha, G. Freddi, H. Schwab, G. M. Guebitz, Biocatal. Biotransform. 2012, 30, 2-9.
D. Ribitsch, A. Hromic, S. Zitzenbacher, B. Zartl, C. Gamerith, A. Pellis, A. Jungbauer, A. Lyskowski, G. Steinkellner, K. Gruber, R. Tscheliessnig, E. H. Acero, G. M. Guebitz, Biotechnol. Bioeng. 2017, 114, 2481-2488.
D. Ribitsch, E. H. Acero, K. Greimel, A. Dellacher, S. Zitzenbacher, A. Marold, R. D. Rodriguez, G. Steinkellner, K. Gruber, H. Schwab, G. M. Guebitz, Polymer 2012, 4, 617-629.
R. Wei, T. Oeser, N. Kühn, M. Barth, J. Schmidt, W. Zimmermann, AMB Express 2014, 4, 44.
F. Kawai, M. Oda, T. Tamashiro, T. Waku, N. Tanaka, M. Yamamoto, H. Mizushima, T. Miyakawa, M. Tanokura, Appl. Microbiol. Biotechnol. 2014, 98, 10053-10064.
S. Sulaiman, S. Yamato, E. Kanaya, J.-J. Kim, Y. Koga, K. Takano, S. Kanaya, Appl. Environ. Microbiol. 2012, 78, 1556-1562.
Å. M. Ronqvist, X. Venchun, W. Lu, R. A. Gross, Macromolecules 2009, 42, 5128-5138.
S. Yoshida, K. Hiraga, T. Takehana, I. Taniguchi, H. Yamaji, Y. Maeda, K. Toyohara, K. Miyamoto, K. Oda, Science 2016, 351, 1196-1199.
eLetters, available online: https://science.sciencemag.org/content/351/6278/1196/tab-e-letters (accessed on April 10, 2021).
R. Wei, W. Zimmermann, Microb. Biotechnol. 2017, 10, 1302-1307.
M. Oda, Y. Yamagami, S. Inaba, T. Oida, M. Yamamoto, S. Kitajima, F. Kawai, Appl. Microbiol. Biotechnol. 2018, 102, 10067-10077.
R. Wei, C. Song, D. Gräsing, T. Schneider, P. Bielytskyi, D. Böttche, J. Matysik, U. T. Bornscheuer, W. Zimmerman, Nat. Commun. 2019, 10, 5581.
V. Tournier, C. M. Topham, A. Gilles, B. David, C. Folgoas, E. Moya-Leclair, E. Kamionka, M.-L. Desrousseaux, H. Texier, S. Gavalda, M. Cot, E. Guémard, M. Dalibey, J. Nomme, G. Cioci, S. Barbe, M. Chateau, I. André, S. Duquesne, A. Marty, Nature 2020, 580, 216-219.
European Commision. Circular Economy Action Plan. https://ec.europa.eu/environment/circular-economy/.
D. Danso, C. Schmeisser, J. Chow, W. Zimmermann, R. Wei, C. Leggewie, X. Li, T. Hazen, W. R. Streit, Appl. Environ. Microbiol. 2018, 84, e02773-17.
X. Xi, K. Ni, H. Hao, Y. Shang, B. Zhao, Z. Qian, Enzyme Microb. Technol. 2021, 143, 109715.
S. Kato, S. Sakai, M. Hirai, E. Tasumi, M. Nishizawa, K. Suzuki, K. Takai, Microbes Environ. 2018, 33, 107-110.
M. Lu, D. Schneider, R. Daniel, bioRxiv 2021, DOI: https:doi.org/10.1101/2021.02.01.429111.
Y. Cui, Y. Chen, X. Liu, S. Dong, Y. Tian, Y. Ziao, R. Mitra, J. Han, C. Li, X. Han, W. Liu, Q. Chen, W. Wei, X. Wang, W. Du, S. Tang, H. Xiang, H. Liu, Y. Liang, K. N. Houk, B. Wu, ACS Catal. 2021, 11, 1340-1350.
E. Z. L. Zhong-Johnson, C. A. Voigt, A. J. Sinskey, Sci. Rep. 2021, 11, 928.
A. Bollinger, S. Thies, E. Knieps-Grűnhagen, C. Gertzen, S. Kobus, A. Hőppner, M. Ferrer, H. Gohlke, S. H. J. Smits, K.-E. Jaeger, Front. Microbiol. 2020, 11, 114.
E. L. Almeida, A. F. C. Rincó, S. A. Jackson, A. D. W. Dobson, Front. Microbiol. 2020, 10, 2187.
J. Then, R. Wei, T. Oeser, A. Gerdts, J. Schmidt, M. Barth, W. Zimmermann, FEBS Open Bio. 2016, 6, 425-432.
E. Emori, N. Numoto, A. Senga, G.-J. Bekker, Y. Kobayashi, N. Ito, F. Kawai, M. Oda, Proteins 2021, 89, 502-511.
R. Wei, T. Oeser, M. Barth, N. Weigl, A. Lübs, M. S. Siegmund, M. C. Hacker, W. Zimmermann, J. Mol. Catal. B 2014, 103, 72-78.
Y. Yang, M. Malten, A. Grote, D. Jahn, W.-D. Deckwer, Biotechnol. Bioeng. 2007, 96, 780-794.
N. Sinsereekul, T. Wangkam, A. Thamchaipenet, T. Srikhirin, L. Eurwilaichitr, V. Champreda, Appl. Environ. Microbiol. 2010, 86, 1775-1784.
R. Wei, D. Breite, C. Song, D. Gräsing, T. Ploss, P. Hille, R. Schwerdtfeger, J. Matysik, A. Schulze, W. Zimmermann, Adv. Sci. 2019, 6, 190049.
F. L. Yan, R. Wei, C. Qiu, U. T. Bornscheuer, Y.-L. Liu, Microb. Biotechnol. 2020, 0(0), 1-12.
A. Shirke, C. White, J. A. Englaender, A. Zwarycz, G. L. Butterfoss, R. J. Linhardt, R. A. Gross, Biochemistry 2018, 57, 1190-1200.
C. Gamerith, M. Vastano, S. M. Ghorbanpour, S. Zitzenbacher, D. Ribitsch, M. T. Zumsttein, M. Sander, E. H. Acero, A. Pellis, G. M. Guebitz, Front. Microbiol. 2017, 8, 938.
S. Chen, X. Tong, R. W. Woodard, G. Du, J. Wu, J. Chen, J. Biol. Chem. 2008, 283, 25854-25862.
A. Su, A. Shirke, J. Baik, Y. Zou, R. Gross, Enzyme Microb. Technol. 2018, 116, 33-40.
K. Hedge, V. D. Veeranki, Appl. Biochem. Biotechnol. 2013, 170, 654-675.
C. Roth, R. Wei, T. Oeser, J. Then, C. Foellner, W. Zimmermann, N. Straeter, Appl. Microbiol. Biotechnol. 2014, 98, 7815-7823.
E. Herrero Acero, D. Ribitsch, G. T. Steinkellner, K. Gruber, K. Greimel, I. Eiteljoerg, E. Trotscha, R. Wei, W. Zimmermann, M. Zinn, A. Cabaco-Paulo, G. Freddi, H. Schwab, G. M. Guebitz, Macromolecules 2011, 44, 4632-4640.
J. Schmidt, R. Wei, T. Oeser, M. R. Belisário-Ferrari, M. Barth, J. Then, W. Zimmermann, FEBS Open Bio 2016, 6, 919-927.
Z. Chen, Y. Wang, Y. Cheng, X. Wang, S. Tong, H. Yang, Z. Wang, Sci. Total Environ. 2020, 709, 136138.
T. Hiraishi, Y. Hirahara, Y. Doi, M. Maeda, S. Taguchi, Appl. Environ. Microbiol. 2006, 72, 7331-7338.
S. Arola, M. B. Linder, Sci. Rep. 2016, 6, 35358.
D. Ribitsch, E. H. Acero, A. Przylucka, S. Zitzenbacher, A. Marold, C. Gamerith, R. Tschelie(nig, A. Jungbauer, H. Rennhofer, H. Lichtenegger, H. Amenitsch, K. Bonazza, C. P. Kubicek, I. S. Drizhinina, G. M. Guebitz, Appl. Environ. Microbiol. 2015, 81, 3586-3592.
T. Kawabata, M. Oda, F. Kawai, J. Biosci. Bioeng. 2017, 124, 28-35.
M. Furukawa, N. Kawakami, A. Tomizawa, K. Miyamoto, Sci. Rep. 2019, 9, 16038.
M. Furukawa, N. Kawakami, K. Oda, K. Miyamoto, ChemSusChem. 2018, 77, 4018-4025.
M. Salvador, U. Abdulmutalib, J. Gonzalez, J. Kim, A. A. Smith, J.-L. Faulon, R. Wei, W. Zimmermann, J. I. Jimenez, Genesis 2019, 10, 373.
E. F. Pettersen, T. D. Goddard, C. C. Huang, G. S. Couch, D. M. Greenblatt, E. C. Meng, T. E. Ferrin, J. Comput. Chem. 2004, 25, 1605-1612.
F. Quartinello, S. Vajnhandl, J. V. Valh, T. J. Farmer, B. Vončina, A. Lobnik, E. H. Acerro, A. Pellis, G. M. Guebitz, Microb. Biotechnol. 2017, 10, 1376-1383.