Ca2+ and Mg2+ binding site engineering increases the degradation of polyethylene terephthalate films by polyester hydrolases from Thermobifida fusca.
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Small cause, large effect: Structural characterization of cutinases from Thermobifida cellulosilytica.Microbial enzymes for the recycling of recalcitrant petroleum-based plastics: how far are we?A disulfide bridge in the calcium binding site of a polyester hydrolase increases its thermal stability and activity against polyethylene terephthalate.Engineered bacterial polyester hydrolases efficiently degrade polyethylene terephthalate due to relieved product inhibition.Biocatalysis as a green route for recycling the recalcitrant plastic polyethylene terephthalate.Structural insight into molecular mechanism of poly(ethylene terephthalate) degradation.Active Site Flexibility as a Hallmark for Efficient PET Degradation by I. sakaiensis PETase.Chemical Recycling of PET Wastes with Different Catalysts
P2860
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P2860
Ca2+ and Mg2+ binding site engineering increases the degradation of polyethylene terephthalate films by polyester hydrolases from Thermobifida fusca.
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name
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@en
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@nl
type
label
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@en
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@nl
prefLabel
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@en
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@nl
P2093
P2860
P356
P1476
Ca2+ and Mg2+ binding site eng ...... lases from Thermobifida fusca.
@en
P2093
Johannes Then
Juliane Schmidt
Markus Barth
Matheus R Belisário-Ferrari
Thorsten Oeser
P2860
P304
P356
10.1002/BIOT.201400620
P577
2015-01-19T00:00:00Z