von Haugwitz_2022_ACS.Catal_12_15259

Reference

Title : Structural Insights into (Tere)phthalate-Ester Hydrolysis by a Carboxylesterase and Its Role in Promoting PET Depolymerization - von Haugwitz_2022_ACS.Catal_12_15259
Author(s) : von Haugwitz G , Han X , Pfaff L , Li Q , Wei H , Gao J , Methling K , Ao Y , Brack Y , Jan Mican J , Feiler CG , Weiss MS , Bednar D , Palm GJ , Lalk M , Lammers M , Damborsky J , Weber G , Liu W , Bornscheuer UT , Wei R
Ref : ACS Catal , 12 :15259 , 2022
Abstract :

TfCa, a promiscuous carboxylesterase from Thermobifida fusca, was found to hydrolyze polyethylene terephthalate (PET) degradation intermediates such as bis(2-hydroxyethyl) terephthalate (BHET) and mono-(2-hydroxyethyl)-terephthalate (MHET). In this study, we elucidated the structures of TfCa in its apo form, as well as in complex with a PET monomer analogue and with BHET. The structurefunction relationship of TfCa was investigated by comparing its hydrolytic activity on various ortho- and para-phthalate esters of different lengths. Structure-guided rational engineering of amino acid residues in the substrate-binding pocket resulted in the TfCa variant I69W/V376A (WA), which showed 2.6-fold and 3.3-fold higher hydrolytic activity on MHET and BHET, respectively, than the wild-type enzyme. TfCa or its WA variant was mixed with a mesophilic PET depolymerizing enzyme variant [Ideonella sakaiensis PETase (IsPETase) PM] to degrade PET substrates of various crystallinity. The dual enzyme system with the wild-type TfCa or its WA variant produced up to 11-fold and 14-fold more terephthalate (TPA) than the single IsPETase PM, respectively. In comparison to the recently published chimeric fusion protein of IsPETase and MHETase, our system requires 10% IsPETase and one-fourth of the reaction time to yield the same amount of TPA under similar PET degradation conditions. Our simple dual enzyme system reveals further advantages in terms of cost-effectiveness and catalytic efficiency since it does not require time-consuming and expensive cross-linking and immobilization approaches.

PubMedSearch : von Haugwitz_2022_ACS.Catal_12_15259
PubMedID: 36570084
Gene_locus related to this paper: thefu-1831

Related information

Inhibitor Phthalate
Substrate HEB    BECBA    BETEB    MHET    BHET    Diethyl-phthalate
Gene_locus thefu-1831
Structure 7W1I    7W1J    7W1K    7W1L

Citations formats

von Haugwitz G, Han X, Pfaff L, Li Q, Wei H, Gao J, Methling K, Ao Y, Brack Y, Jan Mican J, Feiler CG, Weiss MS, Bednar D, Palm GJ, Lalk M, Lammers M, Damborsky J, Weber G, Liu W, Bornscheuer UT, Wei R (2022)
Structural Insights into (Tere)phthalate-Ester Hydrolysis by a Carboxylesterase and Its Role in Promoting PET Depolymerization
ACS Catal 12 :15259

von Haugwitz G, Han X, Pfaff L, Li Q, Wei H, Gao J, Methling K, Ao Y, Brack Y, Jan Mican J, Feiler CG, Weiss MS, Bednar D, Palm GJ, Lalk M, Lammers M, Damborsky J, Weber G, Liu W, Bornscheuer UT, Wei R (2022)
ACS Catal 12 :15259