Thermodynamic and structural investigation of the specific SDS binding of <i>humicola insolens</i> cutinase

Kold, David; Dauter, Zbigniew; Laustsen, Anne Kjær; Brzozowski, A.M.; Turkenburg, J.P.; Nielsen, Anders Dybdal; Koldsø, Heidi; Petersen, Evamaria; Schiøtt, Birgit; Maria, Leonardo De; Wilson, K.S.; Svendsen, Allan; Wimmer, Reinhard

doi:10.1002/pro.2489

Cited by 40 publications

(46 citation statements)

References 57 publications

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“…Interestingly, cutinases usually show lower molecular weight (20-30 kDa) than lipases [19], in accordance to the results we found in this present study, with up to 70 kDa bands (from RnL) (Table 1S). For this study, it was prioritized a condition in which all enzymes could be active and stable, more than an ideal condition of PET availability, such as near to its glass transition temperature.…”

Section: Screening Of Enzymes For Pet Hydrolysissupporting

confidence: 93%

Screening of commercial enzymes for poly(ethylene terephthalate) (PET) hydrolysis and synergy studies on different substrate sources

Castro

Carniel²,

Nicomedes

et al. 2017

Journal of Industrial Microbiology and Biotechnology

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Poly(ethylene terephthalate) (PET) is one of the most consumed plastics in the world. The development of efficient technologies for its depolymerization for monomers reuse is highly encouraged, since current recycling rates are still very low. In this study, 16 commercial lipases and cutinases were evaluated for their abilities to catalyze the hydrolysis of two PET samples. Humicola insolens cutinase showed the best performance and was then used in reactions on other PET sources, solely or in combination with the efficient mono(hydroxyethyl terephthalate)-converting lipase from Candida antarctica. Synergy degrees of the final titers of up to 2.2 (i.e., more than double of the concentration when both enzymes were used, as compared to their use alone) were found, with increased terephthalic acid formation rates, reaching a maximum of 59,989 µmol/L (9.36 g/L). These findings open up new possibilities for the conversion of post-consumer PET packages into their minimal monomers, which can be used as drop in at existing industrial facilities.

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Section: Screening Of Enzymes For Pet Hydrolysissupporting

confidence: 93%

Screening of commercial enzymes for poly(ethylene terephthalate) (PET) hydrolysis and synergy studies on different substrate sources

Castro

Carniel²,

Nicomedes

et al. 2017

Journal of Industrial Microbiology and Biotechnology

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“…Hydrolases act as gatekeepers that enhance the selective permeation of butanol and butyric acid. Hydrophobic residues are shown in red color for the HiC molecules 46 . d Diffusion of the produced butyl butyrate into the organic phase is driven by agitation that sequentially brings the biocatalyst beads to the solvent interface …”

Section: Resultsmentioning

confidence: 99%

Spatially confined lignin nanospheres for biocatalytic ester synthesis in aqueous media

et al. 2018

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Dehydration reactions proceed readily in water-filled biological cells. Development of biocatalysts that mimic such compartmentalized reactions has been cumbersome due to the lack of low-cost nanomaterials and associated technologies. Here we show that cationic lignin nanospheres function as activating anchors for hydrolases, and enable aqueous ester synthesis by forming spatially confined biocatalysts upon self-assembly and drying-driven aggregation in calcium alginate hydrogel. Spatially confined microbial cutinase and lipase retain 97% and 70% of their respective synthetic activities when the volume ratio of water to hexane increases from 1:1 to 9:1 in the reaction medium. The activity retention of industrially most frequently used acrylic resin-immobilized Candida antarctica lipase B is only 51% under similar test conditions. Overall, our findings enable fabrication of robust renewable biocatalysts for aqueous ester synthesis, and provide insight into the compartmentalization of diverse heterogeneous catalysts.

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“…In general, enzymes from thermophilic microorganisms display relatively high optimal temperature and good thermostability compared to those from mesophilic microorganisms. However, there are few reports on cutinases from thermophilic fungi, except for Humicola insolens [ 10 ] and Thielavia terrestris [ 11 , 12 ]. Although many cutinase genes have been cloned and expressed, few reports are available on bioreactor systems for large-scale production [ 8 , 13 – 16 ].…”

Section: Introductionmentioning

confidence: 99%

“…The crystal structure of the cutinase from Fusarium solani pisi was firstly determined and thoroughly studied [ 20 , 21 ]. Structures of fungal cutinases from Aspergillus oryzae [ 22 ], Fusarium oxysporum [ 23 ], Glomerella cingulata [ 24 ], H. insolens [ 10 ], and Trichoderma reesei [ 25 ], and two bacterial cutinases from Thermobifida alba [ 26 ] and T. fusca [ 27 ] have been solved. Structural studies of cutinases can help further understand their action modes and obtain more useful information for the redesign of enzymes to fulfill industrial application requirements.…”

Section: Introductionmentioning

confidence: 99%

High-level expression and characterization of a novel cutinase from Malbranchea cinnamomea suitable for butyl butyrate production

Duan

Liu

You

et al. 2017

Biotechnol Biofuels

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BackgroundButyl butyrate has been considered as a promising fuel source because it is a kind of natural ester which can be converted from renewable and sustainable lignocellulosic biomass. Compared with the conventional chemical methods for butyl butyrate production, the enzymatic approach has been demonstrated to be more attractive, mainly owing to the mild reaction conditions, high specificity, low energy consumption, and environmental friendliness. Cutinases play an important role in the butyl butyrate production process. However, the production level of cutinases is still relatively low. Thus, to identify novel cutinases suitable for butyl butyrate synthesis and enhance their yields is of great value in biofuel industry.ResultsA novel cutinase gene (McCut) was cloned from a thermophilic fungus Malbranchea cinnamomea and expressed in Pichia pastoris. The highest cutinase activity of 12, 536 U/mL was achieved in 5-L fermentor, which is by far the highest production for a cutinase. McCut was optimally active at pH 8.0 and 45 °C. It exhibited excellent stability within the pH range of 3.0–10.5 and up to 75 °C. The cutinase displayed broad substrate specificity with the highest activity towards p-nitrophenyl butyrate and tributyrin. It was capable of hydrolyzing cutin, polycaprolactone, and poly(butylene succinate). Moreover, McCut efficiently synthesized butyl butyrate with a maximum esterification efficiency of 96.9% at 4 h. The overall structure of McCut was resolved as a typical α/β-hydrolase fold. The structural differences between McCut and Aspergillus oryzae cutinase in groove and loop provide valuable information for redesign of McCut. These excellent features make it useful in biosynthesis and biodegradation fields.ConclusionsA novel cutinase from M. cinnamomea was identified and characterized for the first time. High-level expression by P. pastoris is by far the highest for a cutinase. The enzyme exhibited excellent stability and high esterification efficiency for butyl butyrate production, which may make it a good candidate in biofuel and chemical industries.

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Thermodynamic and structural investigation of the specific SDS binding of humicola insolens cutinase

Cited by 40 publications

References 57 publications

Screening of commercial enzymes for poly(ethylene terephthalate) (PET) hydrolysis and synergy studies on different substrate sources

Screening of commercial enzymes for poly(ethylene terephthalate) (PET) hydrolysis and synergy studies on different substrate sources

Spatially confined lignin nanospheres for biocatalytic ester synthesis in aqueous media

High-level expression and characterization of a novel cutinase from Malbranchea cinnamomea suitable for butyl butyrate production

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