Journal ArticleDOI
Rational design of a highly efficient catalytic system for the production of PAPS from ATP and its application in the synthesis of chondroitin sulfate
Kaifang Liu,Xiulai Chen,Yunlu Zhong,Cong Gao,Guipeng Hu,Jia Liu,Liang Guo,Wei Song,Liming Liu +8 more
TLDR
Based on analysis of the catalytic steps and molecular dynamics simulations, a mechanism-guided "ADP expulsion" strategy was developed to generate an improved PcAPSK variant (L7), with a specific activity of 48.94 U·mg-1 and 73.27-fold higher catalytic efficiency (kcat/Km) that of the wild-type enzyme as mentioned in this paper.Abstract:
The compound 3'-phosphoadenosine-5'-phosphosulfate (PAPS) serves as a sulfate group donor in the production of valuable sulfated compounds. However, elevated costs and low conversion efficiency limit the industrial applicability of PAPS. Here, we designed and constructed an efficient and controllable catalytic system for the conversion of ATP (disodium salt) into PAPS without inhibition from by-products. In vitro and in vivo testing in Escherichia coli identified adenosine-5'-phosphosulfate kinase from Penicillium chrysogenum (PcAPSK) as the rate-limiting enzyme. Based on analysis of the catalytic steps and molecular dynamics simulations, a mechanism-guided "ADP expulsion" strategy was developed to generate an improved PcAPSK variant (L7), with a specific activity of 48.94 U·mg-1 and 73.27-fold higher catalytic efficiency (kcat/Km) that of the wild-type enzyme. The improvement was attained chiefly by reducing the ADP-binding affinity of PcAPSK, as well as by changing the enzyme's flexibility and lid structure to a more open conformation. By introducing PcAPSK L7 in an in vivo catalytic system, 73.59 mM (37.32 g·L-1 ) PAPS was produced from 150 mM ATP in 18.5 h using a 3-L bioreactor, and achieved titer is the highest reported to date and corresponds to a 98.13% conversion rate. Then, the PAPS catalytic system was combined with the chondroitin 4-sulfotransferase (C4ST) using a one-pot method. Finally, chondroitin sulfate was transformed from chondroitin at a conversion rate of 98.75%. This strategy has great potential for scale biosynthesis of PAPS and chondroitin sulfate. This article is protected by copyright. All rights reserved.read more
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Design and biocatalytic applications of genetically fused multifunctional enzymes.
TL;DR: Fusion proteins, understood as those created by joining two or more genes that originally encoded independent proteins, have numerous applications in biotechnology, from analytical methods to metabolic engineering as mentioned in this paper .
Journal ArticleDOI
Gram-scale biocatalytic preparation of the non-natural cofactor nicotinamide cytosine dinucleotide
TL;DR: In this paper , a simple and fast method of preparation of non-natural nicotinamide adenine dinucleotide (NAD) analog ICD was developed. But this method was not suitable for the preparation of ICD.
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Microbial synthesis of glycosaminoglycans and their oligosaccharides.
TL;DR: In this article , the authors summarize the recent progress in the construction of efficient glycosaminoglycans (GAG)-producing microbial cell factories, regulation of the molecular weight of GAGs, and modification of the GAG chains.
Journal ArticleDOI
Gram-scale biocatalytic preparation of the non-natural cofactor nicotinamide cytosine dinucleotide
TL;DR: A simple and fast method of preparation of non-natural nicotinamide adenine dinucleotide (NAD) analog ICD was developed in this paper, where NCD synthetase was developed from nicotinic acid mononucleotide adenylyltransferase (NadD) with higher catalytic efficiency towards ICD and cytidine triphosphate.
Journal ArticleDOI
Metabolic engineering of Escherichia coli for the production of an antifouling agent zosteric acid.
TL;DR: In this paper , the authors report the development of metabolically engineered Escherichia coli strains capable of producing Zosteric acid (ZA) from glucose and glycerol, which is a Zostera species-derived, sulfated phenolic acid compound with antifouling activity and has gained much attention due to its nontoxic and biodegradable characteristics.
References
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Chemoenzymatic synthesis of heparan sulfate and heparin
Jian Liu,Robert J. Linhardt +1 more
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Catalytic Asymmetric Reduction of Difficult-to-Reduce Ketones: Triple Code Saturation Mutagenesis of an Alcohol Dehydrogenase
Zhoutong Sun,Zhoutong Sun,Richard Lonsdale,Richard Lonsdale,Adriana Ilie,Adriana Ilie,Guangyue Li,Guangyue Li,Jiahai Zhou,Manfred T. Reetz +9 more
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Journal ArticleDOI
Regeneration of PAPS for the enzymatic synthesis of sulfated oligosaccharides.
TL;DR: This regeneration system was coupled with a sulfotransferase-catalyzed reaction, using a recombinant Nod factor sulfotranferase, for the synthesis of various oligosaccharide sulfates that were further glycosylated using Glycosyltransferases.
Journal ArticleDOI
Chemoenzymatic Synthesis of Glycosaminoglycans.
TL;DR: Improvements in chemoenzymatic synthesis of GAGs have successfully resulted in multigram-scale synthesis of low-molecular-weight heparins (LMWHs), with some showing excellent anticoagulant activity and even resulting in more effective protamine reversal than commercial, animal-sourced LMWH drugs.
Journal ArticleDOI
Stereodivergent Protein Engineering of a Lipase To Access All Possible Stereoisomers of Chiral Esters with Two Stereocenters.
Jian Xu,Yixin Cen,Yixin Cen,Warispreet Singh,Jiajie Fan,Lian Wu,Xianfu Lin,Jiahai Zhou,Meilan Huang,Manfred T. Reetz,Qi Wu +10 more
TL;DR: This work reports the protein engineering of Candida antarctica lipase B into four highly stereocomplementary variants needed for obtaining all four stereoisomers in transesterification reactions between racemic acids and racemic alcohols in organic solvents and achieves >90% selectivity.