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Cell-free synthetic biology in the new era of enzyme engineering 被引量:1
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作者 Nan Jiang Lianju Ma Yuan Lu 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2020年第11期2810-2816,共7页
With the gradual rise of enzyme engineering,it has played an essential role in synthetic biology,medicine,and biomanufacturing.However,due to the limitation of the cell membrane,the complexity of cellular metabolism,t... With the gradual rise of enzyme engineering,it has played an essential role in synthetic biology,medicine,and biomanufacturing.However,due to the limitation of the cell membrane,the complexity of cellular metabolism,the difficulty of controlling the reaction environment,and the toxicity of some metabolic products in traditional in vivo enzyme engineering,it is usually problematic to express functional enzymes and produce a high yield of synthesized compounds.Recently,cell-free synthetic biology methods for enzyme engineering have been proposed as alternative strategies.This cell-free method has no limitation of the cell membrane and no need to maintain cell viability,and each biosynthetic pathway is highly flexible.This property makes cell-free approaches suitable for the production of valuable products such as functional enzymes and chemicals that are difficult to synthesize.This article aims to discuss the latest advances in cell-free enzyme engineering,assess the trend of this developing topical filed,and analyze its prospects. 展开更多
关键词 Cell-free synthetic biology enzyme engineering Metabolic engineering
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Application of Enzyme Engineering in Pharmacy
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作者 Qiaole Li Yanhong Li Haoran Niu 《Journal of Integrative Medicine(双语)》 2020年第2期5-7,共3页
Enzyme engineering is an important part of modern biotechnology.Due to its high reaction specificity,high efficiency,mild reaction conditions,and low pollution,it is also an important method widely used in the pharmac... Enzyme engineering is an important part of modern biotechnology.Due to its high reaction specificity,high efficiency,mild reaction conditions,and low pollution,it is also an important method widely used in the pharmaceutical field.The application of enzymes in medicine is diverse,such as:diagnosis,prevention and treatment of diseases with enzymes,manufacture of various drugs with enzymes,etc.,mainly through manual operations,to obtain enzymes required by the pharmaceutical industry,and through various means Enzymes perform their catalytic functions.This article mainly introduces the application of enzyme engineering in the pharmaceutical field,and also prospects the development trend of enzyme engineering in the pharmaceutical field. 展开更多
关键词 enzyme engineering Pharmaceutical field enzyme catalysis APPLICATION
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Enzyme engineering in microbial biosynthesis of terpenoids:progress and perspectives 被引量:1
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作者 Amna Bibi SU Liqiu +1 位作者 DAI Zongjie WANG Qinhong 《生物工程学报》 CAS CSCD 北大核心 2024年第8期2473-2488,共16页
Terpenoids,known for their structural and functional diversity,are highly valued,especially in food,cosmetics,and cleaning products.Microbial biosynthesis has emerged as a sustainable and environmentally friendly appr... Terpenoids,known for their structural and functional diversity,are highly valued,especially in food,cosmetics,and cleaning products.Microbial biosynthesis has emerged as a sustainable and environmentally friendly approach for the production of terpenoids.However,the natural enzymes involved in the synthesis of terpenoids have problems such as low activity,poor specificity,and insufficient stability,which limit the biosynthesis efficiency.Enzyme engineering plays a pivotal role in the microbial synthesis of terpenoids.By modifying the structures and functions of key enzymes,researchers have significantly improved the catalytic activity,specificity,and stability of enzymes related to terpenoid synthesis,providing strong support for the sustainable production of terpenoids.This article reviews the strategies for the modification of key enzymes in microbial synthesis of terpenoids,including improving enzyme activity and stability,changing specificity,and promoting mass transfer through multi-enzyme collaboration.Additionally,this article looks forward to the challenges and development directions of enzyme engineering in the microbial synthesis of terpenoids. 展开更多
关键词 TERPENOIDS microbial synthesis enzyme engineering enzyme modification terpene synthases
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Book review of“Enzyme engineering:Selective catalysts for applications in biotechnology,organic chemistry,and life science”
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作者 Manfred T.Reetz Zhoutong Sun Ge Qu 《Green Synthesis and Catalysis》 2023年第2期77-77,共1页
This book[1]begins with an introductory chapter in which the history of directed enzyme evolution is briefly presented and the different gene mutagenesis techniques are outlined,followed by a comprehensive chapter des... This book[1]begins with an introductory chapter in which the history of directed enzyme evolution is briefly presented and the different gene mutagenesis techniques are outlined,followed by a comprehensive chapter describing medium-and high-throughput screening systems for assaying stereoselectivity and activity. 展开更多
关键词 Directed evolution Rational design enzyme engineering METHODOLOGY BIOCATALYSIS
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Engineered microorganisms and enzymes for efficiently synthesizing plant natural products 被引量:1
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作者 Wenqiang Li Wentao Sun Chun Li 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2021年第2期62-73,共12页
Plant natural products are a kind of active substance widely used in pharmaceuticals and foods.However,the current production mode based on plant culture and extraction suffer complex processes and severe concerns for... Plant natural products are a kind of active substance widely used in pharmaceuticals and foods.However,the current production mode based on plant culture and extraction suffer complex processes and severe concerns for environmental and ecological.With the increasing awareness of environmental sustainability,engineered microbial cell factories have been an alternative approach to produce natural products.Many engineering strategies have been utilized in microbial biosynthesis of complex phytochemicals such as dynamic control and substructure engineering.Meanwhile,Enzyme engineering including directed evolution and rational design has been implemented to improve enzyme catalysis efficiency and stability as well as change promiscuity to expand product spectra.In this review,we discussed recent advances in microbial biosynthesis of complex phytochemicals from the following aspects,including pathway construction,strain engineering to boost the production. 展开更多
关键词 Plant natural products MICROORGANISMS Synthetic biology enzyme engineering
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Engineering Rubisco to enhance CO_(2) utilization
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作者 Lei Zhao Zhen Cai +1 位作者 Yin Li Yanping Zhang 《Synthetic and Systems Biotechnology》 SCIE CSCD 2024年第1期55-68,共14页
Ribulose-1,5-bisphosphate carboxylase/oxygenase(Rubisco)is a pivotal enzyme that mediates the fixation of CO_(2).As the most abundant protein on earth,Rubisco has a significant impact on global carbon,water,and nitrog... Ribulose-1,5-bisphosphate carboxylase/oxygenase(Rubisco)is a pivotal enzyme that mediates the fixation of CO_(2).As the most abundant protein on earth,Rubisco has a significant impact on global carbon,water,and nitrogen cycles.However,the significantly low carboxylation activity and competing oxygenase activity of Rubisco greatly impede high carbon fixation efficiency.This review first summarizes the current efforts in directly or indirectly modifying plant Rubisco,which has been challenging due to its high conservation and limitations in chloroplast transformation techniques.However,recent advancements in understanding Rubisco biogenesis with the assistance of chaperones have enabled successful heterologous expression of all Rubisco forms,including plant Rubisco,in microorganisms.This breakthrough facilitates the acquisition and evaluation of modified proteins,streamlining the measurement of their activity.Moreover,the establishment of a screening system in E.coli opens up possibilities for obtaining high-performance mutant enzymes through directed evolution.Finally,this review emphasizes the utilization of Rubisco in microorganisms,not only expanding their carbon-fixing capabilities but also holding significant potential for enhancing biotransformation processes. 展开更多
关键词 RUBISCO Plant CO_(2)fixation MICROBIAL Carbon fixation pathway Synthetic biology enzyme engineering
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Fatty acid hydratase for value-added biotransformation:A review
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作者 Yan Zhang Bekir Engin Eser +1 位作者 Peter Kristensen Zheng Guo 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2020年第8期2051-2063,共13页
The synthesis of hydroxy fatty acids(HFAs) from renewable oil feedstock by addition of water onto C_C bonds has attracted great attention in recent years. Given that selective asymmetric hydration of non-activated C_C... The synthesis of hydroxy fatty acids(HFAs) from renewable oil feedstock by addition of water onto C_C bonds has attracted great attention in recent years. Given that selective asymmetric hydration of non-activated C_C bonds has been proven difficult to achieve with chemical catalysts, enzymatic catalysis by fatty acid hydratases(FAHs) presents an attractive alternative approach to produce value-added HFAs with high regio-, enantioand stereospecificity, as well as excellent atom economy. Even though FAHs have just been investigated as a potential biocatalyst for a decade, remarkable information about FAHs in different aspects is available;however, a comprehensive review has not been archived. Herein, we summarize the research progresses on biochemical characterization, structural and mechanistic determination, enzyme engineering, as well as biotechnological application of FAHs. The current challenges and opportunities for an efficient utilization of FAHs in organic synthesis and industrial applications are critically discussed. 展开更多
关键词 Hydroxy fatty acids Fatty acid hydratases enzyme characterization Catalytic mechanism enzyme engineering BIOTRANSFORMATION
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Cofactor engineering in cyanobacteria to overcome imbalance between NADPH and NADH: A mini review 被引量:4
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作者 Jongmoon Park Yunnam Choi 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2017年第1期66-71,共6页
Cyanobacteria can produce useful renewable fuels and high-value chemicals using sunlight and atmo- spheric carbon dioxide by photosynthesis. Genetic manip- ulation has increased the variety of chemicals that cyanobact... Cyanobacteria can produce useful renewable fuels and high-value chemicals using sunlight and atmo- spheric carbon dioxide by photosynthesis. Genetic manip- ulation has increased the variety of chemicals that cyanobacteria can produce. However, their uniquely abundant NADPH-pool, in other words insufficient supply of NADH, tends to limit their production yields in case of utilizing NADH-dependent enzyme, which is quite common in heterotrophic microbes. To overcome this cofactor imbalance and enhance cyanobacterial fuel and chemical production, various approaches for cofactor engineering have been employed. In this review, we focus on three approaches: (1) utilization of NADPH- dependent enzymes, (2) increasing NADH production, and (3) changing cofactor specificity of NADH-dependent enzymes from NADH to NADPH. 展开更多
关键词 NADH-dependent enzyme NADPH-depen-dent enzyme TRANSHYDROGENASE site-directed mutagenesis enzyme engineering
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Methanol tolerance upgrading of Proteus mirabilis lipase by machine learning‑assisted directed evolution
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作者 Rui Ma Yingnan Li +1 位作者 Meng Zhang Fei Xu 《Systems Microbiology and Biomanufacturing》 EI 2023年第3期427-439,共13页
For many crucial industrial applications,enzyme-catalyzed processes take place in harsh organic solvent environments.However,it remains a challenging problem to improve enzyme stability in organic solvents.This study ... For many crucial industrial applications,enzyme-catalyzed processes take place in harsh organic solvent environments.However,it remains a challenging problem to improve enzyme stability in organic solvents.This study utilized the MLDE(machine learning-assisted directed evolution)protocol to improve the methanol tolerance of Proteus mirabilis lipase(PML).The machine learning(ML)models were trained based on 266 combinatorial mutants.Using top 3 in 22 regression models based on evaluation of tenfold cross-validation,the fitness landscape of the 8000 full-space combinatorial mutants was predicted.All mutants in the restricted library showed higher methanol tolerance,among which the methanol tolerance of G202N/K208G/G266S(NGS)was up to 13-fold compared with the wild-type.Molecular dynamics(MD)simulation showed that reconstructing of critical hydrogen bond network in the mutant region of NGS provides a more stable local structure.This compact structure may improve the methanol tolerance by preventing organic solvent molecules into the activity site and resisting structural destruction.This work provides a successful case of evolution guided by ML for higher organic solvent tolerance of enzyme,and may also be a reference for broad enzyme modifications. 展开更多
关键词 Organic solvent tolerance enzyme engineering Fitness prediction Site striation mutagenesis Molecular dynamics
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Enhanced catalytic efficiency and substrate specificity of Streptomyces griseus trypsin by evolution‑guided mutagenesis
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作者 Jingcheng Shi Chaofan Duan +3 位作者 Bo Pang Yang Wang Guocheng Du Zhen Kang 《Systems Microbiology and Biomanufacturing》 2023年第2期287-297,共11页
Streptomyces griseus trypsin(SGT)is a bacteria-sourced trypsin that could be potentially applied to industrial insulin productions.However,SGT produced by microbial hosts displayed low catalytic efficiency and undesir... Streptomyces griseus trypsin(SGT)is a bacteria-sourced trypsin that could be potentially applied to industrial insulin productions.However,SGT produced by microbial hosts displayed low catalytic efficiency and undesired preference to lysine residue.In this study,by engineering theαsignal peptide in Pichia pastoris,we increased the SGT amidase activity to 67.91 U mL^(−1)in shake flask cultures.Afterwards,we engineered SGT by evolution-guided mutagenesis and obtained three variants A45S,V177I and E180M with increased catalytic efficiencies.On this basis,we performed iterative combinatorial mutagenesis and constructed a mutant A45S/V177I/E180M which the amidase activity reached 98 U mL^(−1)in shake flasks and 2506 U mL^(−1)in 3-L fed-batch cultures.Moreover,single mutation T190 to S190 increased the substrate catalytic preference of R to K and the R/K value was improved to 7.5,which was 2 times better than the animal-sourced trypsin. 展开更多
关键词 TRYPSIN enzyme engineering Pichia pastoris Streptomyces griseus
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Production of anthocyanins in metabolically engineered microorganisms:Current status and perspectives 被引量:8
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作者 Jian Zha Mattheos A.G.Koffas 《Synthetic and Systems Biotechnology》 SCIE 2017年第4期259-266,共8页
Microbial production of plant-derived natural products by engineered microorganisms has achieved great success thanks to large extend to metabolic engineering and synthetic biology.Anthocyanins,the water-soluble color... Microbial production of plant-derived natural products by engineered microorganisms has achieved great success thanks to large extend to metabolic engineering and synthetic biology.Anthocyanins,the water-soluble colored pigments found in terrestrial plants that are responsible for the red,blue and purple coloration of many flowers and fruits,are extensively used in food and cosmetics industry;however,their current supply heavily relies on complex extraction from plant-based materials.A promising alternative is their sustainable production in metabolically engineered microbes.Here,we review the recent progress on anthocyanin biosynthesis in engineered bacteria,with a special focus on the systematic engineering modifications such as selection and engineering of biosynthetic enzymes,engineering of transportation,regulation of UDP-glucose supply,as well as process optimization.These promising engineering strategies will facilitate successful microbial production of anthocyanins in industry in the near future. 展开更多
关键词 ANTHOCYANIN enzyme engineering Metabolic engineering Microbial production
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Structural Insights into the CatalyticMechanism of a Plant Diterpene Glycosyltransferase SrUGT76G1 被引量:4
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作者 Zhifeng Liu Jianxu Li +2 位作者 Yuwei Sun Peng Zhang Yong Wang 《Plant Communications》 2020年第1期190-200,共11页
Diterpene glycosyltransferase UGT76G1 from Stevia rebaudiana (SrUGT76G1) is key to the generation ofeconomically important steviol glycosides (SGs), a group of natural sweeteners with high-intensity sweetness. SrUGT76... Diterpene glycosyltransferase UGT76G1 from Stevia rebaudiana (SrUGT76G1) is key to the generation ofeconomically important steviol glycosides (SGs), a group of natural sweeteners with high-intensity sweetness. SrUGT76G1 accommodates a wide range of steviol-derived substrates and many other small molecules. We report here the crystal structures of SrUGT76G1 in complex with multiple ligands to answer howthis enzyme recognizes diterpenoid aglycones and catalyzes the 1,3-sugar chain branching. A spaciouspocket for sugar-acceptor binding was observed from the determined SrUGT76G1 structures, which canexplain its broad substrate spectrum. Residues Gly87 and Leu204 lining the pocket play key roles in switching between diterpenoid and flavonoid glucosylation. An engineered mutant of SrUGT76G1, T284S, couldcatalyze a selectively increased production of next-generation sweetener rebaudioside M, with diminishedside product of rebaudioside I. Taken together, these resutls provide significant insights into molecularbasis of the substrate specificity of scarcely documented diterpenoid glycosyltransferases and wouldfacilitate the structure-guided glycoengineering to produce diversified diterpenoids with new activities. 展开更多
关键词 GLYCOSYLTRANSFERASE DITERPENOID crystal structure substrate specificity enzyme engineering
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Disaccharide phosphorylases: Structure, catalytic mechanisms and directed evolution 被引量:3
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作者 Shangshang Sun Chun You 《Synthetic and Systems Biotechnology》 SCIE 2021年第1期23-31,共9页
Disaccharide phosphorylases(DSPs)are carbohydrate-active enzymes with outstanding potential for the biocatalytic conversion of common table sugar into products with attractive properties.They are modular enzymes that ... Disaccharide phosphorylases(DSPs)are carbohydrate-active enzymes with outstanding potential for the biocatalytic conversion of common table sugar into products with attractive properties.They are modular enzymes that form active homo-oligomers.From a mechanistic as well as a structural point of view,they are similar to glycoside hydrolases or glycosyltransferases.As the majority of DSPs show strict stereo-and regiospecificities,these enzymes were used to synthesize specific disaccharides.Currently,protein engineering of DSPs is pursued in different laboratories to broaden the donor and acceptor substrate specificities or improve the industrial particularity of naturally existing enzymes,to eventually generate a toolbox of new catalysts for glycoside synthesis.Herein we review the characteristics and classifications of reported DSPs and the glycoside products that they have been used to synthesize. 展开更多
关键词 Disaccharide phosphorylase CLASSIFICATION Structure and domains Substrate specificity enzyme engineering
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Isolation and mechanism analysis of a catalytic efciency improved L‑aspartateβ‑decarboxylase toward 3‑methylaspartic acid 被引量:1
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作者 Yufeng Liu Mingzhu Hao +1 位作者 Zhemin Zhou Zhongmei Liu 《Systems Microbiology and Biomanufacturing》 2022年第1期157-164,共8页
L-Aspartateβ-decarboxylase from Acinetobacter radioresistens(ArASD)has been modifed to convert 3-methylaspartic acid into 2-aminobutyric acid,which activated a novel process for biosynthesis of 2-aminobutyric acid.Ho... L-Aspartateβ-decarboxylase from Acinetobacter radioresistens(ArASD)has been modifed to convert 3-methylaspartic acid into 2-aminobutyric acid,which activated a novel process for biosynthesis of 2-aminobutyric acid.However,the process is limited by the low activity of the ArASD.Here,the activity of ArASD was signifcantly improved by modifcation based on sequence alignment and structural analysis.The 38th residue of ArASD is speculated to be the key residue for regulating the conformation of the internal aldimine,and site-directed mutagenesis on R38 residue was carried out.A variant,K18A/R38K/V287I,with 2.2 times higher specifc activity was isolated.Molecular dynamics simulation indicated that the torsion angle of the imine bond of the variant decreased,which was benefcial to the protonation of the internal aldimine and the increase in the initial energy of the enzyme.Therefore,the energy barrier of the transition state was reduced,resulting in improved catalytic activity toward 3-methylaspartic acid.These results provide a reference and a new point of view for enzyme modifcation by increasing the energy of the initial state. 展开更多
关键词 L-Aspartateβ-decarboxylase 3-Methylasparic acid The internal aldimine enzyme engineering Molecular dynamics simulation
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High-fructose corn syrup production and its new applications for 5-hydroxymethylfurfural and value-added furan derivatives:Promises and challenges
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作者 Aristide Laurel Mokale Kognou Sarita Shrestha +3 位作者 Zihua Jiang Chunbao(Charles)Xu Fubao Sun Wensheng Qin 《Journal of Bioresources and Bioproducts》 EI 2022年第3期148-160,共13页
High fructose corn syrup has been industrially produced by converting glucose to fructose by glucose isomerases,tetrameric metalloenzymes widely used in industrial biocatalysis.Advances in enzyme engineering and comme... High fructose corn syrup has been industrially produced by converting glucose to fructose by glucose isomerases,tetrameric metalloenzymes widely used in industrial biocatalysis.Advances in enzyme engineering and commercial production of glucose isomerase have paved the way to explore more efficient variants of these enzymes.The 5-hydroxymethylfurfural can be produced from high fructose corn syrup catalytic dehydration,and it can be further converted into various furanic compounds chemically or biologically for various industrial applications as a promising platform chemical.Although the chemical conversion of 5-hydroxymethylfurfural into furanic compounds has been extensively investigated in recent years,bioconversion has shown promise for its mild conditions due to the harsh chemical reaction conditions.This review discusses pro-tein engineering potential for improving glucose isomerase production and recent advancements in bioconversion of 5-hydroxymethylfurfural into value-added furanic derivatives.It suggests bi-ological strategies for the industrial transformation of 5-hydroxymethylfurfural. 展开更多
关键词 High fructose corn syrup Glucose isomerase Rational enzyme engineering Directed evolution Furanic derivatives BIOCATALYSTS
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Microbial soluble aromatic prenyltransferases for engineered biosynthesis
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作者 He-Ping Chen Ikuro Abe 《Synthetic and Systems Biotechnology》 SCIE 2021年第2期51-62,共12页
Prenyltransferase(PTase)enzymes play crucial roles in natural product biosynthesis by transferring isoprene unit(s)to target substrates,thereby generating prenylated compounds.The prenylation step leads to a diverse g... Prenyltransferase(PTase)enzymes play crucial roles in natural product biosynthesis by transferring isoprene unit(s)to target substrates,thereby generating prenylated compounds.The prenylation step leads to a diverse group of natural products with improved membrane affinity and enhanced bioactivity,as compared to the nonprenylated forms.The last two decades have witnessed increasing studies on the identification,characterization,enzyme engineering,and synthetic biology of microbial PTase family enzymes.We herein summarize several examples of microbial soluble aromatic PTases for chemoenzymatic syntheses of unnatural novel prenylated compounds. 展开更多
关键词 Microbial prenyltransferase BIOSYNTHESIS enzyme engineering PRENYLATION Synthetic biology
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Structure-guided protein design of fluoroacetate dehalogenase for kinetic resolution of rac-2-bromobutyric acid
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作者 Shu Wang Zhanbing Cheng +4 位作者 Yanbing Xu Lu Yang Jian-Bo Wang Zhenhua Tian Xudong Qu 《Green Synthesis and Catalysis》 2020年第1期60-65,共6页
R-2-Bromobutyric acid is a very important intermediate for the synthesis of agrochemicals and pharmaceuticals.Bioresolution of rac-2-bromobutyric acid(rac-2-BBA)provides a promising process for R-2-bromobutyric acid(R... R-2-Bromobutyric acid is a very important intermediate for the synthesis of agrochemicals and pharmaceuticals.Bioresolution of rac-2-bromobutyric acid(rac-2-BBA)provides a promising process for R-2-bromobutyric acid(R-2-BBA)production.The fluoroacetate dehalogenase(FAcD)has been always studied in the defluorination process.We found that FAcD RPA1163 showed detectable activity but no enantioselectivity towards rac-2-BBA.The iterative saturation mutagenesis(ISM)of FAcD RPA1163 resulted in a mutant H155V/W156R/Y219M,which catalyzed the kinetic resolution of rac-2-BBA to produce R-2-BBA with enhanced activity and enantioselectivity(99.3%ee).The high preference for S-2-bromobutyric acid(S-2-BBA)is of synthetic value.Molecular docking analysis indicated that the H155V/W156R/Y219M mutation reduced steric hindrance and broadened the halide pocket.It is not only the steric hindrance but also the electrostatic environment that has an effect on the activity and enantioselectivity. 展开更多
关键词 Fluoroacetate dehalogenase Semi-rational design enzyme engineering Kinetic resolution 2-bromobutyric acid
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