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Current Opinion in Biotechnology
Volumn 21, Issue 6, 2010, Pages 713-724
Biocatalysis-key to sustainable industrial chemistry
Author keywords

[No Author keywords available]
Indexed keywords

BIOCATALYSIS; BIOCATALYTIC REACTION; BOTTOM UP APPROACH; CATALYTIC FUNCTIONS; CHEMICAL TRANSFORMATIONS; INDUSTRIAL CHEMISTRY; MULTI-COMPONENT REACTIONS; MULTISTEP REACTIONS; PROCESS IMPROVEMENT; SAFETY , HEALTH AND ENVIRONMENTS; SINGLE-STEP; SUSTAINABLE CHEMICALS;
EID: 78449259734     PISSN: 09581669     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.copbio.2010.09.016     Document Type: Review
Times cited : (278)
References (72)
  • 1
    • 67651248658 scopus 로고    scopus 로고
    • Synthesizing our future
    • Noyori R. Synthesizing our future. Nat Chem 2009, 1:5-6.
    • (2009) Nat Chem , vol.1 , pp. 5-6
    • Noyori, R.1
  • 2
    • 67849103481 scopus 로고    scopus 로고
    • Chemistry goes green
    • Clark J.H. Chemistry goes green. Nat Chem 2009, 1:12-13.
    • (2009) Nat Chem , vol.1 , pp. 12-13
    • Clark, J.H.1
  • 3
    • 51649130191 scopus 로고    scopus 로고
    • Green chemistry for chemical synthesis
    • Li C.J., Trost B.M. Green chemistry for chemical synthesis. Proc Natl Acad Sci 2008, 105:13197-13202.
    • (2008) Proc Natl Acad Sci , vol.105 , pp. 13197-13202
    • Li, C.J.1    Trost, B.M.2
  • 4
    • 67349243537 scopus 로고    scopus 로고
    • The locks and keys to industrial biotechnology
    • Wohlgemuth R. The locks and keys to industrial biotechnology. New Biotechnol 2009, 25:204-213.
    • (2009) New Biotechnol , vol.25 , pp. 204-213
    • Wohlgemuth, R.1
  • 5
    • 67650984682 scopus 로고    scopus 로고
    • Protecting-group-free synthesis as an opportunity for invention
    • Young I.S., Baran P.S. Protecting-group-free synthesis as an opportunity for invention. Nat Chem 2009, 1:193-205.
    • (2009) Nat Chem , vol.1 , pp. 193-205
    • Young, I.S.1    Baran, P.S.2
  • 6
    • 67650527061 scopus 로고    scopus 로고
    • Synthesis at the molecular frontier
    • Wender P.A., Miller B.L. Synthesis at the molecular frontier. Nature 2009, 460:197-201.
    • (2009) Nature , vol.460 , pp. 197-201
    • Wender, P.A.1    Miller, B.L.2
  • 7
    • 77949659609 scopus 로고    scopus 로고
    • Wiley-VCH, Weinheim, W.D. Fessner, T. Anthonsen (Eds.)
    • Modern Biocatalysis 2009, Wiley-VCH, Weinheim. W.D. Fessner, T. Anthonsen (Eds.).
    • (2009) Modern Biocatalysis
  • 8
    • 84891006345 scopus 로고    scopus 로고
    • Wiley-VCH, Weinheim, V. Gotor, I. Alfonso, E. Garcia-Urdales (Eds.)
    • Asymmetric Organic Synthesis with Enzymes 2008, Wiley-VCH, Weinheim. V. Gotor, I. Alfonso, E. Garcia-Urdales (Eds.).
    • (2008) Asymmetric Organic Synthesis with Enzymes
  • 11
    • 77957985222 scopus 로고    scopus 로고
    • Applications of Baeyer-Villiger monooxygenases in organic synthesis
    • Alphand V., Wohlgemuth R. Applications of Baeyer-Villiger monooxygenases in organic synthesis. Curr Org Chem 2010, 14:1928-1965.
    • (2010) Curr Org Chem , vol.14 , pp. 1928-1965
    • Alphand, V.1    Wohlgemuth, R.2
  • 12
    • 40649090694 scopus 로고    scopus 로고
    • Preparative scale Baeyer-Villiger biooxidation at high concentration using recombinant Escherichia coli and in situ substrate feeding and product removal process
    • Hilker I., Gutiérrez M.C., Furstoss R., Ward J., Wohlgemuth R., Alphand V. Preparative scale Baeyer-Villiger biooxidation at high concentration using recombinant Escherichia coli and in situ substrate feeding and product removal process. Nat Protoc 2008, 3:546-554.
    • (2008) Nat Protoc , vol.3 , pp. 546-554
    • Hilker, I.1    Gutiérrez, M.C.2    Furstoss, R.3    Ward, J.4    Wohlgemuth, R.5    Alphand, V.6
  • 13
    • 77949897676 scopus 로고    scopus 로고
    • Baeyer-Villiger monooxygenases: recent advances and future challenges
    • Torres Pazmino D.E., Dudek H.M., Fraaije M.W. Baeyer-Villiger monooxygenases: recent advances and future challenges. Curr Opin Chem Biol 2010, 14:138-144.
    • (2010) Curr Opin Chem Biol , vol.14 , pp. 138-144
    • Torres Pazmino, D.E.1    Dudek, H.M.2    Fraaije, M.W.3
  • 14
    • 77952953639 scopus 로고    scopus 로고
    • Asymmetric Baeyer-Villiger reactions using whole-cell biocatalysts
    • Wiley-VCH, Weinheim, H.U. Blaser, H.J. Federsel (Eds.)
    • Wohlgemuth R., Woodley J.M. Asymmetric Baeyer-Villiger reactions using whole-cell biocatalysts. Large-scale Asymmetric Catalysis 2010, Wiley-VCH, Weinheim. H.U. Blaser, H.J. Federsel (Eds.).
    • (2010) Large-scale Asymmetric Catalysis
    • Wohlgemuth, R.1    Woodley, J.M.2
  • 15
    • 70349554299 scopus 로고    scopus 로고
    • Characterisation of a recombinant NADP-dependent glycerol dehydrogenase from gluconobacter oxydans and its application in the production of l-glyceraldehyde
    • Richter N., Neumann M., Liese A., Wohlgemuth R., Eggert T., Hummel W. Characterisation of a recombinant NADP-dependent glycerol dehydrogenase from gluconobacter oxydans and its application in the production of l-glyceraldehyde. ChemBioChem 2009, 10:1888-1896.
    • (2009) ChemBioChem , vol.10 , pp. 1888-1896
    • Richter, N.1    Neumann, M.2    Liese, A.3    Wohlgemuth, R.4    Eggert, T.5    Hummel, W.6
  • 16
    • 77952959521 scopus 로고    scopus 로고
    • Characterization of a whole-cell catalyst co-expressing glycerol dehydrogenase and glucose dehydrogenase and its application in the synthesis of l-glyceraldehyde
    • Richter N., Neumann M., Liese A., Wohlgemuth R., Weckbecker A., Eggert T., Hummel W. Characterization of a whole-cell catalyst co-expressing glycerol dehydrogenase and glucose dehydrogenase and its application in the synthesis of l-glyceraldehyde. Biotechnol Bioeng 2010, 106:541-552.
    • (2010) Biotechnol Bioeng , vol.106 , pp. 541-552
    • Richter, N.1    Neumann, M.2    Liese, A.3    Wohlgemuth, R.4    Weckbecker, A.5    Eggert, T.6    Hummel, W.7
  • 17
    • 77949894197 scopus 로고    scopus 로고
    • Practical chiral alcohol manufacture using ketoreductases
    • Huisman G.W., Liang J., Krebber A. Practical chiral alcohol manufacture using ketoreductases. Curr Opin Chem Biol 2010, 14:122-129.
    • (2010) Curr Opin Chem Biol , vol.14 , pp. 122-129
    • Huisman, G.W.1    Liang, J.2    Krebber, A.3
  • 18
    • 53849094459 scopus 로고    scopus 로고
    • Asymmetric bioreduction of activated CC bonds using Zymomonas mobilis NCR enoate reductase and old yellow enzymes OYE 1-3 from yeasts
    • Hall M., Stueckler C., Hauer B., Stuermer R., Friedrich T., Breuer M., Kroutil W., Faber K. Asymmetric bioreduction of activated CC bonds using Zymomonas mobilis NCR enoate reductase and old yellow enzymes OYE 1-3 from yeasts. Eur J Org Chem 2008, 9:1511-1516.
    • (2008) Eur J Org Chem , vol.9 , pp. 1511-1516
    • Hall, M.1    Stueckler, C.2    Hauer, B.3    Stuermer, R.4    Friedrich, T.5    Breuer, M.6    Kroutil, W.7    Faber, K.8
  • 19
    • 72149102108 scopus 로고    scopus 로고
    • Asymmetric reduction of activated alkenes by pentaerythritol tetranitrate reductase: specificity and control of stereochemical outcome by reaction optimisation
    • Fryszkowska A., Toogood H., Sakuma M., Gardiner J.M., Stephens G.M., Scrutton N.S. Asymmetric reduction of activated alkenes by pentaerythritol tetranitrate reductase: specificity and control of stereochemical outcome by reaction optimisation. Adv Synth Catal 2009, 351:2976-2990.
    • (2009) Adv Synth Catal , vol.351 , pp. 2976-2990
    • Fryszkowska, A.1    Toogood, H.2    Sakuma, M.3    Gardiner, J.M.4    Stephens, G.M.5    Scrutton, N.S.6
  • 21
    • 70349631202 scopus 로고    scopus 로고
    • Biocatalytic routes to optically active amines
    • Höhne M., Bornscheuer U.T. Biocatalytic routes to optically active amines. ChemCatChem 2009, 1:1-11.
    • (2009) ChemCatChem , vol.1 , pp. 1-11
    • Höhne, M.1    Bornscheuer, U.T.2
  • 22
    • 70449577192 scopus 로고    scopus 로고
    • Biocatalytic asymmetric amination of carbonyl functional groups-a synthetic biology approach to organic chemistry
    • Zhu D., Hua L. Biocatalytic asymmetric amination of carbonyl functional groups-a synthetic biology approach to organic chemistry. Biotechnol J 2009, 4:1420-1431.
    • (2009) Biotechnol J , vol.4 , pp. 1420-1431
    • Zhu, D.1    Hua, L.2
  • 23
    • 77953120732 scopus 로고    scopus 로고
    • ω-Transaminases for the synthesis of non-racemic α-chiral primary amines
    • Koszelewski D., Tauber K., Faber K., Kroutil W. ω-Transaminases for the synthesis of non-racemic α-chiral primary amines. Trends Biotechnol 2010, 28:324-332.
    • (2010) Trends Biotechnol , vol.28 , pp. 324-332
    • Koszelewski, D.1    Tauber, K.2    Faber, K.3    Kroutil, W.4
  • 24
    • 77958007981 scopus 로고    scopus 로고
    • High-yield biocatalytic amination reactions in organic synthesis
    • Ward J., Wohlgemuth R. High-yield biocatalytic amination reactions in organic synthesis. Curr Org Chem 2010, 14:1914-1927.
    • (2010) Curr Org Chem , vol.14 , pp. 1914-1927
    • Ward, J.1    Wohlgemuth, R.2
  • 25
    • 67349183315 scopus 로고    scopus 로고
    • Synthesis of pyridoxamine 5'-phosphate using an MBA: pyruvate transaminase as biocatalyst
    • Schell U., Wohlgemuth R., Ward J.M. Synthesis of pyridoxamine 5'-phosphate using an MBA: pyruvate transaminase as biocatalyst. J Mol Catal B: Enzym 2009, 59:279-285.
    • (2009) J Mol Catal B: Enzym , vol.59 , pp. 279-285
    • Schell, U.1    Wohlgemuth, R.2    Ward, J.M.3
  • 28
    • 50549099843 scopus 로고    scopus 로고
    • Tools and ingredients for the biocatalytic synthesis of carbohydrates and glycoconjugates
    • Wohlgemuth R. Tools and ingredients for the biocatalytic synthesis of carbohydrates and glycoconjugates. Biocatal Biotransformation 2008, 26:42-48.
    • (2008) Biocatal Biotransformation , vol.26 , pp. 42-48
    • Wohlgemuth, R.1
  • 30
    • 46849095162 scopus 로고    scopus 로고
    • Glycosyltransferase-catalyzed synthesis of bioactive oligosaccharides
    • Weijers C.A.G.M., Franssen M.C.R., Visser G.M. Glycosyltransferase-catalyzed synthesis of bioactive oligosaccharides. Biotechnol Adv 2008, 26:436-456.
    • (2008) Biotechnol Adv , vol.26 , pp. 436-456
    • Weijers, C.A.G.M.1    Franssen, M.C.R.2    Visser, G.M.3
  • 32
    • 77449115880 scopus 로고    scopus 로고
    • Advances in the biology and chemistry of sialic acids
    • Chen X., Varki A. Advances in the biology and chemistry of sialic acids. ACS Chem Biol 2010, 5:163-176.
    • (2010) ACS Chem Biol , vol.5 , pp. 163-176
    • Chen, X.1    Varki, A.2
  • 34
    • 77952957744 scopus 로고    scopus 로고
    • Large-scale applications of hydrolases in biocatalytic asymmetric synthesis
    • Wiley-VCH, Weinheim, H.U. Blaser, H.J. Federsel (Eds.)
    • Wohlgemuth R. Large-scale applications of hydrolases in biocatalytic asymmetric synthesis. Large-scale Asymmetric Catalysis 2010, Wiley-VCH, Weinheim. H.U. Blaser, H.J. Federsel (Eds.).
    • (2010) Large-scale Asymmetric Catalysis
    • Wohlgemuth, R.1
  • 35
    • 77955058710 scopus 로고    scopus 로고
    • Enzyme-catalysis breathes new life into polyester condensation polymerizations
    • Gross R.A., Ganesh M., Lu W. Enzyme-catalysis breathes new life into polyester condensation polymerizations. Trends Biotechnol 2010, 28:435-443.
    • (2010) Trends Biotechnol , vol.28 , pp. 435-443
    • Gross, R.A.1    Ganesh, M.2    Lu, W.3
  • 37
    • 67049119558 scopus 로고    scopus 로고
    • High yield synthesis of 12-aminolauric acid by 'enzymatic transcrystallization' of ω-laurolactam using ω-laurolactam hydrolase from Acidivorax sp. T31
    • Fukuta Y., Komeda H., Yoshida Y., Asano Y. High yield synthesis of 12-aminolauric acid by 'enzymatic transcrystallization' of ω-laurolactam using ω-laurolactam hydrolase from Acidivorax sp. T31. Biosci Biotechnol Biochem 2009, 73:980-986.
    • (2009) Biosci Biotechnol Biochem , vol.73 , pp. 980-986
    • Fukuta, Y.1    Komeda, H.2    Yoshida, Y.3    Asano, Y.4
  • 38
    • 36349036071 scopus 로고    scopus 로고
    • Chemoenzymatic synthesis of chiral carboxylic acids via nitriles
    • Benz P., Muntwyler R., Wohlgemuth R. Chemoenzymatic synthesis of chiral carboxylic acids via nitriles. J Chem Technol Biotechnol 2007, 82:1087-1098.
    • (2007) J Chem Technol Biotechnol , vol.82 , pp. 1087-1098
    • Benz, P.1    Muntwyler, R.2    Wohlgemuth, R.3
  • 39
    • 34547131285 scopus 로고    scopus 로고
    • Potential and capabilities of hydroxynitrile lyases as biocatalysts in the chemical industry
    • Purkarthofer T., Skranc W., Schuster C., Griengl H. Potential and capabilities of hydroxynitrile lyases as biocatalysts in the chemical industry. Appl Microbiol Biotechnol 2007, 76:309-320.
    • (2007) Appl Microbiol Biotechnol , vol.76 , pp. 309-320
    • Purkarthofer, T.1    Skranc, W.2    Schuster, C.3    Griengl, H.4
  • 40
    • 69749104380 scopus 로고    scopus 로고
    • How to overcome limitations in biotechnological processes-examples from hydroxynitrile lyase applications
    • Andexer J.N., Langermann J.V., Kragl U., Pohl M. How to overcome limitations in biotechnological processes-examples from hydroxynitrile lyase applications. Trends Biotechnol 2009, 27:599-607.
    • (2009) Trends Biotechnol , vol.27 , pp. 599-607
    • Andexer, J.N.1    Langermann, J.V.2    Kragl, U.3    Pohl, M.4
  • 44
    • 65549162613 scopus 로고    scopus 로고
    • Thiamin diphosphate in biological chemistry: exploitation of diverse thiamin diphosphate-dependent enzymes for asymmetric chemoenzymatic synthesis
    • Müller M., Gocke D., Pohl M. Thiamin diphosphate in biological chemistry: exploitation of diverse thiamin diphosphate-dependent enzymes for asymmetric chemoenzymatic synthesis. FEBS J 2009, 276:2894-2904.
    • (2009) FEBS J , vol.276 , pp. 2894-2904
    • Müller, M.1    Gocke, D.2    Pohl, M.3
  • 46
    • 70349515856 scopus 로고    scopus 로고
    • 2-ketol elongation by transketolase-catalyzedasymmetric synthesis
    • 2-ketol elongation by transketolase-catalyzedasymmetric synthesis. J Mol Catal B: Enzym 2009, 61:23-29.
    • (2009) J Mol Catal B: Enzym , vol.61 , pp. 23-29
    • Wohlgemuth, R.1
  • 50
    • 77952956848 scopus 로고    scopus 로고
    • Enantioselective intermolecular aldehyde-ketone cross-coupling through an enzymatic carboligation reaction
    • Lehwald P., Richter M., Röhr C., Liu H.W., Müller M. Enantioselective intermolecular aldehyde-ketone cross-coupling through an enzymatic carboligation reaction. Angew Chem Int Ed 2010, 49:1-5.
    • (2010) Angew Chem Int Ed , vol.49 , pp. 1-5
    • Lehwald, P.1    Richter, M.2    Röhr, C.3    Liu, H.W.4    Müller, M.5
  • 51
    • 77949858768 scopus 로고    scopus 로고
    • Cutting long syntheses short: access to non-natural tyrosine derivatives employing an engineered tyrosine phenol lyase
    • Seisser B., Zinkl R., Gruber K., Kaufmann F., Hafner A., Kroutil W. Cutting long syntheses short: access to non-natural tyrosine derivatives employing an engineered tyrosine phenol lyase. Adv Synth Catal 2010, 352:731-736.
    • (2010) Adv Synth Catal , vol.352 , pp. 731-736
    • Seisser, B.1    Zinkl, R.2    Gruber, K.3    Kaufmann, F.4    Hafner, A.5    Kroutil, W.6
  • 53
    • 70349479025 scopus 로고    scopus 로고
    • Asymmetric synthesis of chiral 2-hydroxy ketones by coupled biocatalytic alkene oxidation and C-C bond formation
    • Kurlemann N., Lara M., Pohl M., Kroutil W., Liese A Asymmetric synthesis of chiral 2-hydroxy ketones by coupled biocatalytic alkene oxidation and C-C bond formation. J Mol Catal B: Enzymatic 2009, 61:111-116.
    • (2009) J Mol Catal B: Enzymatic , vol.61 , pp. 111-116
    • Kurlemann, N.1    Lara, M.2    Pohl, M.3    Kroutil, W.4    Liese, A.5
  • 54
    • 65349184006 scopus 로고    scopus 로고
    • Opportunities in metabolic engineering to facilitate scalable alkaloid production
    • Leonard E., Runguphan W., O'Connor S., Jones Prather K. Opportunities in metabolic engineering to facilitate scalable alkaloid production. Nat Chem Biol 2009, 5:292-300.
    • (2009) Nat Chem Biol , vol.5 , pp. 292-300
    • Leonard, E.1    Runguphan, W.2    O'Connor, S.3    Jones Prather, K.4
  • 55
    • 41049083709 scopus 로고    scopus 로고
    • Process analysis of macrotetrolide biosynthesis during fermentation by means of direct infusion LC-MS
    • Jani P., Emmert J., Wohlgemuth R. Process analysis of macrotetrolide biosynthesis during fermentation by means of direct infusion LC-MS. Biotechnol J 2008, 3:1-7.
    • (2008) Biotechnol J , vol.3 , pp. 1-7
    • Jani, P.1    Emmert, J.2    Wohlgemuth, R.3
  • 56
    • 67649114374 scopus 로고    scopus 로고
    • Lipase-catalyzed direct Mannich reaction in water: utilization of biocatalytic promiscuity for C-C bond formation in a 'one-pot' synthesis
    • Li K., He T., Li C., Feng X.W., Wang N., Yu X.Q. Lipase-catalyzed direct Mannich reaction in water: utilization of biocatalytic promiscuity for C-C bond formation in a 'one-pot' synthesis. Green Chem 2009, 11:777-779.
    • (2009) Green Chem , vol.11 , pp. 777-779
    • Li, K.1    He, T.2    Li, C.3    Feng, X.W.4    Wang, N.5    Yu, X.Q.6
  • 57
    • 77954844157 scopus 로고    scopus 로고
    • Highly stereoselective synthesis of substituted prolyl peptides using a combination of biocatalytic desymmetrization and multicomponent reactions
    • Znabet A., Ruijter E., Decanter F.J.J., Köhler V., Helliwell M., Turner N.J., Orru R.V.A. Highly stereoselective synthesis of substituted prolyl peptides using a combination of biocatalytic desymmetrization and multicomponent reactions. Angew Chem Int Ed 2010, 49:5289-5292.
    • (2010) Angew Chem Int Ed , vol.49 , pp. 5289-5292
    • Znabet, A.1    Ruijter, E.2    Decanter, F.J.J.3    Köhler, V.4    Helliwell, M.5    Turner, N.J.6    Orru, R.V.A.7
  • 58
    • 70349914540 scopus 로고    scopus 로고
    • Dynamic asymmetric multicomponent resolution: lipase-mediated amidation of a double dynamic covalent system
    • Pornrapee V., Ramstrom O. Dynamic asymmetric multicomponent resolution: lipase-mediated amidation of a double dynamic covalent system. J Am Chem Soc 2009, 131:14419-14425.
    • (2009) J Am Chem Soc , vol.131 , pp. 14419-14425
    • Pornrapee, V.1    Ramstrom, O.2
  • 59
    • 34249306161 scopus 로고    scopus 로고
    • An efficient baker's yeast catalyzed synthesis of 3,4-dihydropyrimidin-2-(1H)-ones
    • Kumar A., Maurya R.A. An efficient baker's yeast catalyzed synthesis of 3,4-dihydropyrimidin-2-(1H)-ones. Tetrahedron Lett 2007, 48:4569-4571.
    • (2007) Tetrahedron Lett , vol.48 , pp. 4569-4571
    • Kumar, A.1    Maurya, R.A.2
  • 60
    • 77952472624 scopus 로고    scopus 로고
    • Modular and scalable biocatalytic tools for practical safety, health and environmental improvements in the production of speciality chemicals
    • Wohlgemuth R. Modular and scalable biocatalytic tools for practical safety, health and environmental improvements in the production of speciality chemicals. Biocatal Biotransformation 2007, 25:178-185.
    • (2007) Biocatal Biotransformation , vol.25 , pp. 178-185
    • Wohlgemuth, R.1
  • 61
    • 70350119803 scopus 로고    scopus 로고
    • Tools and ingredients for the biocatalytic synthesis of metabolites
    • Wohlgemuth R. Tools and ingredients for the biocatalytic synthesis of metabolites. Biotechnol J 2009, 9:1253-1265.
    • (2009) Biotechnol J , vol.9 , pp. 1253-1265
    • Wohlgemuth, R.1
  • 62
    • 65249128025 scopus 로고    scopus 로고
    • Biocatalysis in development of green pharmaceutical processes
    • Tao J., Xu J.H. Biocatalysis in development of green pharmaceutical processes. Curr Opin Chem Biol 2009, 13:43-50.
    • (2009) Curr Opin Chem Biol , vol.13 , pp. 43-50
    • Tao, J.1    Xu, J.H.2
  • 63
    • 77952955682 scopus 로고    scopus 로고
    • Green production of fine chemicals by isolated enzymes
    • Wiley, Hoboken, NJ, J.A. Tao, R.J. Kazlauskas (Eds.)
    • Wohlgemuth R. Green production of fine chemicals by isolated enzymes. Biocatalysis for Green Chemistry and Chemical Process Development 2010, Wiley, Hoboken, NJ. J.A. Tao, R.J. Kazlauskas (Eds.).
    • (2010) Biocatalysis for Green Chemistry and Chemical Process Development
    • Wohlgemuth, R.1
  • 64
    • 77649305354 scopus 로고    scopus 로고
    • Natural products version 2.0: connecting genes to molecules
    • Walsh C.T., Fischbach M.A. Natural products version 2.0: connecting genes to molecules. J Am Chem Soc 2010, 132:2469-2493.
    • (2010) J Am Chem Soc , vol.132 , pp. 2469-2493
    • Walsh, C.T.1    Fischbach, M.A.2
  • 65
    • 70349110513 scopus 로고    scopus 로고
    • Directed evolution of enantioselective enzymes: an unconventional approach to asymmetric catalysis in organic chemistry
    • Reetz M.T. Directed evolution of enantioselective enzymes: an unconventional approach to asymmetric catalysis in organic chemistry. J Org Chem 2009, 74:5767-5778.
    • (2009) J Org Chem , vol.74 , pp. 5767-5778
    • Reetz, M.T.1
  • 66
    • 36349020871 scopus 로고    scopus 로고
    • Interfacing biocatalysis and organic synthesis
    • Wohlgemuth R. Interfacing biocatalysis and organic synthesis. J Chem Technol Biotechnol 2007, 82:1055-1062.
    • (2007) J Chem Technol Biotechnol , vol.82 , pp. 1055-1062
    • Wohlgemuth, R.1
  • 71
    • 77952243715 scopus 로고    scopus 로고
    • Regioselective carboxylation of catechol by 3,4-dihydroxybenzoate decarboxylase of Enterobacter cloacae P
    • Yoshida T., Inami Y., Matsui T., Nagasawa T. Regioselective carboxylation of catechol by 3,4-dihydroxybenzoate decarboxylase of Enterobacter cloacae P. Biotechnol Lett 2010, 32:701-705.
    • (2010) Biotechnol Lett , vol.32 , pp. 701-705
    • Yoshida, T.1    Inami, Y.2    Matsui, T.3    Nagasawa, T.4
  • 72
    • 77950228892 scopus 로고    scopus 로고
    • Enzymatic Kolbe-Schmitt reaction to form salicylic acid from phenol: enzymatic characterization and gene identification of a novel enzyme, trichosporon moniliiforme salicylic acid decarboxylase
    • Kirimura K., Gunji H., Wakayama R., Hattori T., Ishii Y. Enzymatic Kolbe-Schmitt reaction to form salicylic acid from phenol: enzymatic characterization and gene identification of a novel enzyme, trichosporon moniliiforme salicylic acid decarboxylase. Biochem Biophys Res Commun 2010, 394:279-284.
    • (2010) Biochem Biophys Res Commun , vol.394 , pp. 279-284
    • Kirimura, K.1    Gunji, H.2    Wakayama, R.3    Hattori, T.4    Ishii, Y.5

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