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| Issue Date | Title | Author(s) | Text |
| - | (Acta Cryst., D56: 756-757)Crystallization and preliminary X-ray crystallographic analysis of thioesteraseⅠfrom E. coli | Lo, Y. C.; Y. L. Lee; J. F. Shaw; Y. C. Liaw | - |
| - | (Acta Horticulture., 738:545-548)Prolonging the longevity of Cymbidium flowers through genetic transformation | Chen, Y. T.; H. H. Chen; H. Uchimiya; M. J. Chu; Y. S. Chiou; J. F. Shaw; L. C. Huang | |
| - | Alkaline phophatase, tyrosinase and arylesterase from aquatic organisms | J. F. Shaw | - |
| - | (Appl. Environ. Microb., 65: 3888-3895)Analysis of the gene family encoding lipases in Candida rugosa by competitive reverse transcription-PCR | Lee, K. C.; S. J. Tang; K. H. Sun; J. F. Shaw | |
| - | (Appl. Microbiol. Biotechnol., 67: 215-224)Multiple mutagenesis of the Candida rugosa LIP1 gene and optimum production of recombinant LIP1 expressed in Pichia pastoris | Chang, S. W.; C. J. Shieh; G. C. Lee; J. F. Shaw | - |
| - | Applications of enzyme biotechnology | J. F. Shaw | - |
| - | (Archives Biochem. Biophys., 387: 093-098)Recombinant expression and characterization of the Candida Rugosa Lip4 lipase in Pichia pastoris: Comparison of glycosylation, activity and stability | Tang, S. J.; J. F. Shaw; K. H. Sun; G. H. Sun; T. Y. Chang; C. K. Lin; Y. C. Lo; G. C. Lee | - |
| - | Arylesterase of Vibrio mimicus isolated from cultured grass shrimp | J. F. Shaw | - |
| - | (Biochem J., 397:069-076)Functional role of catalytic triad and oxyanion hole-forming residues on enzyme activity of Escherichia coli thioesterase I/protease I/phospholipase L1 | Lee L. C.; Y. L. Lee; R. J. Leu; J. F. Shaw | |
| - | (Biochem. Biophys Res. Commun., 231: 452-456)The thioesterase of Escherichia coli has arylesterase activity and shows stereospecificity for protease substrates | Lee, Y. L.; J. C. Chen; J. F. Shaw | - |
| - | (Biochem. Biophys. Res. Commun., 213: 475-483)Vibrio mimicus arylesterase has thioesterase and chymotrypsin-like activity | Chang, R. C.; J. C. Chen; J. F. Shaw | |
| - | (Biochem. Biophys. Res. Commun., 221: 477-483)Site-directed mutagenesis of a novel serine arylesterase from Vibrio mimicus identifies residues essential for catalysis | Chang, R. C.; J. C. Chen; J. F. Shaw | |
| - | (Biochem. Biophys. Res. Commun., 229:006-010)Studying the active site pocket of Staphylococcus hyicus lipase by site-directed mutagenesis | Chang, R. C.; J. C. Chen; J. F. Shaw | - |
| - | (Biochem. Biophys. Res. Commun., 28: 774-779)Facile purification of highly active recombinant Staphylococcus hyicus lipase fragment and characterization of a putative lid region | Chang, R. C.; J. C. Chen; J. F. Shaw | - |
| - | (Biochem. J., 366: 603-611)Multiple mutagenesis of nonuniversal serine codons of Candida rugosa LIP2 gene and its functional expression in Pichia pastoris | Lee, G. C.; L. C. Lee; J. F. Shaw | - |
| - | Biochemical Properties and Potential Use of a Novel Recombinant Thermostable Lipase from A. fulgidus | G. C. Lee; Y. F. Ho; J. F. Shaw | - |
| - | (Biochemistry, 44(6): 1971-1979)Substrate specificities of Escherichia coli thioesterase I/protease I/lysophospholipase L1 are governed by its switch loop movement | Lo, Y. C.; S. C. Lin; J. F. Shaw; Y.C. Liaw | |
| - | (Biochemistry., 42: 8289-8297)Sequential structural changes of E. coli thioesterase/protease-1 in the serial formation of Michaelis and tetrahedral complexes with diethyl p-nitrophenyl phosphate | Tyukhtenko, S. I.; J. F. Shaw; Y. C. Liaw; T. H. Huang | - |
| - | (Bioindustry., 12: 181-186)Applications of lipases in industry | Lee, G. C.; J. F. Shaw | |
| - | (Bioresour Technol. May, 99(8):2800-2805)Studies of optimum conditions for covalent immobilization of Candida rugosa lipase on poly(gamma-glutamic acid) by RSM | Chang, S. W.; J. F. Shaw; K. H. Yang; S. F. Chang; C. J. Shieh | - |
