AAAAAA

   
Results: 1-18 |
Results: 18
Enzymes for peptide cyclization
Authors: Bordusa, F
Citation: F. Bordusa, Enzymes for peptide cyclization, CHEMBIOCHEM, 2(6), 2001, pp. 405-409
Synthesising protease-stable isopeptides by proteases: an efficient biocatalytic approach on the basis of a new type of substrate mimetics
Authors: Wehofsky, N Alisch, M Bordusa, F
Citation: N. Wehofsky et al., Synthesising protease-stable isopeptides by proteases: an efficient biocatalytic approach on the basis of a new type of substrate mimetics, CHEM COMMUN, (17), 2001, pp. 1602-1603
Differences in the protein-kinase-A-dependent regulation of CFTR Cl- channels and Na+-K+ pumps in guinea-pig ventricular myocytes
Authors: Kockskamper, J Sendhoff, K Erlenkamp, S Bordusa, F Cerovsky, V Glitsch, HG
Citation: J. Kockskamper et al., Differences in the protein-kinase-A-dependent regulation of CFTR Cl- channels and Na+-K+ pumps in guinea-pig ventricular myocytes, PFLUG ARCH, 441(6), 2001, pp. 807-815
Enzymatic coupling of specific peptides at nonspecific ligation sites: Effect of Asp189Glu mutation in trypsin on substrate mimetic-mediated reactions
Authors: Xu, SJ Rall, K Bordusa, F
Citation: Sj. Xu et al., Enzymatic coupling of specific peptides at nonspecific ligation sites: Effect of Asp189Glu mutation in trypsin on substrate mimetic-mediated reactions, J ORG CHEM, 66(5), 2001, pp. 1627-1632
Substrate mimetics and freezing strategy: A useful combination that broadens the scope of proteases for synthesis
Authors: Wehofsky, N Kirbach, SW Haensler, M Wissmann, JD Bordusa, F
Citation: N. Wehofsky et al., Substrate mimetics and freezing strategy: A useful combination that broadens the scope of proteases for synthesis, ORG LETT, 2(14), 2000, pp. 2027-2030
Semisynthesis of Ht31(493-515): Involvement of PKA-anchoring proteins in the regulation of the cAMP- dependent chloride current in heart cells
Authors: Cerovsky, VC Kockskamper, J Glitsch, HG Bordusa, F
Citation: Vc. Cerovsky et al., Semisynthesis of Ht31(493-515): Involvement of PKA-anchoring proteins in the regulation of the cAMP- dependent chloride current in heart cells, CHEMBIOCHEM, 1(2), 2000, pp. 126-129
Protease-catalyzed fragment condensation via substrate mimetic strategy: auseful combination of solid-phase peptide synthesis with enzymatic methods
Authors: Cerovsky, V Bordusa, F
Citation: V. Cerovsky et F. Bordusa, Protease-catalyzed fragment condensation via substrate mimetic strategy: auseful combination of solid-phase peptide synthesis with enzymatic methods, J PEPT RES, 55(4), 2000, pp. 325-329
Effect of freezing on the enzymatic coupling of specific amino acid-containing peptide fragments
Authors: Wehofsky, N Haensler, M Kirbach, SW Wissmann, JD Bordusa, F
Citation: N. Wehofsky et al., Effect of freezing on the enzymatic coupling of specific amino acid-containing peptide fragments, TETRAHEDR-A, 11(11), 2000, pp. 2421-2428
Protease catalysis mediated by a substrate mimetic: A novel enzymatic approach to the synthesis of carboxylic acid amides
Authors: Gunther, R Bordusa, F
Citation: R. Gunther et F. Bordusa, Protease catalysis mediated by a substrate mimetic: A novel enzymatic approach to the synthesis of carboxylic acid amides, CHEM-EUR J, 6(3), 2000, pp. 463-467
Engineering of substrate mimetics as novel-type substrates for glutamic acid-specific endopeptidases: design, synthesis, and application
Authors: Wehofsky, N Wissmann, JD Alisch, M Bordusa, F
Citation: N. Wehofsky et al., Engineering of substrate mimetics as novel-type substrates for glutamic acid-specific endopeptidases: design, synthesis, and application, BBA-PROT ST, 1479(1-2), 2000, pp. 114-122
Nonconventional amide bond formation catalysis: programming enzyme specificity with substrate mimetics
Authors: Bordusa, F
Citation: F. Bordusa, Nonconventional amide bond formation catalysis: programming enzyme specificity with substrate mimetics, BRAZ J MED, 33(5), 2000, pp. 469-485
Investigations on the enzyme specificity of clostripain: A new efficient biocatalyst for the synthesis of peptide isosteres
Authors: Gunther, R Stein, A Bordusa, F
Citation: R. Gunther et al., Investigations on the enzyme specificity of clostripain: A new efficient biocatalyst for the synthesis of peptide isosteres, J ORG CHEM, 65(6), 2000, pp. 1672-1679
Peptide bond formation mediated by substrate mimetics - Structure-guided optimization of trypsin for synthesis
Authors: Grunberg, R Domgall, I Gunther, R Rall, K Hofmann, HJ Bordusa, F
Citation: R. Grunberg et al., Peptide bond formation mediated by substrate mimetics - Structure-guided optimization of trypsin for synthesis, EUR J BIOCH, 267(24), 2000, pp. 7024-7030
Trypsin-specific acyl-4-guanidinophenyl esters for alpha-chymotrypsin-catalysed reactions - Computational predictions, hydrolyses, and peptide bond formation
Authors: Gunther, R Thust, S Hofmann, SJ Bordusa, F
Citation: R. Gunther et al., Trypsin-specific acyl-4-guanidinophenyl esters for alpha-chymotrypsin-catalysed reactions - Computational predictions, hydrolyses, and peptide bond formation, EUR J BIOCH, 267(12), 2000, pp. 3496-3501
Assay of diverse protease activities on the basis of a small synthetic substrate
Authors: Muller, N Bordusa, F
Citation: N. Muller et F. Bordusa, Assay of diverse protease activities on the basis of a small synthetic substrate, ANALYT BIOC, 286(1), 2000, pp. 86-90
Synthesis of alpha-fluoroalkyl substituted peptides via enzymatic fragmentcondensation
Authors: Bordusa, F Dahl, C Jakubke, HD Burger, K Koksch, B
Citation: F. Bordusa et al., Synthesis of alpha-fluoroalkyl substituted peptides via enzymatic fragmentcondensation, TETRAHEDR-A, 10(2), 1999, pp. 307-313
Programming of enzyme specificity by substrate mimetics: investigations onthe Glu-specific V8 protease reveals a novel general principle of biocatalysis
Authors: Wehofsky, N Bordusa, F
Citation: N. Wehofsky et F. Bordusa, Programming of enzyme specificity by substrate mimetics: investigations onthe Glu-specific V8 protease reveals a novel general principle of biocatalysis, FEBS LETTER, 443(2), 1999, pp. 220-224
Protease-catalyzed hydrolysis of substrate mimetics (inverse substrates): A new approach reveals a new mechanism
Authors: Thormann, M Thust, S Hofmann, HJ Bordusa, F
Citation: M. Thormann et al., Protease-catalyzed hydrolysis of substrate mimetics (inverse substrates): A new approach reveals a new mechanism, BIOCHEM, 38(19), 1999, pp. 6056-6062
Risultati: 1-18 |