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Results:
1-13
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Results: 13
Authors:
MORTENSEN UH
STENNICKE HR
BREDDAM K
Citation: Uh. Mortensen et al., REVERSED-FLOW AFFINITY ELUTION APPLIED TO THE PURIFICATION OF CARBOXYPEPTIDASE-Y, Analytical biochemistry, 258(2), 1998, pp. 236-239
Authors:
ERDENIZ N
MORTENSEN UH
ROTHSTEIN R
Citation: N. Erdeniz et al., CLONING-FREE PCR-BASED ALLELE REPLACEMENT METHODS, PCR methods and applications, 7(12), 1997, pp. 1174-1183
Authors:
MORTENSEN UH
BENDIXEN C
SUNJEVARIC I
ROTHSTEIN R
Citation: Uh. Mortensen et al., DNA STRAND ANNEALING IS PROMOTED BY THE YEAST RAD52 PROTEIN, Proceedings of the National Academy of Sciences of the United Statesof America, 93(20), 1996, pp. 10729-10734
Authors:
JIANG H
XIE YQ
HOUSTON P
STEMKEHALE K
MORTENSEN UH
ROTHSTEIN R
KODADEK T
Citation: H. Jiang et al., DIRECT ASSOCIATION BETWEEN THE YEAST RAD51 AND RAD54 RECOMBINATION PROTEINS, The Journal of biological chemistry, 271(52), 1996, pp. 33181-33186
Authors:
STENNICKE HR
MORTENSEN UH
BREDDAM K
Citation: Hr. Stennicke et al., STUDIES ON THE HYDROLYTIC PROPERTIES OF (SERINE) CARBOXYPEPTIDASE-Y, Biochemistry, 35(22), 1996, pp. 7131-7141
Authors:
SORENSEN SB
RAASCHOUNIELSEN M
MORTENSEN UH
REMINGTON SJ
BREDDAM K
Citation: Sb. Sorensen et al., SITE-DIRECTED MUTAGENESIS ON (SERINE) CARBOXYPEPTIDASE-Y FROM YEAST -THE SIGNIFICANCE OF THR60 AND MET398 IN HYDROLYSIS AND AMINOLYSIS REACTIONS, Journal of the American Chemical Society, 117(22), 1995, pp. 5944-5950
Authors:
RAASCHOUNIELSEN M
MORTENSEN UH
OLESEN K
BREDDAM K
Citation: M. Raaschounielsen et al., IMPROVEMENT OF THE APPLICABILITY OF CARBOXYPEPTIDASE-Y IN PEPTIDE-SYNTHESIS BY PROTEIN ENGINEERING, Peptide research, 7(3), 1994, pp. 132-135
Authors:
MORTENSEN UH
BREDDAM K
Citation: Uh. Mortensen et K. Breddam, A CONSERVED GLUTAMIC-ACID BRIDGE IN SERINE CARBOXYPEPTIDASES, BELONGING TO THE ALPHA BETA HYDROLASE FOLD, ACTS AS A PH-DEPENDENT PROTEIN-STABILIZING ELEMENT/, Protein science, 3(5), 1994, pp. 838-842
Authors:
STENNICKE HR
MORTENSEN UH
CHRISTENSEN U
REMINGTON SJ
BREDDAM K
Citation: Hr. Stennicke et al., EFFECTS OF INTRODUCED ASPARTIC AND GLUTAMIC-ACID RESIDUES ON THE P'(1)) SUBSTRATE-SPECIFICITY, PH-DEPENDENCE AND STABILITY OF CARBOXYPEPTIDASE-Y, Protein engineering, 7(7), 1994, pp. 911-916
Authors:
MORTENSEN UH
RAASCHOUNIELSEN M
BREDDAM K
Citation: Uh. Mortensen et al., RECOGNITION OF C-TERMINAL AMIDE GROUPS BY (SERINE) CARBOXYPEPTIDASE-YINVESTIGATED BY SITE-DIRECTED MUTAGENESIS, The Journal of biological chemistry, 269(22), 1994, pp. 15528-15532
Authors:
OLESEN K
MORTENSEN UH
AASMULOLSEN S
KIELLANDBRANDT MC
REMINGTON SJ
BREDDAM K
Citation: K. Olesen et al., THE ACTIVITY OF CARBOXYPEPTIDASE-Y TOWARD SUBSTRATES WITH BASIC P-1 AMINO-ACID-RESIDUES IS DRASTICALLY INCREASED BY MUTATIONAL REPLACEMENT OF LEUCINE-178, Biochemistry, 33(37), 1994, pp. 11121-11126
Authors:
MORTENSEN UH
REMINGTON SJ
BREDDAM K
Citation: Uh. Mortensen et al., SITE-DIRECTED MUTAGENESIS ON (SERINE) CARBOXYPEPTIDASE-Y - A HYDROGEN-BOND NETWORK STABILIZES THE TRANSITION-STATE BY INTERACTION WITH THE C-TERMINAL CARBOXYLATE GROUP OF THE SUBSTRATE, Biochemistry, 33(2), 1994, pp. 508-517
Authors:
MORTENSEN UH
STENNICKE HR
RAASCHOUNIELSEN M
BREDDAM K
Citation: Uh. Mortensen et al., MECHANISTIC STUDY ON CARBOXYPEPTIDASE Y-CATALYZED TRANSACYLATION REACTIONS - MUTATIONALLY ALTERED ENZYMES FOR PEPTIDE-SYNTHESIS, Journal of the American Chemical Society, 116(1), 1994, pp. 34-41
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