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Results:
1-15
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Results: 15
Authors:
COUTINHO PM
DOWD MK
REILLY PJ
Citation: Pm. Coutinho et al., AUTOMATED DOCKING OF ALPHA-(1,4)-LINKED AND ALPHA-(1,6)-LINKED GLYCOSYL TRISACCHARIDES IN THE GLUCOAMYLASE ACTIVE-SITE, Industrial & engineering chemistry research, 37(6), 1998, pp. 2148-2157
Authors:
ALLEN MJ
COUTINHO PM
FORD CF
Citation: Mj. Allen et al., STABILIZATION OF ASPERGILLUS-AWAMORI GLUCOAMYLASE BY PROLINE SUBSTITUTION AND COMBINING STABILIZING MUTATIONS, Protein engineering (Print), 11(9), 1998, pp. 783-788
Authors:
LI YX
COUTINHO PM
FORD C
Citation: Yx. Li et al., EFFECT ON THERMOSTABILITY AND CATALYTIC ACTIVITY OF INTRODUCING DISULFIDE BONDS INTO ASPERGILLUS-AWAMORI GLUCOAMYLASE, Protein engineering (Print), 11(8), 1998, pp. 661-667
Authors:
LIU HL
COUTINHO PM
FORD C
REILLY PJ
Citation: Hl. Liu et al., MUTATIONS TO ALTER ASPERGILLUS-AWAMORI GLUCOAMYLASE SELECTIVITY - III- ASN20-]CYS ALA27-]CYS, ALA27-]PRO, SER30-]PRO, LYS108-]ARG, LYS108-]MET, GLY137-]ALA, 311-314-LOOP, TYR312-]TRP AND SER436-]PRO/, Protein engineering (Print), 11(5), 1998, pp. 389-398
Authors:
FANG TY
COUTINHO PM
REILLY PJ
FORD C
Citation: Ty. Fang et al., MUTATIONS TO ALTER ASPERGILLUS-AWAMORI GLUCOAMYLASE SELECTIVITY - I -TYR48PHE49-]TRP, TYR116-]TRP, TYR175-]PHE, ARG241-]LYS, SER411-]ALA AND SER411-]GLY, Protein engineering, 11(2), 1998, pp. 119-126
Authors:
COUTINHO PM
REILLY PJ
Citation: Pm. Coutinho et Pj. Reilly, GLUCOAMYLASE STRUCTURAL, FUNCTIONAL, AND EVOLUTIONARY RELATIONSHIPS, Proteins, 29(3), 1997, pp. 334-347
Authors:
COUTINHO PM
DOWD MK
REILLY PJ
Citation: Pm. Coutinho et al., AUTOMATED DOCKING OF GLUCOSYL DISACCHARIDES IN THE GLUCOAMYLASE ACTIVE-SITE, Proteins, 28(2), 1997, pp. 162-173
Authors:
COUTINHO PM
DOWD MK
REILLY PJ
Citation: Pm. Coutinho et al., AUTOMATED DOCKING OF MONOSACCHARIDE SUBSTRATES AND ANALOGS AND METHYLALPHA-ACARVIOSINIDE IN THE GLUCOAMYLASE ACTIVE-SITE, Proteins, 27(2), 1997, pp. 235-248
Authors:
COUTINHO PM
DOWD MK
REILLY PJ
Citation: Pm. Coutinho et al., AUTOMATED DOCKING OF ISOMALTOSE ANALOGS IN THE GLUCOAMYLASE ACTIVE-SITE, Carbohydrate research, 297(4), 1997, pp. 309-324
Authors:
CHEN LJ
COUTINHO PM
NIKOLOV Z
FORD C
Citation: Lj. Chen et al., DELETION ANALYSIS OF THE STARCH-BINDING DOMAIN OF ASPERGILLUS GLUCOAMYLASE, Protein engineering, 8(10), 1995, pp. 1049-1055
Authors:
FLORY N
GORMAN M
COUTINHO PM
FORD C
REILLY PJ
Citation: N. Flory et al., THERMOSENSITIVE MUTANTS OF ASPERGILLUS-AWAMORI GLUCOAMYLASE BY RANDOMMUTAGENESIS - INACTIVATION KINETICS AND STRUCTURAL INTERPRETATION, Protein engineering, 7(8), 1994, pp. 1005-1012
Authors:
COUTINHO PM
REILLY PJ
Citation: Pm. Coutinho et Pj. Reilly, STRUCTURAL SIMILARITIES IN GLUCOAMYLASES BY HYDROPHOBIC CLUSTER-ANALYSIS, Protein engineering, 7(6), 1994, pp. 749-760
Authors:
COUTINHO PM
REILLY PJ
Citation: Pm. Coutinho et Pj. Reilly, STRUCTURE-FUNCTION-RELATIONSHIPS IN THE CATALYTIC AND STARCH BINDING DOMAINS OF GLUCOAMYLASE, Protein engineering, 7(3), 1994, pp. 393-400
Authors:
HENRISSAT B
COUTINHO PM
REILLY PJ
Citation: B. Henrissat et al., READING-FRAME SHIFT IN SACCHAROMYCES GLUCOAMYLASES RESTORES CATALYTICBASE, EXTENDS SEQUENCE AND IMPROVES ALIGNMENT WITH OTHER GLUCOAMYLASES, Protein engineering, 7(11), 1994, pp. 1281-1282
Authors:
BAKIR U
COUTINHO PM
SULLIVAN PA
FORD C
REILLY PJ
Citation: U. Bakir et al., CASSETTE MUTAGENESIS OF ASPERGILLUS-AWAMORI GLUCOAMYLASE NEAR ITS GENERAL ACID RESIDUE TO PROBE ITS CATALYTIC AND PH PROPERTIES, Protein engineering, 6(8), 1993, pp. 939-946
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1-15
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