Authors:
WEBER J
WILKEMOUNTS S
HAMMOND ST
SENIOR AE
Citation: J. Weber et al., TRYPTOPHAN SUBSTITUTIONS SURROUNDING THE NUCLEOTIDE IN CATALYTIC SITES OF F-1-ATPASE, Biochemistry, 37(35), 1998, pp. 12042-12050
Citation: J. Weber et al., ALPHA-ASPARTATE-261 IS A KEY RESIDUE IN NONCATALYTIC SITES OF ESCHERICHIA-COLI F1-ATPASE, The Journal of biological chemistry, 270(36), 1995, pp. 21045-21049
Citation: S. Wilkemounts et al., MUTAGENESIS AND REVERSION ANALYSIS OF RESIDUE MET-209 OF THE BETA-SUBUNIT OF ESCHERICHIA-COLI ATP SYNTHASE, Archives of biochemistry and biophysics, 324(1), 1995, pp. 153-158
Citation: Ae. Senior et al., COOPERATIVITY BETWEEN THE 3 CATALYTIC SITES OF ESCHERICHIA-COLI F(1)-ATPASE, The FASEB journal, 8(7), 1994, pp. 10001298-10001298
Citation: J. Weber et al., SPECIFIC PLACEMENT OF TRYPTOPHAN IN THE NONCATALYTIC SITES OF ESCHERICHIA-COLI F(1)-ATPASE PROVIDES A DIRECT PROBE OF NUCLEOTIDE-BINDING, The FASEB journal, 8(7), 1994, pp. 10001298-10001298
Citation: J. Weber et al., COOPERATIVITY AND STOICHIOMETRY OF SUBSTRATE-BINDING TO THE CATALYTICSITES OF ESCHERICHIA-COLI F1-ATPASE EFFECTS OF MAGNESIUM, INHIBITORS,AND MUTATION, The Journal of biological chemistry, 269(32), 1994, pp. 20462-20467
Citation: J. Weber et al., TRYPTOPHAN FLUORESCENCE PROVIDES A DIRECT PROBE OF NUCLEOTIDE-BINDINGIN THE NONCATALYTIC SITES OF ESCHERICHIA-COLI F(1)-ATPASE, The Journal of biological chemistry, 269(15), 1994, pp. 11261-11268
Citation: Ae. Senior et al., LYSINE-155 OF THE HOMOLOGY-A CONSENSUS SEQUENCE IN BETA-SUBUNIT IS A CATALYTIC RESIDUE OF ESCHERICHIA-COLI F(1)-ATPASE, The FASEB journal, 7(7), 1993, pp. 1108-1108
Authors:
WEBER J
WILKEMOUNTS S
LEE RSF
GRELL E
SENIOR AE
Citation: J. Weber et al., SPECIFIC PLACEMENT OF TRYPTOPHAN IN THE CATALYTIC SITE OF ESCHERICHIA-COLI F(1)-ATPASE, The FASEB journal, 7(7), 1993, pp. 1108-1108
Authors:
WEBER J
WILKEMOUNTS S
LEE RSF
GRELL E
SENIOR AE
Citation: J. Weber et al., SPECIFIC PLACEMENT OF TRYPTOPHAN IN THE CATALYTIC SITES OF ESCHERICHIA-COLI F(1)-ATPASE PROVIDES A DIRECT PROBE OF NUCLEOTIDE-BINDING - MAXIMAL ATP HYDROLYSIS OCCURS WITH 3 SITES OCCUPIED, The Journal of biological chemistry, 268(27), 1993, pp. 20126-20133