Citation: S. Frillingos et al., CYSTEINE-SCANNING MUTAGENESIS OF HELIX-IV AND THE ADJOINING LOOPS IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI - GLU126 AND ARG144 ARE ESSENTIAL, Biochemistry, 36(47), 1997, pp. 14284-14290
Authors:
WANG QD
MATSUSHITA K
DEFORESTA B
LEMAIRE M
KABACK HR
Citation: Qd. Wang et al., LIGAND-INDUCED MOVEMENT OF HELIX-X IN THE LACTOSE PERMEASE FROM ESCHERICHIA-COLI - A FLUORESCENCE QUENCHING STUDY, Biochemistry, 36(46), 1997, pp. 14120-14127
Citation: Mm. He et al., ARGININE-302 (HELIX-IX) IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI IS IN CLOSE PROXIMITY TO GLUTAMATE-269 (HELIX-VIII) AS WELL AS GLUTAMATE 325 (HELIX-X), Biochemistry, 36(44), 1997, pp. 13682-13687
Citation: Mm. He et Hr. Kaback, INTERACTION BETWEEN RESIDUES GLU269 (HELIX-VIII) AND HIS322 (HELIX-X)OF THE LACTOSE PERMEASE OF ESCHERICHIA-COLI IS ESSENTIAL FOR SUBSTRATE-BINDING, Biochemistry, 36(44), 1997, pp. 13688-13692
Citation: Jz. Sun et Hr. Kaback, PROXIMITY OF PERIPLASMIC LOOPS IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI DETERMINED BY SITE-DIRECTED CROSS-LINKING, Biochemistry, 36(39), 1997, pp. 11959-11965
Authors:
FRILLINGOS S
WU JH
VENKATESAN P
KABACK HR
Citation: S. Frillingos et al., BINDING OF LIGAND OR MONOCLONAL-ANTIBODY 4B1 INDUCES DISCRETE STRUCTURAL-CHANGES IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biochemistry, 36(21), 1997, pp. 6408-6414
Citation: S. Frillingos et al., CYSTEINE-SCANNING MUTAGENESIS OF HELIX-II AND FLANKING HYDROPHILIC DOMAINS IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biochemistry, 36(1), 1997, pp. 269-273
Citation: Jz. Sun et al., THE LAST 2 CYTOPLASMIC LOOPS IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI COMPRISE A DISCONTINUOUS EPITOPE FOR A MONOCLONAL-ANTIBODY, Biochemistry, 36(1), 1997, pp. 274-280
Citation: J. Voss et al., HELIX PACKING IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI AS DETERMINED BY USE OF DESIGNED METAL-ION BINDING-SITES AND SITE-DIRECTED SPIN-LABELING, The FASEB journal, 10(3), 1996, pp. 827-827
Citation: J. Wu et al., HELIX PACKING OF LACTOSE PERMEASE AS STUDIES BY SITE-DIRECTED ELECTRON-PARAMAGNETIC-RESONANCE SPECTROSCOPY AND CHEMICAL CROSS-LINKING, The FASEB journal, 10(3), 1996, pp. 828-828
Citation: S. Frillingos et Hr. Kaback, USE OF SITE-DIRECTED SULFHYDRYL MODIFICATION TO STUDY THE CONFORMATION OF LACTOSE PERMEASE IN-SITU, The FASEB journal, 10(3), 1996, pp. 829-829
Citation: Gg. Prive et Hr. Kaback, ENGINEERING THE LAC PERMEASE FOR PURIFICATION AND CRYSTALLIZATION, Journal of bioenergetics and biomembranes, 28(1), 1996, pp. 29-34
Citation: Hr. Kaback, THE LACTOSE PERMEASE OF ESCHERICHIA-COLI - PAST, PRESENT AND FUTURE, Progress in Biophysics and Molecular Biology, 65, 1996, pp. 501-501
Citation: J. Voss et al., HELIX PACKING IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI AS DETERMINED BY USE OF DESIGNED METAL-ION BINDING-SITES AND SITE-DIRECTED SPIN-LABELING, Progress in Biophysics and Molecular Biology, 65, 1996, pp. 516-516
Citation: J. Wu et al., SITE-DIRECTED SPIN-LABELING AND CHEMICAL CROSS-LINKING DEMONSTRATE THAT HELIX-V IS CLOSE TO HELICE-VII AND HELICE-VIII IN THE LACTOSE PERMEASE, Progress in Biophysics and Molecular Biology, 65, 1996, pp. 517-517
Citation: Jh. Wu et Hr. Kaback, A GENERAL-METHOD FOR DETERMINING HELIX PACKING IN MEMBRANE-PROTEINS IN-SITU - HELICES I AND II ARE CLOSE TO HELIX VII IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Proceedings of the National Academy of Sciences of the United Statesof America, 93(25), 1996, pp. 14498-14502
Citation: Jh. Wu et al., SITE-DIRECTED SPIN-LABELING AND CHEMICAL CROSS-LINKING DEMONSTRATE THAT HELIX-V IS CLOSE TO HELIX-VII AND HELIX-VIII IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Proceedings of the National Academy of Sciences of the United Statesof America, 93(19), 1996, pp. 10123-10127
Citation: M. Bogdanov et al., A PHOSPHOLIPID ACTS AS A CHAPERONE IN ASSEMBLY OF A MEMBRANE-TRANSPORT PROTEIN, The Journal of biological chemistry, 271(20), 1996, pp. 11615-11618
Citation: Jz. Sun et al., IDENTIFICATION OF THE EPITOPE FOR MONOCLONAL-ANTIBODY 4B1 WHICH UNCOUPLES LACTOSE AND PROTON TRANSLOCATION IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biophysical journal, 70(2), 1996, pp. 206-206
Citation: M. Sahintoth et al., ASSOCIATION BETWEEN THE AMINO-TERMINAL AND CARBOXYL-TERMINAL HALVES OF LACTOSE PERMEASE IS SPECIFIC AND MEDIATED BY MULTIPLE TRANSMEMBRANE DOMAINS, Biochemistry, 35(6), 1996, pp. 2016-2021
Citation: S. Frillingos et Hr. Kaback, CHEMICAL RESCUE OF ASP237-]ALA AND LYS358-]ALA MUTANTS IN THE LACTOSEPERMEASE OF ESCHERICHIA-COLI, Biochemistry, 35(41), 1996, pp. 13363-13367
Citation: Mm. He et al., CYSTEINE-SCANNING MUTAGENESIS OF TRANSMEMBRANE DOMAIN-XII AND THE FLANKING PERIPLASMIC LOOP IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biochemistry, 35(39), 1996, pp. 12909-12914
Citation: J. Voss et al., SITE-DIRECTED SPIN-LABELING DEMONSTRATES THAT TRANSMEMBRANE DOMAIN-XII IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI IS AN ALPHA-HELIX, Biochemistry, 35(39), 1996, pp. 12915-12918
Citation: S. Frillingos et Hr. Kaback, MONOCLONAL-ANTIBODY 4B1 ALTERS THE PK(A) OF A CARBOXYLIC-ACID AT POSITION-325 (HELIX-X) OF THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biochemistry, 35(31), 1996, pp. 10166-10171
Citation: Jz. Sun et al., IDENTIFICATION OF THE EPITOPE FOR MONOCLONAL-ANTIBODY 4B1 WHICH UNCOUPLES LACTOSE AND PROTON TRANSLOCATION IN THE LACTOSE PERMEASE OF ESCHERICHIA-COLI, Biochemistry, 35(3), 1996, pp. 990-998