ACNP - Italian Periodicals Catalogue

AAAAAA

ITA
ENG

Results: 1-25 | 26-26

Results: 1-25/26

Magic angle spinning nuclear magnetic resonance of isotopically labeled rhodopsin

Authors: Eilers, M Ying, WW Reeves, PJ Khorana, HG Smith, SO

Citation: M. Eilers et al., Magic angle spinning nuclear magnetic resonance of isotopically labeled rhodopsin, METH ENZYM, 343, 2002, pp. 212-222

Structure and function in rhodopsin: Mass spectrometric identification of the abnormal intradiscal disulfide bond in misfolded retinitis pigmentosa mutants

Authors: Hwa, J Klein-Seetharaman, J Khorana, HG

Citation: J. Hwa et al., Structure and function in rhodopsin: Mass spectrometric identification of the abnormal intradiscal disulfide bond in misfolded retinitis pigmentosa mutants, P NAS US, 98(9), 2001, pp. 4872-4876

Mapping of contact sites in complex formation between light-activated rhodopsin and transducin by covalent crosslinking: Use of a chemically preactivated reagent

Authors: Itoh, Y Cai, K Khorana, HG

Citation: Y. Itoh et al., Mapping of contact sites in complex formation between light-activated rhodopsin and transducin by covalent crosslinking: Use of a chemically preactivated reagent, P NAS US, 98(9), 2001, pp. 4883-4887

Solution F-19 nuclear Overhauser effects in structural studies of the cytoplasmic domain of mammalian rhodopsin

Authors: Loewen, MC Klein-Seetharaman, J Getmanova, EV Reeves, PJ Schwalbe, H Khorana, HG

Citation: Mc. Loewen et al., Solution F-19 nuclear Overhauser effects in structural studies of the cytoplasmic domain of mammalian rhodopsin, P NAS US, 98(9), 2001, pp. 4888-4892

Structure and function in bacteriorhodopsin: The role of the interhelical loops in the folding and stability of bacteriorhodopsin

Authors: Kim, JM Booth, PJ Allen, SJ Khorana, HG

Citation: Jm. Kim et al., Structure and function in bacteriorhodopsin: The role of the interhelical loops in the folding and stability of bacteriorhodopsin, J MOL BIOL, 308(2), 2001, pp. 409-422

Structure and function in bacteriorhodopsin: The effect of the interhelical loops on the protein folding kinetics

Authors: Allen, SJ Kim, JM Khorana, HG Lu, H Booth, PJ

Citation: Sj. Allen et al., Structure and function in bacteriorhodopsin: The effect of the interhelical loops on the protein folding kinetics, J MOL BIOL, 308(2), 2001, pp. 423-435

Probing the dark state tertiary structure in the cytoplasmic domain of rhodopsin: Proximities between amino acids deduced from spontaneous disulfide bond formation between Cys316 and engineered cysteines in cytoplasmic loop 1

Authors: Klein-Seetharaman, J Hwa, J Cai, KW Altenbach, C Hubbell, WL Khorana, HG

Citation: J. Klein-seetharaman et al., Probing the dark state tertiary structure in the cytoplasmic domain of rhodopsin: Proximities between amino acids deduced from spontaneous disulfide bond formation between Cys316 and engineered cysteines in cytoplasmic loop 1, BIOCHEM, 40(42), 2001, pp. 12472-12478

Probing the dark state tertiary structure in the cytoplasmic domain of rhodopsin: Proximities between amino acids deduced from spontaneous disulfide bond formation between cysteine pairs engineered in cytoplasmic loops 1, 3,and 4

Authors: Cai, KW Klein-Seetharaman, J Altenbach, C Hubbell, WL Khorana, HG

Citation: Kw. Cai et al., Probing the dark state tertiary structure in the cytoplasmic domain of rhodopsin: Proximities between amino acids deduced from spontaneous disulfide bond formation between cysteine pairs engineered in cytoplasmic loops 1, 3,and 4, BIOCHEM, 40(42), 2001, pp. 12479-12485

Molecular biology of light transduction by the mammalian photoreceptor, rhodopsin

Authors: Khorana, HG

Citation: Hg. Khorana, Molecular biology of light transduction by the mammalian photoreceptor, rhodopsin, J BIO STRUC, 2000, pp. 1-16

A life in science

Authors: Khorana, HG

Citation: Hg. Khorana, A life in science, SCIENCE, 287(5454), 2000, pp. 810-810

Rhodopsin kinase: Expression in mammalian cells and a two-step purification

Authors: Bruel, C Cha, K Reeves, PJ Getmanova, E Khorana, HG

Citation: C. Bruel et al., Rhodopsin kinase: Expression in mammalian cells and a two-step purification, P NAS US, 97(7), 2000, pp. 3004-3009

Rhodopsin kinase: Two mAbs binding near the carboxyl terminus cause time-dependent inactivation

Authors: Bruel, C Cha, KW Niu, L Reeves, PJ Khorana, HG

Citation: C. Bruel et al., Rhodopsin kinase: Two mAbs binding near the carboxyl terminus cause time-dependent inactivation, P NAS US, 97(7), 2000, pp. 3010-3015

Structure and function in rhodopsin: Destabilization of rhodopsin by the binding of an antibody at the N-terminal segment provides support for involvement of the latter in an intradiscal tertiary structure

Authors: Cha, KW Reeves, PJ Khorana, HG

Citation: Kw. Cha et al., Structure and function in rhodopsin: Destabilization of rhodopsin by the binding of an antibody at the N-terminal segment provides support for involvement of the latter in an intradiscal tertiary structure, P NAS US, 97(7), 2000, pp. 3016-3021

Evidence for long range allosteric interactions between the extracellular and cytoplasmic parts of bacteriorhodopsin from the mutant R82A and its second site revertant R82A/G231C

Authors: Alexiev, U Mollaaghababa, R Khorana, HG Heyns, MP

Citation: U. Alexiev et al., Evidence for long range allosteric interactions between the extracellular and cytoplasmic parts of bacteriorhodopsin from the mutant R82A and its second site revertant R82A/G231C, J BIOL CHEM, 275(18), 2000, pp. 13431-13440

Time-resolved site-directed spin-labeling studies of bacteriorhodopsin: Loop-specific conformational changes in M

Authors: Mollaaghababa, R Steinhoff, HJ Hubbell, WL Khorana, HG

Citation: R. Mollaaghababa et al., Time-resolved site-directed spin-labeling studies of bacteriorhodopsin: Loop-specific conformational changes in M, BIOCHEM, 39(5), 2000, pp. 1120-1127

Expression and purification of rhodopsin and its mutants from stable mammalian cell lines: application to NMR studies

Authors: Reeves, PJ Klein-Seetharaman, J Getmanova, EV Eilers, M Loewen, MC Smith, SO Khorana, HG

Citation: Pj. Reeves et al., Expression and purification of rhodopsin and its mutants from stable mammalian cell lines: application to NMR studies, BIOCH SOC T, 27, 1999, pp. 950-955

Structure and function in rhodopsin: Kinetic studies of retinal binding topurified opsin mutants in defined phospholipid-detergent mixtures serve asprobes of the retinal binding pocket

Authors: Reeves, PJ Hwa, J Khorana, HG

Citation: Pj. Reeves et al., Structure and function in rhodopsin: Kinetic studies of retinal binding topurified opsin mutants in defined phospholipid-detergent mixtures serve asprobes of the retinal binding pocket, P NAS US, 96(5), 1999, pp. 1927-1931

Structure and function in rhodopsin: Further elucidation of the role of the intradiscal cysteines, Cys-110, -185, and -187, in rhodopsin folding and function

Authors: Hwa, J Reeves, PJ Klein-Seetharaman, J Davidson, F Khorana, HG

Citation: J. Hwa et al., Structure and function in rhodopsin: Further elucidation of the role of the intradiscal cysteines, Cys-110, -185, and -187, in rhodopsin folding and function, P NAS US, 96(5), 1999, pp. 1932-1935

NMR spectroscopy in studies of light-induced structural changes in mammalian rhodopsin: Applicability of solution F-19 NMR

Authors: Klein-Seetharaman, J Getmanova, EV Loewen, MC Reeves, PJ Khorana, HG

Citation: J. Klein-seetharaman et al., NMR spectroscopy in studies of light-induced structural changes in mammalian rhodopsin: Applicability of solution F-19 NMR, P NAS US, 96(24), 1999, pp. 13744-13749

Magic angle spinning NMR of the protonated retinylidene Schiff base nitrogen in rhodopsin: Expression of N-15-lysine- and C-13-glycine-labeled opsin in a stable cell line

Authors: Eilers, M Reeves, PJ Ying, WW Khorana, HG Smith, SO

Citation: M. Eilers et al., Magic angle spinning NMR of the protonated retinylidene Schiff base nitrogen in rhodopsin: Expression of N-15-lysine- and C-13-glycine-labeled opsin in a stable cell line, P NAS US, 96(2), 1999, pp. 487-492

Structure and function in rhodopsin: Effects of disulfide cross-links in the cytoplasmic face of rhodopsin on transducin activation and phosphorylation by rhodopsin kinase

Authors: Cai, K Klein-Seetharaman, J Hwa, J Hubbell, WL Khorana, HG

Citation: K. Cai et al., Structure and function in rhodopsin: Effects of disulfide cross-links in the cytoplasmic face of rhodopsin on transducin activation and phosphorylation by rhodopsin kinase, BIOCHEM, 38(39), 1999, pp. 12893-12898

Structural features of the C-terminal domain of bovine rhodopsin: A site-directed spin-labeling study

Authors: Langen, R Cai, KW Altenbach, C Khorana, HG Hubbell, WL

Citation: R. Langen et al., Structural features of the C-terminal domain of bovine rhodopsin: A site-directed spin-labeling study, BIOCHEM, 38(25), 1999, pp. 7918-7924

Single-cysteine substitution mutants at amino acid positions 306-321 in rhodopsin, the sequence between the cytoplasmic end of helix VII and the palmitoylation sites: Sulfhydryl reactivity and transducin activation reveal a tertiary structure

Authors: Cai, KW Klein-Seetharaman, J Farrens, D Zhang, C Altenbach, C Hubbell, WL Khorana, HG

Citation: Kw. Cai et al., Single-cysteine substitution mutants at amino acid positions 306-321 in rhodopsin, the sequence between the cytoplasmic end of helix VII and the palmitoylation sites: Sulfhydryl reactivity and transducin activation reveal a tertiary structure, BIOCHEM, 38(25), 1999, pp. 7925-7930

Structural features and light-dependent changes in the sequence 306-322 extending from helix VII to the palmitoylation sites in rhodopsin: A site-directed spin-labeling study

Authors: Altenbach, C Cai, KW Khorana, HG Hubbell, WL

Citation: C. Altenbach et al., Structural features and light-dependent changes in the sequence 306-322 extending from helix VII to the palmitoylation sites in rhodopsin: A site-directed spin-labeling study, BIOCHEM, 38(25), 1999, pp. 7931-7937

Single-cysteine substitution mutants at amino acid positions 55-75, the sequence connecting the cytoplasmic ends of helices I and II in rhodopsin: Reactivity of the sulfhydryl groups and their derivatives identifies a tertiary structure that changes upon light-activation

Authors: Klein-Seetharaman, J Hwa, J Cai, KW Altenbach, C Hubbell, WL Khorana, HG

Citation: J. Klein-seetharaman et al., Single-cysteine substitution mutants at amino acid positions 55-75, the sequence connecting the cytoplasmic ends of helices I and II in rhodopsin: Reactivity of the sulfhydryl groups and their derivatives identifies a tertiary structure that changes upon light-activation, BIOCHEM, 38(25), 1999, pp. 7938-7944

Risultati: 1-25 | 26-26