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C Altenbach

Showing results (1-10 of 37) with videos related to

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Biochemistry|August 14, 1984
Ca2+ binding to phosphatidylcholine bilayers as studied by deuterium magnetic resonance. Evidence for the formation of a Ca2+ complex with two phospholipid moleculesC Altenbach, J Seelig
Proteins|January 1, 1988
The aggregation state of spin-labeled melittin in solution and bound to phospholipid membranes: evidence that membrane-bound melittin is monomericC Altenbach, W L Hubbell
Nature Structural Biology|August 31, 2000
Identifying conformational changes with site-directed spin labelingW L Hubbell, D S Cafiso, C Altenbach
Photochemistry and Photobiology|December 1, 1992
Spin labeled cysteines as sensors for protein-lipid interaction and conformation in rhodopsinZ T Farahbakhsh, C Altenbach, W L Hubbell
Science (New York, N.Y.)|June 1, 1990
Transmembrane protein structure: spin labeling of bacteriorhodopsin mutantsC Altenbach, T Marti, H G Khorana, et al.
Biochemistry|July 1, 1999
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 studyC Altenbach, K Cai, H G Khorana, et al.
Biophysical Journal|December 1, 1989
Conformation of spin-labeled melittin at membrane surfaces investigated by pulse saturation recovery and continuous wave power saturation electron paramagnetic resonanceC Altenbach, W Froncisz, J S Hyde, et al.
Methods in Molecular Biology (Clifton, N.J.)|May 23, 2000
Site-directed spin labeling of proteins. Applications to diphtheria toxinK J Oh, C Altenbach, R J Collier, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1991
Locations of Arg-82, Asp-85, and Asp-96 in helix C of bacteriorhodopsin relative to the aqueous boundariesD A Greenhalgh, C Altenbach, W L Hubbell, et al.
Proceedings of the National Academy of Sciences of the United States of America|March 1, 1994
A collision gradient method to determine the immersion depth of nitroxides in lipid bilayers: application to spin-labeled mutants of bacteriorhodopsinC Altenbach, D A Greenhalgh, H G Khorana, et al.
Pageof 4

Showing results (1-10 of 37) with videos related to

Sort By:
Pageof 4
Biochemistry|August 14, 1984
Ca2+ binding to phosphatidylcholine bilayers as studied by deuterium magnetic resonance. Evidence for the formation of a Ca2+ complex with two phospholipid moleculesC Altenbach, J Seelig
Proteins|January 1, 1988
The aggregation state of spin-labeled melittin in solution and bound to phospholipid membranes: evidence that membrane-bound melittin is monomericC Altenbach, W L Hubbell
Nature Structural Biology|August 31, 2000
Identifying conformational changes with site-directed spin labelingW L Hubbell, D S Cafiso, C Altenbach
Photochemistry and Photobiology|December 1, 1992
Spin labeled cysteines as sensors for protein-lipid interaction and conformation in rhodopsinZ T Farahbakhsh, C Altenbach, W L Hubbell
Science (New York, N.Y.)|June 1, 1990
Transmembrane protein structure: spin labeling of bacteriorhodopsin mutantsC Altenbach, T Marti, H G Khorana, et al.
Biochemistry|July 1, 1999
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 studyC Altenbach, K Cai, H G Khorana, et al.
Biophysical Journal|December 1, 1989
Conformation of spin-labeled melittin at membrane surfaces investigated by pulse saturation recovery and continuous wave power saturation electron paramagnetic resonanceC Altenbach, W Froncisz, J S Hyde, et al.
Methods in Molecular Biology (Clifton, N.J.)|May 23, 2000
Site-directed spin labeling of proteins. Applications to diphtheria toxinK J Oh, C Altenbach, R J Collier, et al.
Proceedings of the National Academy of Sciences of the United States of America|October 1, 1991
Locations of Arg-82, Asp-85, and Asp-96 in helix C of bacteriorhodopsin relative to the aqueous boundariesD A Greenhalgh, C Altenbach, W L Hubbell, et al.
Proceedings of the National Academy of Sciences of the United States of America|March 1, 1994
A collision gradient method to determine the immersion depth of nitroxides in lipid bilayers: application to spin-labeled mutants of bacteriorhodopsinC Altenbach, D A Greenhalgh, H G Khorana, et al.
Pageof 4