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R G Shulman

Showing results (91-100 of 256) with videos related to

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Trends in Biochemical Sciences|December 1, 1994
NMR studies of human brain functionR G Shulman, D L Rothman, A M Blamire
Biochemistry|March 2, 1982
Phosphorus-31 nuclear magnetic resonance studies of bioenergetics in wild-type and adenosinetriphosphatase(1-) Escherichia coli cellsK Ugurbil, H Rottenberg, P Glynn, et al.
The Journal of Biological Chemistry|June 20, 1998
In vivo 13C NMR measurements of hepatocellular tricarboxylic acid cycle fluxB M Jucker, J Y Lee, R G Shulman
Journal of Molecular Biology|April 14, 1970
Proton magnetic resonance studies of cyanoferrihemoglobins from different speciesT Yamane, K Wüthrich, R G Shulman, et al.
Nature|January 29, 1971
High resolution nuclear magnetic resonance studies of hydrogen bonded protons of tRNA in waterD R Kearns, D J Patel, R G Shulman
The Journal of Chemical Physics|July 1, 1970
Electronic structure of thymineL C Snyder, R G Shulman, D B Neumann
The Journal of Clinical Investigation|April 1, 1992
31P nuclear magnetic resonance measurements of muscle glucose-6-phosphate. Evidence for reduced insulin-dependent muscle glucose transport or phosphorylation activity in non-insulin-dependent diabetes mellitusD L Rothman, R G Shulman, G I Shulman
Biochemical Society Transactions|November 1, 1991
N.m.r. studies of muscle glycogen synthesis in normal and non-insulin-dependent diabetic subjectsD L Rothman, R G Shulman, G I Shulman
Journal of Molecular Biology|September 28, 1972
High resolution nuclear resonance spectra of hemoglobin. II. Ligated tetramersS Ogawa, R G Shulman, M Fujiwara, et al.
The Journal of Biological Chemistry|March 5, 1986
Measurement of intracellular sodium concentration and sodium transport in Escherichia coli by 23Na nuclear magnetic resonanceA M Castle, R M Macnab, R G Shulman
Pageof 26

Showing results (91-100 of 256) with videos related to

Sort By:
Pageof 26
Trends in Biochemical Sciences|December 1, 1994
NMR studies of human brain functionR G Shulman, D L Rothman, A M Blamire
Biochemistry|March 2, 1982
Phosphorus-31 nuclear magnetic resonance studies of bioenergetics in wild-type and adenosinetriphosphatase(1-) Escherichia coli cellsK Ugurbil, H Rottenberg, P Glynn, et al.
The Journal of Biological Chemistry|June 20, 1998
In vivo 13C NMR measurements of hepatocellular tricarboxylic acid cycle fluxB M Jucker, J Y Lee, R G Shulman
Journal of Molecular Biology|April 14, 1970
Proton magnetic resonance studies of cyanoferrihemoglobins from different speciesT Yamane, K Wüthrich, R G Shulman, et al.
Nature|January 29, 1971
High resolution nuclear magnetic resonance studies of hydrogen bonded protons of tRNA in waterD R Kearns, D J Patel, R G Shulman
The Journal of Chemical Physics|July 1, 1970
Electronic structure of thymineL C Snyder, R G Shulman, D B Neumann
The Journal of Clinical Investigation|April 1, 1992
31P nuclear magnetic resonance measurements of muscle glucose-6-phosphate. Evidence for reduced insulin-dependent muscle glucose transport or phosphorylation activity in non-insulin-dependent diabetes mellitusD L Rothman, R G Shulman, G I Shulman
Biochemical Society Transactions|November 1, 1991
N.m.r. studies of muscle glycogen synthesis in normal and non-insulin-dependent diabetic subjectsD L Rothman, R G Shulman, G I Shulman
Journal of Molecular Biology|September 28, 1972
High resolution nuclear resonance spectra of hemoglobin. II. Ligated tetramersS Ogawa, R G Shulman, M Fujiwara, et al.
The Journal of Biological Chemistry|March 5, 1986
Measurement of intracellular sodium concentration and sodium transport in Escherichia coli by 23Na nuclear magnetic resonanceA M Castle, R M Macnab, R G Shulman
Pageof 26