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Kimmich

Showing results (71-80 of 390) with videos related to

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The American Journal of Physiology|May 1, 1985
Kinetic analysis of mechanism of intestinal Na+-dependent sugar transportD Restrepo, G A Kimmich
The American Journal of Physiology|July 1, 1984
Sodium-sugar coupling stoichiometry in chick intestinal cellsG A Kimmich, J Randles
The Journal of Membrane Biology|August 11, 1975
A Na+-independent, phloretin-sensitive monosaccharide transport system in isolated intestinal epithelial cellsG A Kimmich, J Randles
Acta Anaesthesiologica Scandinavica. Supplementum|January 1, 1978
Model of oxygen transport through the skin as basis for absolute transcutaneous measurement of PaO2H P Kimmich, F Kreuzer
The American Journal of Physiology|November 1, 1981
alpha-Methylglucoside satisfies only Na+-dependent transport system of intestinal epitheliumG A Kimmich, J Randles
The American Journal of Physiology|September 1, 1982
An ATP- and Ca2+-regulated Na+ channel in isolated intestinal epithelial cellsG A Kimmich, J Randles
The Journal of Membrane Biology|January 1, 1973
Effect of K+ and K+ gradients on accumulation of sugars by isolated intestinal epithelial cellsG A Kimmich, J Randles
Biophysical Journal|April 1, 1996
The molecular mechanism and potential dependence of the Na+/glucose cotransporterE Bennett, G A Kimmich
The Journal of Membrane Biology|June 30, 1976
2-Deoxyglucose transport by intestinal epithelial cells isolated from the chickG A Kimmich, J Randles
Biotechnology and Bioengineering|September 5, 1996
NMR imaging of heavy metal absorption in alginate, immobilized cells, and kombu algal biosorbentsN F Nestle, R Kimmich
Pageof 39

Showing results (71-80 of 390) with videos related to

Sort By:
Pageof 39
The American Journal of Physiology|May 1, 1985
Kinetic analysis of mechanism of intestinal Na+-dependent sugar transportD Restrepo, G A Kimmich
The American Journal of Physiology|July 1, 1984
Sodium-sugar coupling stoichiometry in chick intestinal cellsG A Kimmich, J Randles
The Journal of Membrane Biology|August 11, 1975
A Na+-independent, phloretin-sensitive monosaccharide transport system in isolated intestinal epithelial cellsG A Kimmich, J Randles
Acta Anaesthesiologica Scandinavica. Supplementum|January 1, 1978
Model of oxygen transport through the skin as basis for absolute transcutaneous measurement of PaO2H P Kimmich, F Kreuzer
The American Journal of Physiology|November 1, 1981
alpha-Methylglucoside satisfies only Na+-dependent transport system of intestinal epitheliumG A Kimmich, J Randles
The American Journal of Physiology|September 1, 1982
An ATP- and Ca2+-regulated Na+ channel in isolated intestinal epithelial cellsG A Kimmich, J Randles
The Journal of Membrane Biology|January 1, 1973
Effect of K+ and K+ gradients on accumulation of sugars by isolated intestinal epithelial cellsG A Kimmich, J Randles
Biophysical Journal|April 1, 1996
The molecular mechanism and potential dependence of the Na+/glucose cotransporterE Bennett, G A Kimmich
The Journal of Membrane Biology|June 30, 1976
2-Deoxyglucose transport by intestinal epithelial cells isolated from the chickG A Kimmich, J Randles
Biotechnology and Bioengineering|September 5, 1996
NMR imaging of heavy metal absorption in alginate, immobilized cells, and kombu algal biosorbentsN F Nestle, R Kimmich
Pageof 39