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The Journal of Biological Chemistry
|
July 22, 1994
Rat heart expresses two forms of mitochondrial carnitine palmitoyltransferase I. The minor component is identical to the liver enzyme
B C Weis, V Esser, D W Foster, et al.
Diabetes/Metabolism Reviews
|
May 1, 1989
Regulation of ketogenesis and the renaissance of carnitine palmitoyltransferase
J D McGarry, K F Woeltje, M Kuwajima, et al.
The Journal of Biological Chemistry
|
October 21, 1994
Expression of a cDNA for rat liver carnitine palmitoyltransferase I in yeast establishes that catalytic activity and malonyl-CoA sensitivity reside in a single polypeptide
N F Brown, V Esser, D W Foster, et al.
Neurology
|
June 1, 1982
Kinetics of carnitine-dependent fatty acid oxidation: implications for human carnitine deficiency
C S Long, R G Haller, D W Foster, et al.
The Biochemical Journal
|
October 31, 1998
Roles of the N- and C-terminal domains of carnitine palmitoyltransferase I isoforms in malonyl-CoA sensitivity of the enzymes: insights from expression of chimaeric proteins and mutation of conserved histidine residues
S T Swanson, D W Foster, J D McGarry, et al.
The Journal of Biological Chemistry
|
June 10, 1984
Efficient hepatic glycogen synthesis in refeeding rats requires continued carbon flow through the gluconeogenic pathway
C B Newgard, S V Moore, D W Foster, et al.
The Biochemical Journal
|
July 15, 1983
Observations on the affinity for carnitine, and malonyl-CoA sensitivity, of carnitine palmitoyltransferase I in animal and human tissues. Demonstration of the presence of malonyl-CoA in non-hepatic tissues of the rat
J D McGarry, S E Mills, C S Long, et al.
The Journal of Clinical Investigation
|
July 1, 1981
In vitro reversal of the fasting state of liver metabolism in the rat. Reevaluation of the roles of insulin and glucose
M E Boyd, E B Albright, D W Foster, et al.
The Journal of Infectious Diseases
|
December 1, 1985
Incorporation of arachidonic acid by microfilariae of Brugia malayi
D L Longworth, D W Foster, A M Dvorak, et al.
The Journal of Biological Chemistry
|
July 10, 1983
Studies on the mechanism by which exogenous glucose is converted into liver glycogen in the rat. A direct or an indirect pathway?
C B Newgard, L J Hirsch, D W Foster, et al.
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of 9
Search research articles
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Showing results (51-60 of 89) with videos related to
Sort By:
Page
of 9
The Journal of Biological Chemistry
|
July 22, 1994
Rat heart expresses two forms of mitochondrial carnitine palmitoyltransferase I. The minor component is identical to the liver enzyme
B C Weis, V Esser, D W Foster, et al.
Diabetes/Metabolism Reviews
|
May 1, 1989
Regulation of ketogenesis and the renaissance of carnitine palmitoyltransferase
J D McGarry, K F Woeltje, M Kuwajima, et al.
The Journal of Biological Chemistry
|
October 21, 1994
Expression of a cDNA for rat liver carnitine palmitoyltransferase I in yeast establishes that catalytic activity and malonyl-CoA sensitivity reside in a single polypeptide
N F Brown, V Esser, D W Foster, et al.
Neurology
|
June 1, 1982
Kinetics of carnitine-dependent fatty acid oxidation: implications for human carnitine deficiency
C S Long, R G Haller, D W Foster, et al.
The Biochemical Journal
|
October 31, 1998
Roles of the N- and C-terminal domains of carnitine palmitoyltransferase I isoforms in malonyl-CoA sensitivity of the enzymes: insights from expression of chimaeric proteins and mutation of conserved histidine residues
S T Swanson, D W Foster, J D McGarry, et al.
The Journal of Biological Chemistry
|
June 10, 1984
Efficient hepatic glycogen synthesis in refeeding rats requires continued carbon flow through the gluconeogenic pathway
C B Newgard, S V Moore, D W Foster, et al.
The Biochemical Journal
|
July 15, 1983
Observations on the affinity for carnitine, and malonyl-CoA sensitivity, of carnitine palmitoyltransferase I in animal and human tissues. Demonstration of the presence of malonyl-CoA in non-hepatic tissues of the rat
J D McGarry, S E Mills, C S Long, et al.
The Journal of Clinical Investigation
|
July 1, 1981
In vitro reversal of the fasting state of liver metabolism in the rat. Reevaluation of the roles of insulin and glucose
M E Boyd, E B Albright, D W Foster, et al.
The Journal of Infectious Diseases
|
December 1, 1985
Incorporation of arachidonic acid by microfilariae of Brugia malayi
D L Longworth, D W Foster, A M Dvorak, et al.
The Journal of Biological Chemistry
|
July 10, 1983
Studies on the mechanism by which exogenous glucose is converted into liver glycogen in the rat. A direct or an indirect pathway?
C B Newgard, L J Hirsch, D W Foster, et al.
Page
of 9