Add to ORKGThe physiological role of L-carnitine is to determine the transport of acyl-CoA through the mitochondrial membrane. However, some observations may also suggest a direct effect of the molecule per se on the physical properties of the membrane, most probably at the level of the binding site. This possibility has been investigated by studying the influence of adriamycin, a drug that binds to cardiolipin, on the effect of carnitine on isolated rat liver mitochondria. It has been found that adriamycin almost abolishes the activating effect of carnitine on state 2 respiration. The effect and its inhibition is seen by using either the L-form of carnitine or the D-form or both. Cardiolipin removes the effect of adriamycin and restores the activatio...
Incubation of the mitochondria at 5°C with L [14C]carnitine results in uptake of label without chang...
We have incubated heart mitochondria with ferrous ions as catalyst of lipid peroxidation. Ferrous io...
The inhibition of respiratory chain activities in rat liver, rat heart and bovine heart mitochondria...
The physiological role of L-carnitine is to determine the transport of acyl-CoA through the mitochon...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
AbstractIt is shown that L-carnitine strongly increases the ability of rat liver mitochondria to res...
It is shown that L-carnitine strongly increases the ability of rat liver mitochondria to respond to ...
It is shown that L-carnitine strongly increases the ability of rat liver mitochondria to respond to ...
AbstractIt is shown that L-carnitine strongly increases the ability of rat liver mitochondria to res...
Exogenous L-carnitine and coenzyme Q are used to protect the heart against anthracycline damage and ...
Exogenous L-carnitine and coenzyme Q are used to protect the heart against anthracycline damage and ...
Incubation of the mitochondria at 5°C with L [14C]carnitine results in uptake of label without chang...
We have incubated heart mitochondria with ferrous ions as catalyst of lipid peroxidation. Ferrous io...
The inhibition of respiratory chain activities in rat liver, rat heart and bovine heart mitochondria...
The physiological role of L-carnitine is to determine the transport of acyl-CoA through the mitochon...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
The interaction of adriamycin with cardiolipin in model membranes and in various membrane preparatio...
AbstractIt is shown that L-carnitine strongly increases the ability of rat liver mitochondria to res...
It is shown that L-carnitine strongly increases the ability of rat liver mitochondria to respond to ...
It is shown that L-carnitine strongly increases the ability of rat liver mitochondria to respond to ...
AbstractIt is shown that L-carnitine strongly increases the ability of rat liver mitochondria to res...
Exogenous L-carnitine and coenzyme Q are used to protect the heart against anthracycline damage and ...
Exogenous L-carnitine and coenzyme Q are used to protect the heart against anthracycline damage and ...
Incubation of the mitochondria at 5°C with L [14C]carnitine results in uptake of label without chang...
We have incubated heart mitochondria with ferrous ions as catalyst of lipid peroxidation. Ferrous io...
The inhibition of respiratory chain activities in rat liver, rat heart and bovine heart mitochondria...