<p>Oxygen consumption of isolated <b>A</b> liver, <b>B</b> muscle and <b>C</b> brain mitochondria were measured by a Clark electrode. Malate+pyruvate (MP) and malate+glutamate (MG) served as specific substrates for complex I, succinate (S, for complex II and glycerol-3-phosphate (GP) for complex III, respectively. ADP was given to malate+pyruvate to determine state III respiration via complex I. Oligomycin and CCCP were used with succinate to assess state IVo and uncoupled respiration, respectively. The given oxygen consumption units are nmol oxygen/min/mg mitochondria. Data are represented as means of three independent experiments ± SD.</p
<p>in the presence of the (a) Complex I substrate (5 mM Malate/5 mM Glutamate) (b) Complex II substr...
<p>Oxygen consumption rates of isolated mitochondria (200 µg) were determined using a respirometer. ...
<p>A,B. Oxygen consumption was assessed by high-resolution respirometry in digitonin-permeabilized N...
<p>Oxygen consumption rates (OCRs) were determined using an XF24 Extracellular Flux Analyzer with th...
<p>Mitochondria were isolated from hind limb muscle to test their respiration capacities. (A) Yield ...
To better understand molecular mechanisms regulating changes in metabolism, as observed e.g. in diab...
To better understand molecular mechanisms regulating changes in metabolism, as observed e. g. in dia...
<p>A, Mitochondrial substrate (succinate or malate+glutamate) oxidation was strongly stimulated by A...
<p>Glutamate(5 mM)+malate (2.5 mM), succinate (5 mM) or a mixture of glutamate+malate+succinate (5, ...
Working with isolated mitochondria is the gold standard approach to investigate the function of the ...
Reactive oxygen species are a by-product of mitochondrial oxidative phosphorylation, derived from a ...
258-272Isolated mitochondria serve as a biological model for analysis of oxidative phosphorylation a...
<p>ADP-stimulated (<i>state 3</i>) and resting (<i>state 4</i>) respiration rates are shown for mito...
<p>Oxygen consumption in isolated mitochondria from (A) brain, (B) heart, (C) skeletal muscle and (D...
Most of the cell's energy is obtained through the degradation of glucose, fatty acids, and amino aci...
<p>in the presence of the (a) Complex I substrate (5 mM Malate/5 mM Glutamate) (b) Complex II substr...
<p>Oxygen consumption rates of isolated mitochondria (200 µg) were determined using a respirometer. ...
<p>A,B. Oxygen consumption was assessed by high-resolution respirometry in digitonin-permeabilized N...
<p>Oxygen consumption rates (OCRs) were determined using an XF24 Extracellular Flux Analyzer with th...
<p>Mitochondria were isolated from hind limb muscle to test their respiration capacities. (A) Yield ...
To better understand molecular mechanisms regulating changes in metabolism, as observed e.g. in diab...
To better understand molecular mechanisms regulating changes in metabolism, as observed e. g. in dia...
<p>A, Mitochondrial substrate (succinate or malate+glutamate) oxidation was strongly stimulated by A...
<p>Glutamate(5 mM)+malate (2.5 mM), succinate (5 mM) or a mixture of glutamate+malate+succinate (5, ...
Working with isolated mitochondria is the gold standard approach to investigate the function of the ...
Reactive oxygen species are a by-product of mitochondrial oxidative phosphorylation, derived from a ...
258-272Isolated mitochondria serve as a biological model for analysis of oxidative phosphorylation a...
<p>ADP-stimulated (<i>state 3</i>) and resting (<i>state 4</i>) respiration rates are shown for mito...
<p>Oxygen consumption in isolated mitochondria from (A) brain, (B) heart, (C) skeletal muscle and (D...
Most of the cell's energy is obtained through the degradation of glucose, fatty acids, and amino aci...
<p>in the presence of the (a) Complex I substrate (5 mM Malate/5 mM Glutamate) (b) Complex II substr...
<p>Oxygen consumption rates of isolated mitochondria (200 µg) were determined using a respirometer. ...
<p>A,B. Oxygen consumption was assessed by high-resolution respirometry in digitonin-permeabilized N...