![]() The main electron carrier in cellular respiration is NAD (nicotinamide adenine dinucleotide).Electron carriers are specific substances that accept and give up electrons.For example the oxidation of carbon to form CO 2 and the reduction of carbon by the addition of hydrogen to yield methane (CH 4 ).These reactions are called Redox reactions (reduction-oxidation) which are chemical reactions in which atoms have their oxidation number changed.Reduction involves the gain of electrons through the addition of hydrogen or the loss of an oxygen molecule.Oxidation involves the loss of electrons from an element through the gain of oxygen or the loss of hydrogen.Aerobic respiration involves the complete breakdown of organic molecules for a larger yield of ATP (oxygen is required) Anaerobic respiration involves the incomplete breakdown of organic molecules for a small yield of ATP (no oxygen required). Oligomycin inhibits ATP synthase.Cell respiration is the controlled release of energy from organic compounds to produce ATP. Rotenone inhibits complex I, carboxin inhibits complex II, antimycin A inhibits complex III, and cyanide and CO inhibit complex IV. Ĭertain poisons can inhibit cellular oxidative phosphorylation such as rotenone, carboxin, antimycin A, cyanide, carbon monoxide (CO), sodium azide, and oligomycin. These brown fat mitochondria contain more thermogenin than other cells, allowing for increased inner mitochondrial membrane disruption and proton leakage. shivering) and are therefore at risk for hypothermia. This difference supports that brown fat is classically abundantly present in hibernating animals or newborns, who have delayed neurologic thermoregulation (ex. Brown adipose tissue has many small lipid droplets and a high concentration of mitochondria (which provide the "brown" color), in contrast to white adipose tissue, which has a single droplet. Thermogenin, also known as uncoupling protein 1 (UCP1), is found in brown adipose tissue. ![]() In the light-independent reactions, sugar is made from the ATP and NADPH from the previous reactions. The proton gradient used to make the ATP forms via an electron transport chain. ![]() In the light-dependent reactions, light energy and water are used to make ATP, NADPH, and oxygen (O2). Photosynthesis is a metabolic process that converts light energy into chemical energy to build sugars. The energy released forms a proton gradient, which is used in chemiosmosis to make a large amount of ATP by the protein ATP-synthase. The ETC is a collection of proteins bound to the inner mitochondrial membrane and organic molecules, which electrons pass through in a series of redox reactions, and release energy. Oxidative phosphorylation has two parts: the electron transport chain (ETC) and chemiosmosis. In the final step, the three NADH and one FADH2 amassed from the previous steps are used in oxidative phosphorylation, to make water and ATP. The acetyl CoA is then used in the citric acid cycle, which is a chain of chemical reactions that produce CO2, NADH, flavin adenine dinucleotide (FADH2), and ATP. Each pyruvate oxidizes into acetyl CoA and an additional molecule of NADH and carbon dioxide (CO2). In glycolysis, glucose metabolizes into two molecules of pyruvate, with an output of ATP and nicotinamide adenine dinucleotide (NADH). ![]() Aerobic cellular respiration is made up of three parts: glycolysis, the citric acid (Krebs) cycle, and oxidative phosphorylation. ![]()
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