BIOMAT Database Logo BIOMAT Database Logo

[Effect of radiation on the membrane potential of mitochondria]. 1977

B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev

UI MeSH Term Description Entries
D008297 Male Males
D008564 Membrane Potentials The voltage differences across a membrane. For cellular membranes they are computed by subtracting the voltage measured outside the membrane from the voltage measured inside the membrane. They result from differences of inside versus outside concentration of potassium, sodium, chloride, and other ions across cells' or ORGANELLES membranes. For excitable cells, the resting membrane potentials range between -30 and -100 millivolts. Physical, chemical, or electrical stimuli can make a membrane potential more negative (hyperpolarization), or less negative (depolarization). Resting Potentials,Transmembrane Potentials,Delta Psi,Resting Membrane Potential,Transmembrane Electrical Potential Difference,Transmembrane Potential Difference,Difference, Transmembrane Potential,Differences, Transmembrane Potential,Membrane Potential,Membrane Potential, Resting,Membrane Potentials, Resting,Potential Difference, Transmembrane,Potential Differences, Transmembrane,Potential, Membrane,Potential, Resting,Potential, Transmembrane,Potentials, Membrane,Potentials, Resting,Potentials, Transmembrane,Resting Membrane Potentials,Resting Potential,Transmembrane Potential,Transmembrane Potential Differences
D008930 Mitochondria, Liver Mitochondria in hepatocytes. As in all mitochondria, there are an outer membrane and an inner membrane, together creating two separate mitochondrial compartments: the internal matrix space and a much narrower intermembrane space. In the liver mitochondrion, an estimated 67% of the total mitochondrial proteins is located in the matrix. (From Alberts et al., Molecular Biology of the Cell, 2d ed, p343-4) Liver Mitochondria,Liver Mitochondrion,Mitochondrion, Liver
D010085 Oxidative Phosphorylation Electron transfer through the cytochrome system liberating free energy which is transformed into high-energy phosphate bonds. Phosphorylation, Oxidative,Oxidative Phosphorylations,Phosphorylations, Oxidative
D010101 Oxygen Consumption The rate at which oxygen is used by a tissue; microliters of oxygen STPD used per milligram of tissue per hour; the rate at which oxygen enters the blood from alveolar gas, equal in the steady state to the consumption of oxygen by tissue metabolism throughout the body. (Stedman, 25th ed, p346) Consumption, Oxygen,Consumptions, Oxygen,Oxygen Consumptions
D004140 Dinitrophenols Organic compounds that contain two nitro groups attached to a phenol.
D005720 Gamma Rays Penetrating, high-energy electromagnetic radiation emitted from atomic nuclei during NUCLEAR DECAY. The range of wavelengths of emitted radiation is between 0.1 - 100 pm which overlaps the shorter, more energetic hard X-RAYS wavelengths. The distinction between gamma rays and X-rays is based on their radiation source. Gamma Wave,Gamma Radiation,Nuclear X-Rays,Radiation, Gamma,X-Rays, Nuclear,Gamma Radiations,Gamma Ray,Gamma Waves,Nuclear X Rays,Nuclear X-Ray,Ray, Gamma,Wave, Gamma,Waves, Gamma,X Rays, Nuclear,X-Ray, Nuclear
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D051381 Rats The common name for the genus Rattus. Rattus,Rats, Laboratory,Rats, Norway,Rattus norvegicus,Laboratory Rat,Laboratory Rats,Norway Rat,Norway Rats,Rat,Rat, Laboratory,Rat, Norway,norvegicus, Rattus

Related Publications

B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
[Effect of creatine phosphate synthesis on the membrane potential of mitochondria].
January 1979, Biofizika,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
[The effect of potential-dependent potassium uptake on membrane potential in rat brain mitochondria].
January 2013, Ukrains'kyi biokhimichnyi zhurnal (1999 ),
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
[Effect of phosphodiesterase inhibitors on the membrane potential and respiration of mitochondria].
January 1984, Biofizika,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
[The effect of moxifloxacin on apoptosis of airway smooth muscle cells and mitochondria membrane potential].
September 2011, Zhonghua jie he he hu xi za zhi = Zhonghua jiehe he huxi zazhi = Chinese journal of tuberculosis and respiratory diseases,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
The effect of beta-adrenergic agonists on the membrane potential of fat-cell mitochondria in situ.
September 1982, The Biochemical journal,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
The effect of alpha-adrenergic agonists on the membrane potential of fat-cell mitochondria in situ.
September 1982, The Biochemical journal,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
[Effect of dingxin recipe on intracellular free calcium, membrane potential and mitochondria membrane potential in normal and hypoxia myocytes of rats].
September 2001, Zhongguo Zhong xi yi jie he za zhi Zhongguo Zhongxiyi jiehe zazhi = Chinese journal of integrated traditional and Western medicine,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
Mechanism of citrinin-induced dysfunction of mitochondria. II. Effect on respiration, enzyme activities, and membrane potential of liver mitochondria.
September 1992, Cell biochemistry and function,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
Membrane potential-related effect of calcium on reactive oxygen species generation in isolated brain mitochondria.
January 2010, Biochimica et biophysica acta,
B S Fomenko, and I A Elfimova, and A N Kamynin, and I G Akoev
The effect of reduced water potential on soybean mitochondria.
July 1969, Plant physiology,
Copied contents to your clipboard!