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Query: UMLS:C0011570 (
depression
)
172,036
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Addition of gramicidin D to liver mitochondria, incubated in low- or high-salt media, results in stimulation of respiration in the absence or presence of
depression
of delta muH, respectively.
Gramicidin D
concentrations 2 orders of magnitude higher are required in the low-salt media with full uncoupling at 1 nmol of gramicidin.mg-1. The stimulation of respiration is not accompanied by increased passive proton influx in low-salt media. In high-salt media, the extent of respiratory stimulation and the extent of delta muH
depression
differ according to the nature and concentration of cation. The flow-force relationship is very steep when gramicidin D induced uncoupling occurs in low-salt media and much less steep in high-salt media. A multiplicity of flow-force relationship, respiratory rate vs delta muH, is obtained, the slope of which depends on the nature and concentration of cation, and which can be reproduced by computer simulation by introducing a variable extent of proton cycling either in the membrane or in the pump. The apparent proton conductance, as analyzed in the relationship of Je/delta muH vs delta muH, increases in the so-called ohmic and nonohmic regions according to whether gramicidin D is added in high-salt or low-salt media, respectively. Titration with antimycin of the respiratory control ratio (RCR) in gramicidin D treated mitochondria leads to a
depression
of the RCR in high-salt but not in low-salt media. The view is discussed that in low-salt media the gramicidin D induced uncoupling is due to a cycling of protons within a proton domain operationally located at or near the proton pump.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Nature of proton cycling during gramicidin uncoupling of oxidative phosphorylation. 246 64
Gramicidin D
causes inhibition of ATP synthesis either in the absence or in the presence of
depression
of delta muH, in low-salt and in high-salt media, respectively, at concentrations 2 orders of magnitude higher in the former with respect to the latter case. When the number of active redox pumps is reduced by increasing the antimycin concentration, the P/O ratio of respiring, gramicidin-treated mitochondria either is slightly increased in low-salt media or is first decreased and then constant in high-salt media. Addition of gramicidin D in low-salt media to mitochondria synthesizing ATP by means of artificially imposed delta muH gradients results in (a) no effect on the K+ efflux ratio +/- ADP (equivalent to the aerobic respiratory control ratio) and (b) no effect on the ATP/K+ ratio (equivalent to the P/O ratio) except at the low gramicidin D concentrations where there is also a slight enhancement of the rate of ATP hydrolysis. During respiration-driven ATP synthesis, addition of valinomycin plus K+ causes
depression
of delta muH with little inhibition of ATP synthesis while addition of gramicidin D causes inhibition of ATP synthesis with little
depression
of delta muH. The view is discussed that the gramicidin-accessible protons which uncouple aerobic ATP synthesis in a delta muH-independent manner are of a different class from the gramicidin-inaccessible protons which uncouple diffusion potential driven ATP synthesis in a delta muH-dependent manner. The gramicidin-accessible protons are suggested to be pump associated and to reflect primary events in energy transduction.
...
PMID:Local protons and uncoupling of aerobic and artificial delta muH-driven ATP synthesis. 246 65
