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排序方式: 共有411条查询结果,搜索用时 15 毫秒
1.
2.
Regulation of oxidative phosphorylation in the mammalian cell 总被引:11,自引:0,他引:11
3.
P M Balaban N I Bravarenko I S Zakharov 《Zhurnal vysshe? nervno? deiatelnosti imeni I P Pavlova》1991,41(5):1033-1038
Mechanisms of habituation in the network of identified neurones were investigated in isolated preparation of central nervous system in the snail Helix. It has been found that intracellularly induced spike discharge in premotor command neurones decreases synaptic responses to repeated nerve stimulation in all recorded command neurones. Application of the neuropeptide FMRFamide elicits similar changes in the network. Taking into account that the investigated command neurones contain FMRFamide, as was shown immunochemically, it is possible to assume the existence of recurrent inhibition in the network underlying avoidance reactions. This recurrent inhibition causes habituation of the network output in the cases when the repeated stimuli do not evoke sensitization via activation of serotonergic cells. 相似文献
4.
Muscle adenylate kinase catalyzes adenosine 5'-tetraphosphate synthesis from ATP and ADP 总被引:1,自引:0,他引:1
Muscle adenylate kinases from rabbit and porcine sources were found by NMR to catalyze the formation of adenosine tetraphosphate (5'AdoP4) from adenosine triphosphate (ATP) and adenosine diphosphate (ADP). The reaction was completely reversible, with an equilibrium constant of approx. 0.1 at 30 degrees C. The synthesis of 5'AdoP4 from ATP and ADP occurred very slowly, taking over 12 h to reach equilibrium under the conditions used in this study. The sources of micromolar concentrations of 5'AdoP4 found in biological tissues is unknown: potentially, the slow adenylate-kinase-catalyzed breakdown and synthesis of 5'AdoP4 may serve as an important regulator of the steady-state concentration of 5'AdoP4 in muscle tissue. 相似文献
5.
In experiments on the isolated nervous system, responses of the same command neurones of avoidance behaviour to electrical stimulation of the intestinal nerve were compared in adult snails (Helix pomatia) and in snails 1-20 days old. Dynamics of spike reactions of the command neurones to rhythmic nerve stimulation differed in adult and newborn snails. In the neurones of young snails, no sensitization, common in the adult animals, was observed. Study of excitatory input in the command neurones during rhythmic nerve stimulation suggests independence of habituation of synaptic input amplitude and spike response sensitization, because dynamics of habituation coincided in the young and adult snails while spike response underwent sensitization only in adult animals. 相似文献
6.
A group of serotonergic cells, located in the pedal ganglia ofHelix lucorum, modulates synaptic responses of neurons involved in withdrawal behavior. Extracellular or intracellular stimulation of these
serotonergic cells leads to facilitation of spike responses to noxious stimuli in the putative command neurons for withdrawal
behavior. Noxious tactile stimuli elicit an increase in background spiking frequency in the modulatory neurons and a corresponding
increase in stimulus-evoked spike responses in withdrawal interneurons. The serotonergic neurons have processes in the neuropil
of the parieto-visceral ganglia complex, consistent with their putative role in modulating the activity of giant parietal
interneurons, which send processes to the same neuropil and to the pedal ganglia. The serotonergic cells respond to noxious
tactile and chemical stimuli. Although the group as a whole respond to noxious stimuli applied to any part of the body, most
cells respond more to ipsilateral than contralateral stimulation, and exhibit differences in receptive areas. Intracellular
investigation revealed electrical coupling between serotonergic neurons which could underlie the recruitment of members of
the group not responding to a given noxious stimulus. 相似文献
7.
8.
Ryschon T. W.; Jarvis J. C.; Salmons S.; Balaban R. S. 《Journal of applied physiology》1997,82(3):1024
Ryschon, T. W., J. C. Jarvis, S. Salmons, and R. S. Balaban.High-energy phosphates and tension production in rabbit tibialisanterior/extensor digitorum longus muscles. J. Appl. Physiol. 82(3): 1024-1029, 1997.The effects ofrepetitive muscle contraction on energy state and tension productionwere studied in rabbit tibialis anterior/extensor digitorum longusmuscles that had been subjected to 90 days of continuous indirectelectrical stimulation at 10 Hz. Anesthetized chronically stimulatedand control rabbits were challenged with 15 min of stimulation at 4 and15 tetani/min.Pi-to-phosphocreatine (PCr) ratio(Pi/PCr) was measured in vivo before, during, andafter acute stimulation by31P-magnetic resonancespectroscopy, and tension was recorded at the same time. AlthoughPi/PCr was low at rest, it wassignificantly higher in chronically stimulated muscle than in controlmuscle (0.20 ± 0.02 vs. 0.05 ± 0.01, P < 0.05). Stimulation of control muscle for 15 min at both 4 and 15 tetani/min induced a significant rise in Pi/PCr, whereas the sameconditions in chronically stimulated muscle did not produce anysignificant departure from initial levels. The tension produced bycontrol muscle fell to 93 ± 3% of its initial value duringstimulation at 4 tetani/min and to 61 ± 7% at 15 tetani/min,respectively. In chronically stimulated muscle, on the other hand,tension was potentiated above its initial level at both stimulationrates (135 ± 15 and 138 ± 11%, respectively) and remainedsignificantly elevated throughout each trial. The ability ofchronically stimulated muscle to sustain high levels of activity withminimal perturbations in Pi/PCr ordecrement in tension is attributable to cellular adaptations thatinclude a well-documented increase in oxidative capacity. 相似文献
9.
Robert S. Balaban John P. Bader 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1984,804(4):419-426
In several tissues a coupling between glycolysis and (Na++K+)-ATPase has been observed. We report here studies on the coupling of glycolysis and (Na++K+)-ATPase in Rous-transformed hamster cells and Ehrlich ascites tumor cells. The rate of (Na++K+)-ATPase was estimated by the initial rate of ouabain-sensitive K+ influx after K+ reintroduction to K+-depleted cells. Experiments were performed with cells producing ATP via oxidative phosphorylation alone (i.e., lactate sole substrate), glycolysis alone (i.e., glucose as substrate in the absence of oxygen or with antimycin A), or glycolysis and oxidative phosphorylation (i.e., glucose as substrate in the presence of oxygen). The cells produced ATP at approximately the same rate under all of these conditions, but the initial rate of K+-influx was approx. 2-fold higher when AtP was produced from glycolysis. Changes in cell Na+ due to other transport processes related to glycolysis, such as Na+-H+ exchange, Na+-glucose cotransport, and K+-H+ exchange were ruled out as mediators of this effect on (Na++K+)-ATPase. These data suggest that glycolysis is more effective than oxidative phosphorylation in providing ATP to (Na++K+)-ATPase to these cultured cells. 相似文献
10.
Exaggerated inspiratory swings in intrathoracic pressure have been postulated to increase left ventricular (LV) afterload. These predictions are based on measurements of LV afterload by use of esophageal or lateral pleural pressure. Using direct measurements of pericardial pressure, we reexamined respiratory changes in LV afterload. In 11 anesthetized vagotomized dogs, we measured arterial pressure, LV end-systolic (ES) and end-diastolic transmural (TM) pressures, stroke volume (SV), diastolic left anterior descending blood flow (CBF-D), and coronary resistance. Dogs were studied before and while breathing against an inspiratory threshold load of -20 to -25 cmH2O compared with end expiration. Relative to end expiration, SV and LVES TM pressures decreased during inspiration and increased during early expiration, effects exaggerated during inspiratory loading. In all cases, LV afterload (LVES TM pressure) changed in parallel with SV. LV end-diastolic TM pressure did not change. CBF-D paralleled arterial pressure, and there were no changes in coronary resistance. In two dogs, regional LVES segment length paralleled calculated changes in LVES TM pressure. We conclude that 1) LV afterload decreases during early inspiration and increases during early expiration, changes secondary to those in SV; 2) changes in CBF-D are secondary to changes in perfusion pressure during the respiratory cycle; and 3) the use of esophageal or lateral pleural pressure to estimate LV surface pressure overestimates changes in LV TM pressures during respiration. 相似文献