UMLS:C0026837 - FACTA Search

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Query: UMLS:C0026837 (muscle rigidity)
1,077 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rigor cross-bridges show two conformations paired within each 38.7-nm axial repeat. The two forms may express two stages of the cross-bridge cycle during contraction. Differing numbers of myosin heads per cross-bridge and associated helical changes in the thin filament distinguish the two forms and suggest that both myosin heads usually bind to a single thin filament.
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PMID:Three-dimensional reconstruction of rigor insect flight muscle from tilted thin sections. 654 Mar 69

A pattern may be seen among models from the physical, natural, and social sciences. The pattern derives from the hierarchical level of complexity of the phenomenon modeled, relative to the human modeler. Rigor decreases as models treat natural events progressively closer to the full complexity of the human. "Rigor" here is determined entirely by the conventional indicators of the scientific community; "complexity" refers to hierarchical level. This pattern of decreasing rigor is analogized to a limiting feature of formal systems: reflexivity. The scientific method of inquiry is observed to assume lawfulness in nature; lawfulness without reflexivity is suggested to be a dilemma. The gradient of rigor observed among models is suggested to be necessary, stable, and homeostatic. Consequently, reflexivity in nature is adopted as the most satisfactory metadisciplinary null hypothesis.
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PMID:Models' limits suggest reflexivity in nature. 706 8

Oxygen-derived free radicals (FRs) and other reactive oxygen species (ROS) have been implicated in the deleterious aspects of myocardial infarction, neutrophil infiltration and post-ischaemic reperfusion. We studied their actions on the main intracellular organelles of Ca-compartmentation and force production (the sarcoplasmic reticulum (SR) and myofilaments) in rat heart preparations by using two forms of chemical 'skinning'. We recorded Ca(2+)-activated isometric tension or, in saponin-treated trabeculae where SR function is maintained, either tension alone or tension and [Ca2+] transients evoked by caffeine. A single, brief application of xanthine/xanthine oxidase (generating superoxide; O2-) rapidly and irreversibly inhibits Ca(2+)-activated force with a dose- and time-dependent action. The kinetics of residual force production are slowed. Rigor induction (by ATP withdrawal) before and during exposure to .O2- prevents this action, suggesting the .O2(-)-sensitive site is occluded in rigor. Myofilament Ca-sensitivity and SR function were unaffected by .O2- or physiologically relevant [H2O2] (< 10 microM). Briefly applying 10-50 microM hypochlorous acid (HOCl) increased Ca-sensitivity and resting tension, but reduced Ca-activated force, in a manner consistent with 'rigor-like' crossbridges being involved. HOCl also provoked spontaneous Ca-release but reduced net SR Ca-uptake. Electron microscopy reveals that the myofilament lattice suffers a characteristic disruption by HOCl but not by .O2-. We conclude that FRs and ROS associated with myocyte dysfunction, reperfusion and inflammation could contribute to post-ischaemic myocardial dysfunction.
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PMID:Intracellular effects of free radicals and reactive oxygen species in cardiac muscle. 747 29

The regulation of contractile activity in mice bearing a null mutation of the M-isoform of creatine kinase gene, has been investigated in tissue extracts and Triton X-100-treated preparations of ventricular, soleus, and gastrocnemius muscles of control and transgenic mice. Skinned fiber experiments did not evidence any statistical difference in the maximal force or the calcium sensitivity of either muscle type. Rigor tension development at a low MgATP concentration was greatly influenced by phosphocreatine in control but not in transgenic mice as should be expected. In calcium-activated ventricular preparations, although the force developed by each cross-bridge was the same in control and transgenic animals, the rate constant of tension changes appeared to be markedly slowed in transgenic animals. As the ventricular isomyosin pattern was not altered, we suggested that, in transgenic animals, cross-bridge cycling was hindered by a local decrease in the MgATP to MgADP ratio, due to lack of a local MgATP regenerating system. Myokinase activity was not significantly changed while activities of pyruvate kinase or glyceraldehyde-3-phosphate dehydrogenase were found to be increased in transgenic animals. These results show that no fundamental remodelling occurs in myofibrils of transgenic animals but that important adaptations modify the bioenergetic pathways including glycolytic metabolism.
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PMID:Muscle creatine kinase-deficient mice. I. Alterations in myofibrillar function. 765 6

The complex time course of tension decay was investigated in fast-twitch permeabilized rabbit muscle fibers when they were relaxed from the rigor state using photochemical generation of ATP. A novel caged ATP compound, the P3-3',5'-dimethoxybenzoin ester of ATP (DMB-caged ATP), as well as the P3-1-(2-nitrophenyl)ethyl ester of ATP (NPE-caged ATP), have been used. DMB-caged ATP photolyzes at least three orders of magnitude more rapidly than NPE-caged ATP. The role of ADP on relaxation kinetics from rigor was examined by using apyrase to remove ADP from the rigor muscle solutions. The presence of Pi-sensitive states was investigated from the effect of Pi on relaxation. Rigor tension was varied enabling the influence of tension on the relaxation to be examined. The time course of relaxation was faster with DMB-caged ATP compared with NPE-caged ATP for concentrations of ATP released by photolysis greater than 0.7 mM. Most of the complexity in the relaxation tension records was caused by ADP. In the absence of ADP, tension decayed monotonically after photochemical release of ATP in a process whose rate was unaffected by Pi. In the presence of ADP, relaxation was more complex and tension passed through a maximum. A model invoking cooperative interactions involving ADP-containing myosin heads provides a reasonable description of the data.
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PMID:Kinetics of relaxation from rigor of permeabilized fast-twitch skeletal fibers from the rabbit using a novel caged ATP and apyrase. 769 82

The beneficial effect of low pH during cardiac ischemia on reperfusion injury has often been attributed to its energy-saving effect due to inhibition of contraction. The role of low pH on Ca2+ accumulation and muscle tension was assessed in energy-depleted tissue by changing the pH of the medium from 7.4 to 6.2 at onset of rigor development during metabolic inhibition (MI), i.e., in the energy-depleted phase. Cytosolic free Ca2+ ([Ca2+]i) and intracellular H+ (pHi) were measured in rat trabeculae at 20 degrees C with fura 2 and 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein, respectively, and tension was recorded. The preparations were energy depleted by stimulation at 1 Hz in glucose-free Tyrode solution with 2 mM NaCN. Rigor developed within 20 min, indicating energy depletion. Resting [Ca2+]i was followed during 50 min (group I) or 100 min (group II) of rigor, and recovery was followed for 60 min in glucose-containing Tyrode solution at 0.2-Hz stimulation. Resting [Ca2+]i rose within 50 min (group I) but stabilized in the 50- to 100-min period (group II). All preparations from group I (n = 5) resumed contraction in the recovery period but in group II (n = 10) 70% failed to recover, and [Ca2+]i remained elevated compared with those that recovered. An extracellular pH of 6.2, resulting in similar pHi, from onset of rigor development (group III) led to only a modest rise in [Ca2+]i during the 100-min rigor period, and all preparations resumed contraction after approximately 3 min in normal medium. ATP was very low in all groups at the end of MI but was still significantly lower in group II than in groups I and III. A beneficial energy-sparing effect of low pH during the rigor phase can therefore not be excluded. We conclude that 1) the capacity of trabeculae to recover from MI depends on the time period and magnitude of the [Ca2+]i rise in the energy-depleted phase and 2) low pH in energy-depleted trabeculae protects against Ca overload, improving recovery after normalization of perfusion conditions.
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PMID:Exposure of energy-depleted rat trabeculae to low pH improves contractile recovery: role of calcium. 773 52

The Utstein style of reporting out-of-hospital cardiac arrests requires that all confirmed cardiac arrests considered for resuscitation are analysed and that a record is made of the number of cases where no resuscitation is attempted. We report a series of 942 confirmed cardiac arrests considered for resuscitation by South Glamorgan Emergency Medical Service (EMS). There were 370 (39.3%) cases where no resuscitation was attempted by the EMS. The ages, male/female ratio and EMS response times were similar in both the group that received ambulance resuscitation and those that did not. Those not receiving resuscitation were less likely to have had an arrest of cardiac aetiology (51.3% vs. 75%, P < 0.00001). Rigor mortis or decomposition of the body was present in 50.8% of cases and in 20% a doctor had already confirmed the patient dead. In the remainder the ambulance crew failed to start resuscitation for a variety of reasons.
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PMID:Failure of ambulance crew to initiate cardiopulmonary resuscitation. 778 22

1. Ventricular trabeculae from rat heart were chemically skinned with Triton X-100, which disrupts all cellular membranes including the sarcoplasmic reticulum. In the effective absence of Ca2+ (10(-9) M), trabeculae developed a maintained rigor contracture when ATP was withdrawn from the bathing solution. 2. The final level of tension obtained following withdrawal of ATP was dependent upon the pH of the bathing solution during development of rigor. Rigor tension at pH 5.5 was 10.1 +/- 0.9% (n = 8, mean +/- S.E.M.) of that at pH 7.0. Bathing the preparation in alkaline solution increased rigor force. At pH 8.0, rigor force increased to 218 +/- 6.7% (n = 4) of control responses developed at pH 7.0. The rate of development of rigor tension increased as the pH of the bathing solution was increased. Once established, rigor tension was unaffected by subsequent changes in pH. These effects of pH were fully reversible within the range 5.5-8.0. 3. The final level of rigor tension was slightly reduced when inorganic phosphate (P(i)) was included in the bathing solution prior to withdrawal of ATP. P(i) concentrations of 10, 20 and 30 mM reduced rigor tension to 87 +/- 2, 83 +/- 3 and 82 +/- 4% respectively. There was no significant effect of P(i) on the rate of development of rigor. The effect of P(i) at pH 6.0 was not significantly different from that observed at the control pH of 7.0. 4. These results suggest that the fall of intracellular pH and, to a lesser extent, the rise in [P(i)] that occurs during ischaemia will partially inhibit the development of a rigor contracture.
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PMID:Effects of pH and inorganic phosphate on rigor tension in chemically skinned rat ventricular trabeculae. 796 60

Experiments are presented that probe the mechanism of contraction in normal activated muscle fibers and in heated rigor fibers. In activated fibers we subdivide the partial recovery of isometric tension during the Huxley-Simmons phase 2 into temperature-independent and temperature-dependent steps termed, respectively, phase 2fast and phase 2slow. Evidence is presented to show that phase 2fast arises from the perturbation of a damped elastic element in the cross-bridge and that phase 2slow is the manifestation of an endothermic, order-disorder transition responsible for de novo tension generation. These responses are common to both frog and rabbit fibers. The only difference between animals is that the kinetics of phase 2slow appears to scale with the working temperature of the muscle and not absolute temperature. Rigor fibers heated above the working temperature of the muscle contract. Tension generation is, as with activated fibers, endothermic. Tension transients following a laser temperature-jump of activated and heated rigor fibers are virtually indistinguishable on the basis of either the form or magnitude of the response. In length-jump experiments, tension recovery by heated rigor fibers consists of three exponentials with a tension-dependent rate for the medium speed step. Preliminary data indicate that the rigor cross-bridge operates over a distance of between 13.5 and 18 nm. Collectively, these data imply that tension generation in muscle arises from accessible conformational states in the proteins of the cross-bridge alone. ATP hydrolysis in active fibers and the heating of rigor fibers simply serve to shift these intrinsic conformational equilibria towards tension generation.
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PMID:Kinetic and physical characterization of force generation in muscle: a laser temperature-jump and length-jump study on activated and contracting rigor fibers. 810 64

This paper presents a number of separate results concerning crossbridge attachment: [1] X-ray diffraction from live bumble bee flight muscle shows a set of layer lines distinct from that of relaxed Lethocerus, in which the apparent myosin helix is shorter than that of the actin. [2] Rigor crossbridges of Lethocerus are not rotatable by stretch. [3] Rabbit and Lethocerus fibres in rigor relaxed by ATP at -35 degrees C show evidence of non-rigor crossbridge attachment.
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PMID:Inferences concerning crossbridges from work on insect muscle. 810 67

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