Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.1 (myosin ATPase)
 1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The intrinsic laryngeal muscles of the horse, donkey, sheep, ox, pig, dog and cat were examined for myosin ATPase, following acid and alkali pre-incubation, SDH and M-alphaGPDH activities. In all laryngeal muscles two fibre types, betaR and alphaR, belonging to slow and fast-contracting, fatigue-resistant motor units (types S and FR) were present in different proportions. The alphaW fibre type, belonging to fast-contracting and fatigue-resistant motor units was absent (type FF). The alphaR fibres of the dog and the cat were subdivided into groups by the various degrees of acid stable myosin ATPase, oxidative and glycolytic activities. In the ox and pig laryngeal muscles, the same fibres showed an atypical myosin ATPase activity, as high as the fast-contracting fibres but acid-resistant like the slow-twitch fibres. The most uniform muscle was the CAD, which was formed of a higher percentage of slow-twitch fibres than the other laryngeal muscles of the same species. Also the VE muscle was very uniform in the dog, horse and donkey but the fast-twitch fibres were by far the most numerous, the highest in fact among all the laryngeal muscles. In the TA muscle of the cat, sheep and ox, the percentage of fast-twitch fibres was very high in the rostral portion decreasing gradually towards the caudal portion. Thus it was possible to separate histochemically the TA muscle in the rostral (pars ventricularis) and caudal (pars vocalis) portions which are related to the VE and the VO muscles of the dog, horse and donkey. In the VO muscle the slow-twitch fibres are more numerous than in the VE. The two portions of the TA were not detected by histochemical methods in the pig. However, this muscle has the highest percentage of fast-twitch fibres. The qualitative and quantitative data presented in this paper together with the data reported in the literature, enable us to correlate morphological and functional aspects of fibre composition among the species.
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PMID:A comparative histochemical study of intrinsic laryngeal muscles of ungulates and carnivores. 53 8

Diabetes appears to cause a cardiomyopathy independent of atherosclerotic coronary artery disease and hypertension. Left ventricular papillary muscle function studies in rats made severely diabetic with streptozotocin have shown a slowing of relaxation and a depression of shortening velocity. However, the effects of insulin therapy on the myocardial mechanics of diabetic rats have not been studied. Therefore, rats diabetic for 6-10 weeks were treated with PZI insulin for 2, 6, 10, or 28 days and the mechanical performance of their left ventricular papillary muscles was compared to that of untreated diabetics and age-matched controls; cardiac contractile protein enzymatic activity was also measured. Neither 2 nor 6 days of therapy had any effects on the depressed cardiac muscle performance of diabetic animals, although plasma glucose concentration was restored to normal. By 10 days of therapy, recovery of mechanical performance was nearly complete, and by 28 days of therapy, complete reversal of the altered myocardial mechanics was observed. Crystalline insulin added to the bath (9 mU/ml) had no effect on myocardial mechanics in either diabetics or controls. A gradual recovery of actomyosin and myosin ATPase activity in the hearts of insulin-treated diabetic animals was also found, complementing the mechanical studies. In addition to demonstrating a gradual but complete reversibility of the abnormalities in papillary muscle function in diabetic rats (although control of hyperglycemia was less than ideal), this study confirms that this model of a cardiomyopathy is not a result of streptozotocin-induced cardiac toxicity. Additional data are provided indicating that depressed thyroid hormone levels in diabetic rats are not responsible for the mechanical changes observed.
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PMID:Reversibility of diabetic cardiomyopathy with insulin in rats. 703 May 13

In an attempt to elucidate the effects of two major risk factors of heart failure in humans, high blood pressure and coronary artery disease, renal hypertension and coronary artery constriction were induced singularly and in combination in rats, and the functional, structural, and biochemical alterations of the myocardium were examined 12-13 wk later. Renal hypertension (RH), coronary narrowing (CN), and their association (NH) resulted in left ventricular failure demonstrated by a significant increase in left ventricular end-diastolic pressure, a decrease in +dP/dt and -dP/dt, and a reduction in stroke volume and cardiac output. Measurements of ventricular loading documented that RH was characterized by elevations in systolic and diastolic wall stress of 42 and 160%, respectively. Corresponding changes with NH were 80 and 315%. CN was accompanied by an augmentation of diastolic wall stress only (280%). The abnormalities in mural stress were coupled with reductions in systolic and diastolic wall thickness-to-chamber radius ratios of 39 and 29% after CN. These anatomic parameters were preserved with RH, whereas the systolic wall thickness-to-chamber radius ratio was reduced 31% with NH. Structurally, multiple foci of replacement fibrosis were found with each intervention. The sites of tissue injury and their volume percent in the myocardium were comparable with CN and RH but were significantly more numerous and occupied a larger fraction of the ventricular wall in the presence of NH. Biochemically, the calcium dose-response curve of myofibrillar Mg2+ adenosinetriphosphatase (ATPase) activity did not vary with CN, RH, and NH. In contrast, a marked decrease in Ca2+ myosin ATPase activity was found in NH rats in association with a shift in myosin isoenzymes from V1 to V3. In conclusion, multiple physiological, morphological, and biochemical factors may participate in the generation of the abnormalities in ventricular loading with hypertension and/or coronary artery stenosis.
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PMID:Effects of hypertension and coronary constriction on cardiac function, morphology, and contractile proteins in rats. 836 72