Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Limited digestion of caldesmon by alpha-chymotrypsin generates mainly 110, 80, 60, 38, and 28 kDa fragments. Affinity chromatography of these fragments on columns immobilized with myosin, HMM, or tropomyosin showed that the bound fraction from these columns was similar and it contained 110, 80, 60 and 28 kDa fragments. These fragments did not bind to myosin filaments, acto-HMM, actin or tropomyosin-actin in the solution, and they had no effect on the actin-activated ATPase of HMM. In contrast, the flow-through fraction from these affinity columns inhibited the actin-activated ATPase. Binding studies revealed that the 38 kDa fragment and its break down products bound to actin and tropomyosin-actin, and they were released partially from actin by calmodulin with a concomitant increase in the ATPase activity. These results indicate that, unlike the actin binding domain, the myosin and tropomyosin binding domains require the caldesmon molecule to be intact in order to exert their effects on the protein-protein interaction.
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PMID:Characteristics of the myosin and tropomyosin binding regions of the smooth muscle caldesmon. 252 36

Myosin was isolated from the ventricular myocardium of adult rats and the effect of time, 2-mercaptoethanol and inhibitors of proteases was investigated on its properties. It was found that the storage of cardiac muscle up to 4 hours does not influence the myosin ATPase, the electrophoretic pattern of light chains of myosin or the pattern of peptides produced by digestion of myosin with chymotrypsin. Neither does the presence of pepstatin and phenylmethyl sulfonylfluoride during myosin preparation influence the activity of myosin ATPase. It was found that the presence of 2-mercaptoethanol during myosin preparation enhances myosin ATPase of the product. This myosin was more stable when kept at 4 degrees C for four days.
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PMID:The effect of time, 2-mercaptoethanol and inhibitors of proteases on isolation of cardiac myosin and its properties. 252 75

We have developed a new method to prepare single-headed heavy meromyosin with high purity and a high yield. To examine whether the two heads on the same myosin molecule work cooperatively or not, it is important to prepare pure single-headed heavy meromyosin. Myosin was extracted from myofibrils treated with a solution containing CyDTA, a strong divalent cation chelator. CyDTA treatment was essential to the production of sHMM. Then such myosin was digested with chymotrypsin in the presence of divalent cations at high ionic strength. Crude sHMM was separated from double-headed HMM by affinity chromatography using an ADP-column. Contaminating S1 was removed by gel filtration. Heavy chain of sHMM obtained by the present method had no nick. Purified sHMM showed normal EDTA-ATPase and Ca-ATPase. It interacted with thin filament and its ATPase was activated by actin normally.
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PMID:New method to prepare single-headed heavy meromyosin with high purity and a high yield. 253 47

We investigated the limited proteolysis of fast and slow myosins purified from rabbit psoas major and semimembranosus proprius muscles, respectively, by the main lysosomal proteinases: cathepsins B, H, L, and D. In EDTA containing buffer, cathepsin D cleaved both myosins only at the rod-S1 junction leading to the formation of two S1 fragments of slightly higher Mr than the three forms obtained with chymotrypsin. On addition of MgCl2 instead of EDTA, myosin hydrolysis was markedly reduced. In contrast, irrespective of the presence of either MgCl2 or EDTA, cathepsin B hydrolysed both myosins into HMM and LMM. Cathepsin L digested myosins more extensively than cathepsins B and D and the main fragments generated were, in decreasing order of importance, rod, S1, S2, HMM, and LMM. In the incubation conditions tested, cathepsin H displayed nondetectable action on myosins. As fast and slow myosin digest patterns were compared, the main differences observed concerned the size of the proteolytic products and the rate of hydrolysis, which was about 4-fold higher for the fast than for the slow isoform. This appeared consistent whatever enzyme was considered.
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PMID:Lysosomal proteinase-sensitive regions in fast and slow skeletal muscle myosins. 254 27

Electron microscopy was used to study the structural arrangement of the rod portion of brain myosin under various experimental conditions. At low ionic strength the rod formed spindle-like filaments with continuous 14 nm periodicity. In the presence of KCNS and a high concentration of CaCl2 brain myosin and its rod precipitated in a form of segments displaying both bipolar and unipolar arrangement characteristic of the myosin filaments. Limited proteolytic digestion of the rod with chymotrypsin generated several fragments of molecular masses in the range of 84 kDa to 30 kDa. The 74 kDa fragment appeared to be the shortest one which preserves the ability to form filaments.
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PMID:The assembly of the rod portion of brain myosin. 274

Myosin was reacted with 2,4,6-trinitrobenzene sulphonate (TNBS) in the presence or absence of Mg-pyrophosphate. The reaction led to trinitrophenylation of lysyl residues which could be divided on the basis of the reaction into three classes: (i) two rapidly reacting lysyl residues (RLR), one residing on each head of myosin, whose rate of reaction depends on the presence of Mg-pyrophosphate; (ii) two lysyl residues which react with intermediate rate (ILR) and reside on the rod segment of myosin; and (iii) the remaining lysyl residues of myosin which react slowly with TNBS. The rate of the trinitrophenylation of RLR was followed spectrophotometrically and enzymatically, measuring an absorbance change at 345 nm, and also changes in K+ (EDTA)-, Mg2+- and Ca2+-activated ATPase activities, respectively. According to analysis of the kinetics of the reaction, Mg-pyrophosphate inhibited the rate of trinitrophenylation in both heads of myosin, not in one head only as was suggested by Miyanishi et al. (J. Biochem Tokyo 85; 1979). Myosin heads (myosin subfragment-1, S-1) were prepared by digesting myosin trinitrophenylated in the absence and presence of Mg-pyrophosphate with chymotrypsin. S-1, with trinitrophenylated RLR, was separated from non-trinitrophenylated S-1 by DEAE cellulose column chromatography. The trinitrophenylated S-1 had a high Mg2+- and a low K+(EDTA)-activated ATPase while the non-trinitrophenylated species had the usual high K+(EDTA)- and low Mg2+-ATPase activity. This results excluded the possibility suggested by Miyanishi et al., that the myosin head, which is resistant to trinitrophenylation in the presence of Mg-pyrophosphate, did not possess K+(EDTA)-activated ATPase activity. The presence of Mg-pyrophosphate during trinitrophenylation substantially affected the enzymic characteristics of the modified myosin. The myosin trinitrophenylated in the presence of Mg-pyrophosphate had a higher K+(EDTA)- and a lower Mg2+-ATPase activity. SH1 (Cys-707) also probably becomes a target of the reaction if myosin is trinitrophenylated in the presence of Mg-pyrophosphate. This is deduced from the following findings: (i) the addition of dithiothreitol after trinitrophenylation partially reversed the loss in the K+(EDTA)-ATPase activity; and (ii) the specific alkylation of the SH1 thiol by 1,5-IAEDANS prior to trinitrophenylation prevented the effect of dithiothreitol on the ATPase activity of myosin. The results indicated that Mg-pyrophosphate induced structural changes in the myosin molecule which influenced the course and possibly the target(s) of trinitrophenylation.
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PMID:The effect of pyrophosphate on the reaction of myosin with 2,4,6-trinitrobenzene sulphonate. 284 63

Caldesmon, an actin- and calmodulin-binding protein of smooth muscle, is a protein serine/threonine kinase capable of Ca2+/calmodulin-dependent autophosphorylation [Scott-Woo & Walsh (1988) Biochem. J. 252, 463-472]. Phosphorylation nullifies the inhibitory effect of caldesmon on the actin-activated Mg2+-ATPase activity of smooth-muscle myosin [Ngai & Walsh (1987) Biochem. J. 244, 417-425]. We have characterized the kinase activity of caldesmon of chicken gizzard smooth muscle. Autophosphorylation requires Ca2+/calmodulin, but is unaffected by other second messengers (Ca2+/phospholipid/diacylglycerol, cyclic AMP or cyclic GMP), and is inhibited by the calmodulin antagonists chlorpromazine and compound 48/80, with 50% inhibition at 39.8 microM and 12.0 ng/ml respectively. Half-maximal activation of autophosphorylation occurs at 60-80 nM-Ca2+ and 0.14 microM-calmodulin, and maximal activity at 0.14-0.18 microM-Ca2+ and 1 microM-calmodulin; activation is gradually lost at higher Ca2+ and calmodulin concentrations. Autophosphorylation is pH-dependent, with maximal activity over the range pH 7-9, and requires free Mg2+ in addition to the MgATP2- substrate. The Km for ATP is 15.6 +/- 4.1 microM (mean +/- S.D., n = 4), and kinase activity is inhibited by increasing ionic strength [half-maximal inhibition at I = 0.094 +/- 0.009 M (mean +/- S.D., n = 4)]. Autophosphorylation does not affect the rate of hydrolysis of caldesmon (free or bound to calmodulin) by alpha-chymotrypsin. However, a slight difference in peptides generated from phospho- and dephospho-forms of caldesmon is observed. The binding of phospho- or dephospho-caldesmon to F-actin protects the protein against chymotryptic digestion, but does not alter the pattern of peptide generation. Characterization of proteolytic fragments of caldesmon generated by alpha-chymotrypsin and Staphylococcus aureus V8 protease enables localization of the phosphorylation sites and the kinase active site within the caldesmon molecule.
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PMID:Characterization of the autophosphorylation of chicken gizzard caldesmon. 285 Jul 99

Limited digestion of filamentous myosin with chymotrypsin at 0 degrees C in the absence of divalent cations generates two forms of subfragment 1 (S1), with heavy chains of 95 kDa and 98 kDa. The difference is at the C-terminal end of the chain. The 98 kDa form prevails, in contrast to the preparations obtained by digestion at room temperature which consist of the shorter species and only traces of the longer one. The results support the idea of a temperature-dependent conformational transition at the head-rod junctional region of the myosin heavy chain.
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PMID:Dependence of the length of the heavy chain of chymotryptic subfragment 1 on the temperature of myosin digestion. 292 Aug 22

The soluble proteolytic fragments of myosin, heavy meromyosin and subfragment 1, were prepared with varying amounts of the proteases chymotrypsin and papain, respectively. The actin-activated ATP hydrolysis were examined with oxygen-18-labeled ATP. Each preparation of heavy meromyosin and subfragments 1 displayed two pathways of ATP hydrolysis, called respectively the high and low oxygen exchange mechanisms. The contributions of the two mechanisms were found to be sensitive to the potassium chloride concentration. With a fixed concentration of actin (300 microM), the contribution of the low-exchange mechanism decreased from a maximum of 90% of the ATP hydrolysis at 10 and 20 mM KCl to 12% at 180 mM KCl. The results suggested that the two mechanisms were competing reactions catalyzed by a single species of myosin.
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PMID:Heterogeneity in the actin activation of myosin. 293 49

To clarify the characteristics of myosin isozymes in the atrium, we fractionated two isoforms of myosin heavy chain (HC), atrial HC alpha (A-HC alpha) and HC beta (A-HC beta), from the canine heart by affinity chromatography, using monoclonal antibodies specific for HC alpha (CMA19) and HC beta (HMC50), respectively, and then compared their peptide composition and enzymatic properties with those of ventricular HC alpha (V-HC alpha) and HC beta (V-HC beta). The reactivity of these isozymes with three monoclonal antibodies revealed that there are at least three different epitopes between A-HC alpha and A-HC beta. Differences in the primary structure of A-HC alpha and A-HC beta were confirmed by one- and two-dimensional gel electrophoretic analyses of these peptides, produced by digestion with alpha-chymotrypsin and cyanogen bromide (CNBr). A-HC alpha and V-HC alpha were indistinguishable proteins, and A-HC beta was also very similar to V-HC beta. Furthermore, there were differences between A-HC alpha and A-HC beta in their Ca2+-activated ATPase activities. The ATPase activity of A-HC beta was lower than that of A-HC alpha and was similar to that of V-HC beta. We concluded that there are two different isozymes of myosin heavy chain in the atrium (A-HC alpha and A-HC beta), as well as in the ventricle (V-HC alpha and V-HC beta), and that A-HC beta is very similar to V-HC beta, the predominant form of ventricular myosin, in its molecular structure and enzymatic activity.
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PMID:Isolation and characterization of two isozymes of myosin heavy chain from canine atrium. 293 78


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