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)

After removal of the 66 COOH-terminal amino acids from each of its two heavy chains by chymotrypsin digestion, Acanthamoeba myosin II forms only parallel dimers under conditions in which native myosin II forms bipolar filaments (Kuznicki, J., Cote, G. P., Bowers, B., and Korn, E. D. (1985) J. Biol. Chem. 260, 1967-1972). We have studied the solution structure of the chymotrypsin-cleaved myosin II by electric birefringence. Only two species, known to be monomer and parallel dimer from previous studies, were detected. The contribution to the birefringence decay from dimer increased from about 10 to 70% as the KCl concentration was lowered from 100 mM to 0 in 50% glycerol. At all ionic strengths, the monomer had a relaxation time corrected to water at 20 degrees C of 8.2 microseconds, whereas a relaxation time of 10.3 microseconds was expected for monomers with straight rigid rods. This strongly indicates that the myosin rod in solution is bent. On the assumption that there is a single bend 26 nm from the tip of the tail, as suggested by electron microscopy, it was calculated that the average bend angle would be 110 degrees, in solution, if as seems most likely, the average angle between the two globular heads were 180 degrees. The observed relaxation time of the dimer corrected to water at 20 degrees C was 25 microseconds, independent of ionic strength, which, if the motion of the heads were unrestricted, is consistent with a structure for a parallel dimer in which either the two monomer subunits have straight rigid rods and are staggered by about 28 nm or only one is bent and the stagger is 30 nm. As described in the accompanying Appendix, either of these dimers can be assembled into a bipolar filament compatible with the apparent structure of filaments of native myosin II (Pollard, T.D. (1982) J. Cell Biol. 95, 816-825).
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PMID:Electric birefringence study of the solution structure of chymotrypsin-cleaved Acanthamoeba myosin II. 368 Feb 26

We have developed a rapid and reproducible procedure widely applicable to the preparation of pure aqueous solutions of the complex between an alkali light chain and the COOH-terminal heavy-chain fragments of skeletal myosin chymotryptic subfragment 1 (S-1) split by various proteases. It was founded on the remarkable ethanol solubility of these complexes. A systematic study of the ethanol fractionation of the tryptic (27K-50K-20K)-S-1 (A2) showed the NH2-terminal 27K fragment to behave like a specific protein entity being quantitatively precipitated at a relatively low ethanol concentration. Only the 20K peptide-A2 complex remained in solution when the S-1 derivative was treated with exactly 4 volumes of ethanol in the presence of 6 M guanidinium chloride. At a lower ethanol concentration, a soluble mixture of 50K and 20K peptides together with the light chain was obtained. The isolated 20K fragment-A2 system containing a 1:1 molar ratio of each component was investigated by biochemical and 1H nuclear magnetic resonance (NMR) techniques to highlight its structure and the interaction of the 20K heavy-chain segment with F-actin and with the light chain. During the treatment of the complex with alpha-chymotrypsin, only the 20K peptide was fragmented in contrast to its stability within the whole S-1. The binding of F-actin to the complex led, however, to a strong inhibition of its chymotryptic degradation. 1-Ethyl-3-[3-(dimethylamino)propyl]carbodiimide cross-linking of F-actin to the complex produced covalent actin-20K peptide only, the amount of which was lower relative to that observed with the entire split S-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Properties of the alkali light-chain-20-kilodalton fragment complex from skeletal myosin heads. 376 96

The 19,000-dalton light chain (LC2) can be completely and reversibly removed from chicken pectoralis myosin in 1 mM EDTA and 5 mM ATP using immunoaffinity chromatography at 37 degrees C. Earlier methods have led to only partial removal of LC2 or have caused limited degradation of the heavy chain. Electron microscopy of LC2-deficient myosin showed it to have a marked tendency to aggregate into oligomers through the "neck" region of the myosin head. Myosin reverted to the monomeric form when it was reconstituted with light chains. LC2-deficient myosin retained full K+ (EDTA) or Ca2+-ATPase activity, and the actin-activated Mg2+-ATPase was similar to that of the native molecule. Alkali light chain exchange at 37 degrees C, which has been demonstrated in subfragment 1 prepared with chymotrypsin, does not occur with intact myosin molecules or with papain subfragment 1, both of which contain LC2. However, a temperature-dependent exchange of alkali light chains was observed in myosin lacking LC2. The interaction of the alkali light chain with the heavy chain thus appears to be influenced by the presence of LC2, which may have an important stabilizing effect on the myosin molecule.
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PMID:Myosin subunit interactions. Properties of the 19,000-dalton light chain-deficient myosin. 377 53

Heavy meromyosin (HMM) and myosin subfragment 1 (S1) were prepared from myosin by using low concentrations of alpha-chymotrypsin. The light chain distribution in HMM was identical with that of myosin, within experimental error, when analyzed on 12% polyacrylamide gels after electrophoresis. Specific birefringences and birefringence decay times were measured by transient electrical birefringence in 5 mM KCl, 5 mM tris(hydroxymethyl)aminomethane (pH 7), and 1 mM MgCl2 at 4 degrees C under gentle conditions that reduced the CaATPase activity by less than 10%. For solutions of HMM, by use of electric field pulses shorter than 0.5 microseconds, the birefringence decay signal from the S1 portions of HMM could be resolved and the rotational motions of the S1 moieties observed directly. The rotation relaxation time, adjusted to 20 degrees C, was 0.34 microseconds; this is in quantitative agreement with previous hydrodynamic results obtained by using covalently attached probes. The assignment of the fast decay time obtained with HMM to the S1 portions was confirmed by birefringence decay measurements on free S1, for which the relaxation time was 0.13 microseconds, corrected to 20 degrees C. The specific birefringences for S1 and HMM, respectively, were 0.37 X 10(-6) and 12.8 X 10(-6) (cm/statvolt)2. Thus, for much longer electric field pulses, the signal from HMM is due almost entirely to its subfragment 2 (S2) portion, and its rotational dynamics can also be monitored directly by using electrical birefringence. The decay of the signal from the S2 portion could be adequately fit without evoking bending of the S2 portion of HMM other than at its junction with S1.
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PMID:Transient electrical birefringence characterization of heavy meromyosin. 390 94

Acetylcholine receptor (AChR) clusters of cultured rat myotubes, isolated by extraction with saponin (Bloch, R. J., 1984, J. Cell Biol. 99:984-993), contain a polypeptide that co-electrophoreses with purified muscle actins. A monoclonal antibody against actin reacts in immunoblots with this polypeptide and with purified actins. In indirect immunofluorescence, the antibody stains isolated AChR clusters only at AChR domains, strips of membrane within clusters that are rich in receptor. It also stains the postsynaptic region of the neuromuscular junction of adult rat skeletal muscle. Semiquantitative immunofluorescence analyses show that labeling by antiactin of isolated analyses show that labeling by antiactin of isolated AChR clusters is specific and saturable and that it varies linearly with the amount of AChR in the cluster. Filaments of purified gizzard myosin also bind preferentially at AChR-rich regions, and this binding is inhibited by MgATP. These experiments suggest that actin is associated with AChR-rich regions of receptor clusters. Depletion of actin by extraction of isolated clusters at low ionic strength selectively releases the actin-like polypeptide from the preparation. Simultaneously, AChRs redistribute within the plane of the membrane of the isolated clusters. Similarly, brief digestion with chymotrypsin reduces immunofluorescence staining and causes AChR redistribution. Treatments that deplete AChR from clusters in intact cells also reduce immunofluorescent staining for actin in isolated muscle membrane fragments. Upon reversal of these treatments, cluster reformation occurs in regions of the membrane that also stain for actin. I conclude that actin is associated with AChR domains and that changes in this association are accompanied by changes in the organization of isolated AChR clusters.
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PMID:Actin at receptor-rich domains of isolated acetylcholine receptor clusters. 395 56

The rod prepared from chicken gizzard myosin has been found to have two sites sensitive to limited digestion with chymotrypsin; these sites were located at a subfragment 2/light meromyosin junction (site 1), and at a site 10 kDa remote from either C-terminal or N-terminal of light meromyosin (site 2). The site 1 was more sensitive to the digestion than the site 2. The cleavage at site 2 of the light meromyosin yielded a 74-kDa fragment that was soluble in a low ionic strength solution, contrary to the insolubility of the parent light meromyosin in the same solution. Studies on the effects of MgCl2, ATP and pH on the susceptibilities of these sites to chymotrypsin have given following results. (a) Millimolar concentrations of MgCl2 protected site 1 and site 2 from the chymotryptic cleavage. (b) The cleavage at site 1 of myosin rod in the low salt solution free of Mg2+ at pH 7.0 and pH 8.5, was not affected by the presence of 5 mM ATP. However, MgCl2-induced protection of site 1 was relieved by addition of ATP. On the other hand, the cleavage at site 2 was stimulated by addition of ATP, irrespective of the presence or absence of MgCl2. (c) The alkaline condition of pH 8.5 was more favorable for the chymotryptic cleavages at both site 1 and site 2 than the neutral condition of pH 7.0. These results suggest that myosin rod contains two flexible regions, the structures of which are influenced by such an ambient factor as MgCl2, ATP or pH.
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PMID:Two chymotrypsin-susceptible sites of myosin rod from chicken gizzard. 399 92

1. The action of trypsin, chymotrypsin and subtilisin on the adenosine-triphosphatase and actin-combining activities, as measured by viscometric means, of H-meromyosin were compared. 2. Subfragment 1 produced by prolonged tryptic digestion has a molecular weight of 129000. 3. The preparations isolated by gel filtration and actin combination were shown to be similar. 4. Subfragment-1 preparations possess appreciably higher adenosine-triphosphatase activities than H-meromyosin when related to total nitrogen. 5. Chromatographic and gelfiltration studies indicated that adenosine-triphosphatase activity is not distributed uniformly in all fractions of subfragment 1. 6. The Ca(2+)-activated adenosine triphosphatase of subfragment 1 was stimulated by thiol reagents in a similar fashion to myosin and H-meromyosin. 7. Subfragment 1 differed from myosin and H-meromyosin in that its adenosine triphosphatase was only slightly activated by Mg(2+) in the presence of actin. 8. A subfragment-1-like component was obtained by chymotryptic digestion of H-meromyosin. 9. The results obtained from enzymic and hydrodynamic studies and from amino acid analyses are compatible with the concept of one molecule of H-meromyosin giving rise to one molecule of subfragment 1 on proteolytic digestion.
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PMID:The biological activity of subfragment 1 prepared from heavy meromyosin. 422 74

A 110-kDa protein present in chicken intestinal brush-border microvilli is believed to laterally link the actin filament bundle that forms the structural core of the microvilli with the microvillar plasma membrane. We have purified a 110-kDa protein to greater than 95% homogeneity by extraction of brush borders with solution containing 0.6 M KCl and 5 mM ATP, followed by gel filtration chromatography, sedimentation as a complex with exogenous actin, and hydroxylapatite chromatography. The 110-kDa protein-calmodulin complex bound F-actin in the absence but not the presence of ATP and had K+,EDTA-ATPase (0.2 mumol/min/mg) and Ca2+-ATPase (0.2 mumol/min/mg) activities and Mg2+-ATPase activity (0.03 mumol/min/mg) that was not activated by F-actin. The actin-binding and ATPase activities of the complex were similar to those of purified brush-border myosin. However, immunoblot analysis showed no reactivity between the 110-kDa protein and polyclonal antibody against purified chicken brush-border myosin. Also, peptide maps of 110-kDa protein and myosin obtained by limited proteolysis with chymotrypsin and Staphylococcus aureus V8 protease had few, if any, peptides in common. Immunoblot analysis also showed that myosin heavy chain was stable under the conditions of the preparation.
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PMID:The 110,000-dalton actin- and calmodulin-binding protein from intestinal brush border is a myosin-like ATPase. 609 41

Human cardiac ventricular myosins were prepared from autopsy samples from nine adults, seven infants, and from surgical specimens from seven patients undergoing left ventricular septal myectomy for obstructive hypertrophic cardiomyopathy. Infant myosin differed from adult myosin in two important characteristics: (a) approximately 30% of the 27,000-dalton myosin light chain is replaced by a 28,000-dalton light chain, and (b) the actin-activated myosin MgATPase activity of infant myosin is significantly lower than that of adult myosin (64 nmol phosphate released/mg myosin per min vs. 124 nmol/mg per min at 37 degrees C). The K(+)-EDTA ATPase activity of the myosin measured in 0.5M KCl is also lower in infants (1,210 nmol/mg per min vs. 620 nmol/mg per min at 37 degrees C), but the Ca(++)-activated ATPase is not significantly different. There were no differences in enzymatic activity between the normal adult and cardiomyopathic myosins.A detailed study was performed to investigate possible variations in the structure of the myosin heavy chain in infant, adult, and cardiomyopathic samples. There were no significant differences between infant and normal adult, or between normal adult and cardiomyopathic myosins seen in pyrophosphate polyacrylamide gel electrophoresis, or peptide mapping using alpha-chymotrypsin, papain, or cyanogen bromide to generate peptides. These results suggest that isoenzymes of human ventricular myosin do not exist for the myosin heavy chain in the specimens examined from infants, adults, and patients with obstructive hypertrophic cardiomyopathy. The decreased actin-activated MgATPase activity found for infant myosin appears to be due solely to a partial replacement of the 27,000-dalton light chain of myosin with a 28,000-dalton light chain.
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PMID:Structural and enzymatic comparison of human cardiac muscle myosins isolated from infants, adults, and patients with hypertrophic cardiomyopathy. 621 Jul 10

Treatment of phosphorylated chicken gizzard myosin which had incorporated 1.5 mol of phosphate per 4.7 x 10(5) g of protein with 1-fluoro-2,4-dinitrobenzene resulted in the modification of the heavy and light chains when 5.8 mol of the reagent were bound to myosin. Concurrently, the K+-ATPase activity was inhibited and the modified myosin possessed actin activated-ATPase activity. Thiolysis of nearly 2 mol of the dinitrophenyl group mainly from the heavy chains (and some light chains) of the modified myosin with 2-mercaptoethanol restored the K+-ATPase activity. Digestion of phosphorylated gizzard myosin with chymotrypsin or papain occurred to a lesser extent than a control myosin. Chymotryptic fragments of phosphorylated and dinitrophenylated myosin were formed at a faster rate than those of dinitrophenylated myosin alone suggesting that phosphorylation of the light chain of Mr 20,000 altered the susceptibility of the heavy chains of myosin to proteolysis. Phosphorylation of dinitrophenylated gizzard myosin which had incorporated 5.5 mol of 1-fluoro-2,4-dinitrobenzene per 4.7 x 10(5) g of protein was the same as that of a control myosin; this was also the case for the thiolyzed dinitrophenylated myosin. In the absence of calcium, phosphorylation of control and dinitrophenylated myosins decreased by 73% suggesting that the phosphorylation reaction was calcium dependent. Phosphorylation and dinitrophenylation induced conformational changes in the light chains of gizzard myosin that may be involved in maintaining the structure of the heavy chain region.
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PMID:Effect of phosphorylation and dinitrophenylation on chicken gizzard myosin. 622 21


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