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)

Monoclonal antibodies raised against chicken gizzard smooth muscle myosin light chain kinase were used for immunological and structural studies of this enzyme. Epitope mapping of trypsin-digested chicken gizzard enzyme showed that MM-1, 2, 3, 4, 5, 6, and 7 bind to 65 kDa (trypsin-digested) and 60 kDa (chymotrypsin-digested) fragments which contain the catalytic domain of the kinase. Kinetic analysis demonstrated that MM-7 inhibited kinase activity competitively with respect to ATP and noncompetitively with respect to myosin light chain, thereby indicating that MM-7 binds at or near the ATP binding site of the enzyme. Immunoblot analysis revealed that all these antibodies (MM-1 to 12) reacted with the enzyme (130 kDa) from intestinal and vascular smooth muscles, whereas 5 (MM-1, 3, 4, 6, and 9) or 3 (MM-1, 3, and 4) of 12 antibodies did not cross-react with chicken cardiac muscle or with blood platelet myosin light chain kinase (130 kDa), respectively. None of these antibodies showed cross-reactivity against skeletal muscle myosin light chain kinase. As for mammalian species, MM-11 and 12 reacted with myosin light chain kinase of vascular smooth muscle (140 kDa) and MM-11 cross-reacted with the enzyme (140 kDa) from cardiac muscle of rat and rabbit. These data suggest the existence of at least 4 subspecies of myosin light chain kinase in chicken tissues and the heterogeneity of tissue- and species-specific isozyme forms.
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PMID:Monoclonal antibody assessment of tissue- and species-specific myosin light chain kinase isozymes. 247 31

The cytosol fraction of an extract of Xenopus laevis ovaries contains a protein inhibitor that can specifically block the activation of calmodulin-sensitive cyclic nucleotide phosphodiesterase (PDE I) found in that tissue. This inhibitor was purified by DEAE-cellulose chromatography, gel filtration on Sephacryl S-200, and affinity chromatography on calmodulin-Sepharose. It has a molecular weight of approximately 90,000, and is heat-labile and susceptible to inactivation by chymotrypsin. The inhibitor blocks calmodulin activation of cyclic nucleotide phosphodiesterases from amphibian ovary and bovine brain and of the myosin light chain kinase from rabbit smooth muscle, but does not affect the activity of a calmodulin-insensitive cyclic nucleotide phosphodiesterase. The inhibitor not only affects the activation of Xenopus PDE I and of the bovine brain phosphodiesterase by calmodulin, but also inhibits the stimulation of these enzymes by lysophosphatidylcholine. The inhibitor also acts on PDE I activated by partial tryptic proteolysis, but the enzyme fully activated by trypsin is only slightly susceptible to inhibition by this protein. The inhibition of PDE I activation caused by this ovarian factor can be reversed by adding excess amounts of calmodulin or lysophosphatidylcholine. The presence of this inhibitor provides a possible explanation for the previously observed inactivity of PDE I in vivo.
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PMID:A protein inhibitor of calmodulin-regulated cyclic nucleotide phosphodiesterase in amphibian ovaries. 299 90

At relatively high concentrations of myosin light chain kinase, a second site on the 20,000-dalton light chain of smooth muscle myosin is phosphorylated (Ikebe, M., and Hartshorne, D. J. (1985) J. Biol. Chem. 260, 10027-10031). In this communication the site is identified and kinetics associated with its phosphorylation and dephosphorylation are described. The doubly phosphorylated 20,000-dalton light chain from turkey gizzard myosin was hydrolyzed with alpha-chymotrypsin and the phosphorylated peptide was isolated by reverse phase chromatography. Following amino acid analyses and partial sequence determinations the second site of phosphorylation is shown to be threonine 18. This site is distinct from the threonine residue phosphorylated by protein kinase C. The time courses of phosphorylation of serine 19 and threonine 18 in isolated light chains follow a single exponential indicating a random process, although the phosphorylation rates differ considerably. The values of kcat/Km for serine 19 and threonine 18 for isolated light chains are 550 and 0.2 min-1 microM-1, respectively. With intact myosin, phosphorylation of serine 19 is biphasic; kcat/Km values are 22.5 and 7.5 min-1 microM-1 for the fast and slow phases, respectively. In contrast, phosphorylation of threonine 18 in intact myosin is a random, but markedly slower process, kcat/Km = 0.44 min-1 microM-1. Dephosphorylation of doubly phosphorylated myosin (approximately 4 mol of phosphate/mol of myosin) and isolated light chains (approximately 2 mol of phosphate/mol of light chain) follows a random process and dephosphorylation of the serine 19 and threonine 18 sites occurs at similar rates.
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PMID:Identification, phosphorylation, and dephosphorylation of a second site for myosin light chain kinase on the 20,000-dalton light chain of smooth muscle myosin. 307 56

The proteolytic susceptibility of chicken gizzard myosin light chain kinase, a calmodulin-dependent enzyme, has been utilized to define the relative location of the catalytic and regulatory domains of the enzyme. Myosin light chain kinase isolated from this source exhibits a Mr of 130,000 and is extremely sensitive to trypsin at 24 degrees C; however, the molecule is divided into susceptible and resistant domains such that proteolysis proceeds rapidly and at multiple sites in the sensitive regions even at 4 degrees C while the rest of the molecule remains relatively resistant to digestion. One of these sensitive areas is the calmodulin-binding domain. On the other hand, Staphylococcus aureus V8 protease digestion generates a calmodulin-binding fragment (Mr = 70,000) that retains Ca2+/calmodulin-dependent enzymatic activity and both of the phosphorylation sites recognized by cAMP-dependent protein kinase. In contrast, treatment with chymotrypsin produces a 95,000 Mr calmodulin-binding fragment that contains only the calmodulin-modulated phosphorylation site. Sequential proteolytic digestion studies demonstrated that the chymotryptic cleavage site responsible for the generation of this 95,000 Mr peptide is within 3,000 Mr of the V8 protease site which produces the 70,000 Mr fragment. Moreover, the non-calmodulin-modulated phosphorylation site must exist in this 3,000 Mr region. A calmodulin-Sepharose affinity adsorption protocol was developed for the digestion and used to isolate both the 70,000 and 95,000 Mr fragments for further study. Taken together, our results are compatible with a model for chicken gizzard myosin light chain kinase in which there is no overlap between the active site, the calmodulin-binding region, and the two sites phosphorylated by cAMP-dependent protein kinase with regard to their relative position in the primary sequence of the molecule.
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PMID:Functional domains of chicken gizzard myosin light chain kinase. 383 92

Myosin light chain kinase plays a central role in the regulation of smooth muscle contraction. The activity of this enzyme is controlled by protein-protein interaction (the Ca2+-dependent binding of calmodulin) and by phosphorylation catalyzed by cAMP-dependent protein kinase. The effects of these two regulatory mechanisms on the conformation of myosin light chain kinase and the locations of the phosphorylation sites, the calmodulin-binding site, and the active site have been probed by limited proteolysis. Phosphorylated and nonphosphorylated myosin light chain kinases were subjected to limited digestion by four proteases having different peptide bond specificities (trypsin, chymotrypsin, Staphylococcus aureus V8 protease, and thrombin), both in the presence and in the absence of bound calmodulin. The digests were compared in terms of gel electrophoretic pattern, distribution of phosphorylation sites, and Ca2+ dependence of kinase activity. A 24 500-dalton chymotryptic peptide containing both sites of phosphorylation was purified and tentatively identified as the amino-terminal peptide. The following conclusions can be drawn: neither phosphorylation nor calmodulin binding induces dramatic changes in the conformation of the kinase; the kinase contains two regions that are particularly susceptible to proteolytic cleavage, one located approximately 25 000 daltons from the amino terminus and the other near the center of the molecule; the two phosphorylation sites are located within 24 500 (probably 17 500) daltons of the amino terminus; the active site is located close to the center of the molecule; the calmodulin-binding site is located in the amino-terminal half of the molecule, between the sites of phosphorylation and the active site, and this region is very susceptible to cleavage by trypsin.
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PMID:Limited proteolysis of smooth muscle myosin light chain kinase. 384 33

The Ca2+- and calmodulin-dependent myosin light chain kinase of rabbit skeletal muscle was converted to a Ca2+-independent form by limited proteolysis with alpha-chymotrypsin. The conditions prevailing during proteolysis are important and the loss of Ca2+-dependence was achieved best by hydrolysis of the Ca2+-calmodulin-kinase complex. The lack of Ca2+- and calmodulin-dependence was found using both myosin and isolated light chains as substrates. The specific activity of the Ca2+-independent form (Mr approximately 65,000) was similar to that of the native enzyme, i.e., 2 to 5 mumol phosphate transferred min-1 mg-1 kinase. The 65,000-dalton fragment was phosphorylated by the catalytic subunit of the cAMP-dependent protein kinase and approximately 0.8 moles phosphate were incorporated per fragment.
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PMID:Conversion of a Ca2+-dependent myosin light chain kinase from skeletal muscle to a Ca2+-independent form. 668 81

Limited digestion of calmodulin (CaM)-dependent myosin light chain kinase from turkey gizzard with alpha-chymotrypsin in the presence of bound CaM generated an 80,000-dalton kinase fragment that was fully active in the absence of Ca2+. This kinase catalyzed specific Ca2+-independent phosphorylation of the 20,000-dalton light chain of myosin using isolated light chains, intact myosin, and actomyosin. Phosphorylation of myosin in the absence of Ca2+ allowed us to dissociate myosin phosphorylation from other potential Ca2+-dependent regulatory mechanisms, thus permitting an evaluation of the postulated central role of myosin phosphorylation in the regulation of smooth muscle contraction. Ca2+-independent myosin phosphorylation was found to cause loss of Ca2+ sensitivity of 1) actin-activated myosin ATPase activity in a crude actomyosin preparation, and 2) tension development in skinned smooth muscle fibers in the absence of Ca2+. Myosin phosphorylation is, therefore, the key event in actin activation of ATPase activity and initiation of contraction in skinned chicken gizzard fibers.
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PMID:Gizzard Ca2+-independent myosin light chain kinase: evidence in favor of the phosphorylation theory. 684 77

Limited alpha-chymotryptic digestion of Ca2+-, calmodulin-dependent myosin light chain kinase partially purified from smooth muscle (turkey gizzard) yielded a Ca2+-independent form of the enzyme. Digestion to yield the Ca2+-independent kinase required the enzyme complexed with Ca2+-calmodulin; when digestion was performed on the apoenzyme, i.e., in the absence of Ca2+, the dependence of kinase activity on Ca2+ was retained. The Ca2+-independent kinase was purified by ion-exchange chromatography and shown to have an apparent molecular weight of approximately 80000. The specific activity of the freshly prepared enzyme was 6.5 +/- 0.2 mumol of Pi incorporated min-1 mg-1 in the presence of Ca2+ and 8.3 +/- 0.3 mumol min-1 mg-1 in the absence of Ca2+, using the isolated light chains of gizzard myosin as the substrate. The Ca2+-independent enzyme also phosphorylated the 20000-dalton light chains of purified myosin and crude actomyosin from turkey gizzard. The Km of the Ca2+-independent kinase for Mg2+-ATP (54 muM) was not significantly different from that of the native, CA2+-dependent enzyme (68 muM). These observations indicate maintenance of the integrity of the active site after digestion with alpha-chymotrypsin. It is suggested that the loss of Ca2+ sensitivity of the kinase after limited proteolysis is due to loss of the calmodulin-binding site from the 80000-dalton fragment. The two sites of phosphorylation by the cyclic AMP dependent protein kinase were also removed by the chymotryptic hydrolysis.
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PMID:Calcium-independent myosin light chain kinase of smooth muscle. Preparation by limited chymotryptic digestion of the calcium ion dependent enzyme, purification, and characterization. 689 83

Kinase-related protein, also known as KRP or telokin, is an independently expressed protein product derived from a gene within the gene for myosin light chain kinase (MLCK). KRP binds to unphosphorylated smooth muscle myosin filaments and stabilizes them against ATP-induced depolymerization in vitro. KRP competes with MLCK for binding to myosin, suggesting that both proteins bind to myosin by the KRP domain (Shirinsky, V. P., Vorotnikov, A. V., Birukov, K. G., Nanaev, A. K., Collinge, M., Lukas, T. J., Sellers, J. R., and Watterson, D. M. (1993) J. Biol. Chem. 268, 16578-16583). In this study, we investigated which regions of myosin and KRP interact in vitro. Using cosedimentation assays, we determined that KRP binds to unphosphorylated myosin with a stoichiometry of 1 mol of KRP/1 mol of myosin and an affinity of 5.5 microM. KRP slows the rate of proteolytic cleavage of the head-tail junction of heavy meromyosin by papain and chymotrypsin, suggesting it is binding to this region of myosin. In addition, competition experiments, using soluble headless fragments of nonmuscle myosin, confirmed that KRP interacts with the regulatory light chain binding region of myosin. The regions important for KRP's binding to myosin were investigated using bacterially expressed KRP truncation mutants. We determined that the acid-rich sequence between Gly138 and Asp151 of KRP is required for high affinity myosin binding, and that the amino terminus and beta-barrel regions weakly interact with myosin. All KRP truncations, at concentrations comparable to their KD values, exhibited some stabilization of myosin filaments against ATP depolymerization in vitro, suggesting that KRP's ability to stabilize myosin filaments is commensurate with its myosin binding affinity. KRP weakened the Km but not the Vmax of phosphorylation of myosin by MLCK, demonstrating that bound KRP does not prevent MLCK from activating myosin.
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PMID:Sites of interaction between kinase-related protein and smooth muscle myosin. 931 55

Myorod, also known as catchin, a newly discovered component of molluscan smooth muscle thick filaments, is an alternative product of the myosin heavy chain gene. It contains a C-terminal rod part that is identical to that part of myosin and a unique N-terminal domain that is very small relative to the myosin head domain. The role of myorod in contraction or relaxation of this muscle type is unknown. In the present study we demonstrated that myorod was phosphorylated not only by a kinase endogenous to molluscan myosin and twitchin but also to vertebrate smooth muscle myosin light chain kinase (MLCK). The rates and maximal levels of phosphorylation were up to threefold higher than those observed by protein kinase A with clear optima at the physiological salt concentrations. Using a mild digestion with chymotrypsin we isolated an 11 kDa phosphopeptide and showed that the phosphorylation site was located at the N-terminal domain of myorod at Thr 141 position. The sequence around this site exhibited a high degree of similarity to that expected for the substrate recognition site of MLCK. The phosphorylation rates strongly depended on the ionic conditions indicating that this site could be readily sterically blocked during myorod polymerization. Another component of the thick filaments involved in regulation of the catch state, twitchin, was phosphorylated by MLCK and exhibited endogenous myorod kinase and MLCK activities. A possible role of these phosphorylation reactions in the regulation of molluscan smooth muscles is discussed.
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PMID:Phosphorylation of myorod (catchin) by kinases tightly associated to molluscan and vertebrate smooth muscle myosins. 1697 Sep 5


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