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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human sperm-free seminal plasma (HSP) contains inhibitors (I) of the seminal plasma histone kinase activity (HK). One I is dialyzable and the other I is nondialyzable and precipitable by dialysis of HSP against a hypotonic buffer. When the nondialyzable, precipitable I fraction is resolubilized, it inhibits HK in a concentration-dependent manner. Sephadex G-25 column chromatography of whole HSP resolves I in both the void (Vo) and inclusion (Vi) volumes. Rechromatography of the VoI resolves I solely in the Vo. These and other data suggest that the ViI does not originate from the VoI, and that both I activities represent separate molecular entities. VoI was further characterized and found to be heat labile, trypsin and neuraminidase insensitive, and alpha-chymotrypsin sensitive. VoI is not soluble in CHCl3 or CHCl3:CH3OH (2:1) and is not adsorbed by charcoal. Chromatography of VoI on Sephadex G-100 yields a broad peak of I that migrates just past the Vo. VoI has no detectable cyclic AMP (cAMP) binding activity and VoI activity is not affected by coincubation of VoI and HK with cAMP. VoI also does not bind to zinc-chelate or phenothiazine affinity columns. These data suggest that VoI is protein in nature with properties distinct from the class of previously described protein kinase inhibitors. Although the identity of VoI is not known, it does not appear to be the regulatory subunit of a cAMP-dependent protein kinase, calsemin or a zinc binding protein.
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PMID:Characterization of a seminal plasma-associated inhibitor of human seminal plasma protein kinase. 298 35

The ADP-ribosylation site of histone H1 from calf thymus by purified hen liver nuclear ADP-ribosyltransferase was determined and effects of the ADP-ribose X histone-H1 adduct on cAMP-dependent phosphorylation of the histone H1 were investigated. ADP-ribosylated histone H1 was prepared by incubation of histone H1, 1 mM [adenylate-32P]NAD and the purified ADP-ribosyltransferase. N-Bromosuccinimide-directed bisection of ADP-ribosylated histone H1 showed that the NH2-terminal fragment (Mr = 6000) was modified and contained serine residue 38, the site of phosphorylation by cAMP-dependent protein kinase. Digestion of the NH2-terminal fragment with cathepsin D and trypsin, and purification of this fragment, using high-performance liquid chromatography, yielded a radiolabelled single peptide corresponding to residues 29-34 of histone H1, containing the arginine residue as the ADP-ribosylation site. These results indicate that ADP-ribosylation of histone H1 occurs at the arginine residue 34, sequenced at the NH2-terminal side of the phosphate-accepting serine residue 38. Phosphorylation of histone H1 from calf thymus by cAMP-dependent protein kinase was markedly reduced when histone H1 was ADP-ribosylated. Kinetic studies of phosphorylation revealed that ADP-ribosylated histone H1 was a linear competitive inhibitor of histone H1 and a linear non-competitive inhibitor of ATP.
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PMID:Amino acid sequence of histone H1 at the ADP-ribose-accepting site and ADP-ribose X histone-H1 adduct as an inhibitor of cyclic-AMP-dependent phosphorylation. 299 55

The insulin receptor is an insulin-activated, tyrosine-specific protein kinase. Previous studies have shown that autophosphorylation of tyrosine residues on the Mr 95,000 is associated with an activation of the protein kinase activity toward exogenous protein substrates. We have employed the highly purified insulin receptor, immobilized on insulin-Sepharose or eluted in an active form, to define the metal/ATP requirements for kinase activation, the relationship of receptor autophosphorylation to activation, and the kinetic properties of the autophosphorylated, activated receptor kinase. Prior incubation of the immobilized receptor with 2 mM ATP, 10 mM Mg (or 10 mM Mn), followed by removal of these reactants, served to abolish the upward curvilinearity in the rate of histone 2b (tyrosine) phosphorylation measured subsequently. This treatment also markedly increased the rate of histone 2b phosphorylation as compared to that observed with the unmodified, immobilized receptor, as estimated under conditions that per se minimized further activation. The extents of maximal activation of receptor histone 2b (tyrosine) kinase obtained on preincubation with MgATP or MnATP are identical; however, the affinity of the receptor for MnATP is approximately 10-fold higher than that for MgATP. The higher affinity of the receptor for MnATP is observed for both autophosphorylation/autoactivation and histone 2b tyrosine kinase activity (Km MnATP approximately 0.01 mM; Km MgATP approximately 0.1 mM). Autophosphorylation/autoactivation per se does not significantly alter the apparent affinity for MeATP (or protein substrate, as previously reported) but increases Vmax. Activation of receptor histone 2b (tyrosine) kinase is due to tyrosine-specific autophosphorylation of the Mr 95,000 (beta) subunit; thus the extent of total 32P incorporation into the beta subunit correlates precisely with the extent of kinase activation, both over time and at a wide variety of Me2+ ATP concentrations. Sequential treatment of the autophosphorylated receptor with elastase and trypsin yields a single, basically charged 32P-peptide, Mr less than 2000. The functional properties of the unphosphorylated and fully phosphorylated receptor were compared after elution from insulin-Sepharose. The insulin binding characteristics of the two forms of the receptor were indistinguishable; the kinase properties differed greatly; whereas the histone 2b activity of the unphosphorylated receptor was low in the basal state, and activated 10-fold by insulin, the fully autophosphorylated receptor exhibits maximal histone 2b kinase in the basal state and is unaffected by insulin addition.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetic properties of the insulin receptor tyrosine protein kinase: activation through an insulin-stimulated tyrosine-specific, intramolecular autophosphorylation. 300 34

A cDNA clone encoding the entire E1 envelope protein (410 amino acid residues) and a portion of the C-terminal end of the E2 envelope protein of the rubella virus has been isolated and characterized. DNA sequence analysis has revealed a region 20 nucleotides in length at the 3' end of the cloned cDNA which may be a replicase recognition site or a recognition site for encapsidation. The proteolytic cleavage site between the E1 and E2 proteins was localized based on the known amino-terminal sequence of the isolated E1 protein (Kalkkinen, N., Oker-Blom, C., and Pettersson, R. F. (1984) J. Gen. Virol. 65, 1549-1557) and the deduced amino acid sequence. The mature E1 protein is preceded by a set of 20 highly hydrophobic amino acid residues possessing characteristics of a signal peptide. This "signal peptide" is flanked on both sides by typical protease cleavage sites for trypsin-like enzyme and signal peptidase. The presence of a leader sequence in the E1 protein precursor may facilitate its translocation through the host cell membrane. The E1 protein of rubella virus shows no significant homology with alphavirus E1 envelope proteins. However, a stretch of 39 amino acids in the E1 protein of rubella virus (residues 262-300) was found to share a significant homology with the first 39 residues of bovine sperm histone. The position of 4 half-cystines and 8 arginines overlaps. The E1 protein of rubella virus has been successfully expressed in COS cells after transfecting them with rubella virus cDNA in simian virus 40-derived expression vector. This protein is antigenically similar to the one expressed by cells infected with rubella virus.
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PMID:Rubella virus cDNA. Sequence and expression of E1 envelope protein. 302 58

Protein kinase C was detected in a group of Ca2+-dependent chromaffin granule membrane-binding proteins (chromobindins) on the basis of Ca2+-, phosphatidylserine-, 1,2-diolein-, and phorbol myristate acetate-stimulated histone kinase activity. When the chromobindins were incubated with [gamma-32P]ATP, Ca2+, and phosphatidylserine, 32P was incorporated predominantly into a protein of mass 37 +/- 1 kilodaltons (chromobindin 9, or CB9). Phosphorylation of this protein was also stimulated by diolein and phorbol myristate acetate, indicating that it is a substrate for the protein kinase C activity present in the chromobindins. Maximum phosphate incorporation into CB9 in the presence of 1 mM Ca2+, 75 micrograms/ml of phosphatidylserine, 2.5 micrograms/ml of diolein, and 12.5 micrograms/ml of dithiothreitol was 0.53 mol/mol of CB9 in 5 min. Eight 32P-labeled phosphopeptides were resolved in two-dimensional electrophoretic maps of trypsin digests of CB9. Phosphoamino acid analysis revealed that phosphorylation was exclusively on serine (94%) and threonine (6%) residues. Incubation of the chromobindins with chromaffin granule membranes in the presence of [gamma-32P]ATP resulted in the incorporation of 32P into eight additional proteins besides CB9 that could be separated from the membranes by centrifugation in the presence of ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid. We suggest that phosphorylation of CB9 or these additional eight proteins may regulate events underlying exocytosis in the chromaffin cell.
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PMID:Phosphorylation of a chromaffin granule-binding protein by protein kinase C. 315 30

In non-denaturing low ionic strength gels, the titration of core DNA with H2A,H2B produces five well-defined bands. Quantitative densitometry and cross-linking experiments indicate that these bands are due to the successive binding of H2A,H2B dimers to core DNA. Only two bands are obtained with DNA-(H3,H4) samples. The slower of these bands is broad and presumably corresponds to two complexes containing one and two H3,H4 tetramers, respectively. In gels of higher ionic strength, DNA-(H2A,H2B) samples produce an ill-defined band, suggesting that the lifetime of the complexes containing H2A,H2B is relatively short. However, the low intensity of the free DNA band observed in these gels indicates that most of the DNA is associated with H2A,H2B. In agreement with this, our results obtained using different techniques (sedimentation, cross-linking, trypsin and nuclease digestions, and thermal denaturation) demonstrate that the association of H2A,H2B with core DNA occurs in free solution in both the absence and presence of NaCl (0.1 to 0.2 M). The low mobilities of DNA-(H2A,H2B) complexes, together with sedimentation and DNase I digestion results, indicate that the DNA in these complexes is not folded into the compact structure found in the core particle. Furthermore, non-denaturing gels have been used to study the dynamic properties of DNA-(H2A,H2B) and DNA-(H3,H4) complexes in 0.2 M-NaCl. Our results show that: (1) H2A,H2B and H3,H4 can associate, respectively, with DNA-(H3,H4) and DNA-(H2A,H2B) to produce complexes containing the four core histones; (2) DNA-(H2A,H2B) and DNA-(H3,H4) are able to transfer histones to free core DNA; (3) an exchange of histone pairs takes place between DNA-(H2A,H2B) and DNA-(H3,H4) and produces complexes with the same histone composition as that of the normal nucleosome core particle; and (4) although both histone pairs can exchange, histones H2A,H2B show a higher tendency than H3,H4 to migrate from one incomplete core particle to another. The complexes produced in these reactions have the same compact structure as reconstituted core particles containing the four core histones. Our kinetic results are consistent with a reaction mechanism in which the transfer of histones involves direct contacts between the reacting complexes. The possible participation of these spontaneous reactions on the mechanism of nucleosome assembly is discussed.
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PMID:Association of nucleosome core particle DNA with different histone oligomers. Transfer of histones between DNA-(H2A,H2B) and DNA-(H3,H4) complexes. 321 89

Female SJL and Balb/c mice were given subcutaneous injections of 1.6 mg HgCl2/kg body weight every third day for 2, 4, 8, or 12 weeks. Indirect immunofluorescence using HEp-2 cells as substrate showed that SJL mice developed antinuclear antibodies (ANA) with a predominantly nucleolar and a weaker, homogeneous nuclear pattern after 4 weeks treatment. The nucleolar antigen was sensitive to treatment with trypsin and RNAse, but the antibody was not absorbed by calf liver RNA. The antigen responsible for the homogeneous nuclear pattern was sensitive to treatment with trypsin, DNAse, and acid solution, but reconstitution with histones on acid treated substrate did not restore the fluorescence. The corresponding antibody was not absorbed by double-stranded or single-stranded DNA, and the Crithidia luciliae assay was negative. This suggests that the antigen responsible for the homogeneous ANA pattern is a non-histone chromatin protein. No autoantibodies were found in Balb/c mice. Electron dense immune deposits containing IgG and C3 in a mesangial-vascular pattern developed after 4 weeks mercury treatment in SJL and Balb/c mice. Acid eluate from kidneys of SJL mice with immune deposits contained tissue-bound ANA with a strictly anti-nucleolar pattern, showing that such antibodies make up part of the renal immune deposits. No autoantibodies were found in the eluate from Balb/c mice. The findings demonstrate that mercury induces a polyclonal autoantibody response in SJL mice, and suggests a restricted antibody response with unknown specificity in Balb/c mice, in both cases leading to immune complex deposits in the kidneys.
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PMID:Mercury induced antinuclear antibodies in mice: characterization and correlation with renal immune complex deposits. 328 Jan 86

Wheat embryo histone H3 has been isolated and purified and the elucidation of the complete amino-acid sequence is described. Peptides were generated by cleavages with CNBr, S. aureus V8 proteinase, endoproteinase Lys-C and trypsin. The peptides were purified by HPLC and the sequence determined by solid-state and gas-phase sequencing methodology. The amino-acid sequence of the protein is identical to pea embryo histone H3 and the sequence deduced from the nucleotide sequence of a wheat embryo histone gene (Tabata T. et al. (1984) Mol. Gen. Genet. 196, 397-400).
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PMID:The primary structure of histone H3 from wheat. 328 55

We have studied the limited cleavage of H2a in the H2a:H2b histone dimer by the H2a-specific protease under physiological conditions (neutral pH, 0.1 M NaCl) using a variety of histone-DNA reconstitutes as substrates and/or regulators of the partially purified enzyme. Under these conditions the protease cleaves H2a in "native" dimer-DNA reconstitutes but not in "native" octamer-DNA reconstitutes. Treatment of the enzyme with saturating amounts of H3:H4 tetramer-DNA prior to addition of dimer-DNA substrate results in complete inhibition of H2a-specific proteolysis. Sucrose gradient sedimentation experiments indicate that the protease binds reversibly to tetramer-DNA and that this leads to the reversible inhibition of enzymatic activity. Using three different tetramer-DNA complexes, we found native tetramer-DNA to be a more effective inhibitor than either trypsin-treated tetramer-DNA or acetylated tetramer-DNA. We conclude that under physiological conditions, the H2a-specific protease binds primarily to the highly basic amino-terminal domain of the H3:H4 tetramer, and this binding lowers the effective concentration of enzyme available to cleave H2a. Although no cleaved H2a is produced when protease is mixed with native octamer-DNA, incubation of the enzyme with acetylated octamer-DNA results in H2a-specific proteolysis. This is the first demonstration that the H2a-specific protease activity can be modulated by a physiologically relevant process (e.g. histone acetylation). We propose that the sequestered protease may be functionally regulated in vivo through reversible post-translational modifications to the NH2-terminal domains of the histone H3:H4 tetramer.
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PMID:Regulation of H2a-specific proteolysis by the histone H3:H4 tetramer. 329 Feb 17

Protein kinase C functions prominently in cell regulation via its pleiotropic role in signal transduction processes. Certain oncogene products resemble elements involved in transmembrane signaling, elevate cellular sn-1,2-diacylglycerol second messenger levels, and activate protein kinase C. Sangivamycin was unique among the nucleoside compounds tested in its ability to potently inhibit protein kinase C activity. Inhibition was competitive with respect to ATP for both protein kinase C and the catalytic fragment of protein kinase C prepared by trypsin digestion. Sangivamycin was a noncompetitive inhibitor with respect to histone and lipid cofactors (phosphatidylserine and diacylglycerol). Sangivamycin inhibited native protein kinase C and the catalytic fragment identically, with apparent Ki values of 11 and 15 microM, respectively. Sangivamycin was an effective an inhibitor of protein kinase C as H-7, an isoquinolinsulfonamide. Sangivamycin did not inhibit [3H]phorbol-12,13-dibutyrate binding to protein kinase C. Sangivamycin did not exert its action through the lipid binding/regulatory domain; inhibition was not affected by the presence of lipid or detergent. Unlike H-7, sangivamycin selectively inhibited protein kinase C compared to cAMP-dependent protein kinase. The discovery that protein kinase C is inhibited by sangivamycin and other antitumor agents suggests that protein kinase C may be a target for rational design of antitumor compounds.
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PMID:Sangivamycin, a nucleoside analogue, is a potent inhibitor of protein kinase C. 333 87


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