EC:3.4.21.4 - FACTA Search

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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)

The exposure of antigenic determinants of histones present in "native" chromatin was studied by: (1) testing their ability to elicit anti-histone antibodies and (2) measuring their ability to interact with anti-histone sera. To this end, antisera specific to purified histone fractions and to purified rat liver chromatin were elicited in rabbits. The anti-chromatin sera did not react with pure histone fractions and pure histone fractions F2b, F3, F2a1, and F2a2 failed to inhibit the complement fixation resulting from the binding of anti-chromatin to chromatin. These results suggest that in native chromatin, determinants in these histones are not immunogenic. Histone F1, however, inhibited the reaction between chromatin and anti-chromatin. Antisera elicited by histone fractions reacted weakly with "native" chromatin. The maximal complement fixations (obtained with 5-10 mug of chromatin DNA) were as follows: 60% with anti-F2b, 20% with anti-F1 and anti-F3, and less than 5% with either anti-F2a1 or anti-F2a2. Studies of the interaction between anti-histone antibodies and chromatin in which chromatin was used as an immunoadsorbent indicated that antibodies against different histones were adsorbed to a different degree by the same amount of chromatin. Differences in the immunoadsorbing capacity between sonicated and nonsonicated chromatin were found. Quantitative adsorbtion studies revealed that in the "native" chromatin structure, antigenic determinants of F1 and F2b were more available to interact with homologous antibody than those of F3 and F2a1 and that determinants in F2a2 were the least available. It could be calculated that the "equivalent antigenicity" of the histones in chromatin was 9.6% for F1, 3.2% for F2b, and 0.90% for F3 and F2a1. Upon sonication these values did not change for F1 but increased two-, three-, and fourfold for F2b, F3, and F2a1, respectively. Digestion of chromatin with trypsin totally abolished the ability of chromatin to adsorb anti-histone antibodies.
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PMID:Exposure of histone antigenic determinants in chromatin. 4 58

Plasma membranes prepared from rat renal cortex contain both a parathyroid hormone-sensitive adenylate cyclase and a potent proteolytic activity which degrades the hormone into peptide fragments. The degree and pattern of degradation was determined by subjecting incubation mixtures to gel filtration and ion exchange chromatography. Estimation of the degree of degradation by acid precipitation of the intact hormone was inadequate since metabolism of the hormone apparently generated acid-insoluble fragments. When parathyroid hormone was incubated with membrane fraction, the capacity of its stimulatory effect on adenylate cyclase decreased steadily. This decrease of PTH activitiy could be closely related to the degradation of intact hormone by the same membrane preparation. The adenylate cyclase and degradative activity appeared to exist in similar membrane structures since they could not be separated by centrifugation through sucrose density gradients. The degradation of the hormone could not be inhibited by Trasylol and pancreatic or soybean trypsin inhibitors and was only slightly inhibited by ribonuclease and benzamidine. Histone (1 mg per ml), on the other hand, was able to decrease the degradation of the hormone and prevent the loss of its activity. Radioimmunoassay of the incubation mixtures showed that the rapid degradation of both amino- and carboxy-terminal regions of the hormone was prevented by histone. The oxidized, inactive hormone was also degraded to the same extent by the renal cortical membrane. Furthermore, the degradative activity was also found in plasma membrane preparations of renal medulla and liver. This lack of hormone and tissue specificity suggests that similar degradative activity exists in all tissues and that caution should be exercised in estimating hormonal potency based on activation of adenylate cyclase.
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PMID:Interaction of parathyroid hormone with membranes of kidney cortex: degradation of the hormone and activation of adenylate cyclase. 119 1

C-reactive protein (CRP) is an acute phase inflammatory protein in man which binds to phosphocholine, chromatin, histones, and the 70-kDa protein of the U1 small nuclear ribonucleoprotein particle in a calcium-dependent, phosphocholine-inhibitable manner. CRP also binds to other proteins including fibronectin. The determinants involved in CRP binding to these diverse proteins have not been identified. The binding of CRP to histones was examined as these proteins are available in large quantity at high purity and subject to protease digestion with well characterized products. Histone H1 was digested with thrombin and trypsin to produce three distinct fragments, N-terminal, central globular, and C-terminal. CRP was shown only to bind to the C-terminal fragment. Binding to histone H2A was also examined. CRP binding was not diminished by cleavage of the C-terminal fragment but was greatly decreased when the central globular region of H2A was tested. Peptides were prepared to be identical to the N- and C-terminal fragments of H2A. The N-terminal (15 amino acid) fragment of H2A blocked CRP-induced precipitation of phosphocholine-coupled bovine serum albumin and histone H2A, whereas the C-terminal fragment showed no inhibition. Thus we have defined the first reported CRP binding determinant on a protein.
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PMID:Definition of a C-reactive protein binding determinant on histones. 198 77

DNase I, trypsin, and micrococcal nuclease are used to further probe the structure of nascent deoxyribonucleoprotein (DNP) fractions which appear after in vivo 20-s pulse labeling of sea urchin embryos with [3H]thymidine. We present evidence that the large nascent DNP which protects the approximately 300-base pair large nascent DNA consists of at least one nucleosome core. This is based on fractionation in denaturing polyacrylamide gels of DNA extracted from large nascent DNP fractions of a micrococcal nuclease + DNase I digest of nuclei. The data also suggest the existence of a DNase I-hypersensitive site(s) within the large nascent DNP; this is consistent with the hypothesis that the latter consists of closely packed dinucleosome cores. Histone H1 and non-histone proteins do not account for the previously reported unusual hyperresistance of the large nascent DNA against micrococcal nuclease. The protection offered this approximately 300-base pair nascent DNA was not eliminated by an 0.2-microgram/ml trypsin pretreatment which removes the above proteins from the chromatin. However, 5-10 micrograms/ml of trypsin, which remove a portion of the NH2 termini of the four core histones of nucleosomes, eliminate the hyperresistance of the large nascent DNA to subsequent micrococcal nuclease digestion, while nascent and bulk monomer DNAs remain unaffected. This indicates histone-histone and/or histone-DNA interactions within the large nascent DNP which differ from those of nascent and bulk mononucleosome cores.
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PMID:Changes in chromatin structure at the replication fork. DNase I and trypsin-micrococcal nuclease effects on approximately 300- and 150-base pair nascent DNAs. 622 96

Histone-depleted nuclei were prepared from isolate HeLa nuclei by extracting the histones and other proteins with polyanions (dextran sulphate and heparin) or with high salt concentrations as used previously. The particles were characterized by sucrose density gradient sedimentation, thin sectioning and electron microscopy, and by polyacrylamide gel electrophoresis. The general result of the experiments is that the DNA in the histone-depleted nuclei is highly organized, and that this residual, higher-order structure is maintained by a reproducible subset of nuclear proteins, and perhaps by RNA. Furthermore, the residual proteins remain associated, in some conditions, as rapidly sedimenting structures even when the DNA is digested with nucleases. These nuclear scaffolds can resemble extracted nuclei. Histone-depleted HeLa nuclei sediment in sucrose density gradients as well defined peaks with sedimentation coefficients of around 12 000 S, when 2M NaCl is used to extract the histones, or 6 000 S, when dextran sulphate is used. The rate of sedimentation is drastically decreased by treating the particles with trypsin, and reduced to a lesser extent with RNase A. Thin sectioning and electron microscopy show that histone-depleted nuclei possess the nuclear periphery and that internal material is also present. These general features are also seen in thin sections of nuclear scaffolds, which are prepared by treating the nuclei with micrococcal nuclease of DNase I in addition to extracting the histones. Two groups of major proteins are associated with histone-depleted HeLa nuclei and the nuclear scaffolds: One group has molecular weights of 50 000-55 000 Daltons. The major species of this latter group of proteins have mobilities that are similar to the proteins of the metaphase chromosomal scaffold.
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PMID:Organization of chromosomes in HeLa cells: isolation of histone-depleted nuclei and nuclear scaffolds. 740 Feb 38

Histone H4 stimulates the uptake of glucose in rat adipocytes and muscle cells. However, the mechanism of this unusual activity is not known. Therefore, we have begun to investigate the mechanism by which histone H4 stimulates the glucose uptake in rat adipocytes. We report that histone H4 requires 15-20 min to achieve its maximum effect and its time course is virtually indistinguishable from the time course of insulin itself. Reduction of the concentration of insulin receptors on the surface of adipocytes, either by trypsin digestion of the receptor, or by insulin-induced down regulation of the receptor, reduced the histone H4 effect as well as the insulin effects. Also, quercetin, a bioflavenoid that inhibits the insulin receptor tyrosine kinase activity, inhibits the actions of both histone H4 and insulin. However, histone H4 activity is somewhat more resistant to these interventions than insulin activity. In contrast to the activity of insulin, histone H4 does not appear to be able to down regulate the insulin receptor, since the pretreatment of adipocytes with histone H4 did not affect the subsequent actions of either insulin or histone H4. Finally, Scatchard analysis of the binding of 125I-insulin in the presence and absence of histone H4 increases the specific binding of insulin in a concentration dependent fashion. Histone H2b, a histone that does not have insulin-like activity, does not affect insulin binding. Taken together, these data suggest that the greatest portion of the insulin-like activity of histone H4 is initiated at the insulin receptor. However, the interaction of histone H4 and the insulin receptor is more complex than a simple binding of H4 to the insulin binding site. These studies may provide additional insight into alternate mechanisms for activation of the insulin receptor.
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PMID:Histone H4 stimulates glucose uptake through the insulin receptor. 872 9

Histone-DNA templates for bacteriophage T7 RNA polymerase were assembled from histone octamers and three different DNA species, two circular (pGEMEX-1 and pT207-18) and one linear (T7-207-18). pGEMEX is devoid of nucleosome positioning sequences, while in pT207-18 and T7-207-18 the region downstream of the promoter contains 18 tandem repeats of a 207 bp positioning sequence derived from the 5S RNA gene of the sea urchin Lytechinus variegatus. Elimination of the histone tails in the assembled oligonucleosomes by trypsin digestion is accompanied, in all three DNA species, by substantial increases in transcription efficiency, assayed at different KCl and MgCl2 concentrations, after allowing for the aggregation observed under certain conditions. In the absence of KCl and at low MgCl2 concentration, the presence of 2 mM spermidine causes substantial aggregation of the intact oligonucleosomes but has a much smaller effect on those trypsin digested. The untreated histone-DNA templates, assembled on pGEMEX-1 and T7-207-18, give transcription products significantly shorter than those obtained with the corresponding free DNA. With oligonucleosome templates lacking histone tails, the transcripts have an average length intermediate between those corresponding to free DNA and intact histone-DNA, which indicates a partial elimination of the elongation restrictions imposed by intact histone octamers. The absence of histone terminal domains facilitates both transcriptional initiation and elongation. Apparently, the interaction of the histone tails with DNA at the nucleosomal level is responsible, at least in part, for their repressive effect on transcription.
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PMID:Repressive effect on oligonucleosome transcription of the core histone tail domains. 958 38

Histone-DNA templates for bacteriophage T7 RNA polymerase were assembled from a plasmid containing a promoter and a terminator for this polymerase, (H3 x H4)2 tetramers deprived of their tail domains, and H2A x H2B dimers. Histone (H3 x H4)2 tetramers lacking their terminal domains were obtained from trypsin-digested nucleosomal cores. The oligonucleosomal templates containing (H3 x H4)2 tetramers lacking their tail domains, like the control templates with intact core histone octamers, protect approximately 146 base pairs of DNA against micrococcal nuclease digestion. The transcriptional inhibition caused by the association of DNA with core histone octamers is significantly reduced upon elimination of the tail domains of the (H3 x H4)2 tetramers. Apparently, the terminal domains of (H3 x H4)2 must be present to block transcription efficiently. These results show the important inhibitory role played by the tail domains of the histone (H3 x H4)2 tetramers, suggesting the involvement of these regions in transcriptional regulation.
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PMID:Transcriptional inhibitory role of the tail domains of histone (H3 x H4)2 tetramers. 975 Jan 70

The cytotoxic T lymphocyte protease granzyme A induces caspase-independent cell death in which DNA single-strand nicking is observed instead of oligonucleosomal fragmentation. Granzyme A is a specific tryptase that concentrates in the nucleus of targeted cells and synergistically enhances DNA fragmentation induced by the caspase activator granzyme B. Here we show that granzyme A treatment of isolated nuclei enhances DNA accessibility to exogenous endonucleases. In vitro and after cell loading with perforin, GrnA completely degrades histone H1 and cleaves core histones into approximately 16-kDa fragments. Histone digestion provides a mechanism for unfolding compacted chromatin and facilitating endogenous DNase access to DNA during T cell and natural killer cell granule-mediated apoptosis.
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PMID:Induction of rapid histone degradation by the cytotoxic T lymphocyte protease Granzyme A. 1106 Feb 86

Various proteins/enzymes obtained commercially were tested for the presence of endogenously nitrated tyrosine by Western blot analysis omitting reducing agent in the step of SDS-PAGE. Histones II-S and VIII-S, IgG, cAMP-dependent protein kinase (PKA), phosphorylase b, and phosphorylase kinase exhibited strong immunoreactive bands. Histone VI-S, glycogen synthase, lactate dehydrogenase, actin, thyroglobulin, and macroglobulin exhibited moderate immunoreactivity. Histone III-S, casein, acetyl cholinesterase, DNase I, and lipase had only traceable immunoreactivity. Whereas histone VII-S, pyruvate kinase, trypsin, pepsin, chymotrypsin, protease IV, and protease XIII, and glutathione S-transferase lacked immunoreactivity. A variation of immunoreactivity between hypertensive and normaltensive rat hearts was found in the histone-agarose fractions of crude extracts. Additionally, nitrotyrosine immunoreactivity was observed in non-mammalian organisms including Eschericia coli, Saccharomyces cerevisiae and Triticum vulgaris. Upon the treatment of 15 microM peroxynitrite (PN), strong oxidant derived from nitric oxide (NO), the apparent Km of PKA for cAMP increased from approximately 10(-8) to 10(-6) M. The results imply that the varied nitration of tyrosine residues in proteins/enzymes may occur as a post-translational modification in vivo, and such discriminative nitration may be vital in PN/NO-regulated signal transduction cascade.
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PMID:Protein nitration. 1119 83

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