Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the role by each histone in forming the structure of the nu-body. When DNAase I, DNAase II, trypsin and chymotrypsin attack chromatin, characteristic discrete DNA and protein digest fragments are produced. Using this restriction of accessibility as diagnostic for chromatin structure, we have examined complexes of DNA with virtually all possible combinations of histones. The results strongly support our previous conclusion (Camerini-Otero, Sollner-Webb, and Felsenfeld, 1976) that the arginine-rich histones are unique in their ability to create, with DNA a structure with many features of native chromatin. Acting together, slightly lysine-rich histones then modify this complex into one very similar to native chromatin. An analysis of the rate constants of staphylococcal nuclease digestion also confirms that the complex of H3, H4, and DNA is crucial to the structure of the nu-body.
 ...
PMID:Chromatin structure as probed by nucleases and proteases: evidence for the central role of histones H3 and H4. 98 55

The susceptibility of the progesterone receptor, liganded either by the antiprogestin RU 486 or by the progestin ORG 2058, to chymotrypsin and trypsin degradation was investigated. The nuclear fraction was isolated from T47D cells previously exposed either to 0.1 microM [3H]RU 486 or to 0.1 microM [3H]ORG 2058. The proteolytic digestion was performed on the micrococcal nuclease hydrolysate. The molecular weights of the receptor fragments were calculated, in high salt buffer, from the sedimentation coefficients determined on a sucrose gradient and from the Stokes radii estimated by gel filtration on an Agarose A-0.5 m column. Micrococcal nuclease solubilized receptor forms with molecular weights of 80,000 and 75,000 for the antiprogestin- or progestin-liganded receptor, respectively. Chymotrypsin degraded these receptor forms to fragments with molecular weights of 23,000 either for the antiprogestin- or progestin-liganded receptor. Similar molecular weights of 23,000 were calculated for the progesterone receptor liganded either by the antiprogestin RU 436 or the progestin ORG 2058 following trypsin cleavage. We conclude that the degradation pattern of the progesterone receptor liganded either by the antiprogestin RU 486 or the progestin ORG 2058 following chymotrypsin or trypsin digestion seems to be similar.
 ...
PMID:Comparison of the physical properties of the nuclear progesterone receptor, bound to antiprogestin RU 486 or progestin ORG 2058, following limited proteolysis. 238 53

A protease activity associated with the micrococcal nuclease-solubilized chromatin from mouse seminiferous tubules has been characterized. Proteolysis of histone H1 and core histones is stimulated in the presence of 3 M urea. The pH optimum of this protease is between pH 8 and 9, and the activity is not inhibited by trypsin or chymotrypsin-active site inhibitors. Leupeptin is an effective inhibitor of the protease at low concentrations. Soluble chromatin from neonatal and prepubertal mice lacks this proteolytic activity until three to four weeks after birth. That the protease activity is localized in the dinucleosomes and higher oligomers but is lacking in mononucleosome populations suggests its association with the linker DNA. Rat testis-soluble chromatin apparently lacks such a protease activity. The developmental expression of this protease and its in situ localization are consistent with a role in histone displacement during mouse spermiogenesis.
 ...
PMID:A protease activity is associated with testicular chromatin of the mouse. 355 31

The assumption that a different conformational form was induced in the nuclear estrogen receptor following binding by antiestrogens compared to estrogens was studied by analysing the proteolytic fragments of the receptor following limited digestion with chymotrypsin and trypsin. Nuclei were isolated from MCF-7 cells previously exposed to [3H] 4-OHTAM. The proteolytic digestion was performed either on the micrococcal nuclease hydrolysate or on intact nuclei. The molecular weights (Mr) were calculated from the sedimentation coefficients (S) determined on a sucrose gradient and from the Stokes radii (Rs) estimated by gel filtration. Digestion of the nuclei with micrococcal nuclease solubilized a receptor form of Mr = 155,000. This receptor form was degraded by chymotrypsin to a receptor of Mr = 63,000 which could not be further dissociated by 0.4 M KCl and 3 M urea. A similar receptor molecule was released by chymotrypsin from intact nuclei. Digestion of the micrococcal nuclease hydrolysate with trypsin degraded the receptor to a form of a Mr = 67,000 which could not be further dissociated by 0.4 M KCl and 3 M urea. Digestion of intact nuclei with trypsin followed by micrococcal nuclease, solubilized a receptor form of Mr = 80,000 which could be further dissociated with 0.4 M KCl and 3 M urea to a receptor form of Mr = 67,000. This trypsin degraded receptor form seems to be similar in Mr to the chymotrypsin degraded form. On the other hand different receptor fragments of Mr = 33,000 and Mr = 60,000 were excised by chymotrypsin and trypsin respectively from the estradiol ligated estrogen receptor. (Geier et al., J. steroid Biochem. 26 [1987] 35-40.) These results support the assumption of a different conformational form for the antiestrogen ligated receptor, compared to the estrogen ligated receptor since they were differentially susceptible to proteolytic degradation by chymotrypsin.
 ...
PMID:Analysis of the 4-hydroxytamoxifen (4-OHTAM) bound nuclear estrogen receptor from MCF-7 cells by limited proteolysis. 368 14

The proteolytic fragments of the nuclear estrogen receptor in the MCF-7 cell line were characterized following limited digestion with chymotrypsin and trypsin. Nuclei were isolated from cells previously exposed to 10 nM [3H]estradiol. The proteolytic digestion was performed either on the micrococcal nuclease hydrolysate or on intact nuclei. The molecular weights (Mr) were calculated from the sedimentation coefficients determined on a sucrose gradient and from the Stokes radii estimated by gel filtration. Digestion of the nuclei with micrococcal nuclease solubilized a receptor form of Mr = 151,000. This receptor form was degraded by chymotrypsin to a receptor of Mr = 33,000 and by trypsin to a receptor of Mr = 60,000. Digestion of intact nuclei with chymotrypsin solubilized a receptor form of Mr = 62,000 which dissociated in 0.4 M KCl to a receptor of Mr = 32,000. Digestion of intact nuclei with trypsin followed by micrococcal nuclease solubilized a receptor form of Mr = 75,000 which was further dissociated by 0.4 M KCl to a receptor form of Mr = 60,000. The ability of the receptor forms to bind DNA was tested using DNA-cellulose column chromatography. About 40% of the micrococcal nuclease solubilized receptor form, compared to about 7% of the chymotrypsin degraded receptor and to about 13% of the trypsin degraded receptor forms, all bound to the column and could be eluted by high salt concentrated buffer. We conclude that the nuclear estrogen receptor in the MCF-7 cell line can be partially degraded either in the micrococcal nuclease hydrolysate or in intact nuclei by chymotrypsin or trypsin generating protein moieties, probably receptor fragments of Mr = 33,000 and 60,000 respectively. Both fragments retain their estradiol binding domain and it may be hypothesized that the heavier fragment retains its chromatin binding domain.
 ...
PMID:Analysis of the nuclear estrogen receptor from MCF-7 cells by limited proteolysis. 382 Nov 6

The mechanism by which secretory proteins are segregated within the cisternal space of microsomal vesicles was studied using dog pancreas mRNA which directs the synthesis of 14 well-characterized nonglycosylated pancreatic exocrine proteins. In the absence of microsomal membranes, each of the proteins was synthesized as larger polypeptide chains (presecretory proteins). 1,000-2,000 daltons larger than their authentic counterparts as judged by polyacrylamide gel electrophoresis in SDS. Conditions optimal for the study of reconstituted rough microsomes in the reticulocyte lysate system were examined in detail using mRNA and microsomal membranes isolated from dog pancreas. Functional reconstitution of rough microsomes was considerably more efficient in the presence of micrococcal nuclease- treated membranes than in the presence of EDTA-treated membranes. Analysis for segregation of nascent secretory proteins by microsomal vesicles, using post-translational incubation in the presence of trypsin and chymotrypsin, 50 mug/ml each, was shown to be inadequate, because of the disruption of vesicles by protease activity. Addition of 1-3 mM tetracaine or 1 mM dibucaine stabilized microsomal membranes incubated in the presence of trypsin and chymotrypsin at either 0 degrees or 22 degrees C. Each of the pancreatic presecretory proteins studied was correctly processed to authentic secretory proteins by nuclease-treated microsomal membranes, as judged by both one-dimensional and two-dimensional gel electophoresis. Post-translational addition of membranes did not result in either segregation or processing of nascent polypeptide chains. Post- translational proteolysis, carried out in the presence of 3 mM tetracaine, indicated that each of the 14 characterized dog pancreas secretory proteins was quantitatively segregated by nuclease-treated microsomal vesicles. Segregation of nascent secretory proteins was irreversible, since radioactive amylase, as well as the other labeled secretory proteins, remained quantitatively sequestered in microsomal vesicles during a 90-min incubation at 22 degrees C after the cessation of protein synthesis. Studies employing synchronized protein synthesis and delayed addition of membranes indicated that all pancreatic presecretory proteins contain amino terminal peptide extensions. These peptide extensions are shown to mediate the cotranslational binding of presecretory proteins to microsomal membranes and the transport of nascent secretory proteins to the vesicular space. The maximum chain lengths which, during synthesis, allow segregation of nascent polypeptide chains varied between 61 (pretrypsinogen 2 + 3) and 88 (preprocarboxypeptidase A1) amino acid residues among dog pancreas presecretory proteins. Reconstitution studies using homologous and heterologous mixtures of mRNA (dog, guinea pig, and rat pancreas; rat liver) and micrococcal nuclease-treated microsomal membranes (dog, guinea pig, and rat liver; dog pancreas), in the presence of placental ribonuclease inhibitor, suggest that the translocation mechanism described is common to the rough endoplasmic reticulum of all mammalian tissues.
 ...
PMID:Mechanism of compartmentation of secretory proteins: transport of exocrine pancreatic proteins across the microsomal membrane. 746 18

To mimic the injection of granzymes into target cells by cytotoxic lymphocytes or the activation of endogenous proteases in programmed cell death, the proteases chymotrypsin, proteinase K, or trypsin were loaded into the cytoplasm of several different cell types using the osmotic lysis of pinosomes technique. Internalization of these proteases caused cell lysis within several hours, accompanied by extensive nuclear damage in most but not all combinations of target cells and proteases. This nuclear damage, quantitated by DNA release from nuclei, was associated with apoptotic features including DNA fragmentation into nucleosomal ladders, chromatin condensation, nuclear fragmentation, and membrane blebbing. Agents reported to block programmed cell death, including aurintricarboxylic acid, inhibitors of energy metabolism, and protein or RNA synthesis, failed to block this protease-induced death, although some inhibited nuclear damage. In separate experiments, introduction of staphylococcal nuclease into cells led to near complete (at least 75% of total) nucleosomal DNA fragmentation within 6 to 8 h. Condensation of chromatin did not accompany this fragmentation to the same extent, and there was approximately a 10-h lag between half-maximal DNA fragmentation and 50% loss of membrane integrity. The results suggest that activation of intracellular proteases during cell death by any molecular pathway could give rise to apoptotic morphology and DNA fragmentation.
 ...
PMID:Apoptotic cell death induced by intracellular proteolysis. 793 Jun 26

The stability changes in peptides and proteins caused by the substitution of a single amino acid, which can be measured experimentally by the change in folding free energy, are evaluated here using effective potentials derived from known protein structures. The analysis is focused on mutations of residues that are accessible to the solvent. These represent in total 106 mutations, introduced at different sites in barnase, bacteriophage T4 lysozyme and chymotrypsin inhibitor 2, and in a synthetic helical peptide. Assuming that the mutations do not modify the backbone structure, the changes in folding free energies are computed using various types of database-derived potentials and are compared with the measured ones. Distance-dependent residue-residue potentials are found to be inadequate for estimating the stability changes caused by these mutations, as they are dominated by hydrophobic interactions, which do not play an essential role at the protein surface. On the contrary, the potentials based on backbone torsion angle propensities yield quite good results. Indeed, for a subset of 96 out of the 106 mutations, the computed and measured changes in folding free energy correlate with a linear correlation coefficient of 0.87. Moreover, the ten mutations that are excluded from the correlation either seem to cause modifications of the backbone structure or to involve strong hydrophobic interactions, which are atypical for solvent-accessible residues. We find furthermore that raising the ionic strength of the solvent used for measuring the changes in folding free energies improves the correlation, as it tends to mask the electrostatic interactions. When adding to these 106 mutations 44 mutations performed in staphylococcal nuclease and chemotactic protein, which were first discarded because some of them were suspected to affect the backbone conformation or the denatured state, the correlation between measured and computed folding free energy changes remains quite good: the correlation coefficient is 0.86 for 135 out of the 150 mutations. The success of the backbone torsion potentials in predicting stability changes indicates that the approximations made for deriving these potentials are adequate. It suggests moreover that the local interactions along the chain dominate at the protein surface.
 ...
PMID:Stability changes upon mutation of solvent-accessible residues in proteins evaluated by database-derived potentials. 863 71

Simulations based on perfectly funneled energy landscapes often capture many of the kinetic features of protein folding. We examined whether simulations based on funneled energy functions can also describe fluctuations in native-state protein ensembles. We quantitatively compared the site-specific local stability determined from structure-based folding simulations, with hydrogen exchange protection factors measured experimentally for ubiquitin, chymotrypsin inhibitor 2, and staphylococcal nuclease. Different structural definitions for the open and closed states based on the number of native contacts for each residue, as well as the hydrogen-bonding state, or a combination of both criteria were evaluated. The predicted exchange patterns agree with the experiments under native conditions, indicating that protein topology indeed has a dominant effect on the exchange kinetics. Insights into the simplest mechanistic interpretation of the amide exchange process were thus obtained.
 ...
PMID:Prediction of native-state hydrogen exchange from perfectly funneled energy landscapes. 2191 4