EC:3.1.27.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heteronuclear RNA (hnRNA) is preferentially associated (76%) with the nuclear matrix in mammalian cells. Active mRNA, in the form of polyribosomes, is associated (greater than 97%) with the cytoskeletal framework. In this report, we present evidence that the association of both hnRNA and mRNA with structural networks of the cell may be essential features of gene expression. To study the association of polyribosomes with the cytoskeletal framework, cytochalasin D was used to release mRNA from the cytoskeletal framework. Protein synthesis was inhibited by cytochalasin D in direct proportion to the release of mRNA. The released mRNA is unaltered in its translatability as measured in vitro but is no longer translated in the cytochalasin-treated HeLa cells. The residual protein synthesis occurs on polyribosomes that are reduced in amount but display a normal sedimentation distribution. The results support the hypothesis that mRNA binding to the cytoskeletal framework is necessary, though not sufficient, for translation. Further fractionation of the cytoskeletal framework separates nuclear constituents into three distinct protein fractions. Chromatin proteins and 94% of the DNA are released by 0.25 M-ammonium sulphate after inter-nucleosomal DNA is cut with DNase I. The resulting structure retains 76% of the hnRNA in the form of ribonucleoprotein and is designated the RNP-containing nuclear matrix. The proteins of hnRNP complex are those associated with the nucleus only if RNA is intact. These proteins and 97% of the hnRNA are released after brief digestion with RNase A. Visualizing the nuclear matrix using resinless sections shows that nuclear RNA plays an important role in the organization of the nuclear matrix. Electron micrographs of resinless sections show the interior of the matrix to be a three-dimensional network of thick filaments bounded by the nuclear lamina. The filaments are densely covered with 20-30 nm electron-dense particles, which may contain the hnRNA. The RNP-depleted matrix is disordered and the interior fibres aggregated. These results suggest that hnRNA is involved in the spatial organization of the interior of the nuclear matrix.
...
PMID:Association of RNA with the cytoskeleton and the nuclear matrix. 347 58

DNA topology in histone- and protamine-depleted nuclei (nucleoids) from somatic cells, sperm, and spermatogenic cells was studied to determine if the superhelical configuration of DNA looped domains is altered during spermatogenesis. The expansion and contraction of nucleoid DNA was measured with a fluorescence microscope following exposure of nucleoids to different concentrations of ethidium bromide (EB). Nucleoids from Xenopus laevis erythrocytes, primary spermatocytes, and round spermatids, and from Rana catesbeiana sperm all exhibited a biphasic change (condensed-relaxed-condensed) in size as a function of exposure to increasing concentrations (0.5-100 micrograms/ml) of EB, indicating that they contain negatively supercoiled DNA. In contrast, DNA in sperm nucleoids from Xenopus laevis and Bufo fowleri was relaxed and expanded at low (0.5-6 micrograms/ml) EB concentrations, but became gradually condensed as the EB concentration was increased (6-100 micrograms/ml). Nucleoids prepared from all cell types retained the general shape of the nucleus regardless of the superhelical configuration of the nucleoid DNA. Sperm nucleoid DNA condensed by 100 micrograms/ml EB was relaxed by exposure to UV light, DNase I, proteinase K, or 4 M urea, but not by RNase A or 10 mM dithiothreitol. These results demonstrate that the DNA in sperm nucleoids is constrained in domains of supercoiling by nonbasic nuclear proteins. Negatively supercoiled DNA is present in nucleoids from cells with a full complement of histones, including Rana sperm, but not in nucleoids from Xenopus and Bufo sperm in which histones are replaced by "intermediate-type" protamines. Histone replacement in these species, therefore, is accompanied by unfolding of nucleosomal DNA and active removal of the negative supercoils. Results presented also suggest an important role for the nonbasic nuclear proteins of sperm in the morphogenesis of the nucleus and the arrangement of DNA.
...
PMID:Changes in DNA topology during spermatogenesis. 349 Mar 60

We describe two monoclonal antibodies, I-2 and I-14, which recognize, respectively, proteins of 36 and 40 kD. By immunofluorescence microscopy on chick embryo fibroblasts, both antigens were found to be located within a nuclear substructure which excludes nucleoli and part of the nucleoplasm; hence we refer to these antigens as nuclear substructure antigens. By immuno-electron microscopy on chick liver sections, the I-14 antigen was identified predominantly in clusters of interchromatin granules and in perichromatin fibrils. The two substructure antigens share a remarkable resistance to sequential extraction of nuclei with DNase I, RNase A, non-ionic detergent and high salt, indicating that they constitute part of an operationally defined residual nuclear matrix. Finally, both substructure antigens are virtually absent from the nuclei of adult erythrocytes. These properties suggest that substructure antigens may be involved in RNA transcription, processing or transport, possibly by contributing nucleoskeletal support.
...
PMID:Nuclear substructure antigens. Monoclonal antibodies against components of nuclear matrix preparations. 350 93

We have characterized the biochemical nature of the Ku protein, the antigen recognized by autoantibodies from certain patients with scleroderma-polymyositis overlap syndrome. From extracts of HeLa cells labeled with [32P]orthophosphate, anti-Ku antibodies precipitated a high molecular weight nucleic acid identified as DNA because of sensitivity to DNase I and resistance to RNase. From extracts of cells labeled with [35S] methionine, these antibodies precipitated two polypeptides of 70,000 and 80,000 Da. These proteins were purified using immunoaffinity column chromatography. In immunoblots most sera containing anti-Ku antibodies recognized both Ku proteins but one serum bound only to the 70,000-Da subunit. When nucleosomal segments of chromatin were used as antigen, anti-Ku antibodies precipitated dinucleosomes and larger forms of chromatin but not mononucleosomes. Thus, the Ku antigen is a novel DNA-binding protein that is at least partially exposed on nucleosomal segments of chromatin.
...
PMID:Characterization of the DNA-binding protein antigen Ku recognized by autoantibodies from patients with rheumatic disorders. 351 Oct 59

The nuclear matrix is a putative skeletal structure which has been implicated in many nuclear functions. To assess a possible role of the nuclear matrix in glucocorticoid action, purified rat liver nuclei containing glucocorticoid-receptor complexes were treated with DNase I +/- RNase A followed by 1.6 M NaCl, thus yielding salt-extractable and salt-resistant (nuclear matrix) fractions. The subnuclear distribution of hormone-receptor complexes was determined by following the fate of unmetabolized radiolabel after injection of labeled triamcinolone acetonide into adrenalectomized animals and subjecting various subfractions to immunoblotting using a monoclonal antibody which recognizes the glucocorticoid receptor. Both techniques indicated that 50-70% of the total nuclear hormone-receptor complexes were recovered in the nuclear matrix fraction. Previous results (Kaufmann, S. H., and Shaper, J. H. (1984) Exp. Cell Res. 155, 477-495) suggest that a variety of nuclear polypeptides become nuclease- and salt-resistant as a result of the formation of intermolecular disulfide bonds. The following evidence suggests that disulfide bonds mediate the association between the glucocorticoid receptor and the nuclear matrix. When nuclei were isolated in the absence of sulfhydryl-blocking and -cross-linking reagents, sodium dodecyl sulfate-polyacrylamide gel electrophoresis under nonreducing conditions revealed that the receptor was present as a high molecular weight disulfide-cross-linked complex. When nuclei were isolated in the presence of the irreversible sulfhydryl-blocking reagent iodoacetamide, the disulfide bonds which cross-linked the receptor into high molecular weight complexes were absent; and 85-100% of the hormone-receptor complexes were salt-extractable. When nuclei (isolated in the absence of iodoacetamide) were treated with the sulfhydryl-cross-linking reagent sodium tetrathionate, greater than 95% of the nuclear hormone-receptor complexes became resistant to extraction with nucleases and 1.6 M NaCl. The implications of these results for other matrix-associated nuclear functions are discussed.
...
PMID:Binding of the glucocorticoid receptor to the rat liver nuclear matrix. The role of disulfide bond formation. 352 49

Antibodies from 5 patients with systemic sclerosis reacted with an antigen localized to the metaphase chromatin, the cleavage furrow and the midbody of anaphase and telophase HEp-2 cells. The titer of antimidbody antibodies ranged from 1:160 to 1:1280. Four patients had systemic sclerosis and one had idiopathic Raynaud's phenomenon. In situ biochemical characterization of the antigen revealed that it was resistant to DNase I, micrococcal nuclease and RNase A, but was sensitive to trypsin treatment. The antigen remained insoluble in 400 mM acetic acid but was extracted from the cells with 400 mM hydrochloric acid. The antibody was not seen in sera from 2500 normal female blood donors, 120 patients with systemic lupus, 60 patients with rheumatoid arthritis, 15 patients with linear scleroderma or 25 patients with Raynaud's disease.
...
PMID:An antigen in metaphase chromatin and the midbody of mammalian cells binds to scleroderma sera. 359 98

Mouse c-myb gene transcripts in various cells of haemopoietic origin were analysed using S1 nuclease and RNase mapping techniques and by Northern blotting. It was found that the prevalent 3.8-kb c-myb mRNA present in thymocytes, T cell leukaemias, myelomonocytic leukaemias, erythroleukaemias and myeloid stem cells was initiated at several cap sites mapping within a region 97-244 bp upstream from the protein coding sequence. Utilization of additional cap sites mapping further upstream was also observed in certain cells, most notably thymocytes, and this gave rise to RNA species (4.3-5.6 kb) larger than the presumptive mRNA. In contrast, myeloma cell c-myb transcripts, which are much less abundant than those in more immature haemopoietic cells, were found to be initiated at a restricted set of cap sites mapping 244-277 bp upstream of the coding sequence. Hence, these data suggest that the abundance of the c-myb mRNA may be regulated by a process involving selective utilization of mRNA cap sites. Sites hypersensitive to DNase I were associated with mRNA cap sites in cells that expressed c-myb.
...
PMID:Multiple c-myb transcript cap sites are variously utilized in cells of mouse haemopoietic origin. 360 90

A new protein kinase has been characterized among the proteins tightly bound to rat liver DNA and released by DNase I and RNase A treatment. This enzyme was separated by gel filtration from this released material. Its apparent molecular mass was found to be 34 kDa and it is made of a single unit. The main characteristic of this protein kinase is that it is arginine-specific. Isolation of phosphoarginine required the use of proteolytic enzymes at alkaline pH since the phosphate bond is highly acid-labile. This protein kinase is able to autophosphorylate and to phosphorylate a single chromosomal protein of 11 kDa also tightly bound to DNA. It uses ATP and dATP as phosphate donors and is cAMP-independent. Its optimal activity requires Mn2+ ions. Vanadate, spermine and heparin have no effect on its activity.
...
PMID:Characterization of an arginine-specific protein kinase tightly bound to rat liver DNA. 360 29

Three nuclear subfractions were prepared from isolated hepatocytes nuclei. The calmodulin content in whole nuclei was 79 ng/mg of protein. The soluble fraction obtained after digestion of the nuclei with DNase I and RNase A (S1 fraction) contained 252 ng of calmodulin/mg of protein. The pellet obtained after the digestion with nucleases was treated with 1.6 M NaCl, and the soluble fraction and the residual structures obtained after the treatment were called S2 fraction and nuclear matrix, respectively. The calmodulin contents of the S2 fraction and of the nuclear matrix were 68 and 190 ng/mg of protein, respectively. If nuclei were digested only with DNase I, the calmodulin content in the soluble fraction increased to 703 ng/mg of protein, indicating that part of the nuclear calmodulin is associated with active DNA. Five nuclear calmodulin-binding proteins were identified. Two, having apparent molecular masses of 240 and 150 kDa were only found in the nuclear matrix, whereas the other three, having molecular masses of 120, 65, and 40 kDa were found in different proportions in all nuclear subfractions. A calmodulin-dependent inhibition of protein phosphorylation in the S1 fraction was discovered. Purification attempts on the calmodulin-binding proteins of the S1 subfraction by calmodulin affinity chromatography yielded four major polypeptides with apparent molecular masses of about 41, 46, and 120 (two products) kDa. These polypeptides retained the ability to inhibit protein phosphorylation but not the sensitivity to calmodulin.
...
PMID:Calmodulin and calmodulin-binding proteins in liver cell nuclei. 361 Oct 90

A unique and simple set of proteins (S1 proteins) has been detected in the cell nuclei of various tissues of the rat (Inoue et al. (1983) Eur. J. Biochem. 135, 61-68). They were liberated from the nuclei by digestion with DNA-hydrolyzing enzymes under the conditions where transcriptionally active chromatin is preferentially digested and released into the reaction supernatant. S1 proteins account for 20% of the total supernatant proteins (Higashi et al. (1984) Biochem. Int. 9, 697-704). The present study demonstrates that S1 proteins occur at the sites sensitive to RNase A as well as DNase I, and are rapidly liberated from the nuclei by digestion with either enzyme.
...
PMID:Presence of a unique set of nuclear proteins at the sites sensitive to RNase A as well as DNase I. 378 68

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>