EC:3.1.27.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Earlier we reported that herpes simplex virus 1 DNA contains a sequence which binds a host protein in a sequence-specific manner as either a single-stranded or a double-stranded DNA or RNA and that this sequence is located in a transcriptional unit whose RNA traverses the origin of viral DNA replication (OriSRNA) (R.J. Roller, L. McCormick, and B. Roizman, Proc. Natl. Acad. Sci. USA 86:6518-6522, 1989). The protein reacts with both DNA and RNA in band-shift assays and protects the single-stranded RNA sequence from digestion by RNase. We report that the minimal cognate sequence required for these interactions consisted of [N(GTGGGTGGG)2(N less than or equal to 10)]. The ninemer repeat sequence was located at nucleotides -1 to -18 relative to the transcription initiation of the major species of OriSRNA. The activity of the cognate sequence required at least three guanines between thymines and tolerates the insertion of additional thymines, but it was inactivated by the insertion of adenines or by the substitution of some of the guanines with cytosines in one repeat. Replacement of the 10 3' nucleotides has no effect on binding activity, whereas deletion of these sequences abolished it. Among the related sequences with no demonstrable binding activity were some telomeric sequences which interact with known cognate proteins. The electrophoretic mobility of the herpes simplex virus cognate sequences in nondenaturing gels suggests that they may be able to form higher-order structures, but the conditions under which they were formed were different from the optimal conditions for binding the protein. UV light cross-linking studies of labeled RNA-protein complexes following digestion with RNases indicated that the electrophoretic mobility of the protective activity corresponded to that of a protein with an apparent molecular weight of 100,000.
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PMID:Characterization of a herpes simplex virus sequence which binds a cellular protein as either a single-stranded or double-stranded DNA or RNA. 131 59

An antinuclear antibody specific for nuclear membrane (ANMA) was observed by the immunofluorescence method in sera from patients with primary biliary cirrhosis (PBC). ANMA was present in 18 of 63 PBC sera (28.5) and in 1 of 431 control sera (0.2%). Its reaction appeared as a thin fluorescent ring confined to the nuclear envelope and was more evident when the sera were highly diluted and the fluorescence, due to frequently associated antimitochondrial antibody, faded. The ANMA fluorescent pattern was confirmed by indirect immunoperoxidase staining. ANMA was seen on both tissue cryostat sections and HEp-2 cells. It was a poorly or non-complement-fixing IgG, specific for an antigen resistant to DNase I, RNase, and trypsin. The significance of its presence in PBC in unknown at present. Identification of its antigen with one of the centromeric antigens is suggested.
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PMID:Nuclear membrane-staining antinuclear antibody in patients with primary biliary cirrhosis. 241 13

Antibodies to DNA in the left-handed (Z) conformation bind to acid-fixed polytene chromosomes of both Chironomus thummi and Drosophila melanogaster, as shown by direct and indirect immunofluorescence. Comparison of the phase-contrast, immunofluorescence, and DNA staining patterns shows a predominant localization of the antibody to the regions of high contrast and DNA density, the bands. The immunofluorescence is completely abolished by competition with polynucleotides in the Z conformation but not by those in the B form. DNase but not RNase treatment eliminates the antibody staining. Actinomycin D inhibits binding, whereas mithramycin has no effect. The highly reproducible immunofluorescence patterns obtained with the anti-Z-DNA antibodies demonstrate variations in fluorescence intensity between particular bands, which can be quantitated by laser scanning and photon counting techniques. The telomeric regions and DNA strands associated with end-to-end chromosome linkage and ectopic pairing are exceptionally bright. At saturation, average values of 1 IgG molecule per 3,000 base pairs and 1 per 15,000 base pairs are found in the intensely and weakly staining regions, respectively. An alternative statement is that the left-handed Z-DNA conformation is present at a frequency of 0.02-0.1%. The measured differences reflect variations in the local density of Z-DNA sites and not in the affinity for the specific antibody, which appears to be relatively constant throughout the chromosomes (Kd approximately equal to 10 nM). These observations taken together with results of biophysical studies on the properties of Z-DNA in solution suggest that regions of DNA in the left-handed conformation could be involved in higher-order structural organization of chromosomes and possibly in modulation of their functional state.
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PMID:Left-handed Z-DNA in bands of acid-fixed polytene chromosomes. 641 Mar 90

DNA strandness changes occurring during in situ hybridization were monitored using monoclonal antibodies. Our results show that: 1) RNase induces formation of single stranded DNA, 2) after denaturation-renaturation, single stranded DNA is found principally in centromeric areas, and 3) double stranded DNA is still observed after each step.
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PMID:DNA strandness changes during in situ hybridization conditions. 751 May 36

Telomerase activity was demonstrated in cell-free extracts from S. cerevisiae through the use of a PCR-based assay. As expected, this activity was eliminated by RNase or phenol treatment of the extract and was dependent on dGTP and dTTP. Telomerase was not detected in extracts prepared from cells grown for approximately 30 or more cell divisions in the absence of the EST1 product, Est1p. TLC1 RNA, which determines the sequence of telomeric DNA in vivo, was present in normal amounts in est1 delta cells. Moreover, TLC1 RNA specifically precipitated with epitope-tagged Est1p. These data indicate that Est1p is either a subunit of yeast telomerase or an accessory protein associated with telomerase that is essential in vitro for its activity.
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PMID:An in vitro assay for Saccharomyces telomerase requires EST1. 760 May 80

The arrangement of loops and chromomeres at the ends of lampbrush chromosomes in four species of bird is described with reference to chromomeres, loops and transcription units. Unlike the situation described in lampbrush chromosomes of amphibians, the lampbrush chromosomes of birds end in a terminal chromosome with conspicuous loops emerging from it. The fine-scale morphology of the ribonuclear protein matrix of these terminal loops is different from that of the majority of loops elsewhere on the chromosomes. In many cases the loops associated with the terminal chromomere are open ended, emerging from the chromomere but not returning to it at the other end. The distal ends of terminal open-ended loops therefore represent the true ends of the chromatids that make up a lampbrush half-bivalent. The pattern of binding of three telomeric DNA sequence probes to the terminal regions of bird lampbrush chromosomes, under conditions of DNA/DNA and DNA/RNA transcript in situ hybridization has been investigated by fluorescence in situ hybridization. All three probes gave the same results. With DNA/DNA and DNA/RNA transcript hybridization, three classes of structure were labelled: the terminal chromomere, a small number of interstitial chromomeres and the terminal transcription unit on telomere loops. Labelling of telomere loops, but not of terminal or interstitial chromomeres, was eliminated by ribonuclease treatment before in situ hybridization. The labelled regions of telomere loops were spaced away from the labelled terminal chromomere by an unlabelled sub telomeric transcription unit. After DNA/DNA in situ hybridization, no labelled loops were seen. DNA/RNA transcript in situ hybridization with single-stranded hexamers of each strand of telomeric DNA showed that the terminal transcription unit on telomere loops represents transcription exclusively from the C-rich strand of the repeat outwards towards the end of the chromosome. It is concluded that transcription specifically of the C-rich strand of strictly terminal clusters of telomere repeats is an obligatory event on the lampbrush chromosomes of birds and is unlikely to represent indiscriminate readthrough from proximally located gene elements.
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PMID:The arrangement and transcription of telomere DNA sequences at the ends of lampbrush chromosomes of birds. 783 23

We describe a method of selectively enriching for murine telomere-proximal sequences using affinity capture followed by PCR amplification. The telomeric fragments were selected from NotI-digested and lambda exonuclease-resected mouse genomic DNA by annealing to a biotinylated riboprobe containing multiple copies of the telomere repeat (TTAGGG)n. The resultant DNA-RNA hybrids were selectively retained on a matrix with covalently bound avidin. The captured DNA was then specifically released by ribonuclease action, and PCR amplification was performed using mouse repeat primers. The PCR products were cloned and used to screen a mouse genomic cosmid library, and the resultant cosmid clones were analyzed by fluorescence in situ hybridization. Ten of 70 clones analyzed gave telomere-proximal hybridization signals, indicating an at least 500-fold enrichment for telomere-proximal sequences.
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PMID:Isolation of murine telomere-proximal sequences by affinity capture and PCR. 857 53

Using a synthetic telomere DNA template and whole cell extracts, we have identified proteins capable of synthesizing the telomere complementary strand. Synthesis of the complementary strand required a DNA template consisting of 10 repeats of the human telomeric sequence d(TTAGGG) and deoxy- and ribonucleosidetriphosphates and was inhibited by neutralizing antibodies to DNA polymerase alpha. No evidence for RNA-independent synthesis of the lagging strand was observed, suggesting that a stable DNA secondary structure capable of priming the lagging strand is unlikely. Purified DNA polymerase alpha/primase was capable of catalyzing synthesis of the lagging strand with the same requirements as those observed in crude cell extracts. A ladder of products was observed with an interval of six bases, suggesting a unique RNA priming site and site-specific pausing or dissociation of polymerase alpha on the d(TTAGGG)10 template. Removal of the RNA primers was observed upon the addition of purified RNase HI. By varying the input rNTP, the RNA priming site was determined to be opposite the 3' thymidine nucleotide generating a five-base RNA primer with the sequence 5'-AACCC. The addition of UTP did not increase the efficiency of priming and extension, suggesting that the five-base RNA primer is sufficient for extension with dNTPs by DNA polymerase alpha. This represents the first experimental evidence for RNA priming and DNA extension as the mechanism of mammalian telomeric lagging strand replication.
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PMID:Synthesis of the mammalian telomere lagging strand in vitro. 911 15

In this work, we have identified and characterized proteins in rice nuclear extracts that specifically bind the single-stranded G-rich telomere sequence. Three types of specific DNA-protein complexes (I, II, and III) were identified by gel retardation assays using synthetic telomere substrates consisting of two or more single-stranded TTTAGGG repeats and rice nuclear extracts. Since each complex has a unique biochemical property and differs in electrophoretic mobility, at least three different proteins interact with the G-rich telomere sequences. These proteins are called rice G-rich telomere binding protein (RGBP) and none of them show binding affinity to double-stranded telomere repeats or single-stranded C-rich sequence. Changing one or two G's to C's in the TTTAGGG repeats abolishes binding activity. RGBPs have a greatly reduced affinity for human and Tetrahymena telomeric sequence and do not efficiently bind the cognate G-rich telomere RNA sequence UUUAGGG. Like other telomere binding proteins, RGBPs are resistant to high salt concentrations. RNase sensitivity of the DNA-protein interaction. In this assay, we observed a novel complex (complex III) in gel retardation assays which did not alter the mobilities or the band intensities of the two pre-existing complexes (I and II). The complex III, in addition to binding to telomeric sequences, has a binding affinity to rice nuclear RNA, whereas two other complexes have a binding affinity to only single-stranded G-rich telomere DNA. Taken together, these studies suggest that RGBPs are new types of telomere-binding proteins that bind in vitro to single-stranded G-rich telomere DNA in the angiosperms.
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PMID:Rice proteins that bind single-stranded G-rich telomere DNA. 952 98

HIC-1 (hypermethylated in cancer) is a candidate tumor suppressor gene which is located at 17p13.3, a region which frequently undergoes allelic loss in breast and other human cancers. HIC-1 is proposed to be commonly inactivated in human cancers by hypermethylation of a normally unmethylated dense CpG island which encompasses the entire gene. To study whether HIC-1 inactivation may be important to the development of breast cancer, we first measured methylation of the HIC-1 gene in normal breast ductal tissues from microdissected frozen breast tissues and from epithelial cells purified from mammoplasty specimens. Surprisingly, in all normal breast ductal tissues we found approximately equal amounts of densely methylated HIC-1 and completely unmethylated HIC-1. This is in contrast to most normal tissues, in which all copies of HIC-1 are completely unmethylated. We then evaluated 39 primary breast cancer tissues and found virtually complete methylation of the HIC-1 gene in 26 (67%) of the cases. We also found loss of heterozygosity at the telomeric portion of chromosomal arm 17p in 22 of the 26 cases with strongly methylated HIC-1, suggesting that loss of an unmethylated HIC-1 allele may contribute to the inactivation of HIC-1 in cells with a pre-existing methylated allele. Finally, by RNase protection analysis, HIC-1 was found to be expressed in microdissected normal breast ductal tissues and unmethylated tumors but not in tumors with hypermethylation of the HIC-1 gene. These results indicate that hypermethylation of HIC-1 and associated loss of HIC-1 expression is common in primary breast cancer. Furthermore, the HIC-1 gene is densely methylated in approximately one-half of the alleles in normal breast epithelium, which may predispose this tissue to inactivation of this gene by loss of heterozygosity.
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PMID:Methylation of the HIC-1 candidate tumor suppressor gene in human breast cancer. 957 97

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