Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.4 (RNase H)
 2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribonucleases H (RNases H) are enzymes that specifically degrade the RNA of RNA-DNA hybrids. These enzymes are involved in DNA replication, reverse transcription (RT) and antisense oligodeoxyribonucleotide-mediated arrest of translation. One of the most valuable tools for assaying RNase H activity is the renaturation gel assay with which such activities can be detected using purified protein preparations or crude extracts. Radioactive substrates [32P labeled poly(rA)-poly(dT) hybrid] are commonly used with exposure of the gel to X-ray film; this is possible at any time without disturbing the renaturation-degradation process. Here, we describe a method using fluorescent-labeled substrates. RNA-DNA substrates are synthesized by first transcribing DNA with T7 RNA polymerase using Bodipy-TR-14-UTP and the four normal nucleoside triphosphates. The run-off transcript is annealed to a short oligomeric DNA complementary to the 3'-end of the transcript, and the DNA portion of the hybrid is formed by RT. This RNA-DNA is added to the polyacrylamide mixture before polymerization, and SDS-PAGE is performed as usual. After various periods of renaturation, the gel is scanned to detect fluorescent substrate using the red-excited laser of a fluorescence scanner. This fluorescence method has all of the advantages of using radio-labeled substrates and none of its disadvantages, and the sensitivities of the two methods are comparable. In addition, we show that the sensitivity of this procedure can be increased if damaging chemicals remaining in the gel after polymerization are eliminated by simultaneous electrophoresis of the RNase H and a protein with higher mobility.
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PMID:Ribonuclease H renaturation gel assay using a fluorescent-labeled substrate. 938 60

The mitochondrial DNA (kinetoplast DNA) of the trypanosomatid Crithidia fasciculata consists of minicircles and maxicircles topologically interlocked in a single network per cell. Individual minicircles replicate unidirectionally from either of two replication origins located 180 degrees apart on the minicircle DNA. Initiation of minicircle leading-strand synthesis involves the synthesis of an RNA primer which is removed in the last stage of replication. We report here the purification to near homogeneity of a structure-specific DNA endo-nuclease based on the RNase H activity of the enzyme on a poly(rA).poly(dT) substrate. RNase H activity gel analysis of whole cell and kinetoplast extracts shows that the enzyme is enriched in kinetoplast fractions. The DNA endonuclease activity of the enzyme is specific for DNA primers annealed to a template strand and requires an unannealed 5' tail. The enzyme cleaves 3' of the first base paired nucleotide releasing the intact tail. The purified enzyme migrates as a 32 kDa protein on SDS gels and has a Stoke's radius of 21.5 A and a sedimentation coefficient of 3.7 s, indicating that the protein is a monomer in solution with a native molecular mass of 32.4 kDa. These results suggest that the enzyme may be involved in RNA primer removal during minicircle replication.
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PMID:A structure-specific DNA endonuclease is enriched in kinetoplasts purified from Crithidia fasciculata. 975 43

Two RNases H of mammalian tissues have been described: RNase HI, the activity of which was found to rise during DNA replication, and RNase HII, which may be involved in transcription. RNase HI is the major mammalian enzyme representing around 85% of the total RNase H activity in the cell. By using highly purified calf thymus RNase HI we identified the sequences of several tryptic peptides. This information enabled us to determine the sequence of the cDNA coding for the large subunit of human RNase HI. The corresponding ORF of 897 nt defines a polypeptide of relative molecular mass of 33,367, which is in agreement with the molecular mass obtained earlier by SDS/PAGE. Expression of the cloned ORF in Escherichia coli leads to a polypeptide, which is specifically recognized by an antiserum raised against calf thymus RNase HI. Interestingly, the deduced amino acid sequence of this subunit of human RNase HI displays significant homology to RNase HII from E. coli, an enzyme of unknown function and previously judged as a minor activity. This finding suggests an evolutionary link between the mammalian RNases HI and the prokaryotic RNases HII. The idea of a mammalian RNase HI large subunit being a strongly conserved protein is substantiated by the existence of homologous ORFs in the genomes of other eukaryotes and of all eubacteria and archaebacteria that have been completely sequenced.
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PMID:Cloning of the cDNA encoding the large subunit of human RNase HI, a homologue of the prokaryotic RNase HII. 978 7

A 28-mer morpholino oligonucleotide analog was designed to hybridize to 8 bases of intron 1 and extend 2 bases beyond the translation initiation codon in exon 2 of the unspliced c-myc RNA transcript. Delivery of this compound into human chronic myeloid leukemia KYO1 cells, by streptolysin O permeabilization, resulted in almost total ablation of the 65 kDa c-MYC protein expression for at least 24 hours after treatment. An unexpected band with SDS-PAGE electrophoretic mobility indicating a protein of about 47 kDa was apparent on the 24-hour western blots that were developed using antibodies that recognize MYC protein C terminal epitopes. No inhibition of the approximately 2400 nt c-myc mRNA expression was observed by northern hybridization, a result of the inability of morpholino analogs to direct the activity of ribonuclease H. In fact, high molecular weight c-myc RNA species were found to have accumulated in antisense-treated KYO1 cells. Control sense and scrambled antisense morpholino analogs did not inhibit MYC protein expression or induce the appearance of the anomalous RNA and protein bands. Molecular analyses by RT-PCR and sequencing revealed that the morpholino antisense effector had (1) inhibited splicing of the c-myc pre-mRNA, (2) induced missplicing of the pre-mRNA, and (3) inhibited translation of normal spliced c-myc mRNA. Identical results were obtained with acute promyelocytic leukemia, acute lymphoblastic leukemia, and histiocytic lymphoma cell lines.
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PMID:Antisense morpholino oligonucleotide analog induces missplicing of C-myc mRNA. 1035 27

Escherichia coli RNase HII is composed of 198 amino acid residues. The enzyme has been overproduced in an insoluble form, purified in a urea-denatured form, and refolded with poor yield [M. Itaya (1990) Proc. Natl. Acad. Sci. USA 87, 8587-8591]. To facilitate the preparation of the enzyme in an amount sufficient for physicochemical studies, we constructed an overproducing strain in which E. coli RNase HII is produced in a soluble form. The enzyme was purified from this strain and its biochemical and physicochemical properties were characterized. The good agreement in the molecular weights estimated from SDS-PAGE (23,000) and gel filtration (22,000) suggests that the enzyme acts as a monomer. From the far-UV circular dichroism spectrum, its helical content was calculated to be 23%. The enzyme showed Mn(2+)-dependent RNase H activity. Its specific activity determined using (3)H-labeled M13 RNA/DNA hybrid as a substrate was comparable to but slightly higher than that of the refolded enzyme, indicating that the enzyme overproduced and purified in a soluble form is more suitable for structural and functional analyses than the refolded enzyme.
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PMID:Characterization of ribonuclease HII from Escherichia coli overproduced in a soluble form. 1078

The senescence phenotype of Podospora anserina wild-type strains depends on mitochondrial (mt) genome stability. Characterization of activities implicated in the maintenance of the mt DNA is therefore essential for a better understanding of these degenerative processes. To address this question we looked for a nuclease activity in this fungal mitochondria. Here we describe the purification of an endo-exonuclease active on single-stranded, double-stranded and flap DNA. The Podospora nuclease also possesses an RNase H activity. Gel filtration chromatography showed a native molecular mass of 90 kDa for the P. anserina enzyme. The highly purified fraction shows a single polypeptide chain of 49 kDa on SDS-PAGE, indicating that the Podospora enzyme is probably active as a dimer. Purification and sequencing of the endolysine digestion peptides of the Podospora mt nuclease suggested that this enzyme could belong to the 5' structure-specific endo-exonuclease family. The possible involvement of this nuclease in mt DNA recombination during the senescence process is evoked.
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PMID:Purification and characterization of an endo-exonuclease from Podospora anserina mitochondria. 1195 15

Of the HIV proteins, reverse transcriptase(RT) has been probably the most useful target protein for screening and designing of its specific inhibitors. Because retroviral replication is absolutely dependent on both the RNase H and the polymerase function of RT and, so far as is now known, RT does not play a direct role in the life cycle of a normal cell. Under suitable fermentation conditions in our experiments, HIV-1 RT was highly expressed in E. coli JM109(pKRT-2)* by inducing the trc promoter with isopropyl-beta-Dthiogalactopyranoside(IPTG). 1. 1 mg of purified RT was obtained from one liter culture of bacteria by DEAE-cellulose and phosphaellulose chromatography. SDS-PAGE analysis of the purified RT showed two major protein bands of 66 kD and 51 kD, indicating that the purified RT was a heterodimer composed of two subunits. Results of enzyme assay showed that the purified RT had high activity(1.4 x 10(4) umit/mg). We also improved the reaction system of enzyme assay. The effect of PFA on HIV-1 RT was determined with the improved enzyme assay and the mechanism of inhibition was non-competitive with respect to substrate consistent with the reports of Dr. Bo Oberg. This suggests that the purified HIV-1 RT by this simple method can be applied to the anti HIV-1-drug screening. (*E. coli JM109(pKRT2) was obtained from NIAID, NIH; pKRT2 from Dr. Richard D'Aquila and Dr. William C. Summers.)
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PMID:[The study on purification and characterization of HIV-1 reverse transcriptase from a recombinant strain of E. coli]. 1251 92

We purified and characterized previously from Podospora anserina mitochondria an endonuclease, active on single-stranded, double-stranded and flap DNA, with RNAse H activity, named P49 according to the major 49 kDa band observed on SDS-PAGE. Edman sequencing allowed us to identify the corresponding gene called nuc49. Here we report the properties of the (His)-tagged NUC49 protein expressed in E. coli. We show that this protein does exhibit an endonuclease activity on plasmid DNA, circular recessed and flap M13 substrate with short protruding single strand. However, in contrast to the mt endonuclease purified fraction it does not present RNase H activity and does not cleave linear flap substrate. The activity differences between the protein expressed in E. coli and the mitochondrial endonuclease fraction previously described are discussed. NUC49 presents a strong homology with the S. pombe CDB4 curved DNA binding protein which belongs to a large family including the human cell cycle protein PA2G4 and is able to bind curved DNA. The results constitute the first description of a mitochondrial endonuclease activity associated to this family of proliferation associated homologous proteins. The function of this endonuclease either in recombination, repair or mt DNA rearrangements remains to be determined.
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PMID:Identification and biochemical analysis of a mitochondrial endonuclease of Podospora anserina related to curved-DNA binding proteins. 1718 31


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