Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Enzyme
Compound
Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A number of enzymes thought to be involved in DNA replication have been identified in the brain. These include single-stranded DNA-binding proteins, topoisomerases I and II, DNA polymerase alpha, a protein that binds Ap4A and might be classified as a DNA polymerase alpha accessory protein,
RNase H
,
DNA polymerase beta
, DNA ligase, an endo- and an exonuclease of unknown function, DNA methyl transferase and poly(ADPR) synthase. In contrast, little is known about the enzymology of DNA repair in brain. The few enzymes identified comprise uracil-DNA glycosylase,
DNA polymerase beta
, DNA polymerase alpha (which in neurons is present only at immature stages), DNA ligase, poly(ADPR) synthase, and O6-alkylguanine-DNA alkyltransferase. In addition, an exonuclease acting on depurinated single-stranded DNA (tentatively listed here as 3'----5' exonuclease), an endonuclease of unknown function as well as ill-defined acid and alkaline deoxyribonucleases also occur in brain.
...
PMID:Enzymology of DNA replication and repair in the brain. 300 64
Polyoma minichromosomes were isolated and fractionated on glycerol gradients as described by Gourlie et al. (J. Virol. 38:805-814, 1981). Specific assays for DNa polymerases alpha, beta, and gamma, DNA topoisomerase I, and
RNase H
were carried out on each fraction. The number of units of activity in each fraction was compared with the number of total polyoma and replicative intermediate DNA molecules in each fraction determined by quantitative electron microscopy (M. R. Krauss and R. M. Benbow, J. Virol. 38:815-825, 1981). DNA polymerase alpha cosedimented with polyoma replicative intermediate DNA molecules.
DNA polymerase beta
and DNA topoisomerase I activities sedimented with mature polyoma minichromosomes. Although the bulk of
RNase H
activity sedimented in the minichromosome region, the peak of activity was found one fraction behind the peak of mature minichromosomes. Virtually no DNA polymerase gamma activity cosedimented with polyoma minichromosomes.
...
PMID:Polyoma virus minichromosomes: associated enzyme activities. 626 57
Two new sesquiterpene hydroquinones, peyssonol A and peyssonol B, of the Red Sea algae Peyssonelia sp., have been shown to be potent inhibitors of the RNA-directed DNA synthesis of the reverse transcriptases (RTs) of human immunodeficiency virus (HIV)-1 and HIV-2. The DNA-dependent DNA polymerase activity is inhibited to a lesser extent, whereas the
RNase H
activity is unaffected. The inhibition of the DNA polymerase activities is independent of the nature of the template primers used. Peyssonol A probably binds the RT at a site distinct from those occupied by the substrates of the RNA-directed DNA synthesis, since the mode of inhibition is noncompetitive with respect to both dNTP's and template primer. This is partially true for peyssonol B, which is noncompetitive with respect to only dNTP, but is competitive with respect to the template primer. We have speculated that, since peyssonol B and the template primer bear no apparent structural resemblance, the competitive pattern of inhibition can be explained by an indirect steric hindrance or by the overlap of the inhibitor and the substrate distinct binding sites of the enzyme. Alternatively, the binding of the inhibitor to a distinct site induces conformational changes that distort the binding of the template primer. Furthermore, we have shown that both peyssonol A and peyssonol B interfere with the direct binding of the RT to the template primer, offering an explanation for the mechanism of the enzyme inhibition. The insensitivity of
DNA polymerase beta
and the poor response of DNA polymerase alpha to peyssonol A make this inhibitor more attractive for the future development of a potent anti-HIV RT drug.
...
PMID:Peyssonols A and B, two novel inhibitors of the reverse transcriptases of human immunodeficiency virus types 1 and 2. 753 86
The 21 S complex of enzymes for DNA synthesis in the combined low salt nuclear extract-post microsomal supernatant from HeLa cells [Malkas et al. (1990) Biochemistry 29:6362-6374] was purified by poly (ethylene glycol) precipitation, Q-Sepharose chromatography, Mono Q Fast Protein Liquid Chromatography (FPLC), and velocity gradient centrifugation. The procedure gives purified enzyme complex at a yield of 45%. The 21 S enzyme complex remains intact and functional in the replication of simian virus 40 DNA throughout the purification. Sedimentation analysis showed that the 21 S enzyme complex exists in the crude HeLa cell extract and that simian virus 40 in vitro DNA replication activity in the cell extract resides exclusively with the 21 S complex. The results of enzyme and immunological analysis indicate that DNA polymerase alpha-primase, a 3',5' exonuclease, DNA ligase I,
RNase H
, and topoisomerase I are associated with the purified enzyme complex. Denaturing polyacrylamide gel electrophoresis of the purified enzyme complex showed the presence of about 30 polypeptides in the size range of 300 to 15 kDa. Immunofluorescent imaging analysis, with antibodies to DNA polymerase alpha,beta and DNA ligase I, showed that polymerase alpha and DNA ligase I are localized to granular-like foci within the nucleus during S-phase. In contrast,
DNA polymerase beta
, which is not associated with the 21 S complex, is diffusely distributed throughout the nucleoplasm.
...
PMID:Further purification and characterization of a multienzyme complex for DNA synthesis in human cells. 830 Jul 57
The mitochondrial DNA (kinetoplast DNA) of the trypanosomatid Crithidia fasciculata has an unusual structure composed of minicircles and maxicircles topologically interlocked into a single network and organized in a disc-shaped structure at the base of the flagellum. We previously purified a structure-specific endonuclease (SSE1), based on its
RNase H
activity, that is enriched in isolated kinetoplasts. The endonuclease gene has now been cloned, sequenced, and found to be closely related to the 5' exonuclease domain of bacterial DNA polymerase I proteins. Although the protein does not contain a typical mitochondrial leader sequence, the enzyme is shown to colocalize with a type II DNA topoisomerase and a
DNA polymerase beta
at antipodal sites flanking the kinetoplast disc. Cell synchronization studies with an epitope-tagged construct show that the localization of the endonuclease to the antipodal sites varies in a cell cycle-dependent manner similar to that of the
DNA polymerase beta
[Johnson, C. E. & Englund, P. T. (1998) J. Cell Biol. 143, 911-919]. Immunofluorescent localization of SSE1 to the antipodal sites is only observed during kinetoplast replication. Together, these results suggest a point of control for kinetoplast DNA replication through the regulation of the availability of DNA replication proteins and a possible role for the antipodal sites in removal of RNA primers and the repair of gaps in newly replicated minicircles.
...
PMID:The kinetoplast structure-specific endonuclease I is related to the 5' exo/endonuclease domain of bacterial DNA polymerase I and colocalizes with the kinetoplast topoisomerase II and DNA polymerase beta during replication. 1041 96
