EC:3.1.26.4 - FACTA Search

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

Query: EC:3.1.26.4 (RNase H)
2,751 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mercaptopurine and thioguanine are anticancer and immunosuppressive agents that exert their primary cytotoxic effects via incorporation of deoxythioguanosine (dG(s)) into DNA, but the precise mechanism(s) by which this causes cytotoxicity remains unknown. We initially determined that the level of dG(s) incorporation into DNA of human T- and B-lineage leukemia cell lines did not correlate significantly with the extent of cytotoxicity (IC(50)), except that there was no cytotoxicity in the absence of dG(s) incorporation. To elucidate biological processes perturbed by dG(s) incorporation into DNA, we chemically synthesized oligodeoxyribonucleotides containing a single dG(s) (11 mer and 19 mer), which decreased the melting temperature (T(m)) of DNA-DNA duplexes without major structural changes, as evidenced by circular dichroism spectra. Using nuclear extracts from human lymphoblastic leukemia cells (CCRF-CEM, NALM6, and Molt4), we documented that dG(s) incorporation into the DNA strand of DNA-RNA heteroduplexes significantly inhibited human RNase H-catalyzed RNA cleavage (80-90% inhibition) and that a similar inhibition was evident with bacterial RNase H. These data provide the first evidence that thiopurines inhibit the function of RNase H, indicating that their mechanism of cytotoxicity may involve interference with this component of the replication machinery.
...
PMID:Human RNase H-mediated RNA cleavage from DNA-RNA duplexes is inhibited by 6-deoxythioguanosine incorporation into DNA. 1049 69

Oligonucleotide N3'->P5' Phosphoramidates (PN) may confer advantages over unmodified phosphodiester compounds for therapeutic applications (1). Previous in vitro data demonstrated that PN Oligodeoxynucleotides (ODNs) possess several advantageous features, including RNase H-independence, an improved resistance to nuclease degradation, decreased protein binding, and high affinity sequence-specific binding to complementary RNAs (1, 2). Consequently, we undertook a study to investigate the effects of PN antisense (AS) oligos targeted against the p65 subunit of the Nuclear Factor Kappa beta (NF-kappaB) transcription factor in vivo, in mice. The ability of the antisense molecules to inhibit IL-6 elevation induced by lipopolysaccharide (LPS) in mice, was studied. A 16 mer uniformly modified PN and a chimeric phosphoramidate-phosphodiester oligodeoxynucleotide complementary to the region surrounding the starting codon, (PN-PO-PN) of the NK-kappaB p65 subunit mRNA, both caused a sequence specific reduction of the serum IL-6 level in mice. A scrambled oligodeoxynucleotide showed much lower IL-6 inhibition in mice. These results show that the p65 PN-AS can modulate expression of IL-6 in mice without uptake enhancers and therefore may be a useful prototype for RNAse-H independent therapeutic agents.
...
PMID:Inhibition of IL-6 in mice by anti-NF-kappaB oligodeoxyribonucleotide N3'-->oligodeoxyribonnucleotide N3' --> P5' phosphoramidates. 1056 71

We have designed and studied antisense oligodeoxynucleotides (oligonucleotides; oligos) which we call 'pseudo-cyclic oligonucleotides' (PCOs). PCOs contain two oligonucleotide segments attached through their 3'-3'- or 5'-5'-ends. One of the segments of the PCO is an antisense oligo complementary to a target mRNA, and the other is a short protective oligo that is 5-8 nucleotides long and complementary to the 3'- or 5'-end of the antisense oligo. As a result of complementarity between the antisense and protective oligo segments, PCOs form intramolecular pseudo-cyclic structures in the absence of the target RNA. The antisense oligo segment of PCOs used for the studies described here is complementary to an 18-nucleotide-long site on the mRNA of the protein kinase A regulatory subunit RIalpha (PKA-RIalpha). Thermal melting studies of PCOs in the absence and presence of the complementary RNA suggest that the pseudo-cyclic structures formed in the absence of the target RNA dissociate, bind to the target RNA, and form heteroduplexes. The results of RNase H cleavage assays suggest that PCOs bind to complementary RNA and activate RNase H in a manner similar to that of an 18-mer conventional antisense PS-oligo. In snake venom (a 3'-exonuclease) or spleen (a 5'-exonuclease) phosphodiesterase digestion studies, PCOs are more stable than conventional antisense oligos because of the presence of 3'-3'- or 5'-5'-linkages and the formation of intramolecular pseudo-cyclic structures. PCOs with a phosphorothioate antisense oligo segment inhibited cell growth of MDA-MB-468 and GEO cancer cell lines similar to that of the conventional antisense PS-oligo, suggesting efficient cellular uptake and target binding. The nuclease stability studies in mice suggest that PCOs have higher in vivo stability than antisense PS-oligos. The studies in mice showed similar pharmacokinetic and tissue distribution profiles for PCOs to those of antisense PS-oligos in general, but rapid elimination from selected tissues.
...
PMID:Pseudo-cyclic oligonucleotides: in vitro and in vivo properties. 1065 77

Truncated tRNA-DNA mimics were examined in an in vitro assay for second-strand transfer during human immunodeficiency virus type 1 (HIV-1) reverse transcription. Strand transfer in this system requires the progressive degradation of the RNA within the 18-mer tRNA-DNA (plus-strand strong stop DNA) intermediate to products approximately 8 nucleotides in length. The ability of the truncated substrates to substitute for directional processing by RNase H or reverse transcriptase (RT) was examined. Using wild-type HIV-1 RT, substrates which truncated the 5' end of the tRNA primer by 6, 9, and 12 nucleotides (Delta6, Delta9, and Delta12, respectively) were recognized by RNase H and resulted in strand transfer. An overlap of 5 nucleotides between the acceptor and newly synthesized DNA template was sufficient for strand transfer. The mutant RT, E478Q correctly catalyzed the initial cleavage of the 18-mer tRNA-DNA mimic in the presence of Mn(2+); however, no directional processing was observed. In contrast, no RNase H activity was observed with the Delta6, Delta9, and Delta12 substrates with E478Q RT in this strand transfer assay. However, when complemented with Escherichia coli RNase H, E478Q RT supported strand transfer with the truncated substrates. E478Q RT did cleave the truncated forms of the substrates, Delta6, Delta9, and Delta12, in a polymerase-independent assay. The size requirements of the substrates which were cleaved by the polymerase-independent RNase H activity of E478Q RT are defined.
...
PMID:Comparison of second-strand transfer requirements and RNase H cleavages catalyzed by human immunodeficiency virus type 1 reverse transcriptase (RT) and E478Q RT. 1100 Feb 39

We studied the E. coli RNase H cleavage of a 5'-labeled RNA fragment within two hybrid duplexes with identical sequences, one of which is formed by RNA and a 20-mer oligodeoxyribonucleotide (RNA/p20), whereas the second, by RNA and a tandem of short oligodeoxyribonucleotides (octanucleotide: (RNA/tandem). It was shown that RNA in the RNA/p20 complex is hydrolyzed from the 3'-end to yield consecutively the 17-, 14-, 11-, 8-, and 5-mer 5'-labeled fragments. On hydrolysis of RNA in complex RNA/tandem, the same products were registered, but their accumulation rates in this case differed. Thus, the initial rates of accumulation of the 17- and 8-mer were close. Moreover, the accumulation of the final 5-mer differed considerably: in the RNA/tandem complex it appeared within first minutes of the reaction, but only after a considerable lag period in complex RNA/p20. These data testify that the tandem is involved not only in the consecutive accumulation of the shortened products (which is characteristic of complexes including extended oligonucleotides) but also in the parallel accumulation. This results from hydrolysis of each duplex segment formed by RNA and the short oligonucleotide of the tandem. Although the order of recognition and cleavage of RNA target by ribonuclease H depends on the type of the hybrid duplex, the destruction of RNA target within complex RNA/tandem and in complex with the full-size oligonucleotide occurs with a close effectiveness.
...
PMID:[Cleavage of RNA in hybrid duplexes by ribonuclease H from E. coli. I. Substrate properties of complexes formed by RNA and tandem of short oligodeoxyribonucleotides]. 1122 Dec 53

To construct a DNA-linked RNase H, which cleaves RNA site-specifically at high temperatures, the 15-mer DNA, which is complementary to the polypurine-tract sequence of human immunodeficiency virus-1 RNA (PPT-RNA), was cross-linked to the unique thiol group of Cys135 in the Thermus thermophilus RNase HI variant. The resultant DNA-linked enzyme (d15-C135/TRNH), as well as the d15-C135/ERNH, in which the RNase H portion of the d15-C135/TRNH is replaced by the Escherichia coli RNase HI variant, cleaved the 15-mer PPT-RNA site-specifically. The mixture of the unmodified enzyme and the unlinked 15-mer DNA also cleaved the PPT-RNA but in a less strict manner. In addition, this mixture cleaved the PPT-RNA much less effectively than the DNA-linked enzyme. These results indicate that the cross-linking limits but accelerates the interaction between the enzyme and the DNA/RNA substrate. The d15-C135/TRNH cleaved the PPT-RNA more effectively than the d15-C135/ERNH at temperatures higher than 50 degrees C. The d15-C135/TRNH showed the highest activity at 65 degrees C, at which the d15-C135/ERNH showed little activity. Such a thermostable DNA-linked RNase H may be useful to cleave RNA molecules with highly ordered structures in a sequence-specific manner.
...
PMID:Efficient cleavage of RNA at high temperatures by a thermostable DNA-linked ribonuclease H. 1123 88

RNA--DNA hybrid duplexes are involved in transcription, replication and reverse transcription of nucleic acids. Information on such duplexes may shed some light on the mechanism of these processes. For this purpose, the influence of base composition on the structure of a polypyrimidine--polypurine RNA--DNA duplex r(cucuccuucucuu). d(GAGAGGAAGAGAA) has been studied using 1H, 31P and 13C NMR experiments, molecular modeling (JUMNA program) and NOE back-calculation methods. The resulting structure of the 13-mer hybrid duplex shows that the RNA strand is in the expected A-type conformation while the DNA strand is in a very flexible conformation. In the DNA strand, the desoxyribose sugars retain the C2'-endo B-type conformation. The duplex helical parameters (such as inclination, twist and displacement of the bases) are close to the A-type conformation. No bending was observed for the global axis curvature. The major groove width is close to the B-form value and the minor groove width is intermediate between standard values for A and B-forms. These results are in favour of the independence of minor groove size (where RNase H interacts) and the base composition of the hybrid duplexes.
...
PMID:Solution conformation of an RNA--DNA hybrid duplex containing a pyrimidine RNA strand and a purine DNA strand. 1131 17

The properties of new chimeric oligodeoxynucleotides made of short sequences (tetramers, pentamers, octamers, and decamers) bridged by hexamethylenediol and hexaethylene glycol linkers have been investigated. These chimeric oligonucleotides showed an improved resistance toward snake venom 3'-phosphodiesterase, with an increased stability when a terminal 3'-3'-internucleotide phosphodiester bond is present. It also has been demonstrated that the hybrid complexes formed by bridged oligonucleotides and a complementary 20-mer RNA are able to elicit the activity of ribonuclease H (RNase H) from Escherichia coli. The substrate properties of chimeric oligonucleotides depend on the length of the oligonucleotide fragments bridged by linkers. Introduction of a nonnucleotide spacer into the native oligonucleotide only slightly hampers the extent of the RNA hydrolysis in the hybrid complexes, whereas a modification of the site of reaction is observed as a possible consequence of the steric disturbance due to the aliphatic linkers. Hence, these new chimeric oligonucleotides, namely, short oligonucleotide fragments bridged by nonnucleotide linkers, demonstrate a favorable combination of exonuclease resistance and high substrate activity toward RNase H. As a consequence, these chimeric oligonucleotides could be proposed as new, promising analogs to be used in the antisense strategy.
...
PMID:Nuclease resistance and RNase H sensitivity of oligonucleotides bridged by oligomethylenediol and oligoethylene glycol linkers. 1133 43

HIV-1 reverse transcriptase (HIV-1 RT) is a multifunctional enzyme responsible for converting viral RNA into preintegrative DNA during the early stages of viral infection. DNA polymerase and RNase H activities are required, and several conformationally distinct primer-templates must be accommodated by the enzyme during the process. Parameters of interaction between model substrates (ligands) and HIV-1 RT (wild type p66/p51 and the RNase H-deficient mutant p66(E478Q)/p51) (analytes) were estimated by surface plasmon resonance at 25 degrees C, pH 8.0. Binding of RT to the ligands is specific and can be analyzed using a conventional 1:1 binding algorithm. RNA-DNA hybrids with 5'-template overhangs of 6 and 12 nucleotides bind to RT approximately one order of magnitude stronger than the corresponding 36-mer with blunt ends due to slower dissociation. Immobilization of the latter through either the 5'-end of RNA or DNA strand does not change the equilibrium constant (K(D)) for wild-type RT but the values of kinetic constants of association and dissociation differ significantly. For the p66(E478Q)/p51 enzyme, orientation effects are notable even altering the K(D) value. Binding of the p66(E478Q)/p51 to any RNA-DNA hybrids is slightly stronger compared with wild type. Data can be interpreted in terms of the mechanism of reverse transcription.
...
PMID:HIV-1 reverse transcriptase interaction with model RNA-DNA duplexes. 1140 Dec 93

The 20-mer bridged oligodeoxynucleotides containing short oligomers joined by the hexamethylenediol and hexaethylene glycol linkers were shown to form complementary DNA/DNA and RNA/DNA complexes whose thermostability depends on the length and number of the nonnucleotide linkers. Hybrid complexes of the bridged oligonucleotides proved to be substrates for the E. coli ribonuclease H. The presence of one-three nonnucleotide linkers in a 20-mer decreased the hydrolysis efficacy only 1.2-1.4-fold. It is the composition of the RNA cleavage products that was influenced the most significantly by the nonnucleotide linkers. RNase H simultaneously hydrolyzed the RNA 3'-ends of each hybrid duplex involving a bridged oligonucleotide. The presence of an inverted 3'-3'-phosphodiester bond at the 3'-end of the oligodeoxyribonucleotide only slightly affected the RNase H activity.
...
PMID:[Cleavage of RNA in hybrid duplexes by E. coli ribonuclease H. II. Substrate properties of nucleotides containing non-nucleotide linkers]. 1169 95

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