EC:3.1.27.1 - FACTA Search

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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)

We have explored the use of short (10-mer), fully sequence-randomized oligonucleotide libraries for affinity-based screening in solution for energetically preferred sites of hybridization of a model 47-nucleotide (nt) mutant Ha-ras mRNA stem-loop fragment. In characterizing the model, binding studies using either a gel mobility-shift assay or an RNase ONE footprinting assay indicated the presence of a greatly preferred hybridization site for individual antisense RNA oligonucleotides on the 5'-most side of the ras RNA 19-nt loop. However, initial attempts to affinity-titrate combinatorial uniform 2'-O-methyl-substituted oligonucleotide libraries for selective binding to this 5'-loop site using an RNase ONE footprinting assay that can discriminate between binding to different sites on ras RNA were unsuccessful. By reducing the complexity of the library to a mix of seven RNA oligonucleotides complementary to a range of sites on ras RNA and with no self-complements, footprinting evidence for binding was obtained but was characterized by ras RNA site-specific binding constants differing dramatically from binding constants for individual oligonucleotides. The library complexity was reduced further to three different cases of two RNA oligonucleotides, one of which for all cases was the highest affinity 5'-loop complement. Detailed kinetic and thermodynamic binding analyses revealed a good fit of the data to independent (5'-loop and ascending stem sites), competitive (overlapping 5'-loop sites), or mutually allosteric (5'-loop and 3'-loop sites) formalisms and an energetics description showed that ras 5'-loop site-specific binding could be achieved by affinity titration only for the independent case. Reconstruction of events with the full complexity library suggested that there was the emergence of multiple, linked binding interactions and implied that successful hybridization affinity screening would be achieved only if all possible bimolecular binding interactions of individual library oligonucleotides with target RNA could be made mutually independent. Accordingly, by holding the calculated concentration of unique oligonucleotide sequences of a full complexity DNA library well below the value for the dissociation constant for binding of individual complement to the 5'-loop site and then titrating the concentration of ras RNA through this value, hybridization specific to the 5'-side of the ras loop was demonstrated as assayed either by sequential gel mobility-shift resolution of bimolecular complexes and RNase ONE footprinting in situ in gel slices or by RNase H cleavage of complexes in solution. Because this strategy uses an unbiased oligonucleotide library it should combinatorially identify energetically preferred hybridization sites on folded RNA targets of any sequence and of undetermined structure. This should enable a focused in vitro optimization of antisense oligonucleotide length, sequence, and chemical composition for preferred site binding affinity and specificity which, in turn, may be expected to provide for enhanced biological potency and specificity (Lima et al., 1996). Finally, the complexity constraints encountered and the fundamental requirement to control them presented here also should be applicable to interactions with any biomolecule target of any chemical class of combinatorial library when screened in solution in pooled mixes.
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PMID:Control of complexity constraints on combinatorial screening for preferred oligonucleotide hybridization sites on structured RNA. 912 23

Retroviral RNases H are similar in sequence and structure to Escherichia coli RNase HI and yet have differences in substrate specificities, metal ion requirements, and specific activities. Separation of reverse transcriptase (RT) into polymerase and RNase H domains yields an active RNase H from murine leukemia virus (MuLV) but an inactive human immunodeficiency virus (HIV) RNase H. The "handle region" present in E. coli RNase HI but absent in HIV RNase H contributes to the binding to its substrate and when inserted into HIV RNase H results in an active enzyme retaining some degree of specificity. Here, we show MuLV protein containing the C-terminal 175 amino acids with its own handle region or that of E. coli RNase HI has the same specific activity as the RNase H of RT, retains a preference for Mn2+ as the cation required for activity, and has association rate (KA) 10% that of E. coli RNase HI. However, with model substrates, specificities for removal of the tRNAPro primer and polypurine tract stability are lost, indicating specificity of RNase H of MuLV requires the remainder of the RT. Differences in KA, while significant, appear insufficient to account for the differences in specific activities of the bacterial and viral RNases H.
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PMID:The isolated RNase H domain of murine leukemia virus reverse transcriptase. Retention of activity with concomitant loss of specificity. 926 41

The delineation of gene function has always been an intensive subject of investigations. Recent advances in the synthesis and chemistry of oligonucleotides have now made these molecules important tools to study and identify gene function and regulation. Modulation of gene expression using oligonucleotides has been targeted at different levels of the cellular machinery. Triplex forming oligonucleotides, as well as peptide nucleic acids, have been used to inhibit gene expression at the level of transcription; after binding of these specific oligonucleotides, conformational change of the DNA's helical structure prevents any further DNA/protein interactions necessary for efficient transcription. Gene regulation can also be achieved by targeting the translation of mRNAs. Antisense oligonucleotides have been used to down-regulate mRNA expression by annealing to specific and determined region of an mRNA, thus inhibiting its translation by the cellular machinery. The exact mechanism of this type of inhibition is still under intense investigation and is thought to be related to the activation of RNase H, a ribonuclease that is widely available that can cleave the RNA/DNA duplex, thus making it inactive. Another well-characterized means of interfering with the translation of mRNAs is the use of ribozymes. Ribozymes are small catalytic RNAs that possess both site specificity and cleavage capability for an mRNA substrate, inhibiting any further protein formation. This review describes how these different oligonucleotides can be used to define gene function and discusses in detail their chemical structure, mechanism of action, advantages and disadvantages, and their applications.
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PMID:Oligonucleotides as modulators of cancer gene expression. 935 87

Hormone-sensitive lipase (HSL) catalyses the rate-limiting step of adipose tissue lipolysis. The human HSL gene is composed of nine exons encoding the adipocyte form and a testis-specific coding exon. Northern blot analyses showed that human adipocytes express a 2.8 kb HSL mRNA, suggesting the presence of a short (20-150 bp) 5' untranslated region (5'-UTR). A single 5'-UTR of approx. 70 nt was detected in RNase H mapping experiments. Two 5'-UTRs of 70 and 170 nt respectively were obtained by rapid amplification of cDNA ends and cDNA library screenings. RNase protection experiments, with probes derived from the two products, showed that human adipocyte HSL mRNA contains only the 70 nt product. Primer extension analysis mapped the transcriptional start site 74 nt upstream of the start codon. In HT29, a human cell line expressing HSL, the presence of the short or the long 5'-UTR is mutually exclusive. The short and long 5'-UTR exons were located 1.5 and approx. 13 kb respectively upstream of the first coding exon. Various portions of the 5'-flanking region upstream of the short product exon were linked to the luciferase gene and transfected into cells that express HSL (HT29 cells and rat adipocytes) and do not express HSL (HeLa cells). High luciferase activity was found for constructs containing the sequence between nt -2400 and -86, but not for shorter constructs. An analysis of 14 kb of genomic sequence revealed the presence of five DNase I hypersensitive sites associated with active gene transcription. Three of the sites are located in the vicinity of the transcriptional start site and could be linked to the minimal promoter activity. Two of the sites are located downstream of the exon containing the start codon, suggesting the presence of intronic regulatory elements.
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PMID:Characterization of the promoter of human adipocyte hormone-sensitive lipase. 937 1

Thyrotropin-releasing hormone (TRH) from the hypothalamus is the major regulator of TSH synthesis and secretion. Most recently, TRH and TRH receptors (TRH-R), as well as their mRNAs, have been identified in rat testis. To expand our knowledge on the testicular TRH and TRH receptor gene expression in different species, in the present study the mRNA levels of testicular TRH and TRH-R were investigated in Siberian hamsters. To further localize the cellular sites of the gene expression, the animal model was treated with a single injection of ethylene dimethane sulfonate (EDS) (i.p., 80 mg/kg body weight), a compound known as to specifically eliminate testicular Leydig cells. The elimination of Leydig cells induced by EDS treatment was confirmed by histological studies of the testis sections and by serum hormonal analyses, which showed a dramatic reduction of serum testosterone (T) levels and significantly elevated serum LH concentrations. Messenger RNA levels of TRH and TRH-R in the testes were determined by Northern blot analyses quantitated with densitometry scanning. The results showed that specific TRH-R mRNA, 3.8 kb in size, was identified in Siberian hamster testes and the mRNA levels were significantly elevated in the EDS-treated testes compared to the controls (p < 0.01). Testicular TRH mRNA was also detected; however, no significant differences in TRH mRNA levels were found between EDS-treated and control groups. The size of TRH mRNA was characterized as about 1.2 kb in hamster testes, which was smaller than that observed in the rat hypothalamus (1.6 kb) and in the rat testis (2.0 kb). Further studies by RNase H digestion revealed the presence of smaller TRH transcripts in the hamster testes than those in the rat testis. No hybridization signal for TRH mRNA was detected by RNase protection assay, when a rat TRH riboprobe was applied to hamster testis RNA, suggesting the limited homology of TRH gene sequences between these two species. Our results demonstrate that both TRH and TRH-R genes are expressed in Siberian hamster testes, and a significant increase of TRH-R mRNA levels occurs in the Leydig cell eliminated hamster testes. Unlike the rat testicular TRH mRNA mainly detected in Leydig cells, in hamster TRH mRNA could also be detected in other testicular compartment.
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PMID:The detection of thyrotropin-releasing hormone (TRH) and TRH receptor gene expression in Siberian hamster testes. 939 64

We have cloned and functionally characterized the RNase H1 gene from D. melanogaster. The longest open reading frame consists of 5 exons that encode a 333 amino acid protein with a molecular mass of 37.1 kDa. This is the first demonstration of specific nuclease activity of a cloned RNase gene from a multicellular higher eukaryote. No additional proteins or cofactors are required for this nuclease activity. Comparison of Drosophila RNase H1 amino acid sequence to that of other cellular eukaryotic homologs reveals the presence of three evolutionarily distinct domains. The N- and C-terminal conserved domains are connected by a highly variable domain. The C-terminal domain has high amino acid similarity to bacterial RNase HI and the RNase H domain of retroviral reverse transcriptase, while the N-terminus, of unknown function, is similar to the P6 translational activator of caulimoviruses.
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PMID:Functional characterization of RNase H1 from Drosophila melanogaster. 939 56

We cloned the Saccharomyces cerevisiae homologue of mammalian RNase HI, which itself is related to the prokaryotic RNase HII, an enzyme of unknown function and previously described as having minor activity in Escherichia coli. Expression of the corresponding yeast 35 kDa protein (named by us RNase H(35)) in E. coli and immunological analysis proves a close evolutionary relationship to mammalian RNase HI. Deletion of the gene (called RNH35) from the yeast genome leads to an about 75% decrease of RNase H activity in preparations from the mutated, still viable cells. Sequence comparison discriminates this new yeast RNase H from earlier described yeast enzymes, RNase H(70) and RNase HI.
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PMID:Yeast RNase H(35) is the counterpart of the mammalian RNase HI, and is evolutionarily related to prokaryotic RNase HII. 946 32

We have cloned, expressed, and purified to electrophoretic homogeneity a human RNase H. The enzyme has a molecular weight of 32 kDa, is Mg2+ dependent, and is inhibited by Mn2+ and N-ethylmaleimide. Its molecular weight and cleavage characteristics are consistent with type 2 human RNase H. The human RNase H we have cloned is highly homologous to Escherichia coli RNase HI (33.6% amino acid identity) and to other RNase H enzymes homologous to E. coli RNase HI. The enzyme is encoded by a single gene that is at least 10 kb in length and is expressed ubiquitously in human cells and tissues.
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PMID:Molecular cloning and expression of cDNA for human RNase H. 951 96

Eukaryotic RNases H from Saccharomyces cerevisiae , Schizosaccharomyces pombe and Crithidia fasciculata , unlike the related Escherichia coli RNase HI, contain a non-RNase H domain with a common motif. Previously we showed that S.cerevisiae RNase H1 binds to duplex RNAs (either RNA-DNA hybrids or double-stranded RNA) through a region related to the double-stranded RNA binding motif. A very similar amino acid sequence is present in caulimovirus ORF VI proteins. The hallmark of the RNase H/caulimovirus nucleic acid binding motif is a stretch of 40 amino acids with 11 highly conserved residues, seven of which are aromatic. Point mutations, insertions and deletions indicated that integrity of the motif is important for binding. However, additional amino acids are required because a minimal peptide containing the motif was disordered in solution and failed to bind to duplex RNAs, whereas a longer protein bound well. Schizosaccharomyces pombe RNase H1 also bound to duplex RNAs, as did proteins in which the S.cerevisiae RNase H1 binding motif was replaced by either the C.fasciculata or by the cauliflower mosaic virus ORF VI sequence. The similarity between the RNase H and the caulimovirus domain suggest a common interaction with duplex RNAs of these two different groups of proteins.
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PMID:A common 40 amino acid motif in eukaryotic RNases H1 and caulimovirus ORF VI proteins binds to duplex RNAs. 951 60

In a previous study, random-sequence proteins of 120-130 amino acid residues were inserted into the surface loop region of the enzyme, Escherichia coli RNase HI [Doi et al. (1997) FEBS Lett. 402, 177-1801. Here we established that the RNase H activity of the insertion mutants is correlated with their secondary structure contents evaluated by circular dichroism measurement at 222 nm. The random-sequence insert of a mutant enzyme possessing relatively high RNase H activity was detached from the RNase HI scaffold, and its characterization indicated that the random-sequence protein maintains its secondary structure after separation from the scaffold. Thus, the structural features of random-sequence proteins were suggested to be monitored by measuring the activity of the scaffold enzyme into which these proteins have been inserted.
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PMID:Characterization of random-sequence proteins displayed on the surface of Escherichia coli RNase HI. 961 98

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