EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the special feature of ribosomal RNA promoters that might account for the highly efficient and regulated synthesis of rRNA in E. coli, we have analyzed the beginnings of two ribosomal RNA operons, rrnD and rrnX. DNA sequences for 425 bp preceding those specifying mature 16s rRNA are reported. In vitro transcription of restriction endonuclease fragments containing this region from either operon reveals the presence of two promoters about 110 nucleotides apart; they are denoted P1 and P2. RNA synthesis from P1 is initiated with GTP at position -284 (relative to 16s sequences) in rrnD and with ATP at position -285 in rrnX. At P2, the RNA starts with CTP primarily at position-176 in both operons. The DNA sequences of the two operons are identical for 231 bp preceding the 16s rDNA (including a substantial region around P2); they then diverge almost completely, except for a notable 18 bp homology just preceding the transcription start site for P1. Certain sequences implicated in the recognition of promoters by E. coli RNA polymerase are clearly identifiable in both P1 and P2; other features include an extended region preceding P1 which is strikingly rich in AT base pairs. Possible mechansims by which these tandem promoters contribute to the high frequency of rRNA transcription and to the differential expression of the E. coli rrn operons are discussed.
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PMID:Tandem promoters direct E. coli ribosomal RNA synthesis. 11 Apr 60

A simple method is described for the iodination of herpes simplex virus (HSV) DNA. The procedure involved synthesis of 125-I-labeled 5-iodo-dCTP which was subsequently used as a precursor for the in vitro repair synthesis of HSV DNA. Synthesis of 5-iodo-dCTP and purification from oxidation and reduction reagents, buffer salts, unreacted dCTP and Na125-I was accomplished in a single chromatographic step. It was possible to prepare 125-I-labeled HSV DNA in vitro with specific activities exceeding 10-8 counts/min/mu-g. The DNA prepared by this method reassociated with DNA extracted from HSV-infected HEp-2 cells but not with HEp-2 cell DNA. Iodinated HSV DNA was susceptible to S-1-endonuclease digestion once denatured but was resistant to digestion in the native form. This method was used to synthesize 125-I-labeled ribo-CTP (5-iodo-CTP) which was used to prepare cytomegalovirus-specific complementary RNA. The method should be of value in the preparation of viral probes and for use in autoradiography of viral nucleic acids.
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PMID:Iodination of herpesvirus nucleic acids. 16 1

DNA polymerase-alpha and -beta can be distinguished from one another by the differential effects of N-ethylmaleimide, KCl, ara-CTP and temperature, as well as on the basis of sedimentation. The sensitivity of DNA polymerase-beta to elevated temperatures as compared to DNA polymerase-alpha provides a new means of distinguishing between these two enzymes even in crude extracts and a possible probe for determining their function. DNA polymerase-alpha and -beta share several properties in common, including the ability to readily incorporate dUTP in place of dTTP. The Km for dUTP varies from 10 to 30 micron with different preparations of DNA polymerase-alpha and -beta. Thus, in mammalian cells, dUMP could be incorporated into DNA, and if excised by an endonuclease, would lead to discontinuities. Initial analyses of fidelity in direct comparative studies indicate that beta-class DNA polymerases are highly accurate in base selection when copying poly[d(A-T)]. Less than one molecule of dGMP is incorporated for every 12 000-45 000 molecules of dAMP and dTMP polymerized. DNA polymerase-alpha is somewhat less accurate, making one mistake for every 4000-10 000 correct nucleotides incorporated. Since both polymerases lack an exonucleolytic activity, this accuracy must be the result of selectivity for the complementary nucleotide by the polymerase.
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PMID:Distinctive properties of mammalian DNA polymerases. 28 7

This paper presents the location and nucleotide sequence of a strong promoter of ColE 1. This promoter is of interest because of its greatly enhanced activity in the supercoiled state of the plasmid DNA (3) and its possible role in the maintenance of the plasmid replicon (4). This strong promoter is located at the restriction endonuclease Hae III f-h site 0.13 map units from the single EcoR 1 site proximal to the origin of DNA replication. The nucleotide sequence of the Hpa II l fragment of ColE 1 which contains this promoter has been determined. Initiation of transcription at this promoter occurred at two positions. Limited transcription by omitting one of the four nucleotide triphosphates allowed transcription to proceed to the fourth (-UTP) and to the twelfth (-CTP) nucleotides respectively. This was used to probe the interaction between RNA polymerase and the ColE 10.13 promoter by means of restriction cutting at the Hae III site at =27 and the Hha I site at +17. RNA polymerase binding alone blocks restriction cutting at the HAE III site but not at the Hha I site. Limited transcrption to the fourth nucleotide resulted in blocking at both sites. Transcription to the twelfth nucleotide resulted in partial cutting at the Hae III site and blocking at the Hha I site.
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PMID:Nucleotide sequence determination of a strong promoter of the colicin E 1 plasmid. Analysis of restriction sites protected by RNA polymerase interactions before and after limited transcription. 39 Apr 98

Adenosine (beta,gamma-imido)triphosphate (AMP-PNP) and guanosine (beta,gamma-imido)triphosphate (GMP-PNP) are analogs of ATP and GTP with non-hydrolyzable gamma-phosphates. Although both AMP-PNP and GMP-PNP were used in place of ATP and GTP by Escherichia coli RNA polymerase to transcribe vaccinia virus DNA, only GMP-PNP was used by the transcriptase present within vaccinia virus cores. AMP-PNP specifically prevented initiation of transcription, since RNA initiated in the presence of ATP, GTP, and CTP was subsequently elongated by incubating the washed cores in the presence of AMP-PNP, GTP, CTP, and UTP. The RNA formed in this manner, however, was (i) several times longer than normal transcripts, indicating a defect in chain termination and/or cleavage of nascent RNA, (ii) was not polyadenylylated (although free polyadenylic acid formed), and (iii) was not extruded from the virus cores. Nearest neighbor analysis demonstrated that AMP-PNP was incorporated adjacent to all four nucleotides, and hybridization to restriction endonuclease fragments of vaccinia virus DNA indicated that the high-molecular-weight RNA was transcribed from representative fractions of the entire genome. The possibility of a block in processing rather than or in addition to a block in chain termination was suggested by the cleavage of the high-molecular-weight RNA within the core after replacement of AMP-PNP with ATP. Cleavage of purified high-molecular-weight RNA by a soluble endoribonuclease extracted from vaccinia virus cores, however, was not dependent upon ATP, nor was it inhibited by AMP-PNP. The latter results suggest that AMP-PNP blocks a step preceding cleavage.
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PMID:Multiple roles for ATP in the synthesis and processing of mRNA by vaccinia virus: specific inhibitory effects of adenosine (beta,gamma-imido) triphosphate. 69 Nov 15

We have used differential cell extraction and conventional chromatography to separate and partially purify the four adeno-associated virus (AAV) nonstructural proteins Rep78, Rep68, Rep52, and Rep40. In the cytoplasmic extracts Rep52 and Rep40 were present in greater abundance than Rep68 and Rep78, with Rep78 being the least abundant. In nuclear extracts the four Rep proteins were approximately equal in abundance. Regardless of the subcellular fraction examined, three of the Rep proteins (Rep78, Rep68, and Rep40) consisted of two protein species with slightly different mobilities during polyacrylamide gel electrophoresis. In contrast, Rep52 consisted of only one protein species. Both Rep78 and Rep68 were capable of binding efficiently to AAV terminal hairpin DNA substrates, but we could not detect site-specific DNA binding by Rep52 and Rep40. Like Rep68, Rep78 had both an ATP-dependent trs endonuclease and a DNA helicase activity. Both Rep78 and Rep68 cut the terminal AAV sequence at the same site (nucleotide 124). The binding, trs endonuclease, and DNA helicase activities comigrated during sucrose density gradient centrifugation with a mobility expected for a monomer of the protein, suggesting that the three biochemical activities were intrinsic properties of the larger Rep proteins. The chromatographic behavior and the DNA-binding properties of the four Rep proteins identified at least two domains within the rep coding region, an exposed hydrophobic domain within the C-terminal end (amino acids 578 to 621) and a region within the N terminus (amino acids 1 to 214) which was necessary for binding to the terminal repeat sequence. No site-specific nuclease activity was seen in the presence of nucleotide analogs ATP-gamma-S or AMP-PNP, suggesting that ATP hydrolysis was required for the endonuclease reaction. Furthermore, although ATP was the only cofactor which would support the trs endonuclease activity of Rep78, Rep68 nuclease activity was seen in the presence of several other nucleotide cofactors, including CTP, GTP, and UTP.
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PMID:Partial purification of adeno-associated virus Rep78, Rep52, and Rep40 and their biochemical characterization. 130 94

A thermostable DNA polymerase was prepared from Bacillus caldotenax by using a four-step chromatography procedure. The protein exists as a monomer of M(r) 94,000, has a pI of 4.9 and has no associated 3'-5' or 5'-3'-exonuclease activities or endonuclease activity. The temperature optimum of the enzyme was about 70 degrees C and the pH for maximum activity was about 7.5. The enzyme has an absolute requirement for a bivalent cation, and maximum activity was obtained at the unusually high concentration of 70 mM-MgCl2. Mg2+ could be replaced by MnCl2 or CoCl2, with decreased activity, at the lower optimal concentrations of 1 mM and 2.5 mM respectively. Enzyme activity was inhibited in the presence of 2',3'-dideoxy-TTP, arabinosyl-CTP and aphidicolin. Enzyme activity was stimulated with KCl concentrations of about 100 mM, and concentrations of univalent salts above about 150 mM inhibited activity. The enzyme could use activated calf thymus DNA, poly(dA).p(dT)10 or primed single-stranded phage M13 DNA as a template and maximum activity was obtained with poly(dA).p(dT)10. The enzyme was inactive on unprimed single-stranded DNA, double-stranded DNA and polyribonucleotide template/primer. The apparent Km values for individual dNTPs, determined with the other dNTPs at saturating concentrations, were 5.7 microM (dCTP), 6.3 microM (dATP, dGTP) and 6.4 microM (dTTP). The Km value for the overall incorporation of each dNTP from an equimolar mixture of all four dNTPs was 24.7 microM. The kcat. value was about 1.05 s-1. The kcat./Km value was 0.16-0.18 M-1.s-1 for individual dNTPs and 0.04 for the incorporation of an equimolar mixture of all four dNTPs. Some of the properties of the enzyme show it may be classified as an alpha-Type DNA polymerase.
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PMID:Purification and properties of DNA polymerase from Bacillus caldotenax. 144 54

An ATP-dependent DNA aggregating activity was purified from rat liver by DEAE-cellulose, phosphocellulose, and novobiocin-Sepharose column chromatography. The protein aggregated superhelical, relaxed, single-, or double-stranded DNA in a divalent cation- and ATP-dependent reaction. The DNA aggregating activity was detected by retardation of a DNA-protein complex at the origin on a 1% agarose gel. The protein appeared to exist in solution as a monomer of molecular weight 66,000, and had no DNA polymerase, topoisomerase, recombinase, or ligase activity. The DNA aggregating activity was inhibited by 10 mM nalidixic acid or 1 mM novobiocin but not by 20 mM N-ethylmaleimide or camptothecin. Adenylyl(beta,gamma-methylene)-diphosphonate, adenylyl-imidodiphosphate, or adenosine-5'-O(3-thiotriphosphate) did not substitute for ATP whereas CTP, dTTP, or the ATP analog adenylyl(alpha,beta-methylene)-diphosphonate could replace ATP. The aggregated DNA was only partially dissociated by restriction endonuclease digestion but was completely dissociated by deproteinization with SDS, proteinase K, or chloroform/octanol extraction. On the basis of the molecular weight, thermostability, antigenic property, and amino acid sequence homology in the first 12 positions, we conclude that the rat liver protein is serum albumin and that the ATP-dependent DNA aggregation is a novel function of rat serum albumin.
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PMID:ATP-dependent DNA aggregation is a novel function of rat serum albumin. 189 9

Ammonium sulfate fractionation of a Saccharomyces cerevisiae whole-cell extract yielded a preparation which carried out correct and efficient endonucleolytic cleavage and polyadenylation of yeast precursor mRNA substrates corresponding to a variety of yeast genes. These included CYC1 (iso-1-cytochrome c), HIS4 (histidine biosynthesis), GAL7 (galactose-1-phosphate uridyltransferase), H2B2 (histone H2B2), PRT2 (a protein of unknown function), and CBP1 (cytochrome b mRNA processing). The reaction processed these pre-mRNAs with varying efficiencies, with cleavage and polyadenylation exceeding 70% in some cases. In each case, the poly(A) tail corresponded to the addition of approximately 60 adenosine residues, which agrees with the usual length of poly(A) tails formed in vivo. Addition of cordycepin triphosphate or substitution of CTP for ATP in these reactions inhibited polyadenylation but not endonucleolytic cleavage and resulted in accumulation of the cleaved RNA product. Although this system readily generated yeast mRNA 3' ends, no processing occurred on a human alpha-globin pre-mRNA containing the highly conserved AAUAAA polyadenylation signal of higher eucaryotes. This sequence and adjacent signals used in mammalian systems are thus not sufficient to direct mRNA 3' end formation in yeast. Despite the lack of a highly conserved nucleotide sequence signal, the same purified fraction processed the 3' ends of a variety of unrelated yeast pre-mRNAs, suggesting that endonuclease cleavage and polyadenylation may produce the mature 3' ends of all mRNAs in S. cerevisiae.
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PMID:RNA processing in vitro produces mature 3' ends of a variety of Saccharomyces cerevisiae mRNAs. 216 May 81

As a starting point for the study of the biosynthesis of polyadenylated RNA in bacteria, the characteristics of RNA synthesis by cells of Escherichia coli B made permeable to small molecules by treatment with toluene were examined. Such cells mediated the incorporation of radiolabeled ribonucleoside triphosphates into RNA in a reaction that was sensitive to inhibitors of RNA polymerase and required the simultaneous presence of the four ribonucleoside triphosphates. Between 10 to 15% of the RNA synthesized under these conditions was polyadenylated as shown by affinity chromatography on oligo(dT)-cellulose. The presence of orthophosphate or dADP, inhibitors of polynucleotide phosphorylase, had no effect on the reaction and the rate of RNA synthesis was indistinguishable in the polynucleotide phosphorylase-deficient strain PR-7 and in its otherwise isogenic parent strain PR-100. The poly(A) tracts associated with the newly synthesized RNA could be isolated after exhaustive digestion with pancreatic and T1 ribonucleases and accounted for 14% of the poly(A)-RNA. At least 74% of the poly(A) sequences were located at the 3' ends of RNA molecules and their weight-average length was 48 nucleotide residues. The size distribution of total RNA and poly(A)-RNA synthesized in the toluenized cell system was similar to that of the corresponding pulse-labeled fractions derived from growing cultures. The sequence complexity of poly(A)-RNA and unadenylated RNA synthesized in toluenized cells with [alpha-32P]CTP as the labeled substrate was analyzed by hybridization to fragments of Escherichia coli B DNA generated by digestion with EcoRI restriction endonuclease and immobilized on nitrocellulose sheets. Both RNA fractions hybridized with many DNA fractions, the hybridization patterns being similar with poly(A)-RNA and unadenylated RNA. This indicated that many different types of RNA transcripts synthesized in toluenized cells were subject to polyadenylation, but that polyadenylation was incomplete so that each transcript was present in both an adenylated and an unadenylated state.
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PMID:Synthesis of polyadenylate-containing RNA in vitro in permeable cells of Escherichia coli B. 619 64

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