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)

The sequence of 129 nucleotides next to the poly(A) tail of encephalomyocarditis virus RNA has been determined by rapid gel sequencing of cDNA synthesized with DNA polymerase I or reverse transcriptase and a phasing primer, [5'-32P]p(dT)8dC. The sequence is in accord with (a) the pyrimidine tracts which were mapped in blocks along the cDNA, (B) the sequences of seven characteristic T1 RNase oligonucleotides in the RNA transcribed from the cDNA with RNA polymerase, and (c) a limited amount of sequence deduced by partial spleen phosphodiesterase digestion and depurination of endonuclease IV oligonucleotides. The 3' end shows little secondary structure on its own. Ten nonsense codons block all three reading frames such that at least 26 nucleotides do not code for protein. The possible function of a homology A-A-U-A-A-A with other polyadenylated RNAs is discussed.
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PMID:Sequence of 129 nucleotides at the 3'-terminus of encephalomyocarditis virus RNA. 7 85

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

The chemical polarities of the two strands of polyoma virus DNA with respect to the DNA physical map have been determined by hybridization of restriction endonuclease fragments specifically labeled with [125I]dCMP at their 3' termini to asymmetric polyoma complementary RNA (the product of in vitro transcription of viral DNA by Escherichia coli RNA polymerase). The orientations of the polyoma-specific stable RNA transcripts present in the cytoplasm of productively linfected mouse cells have been deduced from this result: the 5' ends of the early and late viral transcripts map very near the origin of viral DNA replication.
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PMID:Orientation of the complementary strands of polyoma virus DNA with respect to the DNA physical map. 17 85

Simian virus 40 (SV40) DNA I was transcribed with Escherichia coli RNA polymerase in the presence of gamma-32P-labeled ribonucleoside triphosphates in order to investigate the specificity of initiation of in vitro transcription. ATP and GTP served as predominant initiating nucleotides, the former being incorporated about twice as much as the latter. Cleavage of [gamma-32P]ATP-labeled SV40 complementary RNA (cRNA) with T1 RNase followed by homochromatographic analysis of the resultant 5' initiation fragments revealed the presence of four specific initiation fragments 6 to 9 nucleotides in length, designated AI, AII, AIIIa, and AIIIb. By means of hybridization of [gamma-32P]ATP-labeled SV40 cRNA to DNA from specific adenovirus 2-SV40 hybrids and specific restriction endonuclease fragments of SV40 DNA before chromatographic analysis, it was possible to identify and determine approximate localizations of five [gamma-32P]ATP initiation sites on the SV40 genome: one in Hin-G close to the Hin-G-B junction, giving rise to the AII fragment, two in the overalpping fragment Hin-A-Hae-A,giving rise to AI and AIII fragments, and two in the fragment Hin-A-Hae-E, also giving rise to AI and AIII fragments. All five sites either fall within or lie near regions of the genome that are cleaved by S1 nuclease and subject to partial alkaline denaturation. These five sites lie on the minus strand of SV40 DNA and initiate RNAs that are copied in a leftward direction. Cleavage of [gamma-32P]GTP-labeled cRNA with pancreatic RNase liberated three major 5' initiation fragments of short length, GI, GII, and GIII, suggesting the presence of three principal GTP initiation sites.
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PMID:Specificity of initiation of transcription of simian virus 40 DNA I by Escherichia coli RNA polymerase: identification and localization of five sites for initiation with [gamma-32P]ATP. 19 61

Polyacrylamide gel electrophoresis and tryptic peptide fingerprint analysis of the proteins made in a cell-free system derived from L-cells and immunoprecipitated with simian virus 40 (SV40) anti-T serum demonstrated that both SV40 large-T and small-T antigens are synthesized in vitro in response to mRNA isolated from productively infected CV1 CELLS. Sucrose density centrifugation in gradients containing 85% formamide showed that the mRNA's for both forms of T-antigen sediment at about 17.5S, with the mRNA for small-t sedimenting marginally, but reproducibly, ahead of the mRNA for large-T. Hybridization experiments using restriction endonuclease fragments Hae III-E and Hind II/III-B showed that all fractions active in the cell-free synthesis of both forms of T-antigen hybridized equally to both fragments. This suggests that the mRNA's for SV40 T-antigens are at least partly virus coded and that the bulk of the early SV40 mRNA contains sequence information from both ends of the early region. The data are consistent with the suggestion that the large-T mRNA is spliced. SV40 complementary RNA (the product of transcription of SV40 DNA using Escherichia coli RNA polymerase) was also translated in the L-cell system and gave two families of polypeptides which specifically immunoprecipitate with anti-T serum. One family (the small-t family) includes a polypeptide indistinguishable by gel electrophoresis and tryptic peptide fingerprinting from small-t isolated from cells. The other family (the 60K family) has a major component with molecular weight approximately 60,000 and includes other polypeptides with molecular weights ranging from approximately 14,000 to about 70,000. The 60K family has petides in common with large-T but not with small-T. Together, the peptides of the small-t and 60K families account for virtually all of the methionine peptides of SV40 large-T. We conclude from these results (i) that small-t is probably entirely, and large-T at least predominantly, virus coded; (ii) that the small-t and 60K families represent the translation products of two different portions of the early region of SV40 DNA (approximately 0.65 to 0.55 map units and 0.54 to 0.17 map units); and (iii) that although most, if not all, of the large-T and small-t peptides are present in the cell-free product, some feature of sequence arrangement of SV40 complementary RNA prevents the translation of full-length large-T and results instead in the synthesis of fragments. We suggest that the absence of a splice in the complementary RNA is responsible for this result.
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PMID:Cell-free synthesis of simian virus 40 T-antigens. 21

We have determined the nucleotide sequence of a Hpa II restriction fragment of the phage T7 DNA containing a promoter for the phage-specified RNA polymerase. (Hpa II is a restriction endonuclease from Haemophilus parainfluenzae.) Mapping of the Hpa II restriction fragments on the T7 genome shows this promoter to be the second of tandem promoters separated by approximately 170 base pairs that begin transcription by the T7 RNA polymerase at approximately 15% of the genome. Features of the sequence involved in recognition by the T7 RNA polymerase are discussed and include the following region of hyphenated 2-fold symmetry (boxed regions are related through a 2-fold axis of symmetry at the center of the sequence shown). (See article). This sequence includes the initiation site, since the message transcribed from this fragment begins pppG-G-G-A. Combination of our results with work of others has permitted this fragment to be mapped at the junction of T7 genes 1 and 1.1. The RNA transcribed from this fragment begins within gene 1 and contains the RNase III cleavage site that lies between genes 1 and 1.1. This sequence is compared to other processing sites in T7 early message.
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PMID:Structure of a promoter for T7 RNA polymerase. 27 Jun 69

The interaction of Escherichia coli DNA-dependent RNA polymerase (EC 2.7.7.6) with the replicative form of the DNA from the filamentous coliphage fd cleaved by the restriction endonuclease HindII has been studied by electron microscopy at low and high ionic strength. In the presence of ATP or GTP, and heparin, RNA polymerase binds to fd replicative-form DNA at a few specific sites which have been mapped. The map was oriented so that transcription is from right to left. Three main GTP initiator sites are found at 15%, 82% and 94% of the genome length. One main ATP initiator site is found which cannot be mapped with the same accuracy, and which is localized between 38% and 50%. In the absence of initiator triphosphates and heparin, the binding of the enzyme to fd DNA is much more heterogeneous and therefore the mapping is more difficult. Nevertheless it seems that the preferential binding regions correspond to the specific sites mapped in the presence of GTP or ATP. The mean number of polymerase molecules bound to DNA as a function of the molecular ratio enzyme to DNA present in the mixture has been determined. From these results a binding isotherm can be obtained. The apparent equilibrium constant (K approximately 10(9) M-1) which is derived certainly represents an under-estimated value, as discussed.
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PMID:Electron microscopy analysis of the interaction between Escherichia coli DNA-dependent RNA polymerase and the replicative form of phage fd DNA. 1. Mapping of the binding sites. 33 31

The interaction of bacteriophage T7 specific RNA polymerase with its cognate promoter sites has been probed by selectively replacing bases in one T7 promoter site with base analogs. Base analogs such as 2,6-diaminopurine or hypoxanthine, which alter residues appearing in the minor groove of the DNA helix, prevent utilization of the promoter by T7 RNA polymerase. These analogs do not affect transcription which starts outside of the modified region. In contrast, base analogs that have alterations that appear in the major groove of the DNA helix, such as uracil, 5-bromouracil, 5-methylcytosine, 5-hydroxymethylcytosine, and [5-HgSR]pyrimidines, do not prevent utilization of the promoter. The deoxyribonucleoside analog 5'-imino-5'-deoxythymidine, an alteration appearing in the deoxyribose-phosphodiester backbone of the DNA helix, does not prevent promoter recognition. Haemophilus aegyptius restriction endonuclease III, which cleaves DNA at the sequence 5'GGCC3', does not act at sites in which the guanine residues in one of the two DNA strands have been substituted with hypoxanthine. This implicates the guanine amino group in the minor groove of the DNA helix as a possible recognition point for this restriction endonuclease.
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PMID:Transcription of T7 DNA containing modified nucleotides by bacteriophage T7 specific RNA polymerase. 35 45

By employing a system of RNA polymerase binding and restriction endonuclease digestion, we demonstrate that the region in and around the Hind III site of pBR313 and pBR322 is the promoter for the tetracycline (Tc) resistance gene(s). Furthermore, it is shown that this region was transferred intact from pSC101 during the construction of the latter plasmids. The in vitro insertion of a few base pairs at the Hind III site produces a series of "down" promoter mutations in which the level of in vivo Tc resistance is reduced. Sequence analysis of the various promoter mutations revealed significant base pair rearrangements in the region between -40 and -12 of the promoter. While these base alterations do not appear to affect the firm binding of RNA polymerase, they do affect the ability of mutant promoters to initiate transcription. These observations suggest that the region from -40 to -12, previously designated as the "recognition region", is actually involved in the process of initiation of transcription.
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PMID:Characterizing wild-type and mutant promoters of the tetracycline resistance gene in pBR313. 38 66

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

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