EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A plasmid that consists of an 812-base-pair segment containing the replication origin of plasmid ColE1 and of a 1240-base-pair segment containing a beta-lactamase gene has been constructed. The plasmid DNA has three principal sites where transcription is initiated in vitro. One is located in the ColE1 segment 555 nucleotides upstream from the origin. Most transcription from this site extends past the origin; some of the transcripts form hybrids spontaneously with the template at their 3' portions. Cleavage of these transcripts by RNase H generates 3' termini at the origin region. When DNA polymerase I is included in the reaction along with RNA polymerase and RNase H, dAMP or dCMP is added directly onto the cleaved RNA molecules, most of which retain the intact 5' terminus. The addition of a deoxyribonucleotide to the cleaved RNA can be regarded as the first step of ColE1 DNA synthesis. Once it has served as a primer, the RNA is eliminated from the product by RNase H.
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PMID:Formation of an RNA primer for initiation of replication of ColE1 DNA by ribonuclease H. 615 50

Transcription of ColE1 DNA by RNA polymerase in vitro starts at two sites in a region required for maintenance of the plasmid. Certain transcripts that start at one of the sites can be cleaved by RNase H and then act as primers for DNA replication. Transcription from the other site produces a RNA approximately 108 nucleotides long (species I or RNA I). Transcripts analogous to the primer and RNA I of ColE1 are produced when p15A or small derivatives of two other ColE1-compatible plasmids, CloDF13 and RSF1030, are used as template. If purified RNA I is added to the transcription reaction containing RNase H, formation of primer is inhibited. Each RNA I can inhibit primer formation by the plasmid that specifies it but has no effect on primer formation by heterologous templates. Thus, the inhibition of primer formation by RNA I is incompatibility specific. Because RNA I does not inhibit initiation or propagation of transcription or the processing of preformed precursors, the step that is sensitive to inhibition is probably formation of the hybrid between the primer precursor and the template. This hybrid is the required substrate for RNase H. Experiments with recombinant plasmids show the region that determines the specificity of response to RNA I to be greater than 300 base pairs upstream of the origin of DNA replication.
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PMID:Inhibition of ColE1 RNA primer formation by a plasmid-specified small RNA. 616 11

Cloned DNA fragments form the human beta-like globin genomic region can be transcribed in vitro by RNA polymerase III. We have investigated the structure of two templates and their transcripts by DNA sequencing, size fractionation of ribonuclease T1 generated oligonucleotides, and ribonuclease H digestion of RNA : DNA duplexes. The data indicate the repetitive DNA sequences, members of the Alu family of interpersed 300 bp reiterated DNA, are imbedded in both templates. The RNAs transcribed from them are composed of an entire Alu family sequence at their 5' ends linked to 3' ends of non-repetitive sequence.
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PMID:Structural analysis of templates and RNA polymerase III transcripts of Alu family sequences interspersed among the human beta-like globin genes. 616 49

DNA polymerase from Micrococcus luteus and RNA polymerase from E. coli catalyze the synthesis of poly(dA) with poly(dT) template, in the presence of ATP and [alpha-32P]dATP. The reaction is completely dependent on poly(A) primer synthesis. Poly(A) chains are covalently extended by DNA polymerase. Primer poly(A) is linked to the product poly(dA) via a 3':5'-phosphodiester bond, and can be specifically removed by ribonuclease H from chick embryos, leaving a 5'-phosphate end of poly(dA). The length of RNA and DNA products appears to be relatively variable. The size of the DNA is less than 3 000 nucleotides.
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PMID:Ribonuclease H from chick embryos cleaves precisely at the junction between the RNA and DNA portion of the hybrid helix. 618 57

Escherichia coli ribonuclease H was purified to near-homogeneity and identified as the only additional factor required for initiation of in vitro Co1E1 DNA replication from the unique origin by RNA polymerase and DNA polymerase I. Both ribonuclease H activity and stimulating activity for Co1E1 DNA synthesis comigrate with the single protein band in gel electrophoresis. These two activities coincide throughout the process of purification. Some DNA synthesis takes place on covalently closed-circular DNA molecules other than Co1E1 DNA with the three purified enzymes. This DNA synthesis is suppressed by an Escherichia coli single-strand DNA binding protein and/or a high concentration of ribonuclease H. Negative superhelicity of template DNA is required for efficient primer formation. No evidence that supports involvement of ribonuclease III in initiation of Co1E1 DNA replication or its regulation was found.
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PMID:Purification of ribonuclease H as a factor required for initiation of in vitro Co1E1 DNA replication. 629 61

The nucleotide sequence of a region of plasmid RSF 1030 that includes the origin of DNA replication was determined using the DNA of a small derivative, pST19. The nucleotide sequence of the pST 19 origin region is very similar to that of the ColE1 origin except for a 25 base pair (bp) deletion about 350 bp upstream of the origin and a considerable difference in the region between 400 and 600 bp upstream of the origin. Replication of pST19 starts at one of three consecutive nucleotides (dA, dA or dC) located at a unique position in the region where the nucleotide sequence is identical to that of the ColE1 origin. There are two major sites of initiation of transcription in the region. Transcription from one of the sites yields the primer precursor that can be cleaved by RNase H to form the primer of about 530 nucleotides long. Transcription from the other site proceeds on the opposite strand and terminates close to the primer initiation site to yield species I RNA (or RNA I) about 105 nucleotides long. The presumed RNA polymerase binding sites in the promoters of these transcripts differ from those of the corresponding ColE1 transcripts. Incompatibility specified by pST19 is different from that specified by ColE1. Hypothetical peptides encoded by the origin region of these plasmids are unlikely to be involved in the determination of incompatibility. It has been shown that RNA I is an incompatibility-group specific inhibitor of primer formation. Despite a significant difference in nucleotide sequence, the primer RNA and RNA I of pST19 can be folded into structures analogous to those of the ColE1 transcripts.
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PMID:Origin of replication of Escherichia coli plasmid RSF 1030. 629 68

If lambda DNA replication is blocked by mutation in any one of several genes essential for replication, intracellular lambda DNA often shows short three-stranded regions called D loops. In this report we show that one arm of a D loop is an RNA . DNA hybrid, whereas the remaining arm is made up of single-stranded DNA. The RNA can be partially removed by RNase A and totally removed by RNase H. Also, D loops do not appear if infections are made in cells treated with rifampin, a potent inhibitor of transcription by Escherichia coli RNA polymerase. Several genes associated with recombination, including the host recA gene, are not essential for D-loop formation.
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PMID:Evidence of RNA in D loops of intracellular lambda DNA. 644 65

The gypsy group of long-terminal-repeat retrotransposons contains elements having the same order of enzyme domains in the pol gene as do retroviruses. Elements in the gypsy group are now known from yeast, filamentous fungi, plants, insects, and echinoids. Reverse transcriptase and RNase H amino acid sequences from elements in the gypsy group--including the recently described SURL elements, TED, Cft1, and Ulysses,--were aligned and analyzed by using parsimony and bootstrapping methods, with plant caulimoviruses and/or retroviruses as outgroups. Clades supported at the 95% level after bootstrapping include (1) 17.6 with 297 and (2) all of the SURL elements together. Other likely relationships supported at lower bootstrap confidence intervals include (1) SURL elements with mag, (2) 17.6 and 297 with TED, and this collective group with 412 and gypsy, (3) Tf1 with Cft1, (4) IFG7 with Del, and (5) all of the retrotransposons in the gypsy group together, to the exclusion of Ty3. In contrast with an earlier analysis, our results place mag within the gypsy group rather than outside of a cluster that contains gypsy group retrotransposons and plant caulimoviruses. Several features of retrotransposon genomes provide further support for some of the aforementioned relationships. The union of SURL elements with mag is supported by the presence of two RNA binding sites in the nucleocapsid protein. Location of the tRNA primer binding site and the presence of a long open reading frame 3' to the pol gene support the 17.6-297-TED-412-gypsy cluster.
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PMID:Phylogenetic relationships of reverse transcriptase and RNase H sequences and aspects of genome structure in the gypsy group of retrotransposons. 750 45

The relationship between RNA synthesis and homologous pairing in vitro, catalyzed by RecA protein, was examined by using an established strand transfer assay system. When a short DNA duplex is mixed with single-stranded circles, RecA protein promotes the transfer of the minus strand of the duplex onto the complementary region of the plus-strand circle, with the displacement of the plus strand of the duplex. However, if minus-strand RNA is synthesized from the duplex pairing partner, joint molecules containing the RNA transcript, the plus strand of the DNA duplex, and the plus-strand circle are also observed to form. This reaction, which is dependent on RNA polymerase, sequence homology, and RecA protein, produces a joint molecule that can be dissolved by treatment with RNase H but not RNase A. Under these reaction conditions, product molecules form even when the length of shared homology between duplex and circle is reduced to 15 bp.
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PMID:A role for RNA synthesis in homologous pairing events. 752 May 27

The organization of the U3, U8, and U13 small nucleolar ribonucleoproteins (snoRNPs) has been investigated in HeLa cells using antisense DNA and 2'-OMe RNA oligonucleotides. Oligomers corresponding to deoxynucleotides that target RNase H degradation of intact RNP particles were synthesized and used for fluorescence in situ hybridization. U3 and U13 are distributed throughout the nucleolus and colocalize with anti-fibrillarin antibodies. U8, however, is organized in discrete ring-like structures near the center of the nucleolus and surround bright punctate regions visualized with anti-RNA polymerase I and anti-UBF/NOR-90 antibodies. In decondensed nucleoli, a necklace of smaller ring-like structures of U8 RNA appear. A model for the recruitment of U8 (and presumably other processing factors) to the sites of rRNA transcription is discussed. Hybridization to mitotic cells showed that unlike pol I and NOR-90, U8 is dispersed into the cytoplasm during mitosis. The subnucleolar organization of U8 is consistent with its demonstrated participation in early intermediate steps in pre-rRNA processing. In contrast, the more dispersed intranucleolar distribution of U3 agrees with its putative involvement in both early and late steps of rRNA maturation. These studies illustrate the feasibility of mapping functional domains within the nucleolus by correlating the in vitro activities of small nuclear RNPs with their in situ locations.
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PMID:Organization of small nucleolar ribonucleoproteins (snoRNPs) by fluorescence in situ hybridization and immunocytochemistry. 753 31

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