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)

The in situ hybridization method has been used to investigate the localization of each of the three satellite DNAs present in the genome of the guinea pig. Purified fractions of the satellite DNAs were utilized as templates for synthesis of 3H-labeled complementary RNA (cRNA) by E. coli RNA polymerase, then each cRNA was hybridized to metaphase spreads of embryonic guinea pig cells. The cRNAs of all three satellite DNAs hybridized predominantly to the centromeric region of the chromosomes. The cRNAs of satellite DNAs II and III hybridized to all chromosomes except the Y chromosome. The cRNA of satellite DNA I did not hybridize to the Y chromosome nor to two pairs of small acrocentric chromosomes. Satellite II cRNA hybridized to the telomeric region of chromosomes 3 and 4.
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PMID:Localization of satellite DNAs in the chromosomes of the guinea pig. 39 15

Long pyrimidine tracts, purified from Drosophila melanogaster DNA after treatment with formic acid-diphenylamine, were used as template for E. coli RNA polymerase to produce a polynucleotide containing only purines. This polypurine RNA hybridized specifically to D. melanogaster DNA with high efficiency at low Cot values. The resulting hybrid showed high thermal stability. When polypurine RNA was subjected to complete hydrolysis with ribonuclease T1, over 90% of the nucleotide products were ApGp and ApApGp. Partial hydrolysis yielded a distinct additional component, ApApGpApGp + ApGpApApGp. We conclude that the major sequence in the polypurine transcript is (ApGpApApGp)n. In situ hybridization to salivary gland polytene chromosomes and to metaphase chromosomes from neural ganglia indicated that polypyrimidines complementary to polypurine RNA are located in heterochromatin. In femal cells, the predominant labeling was on centromeric heterochromatin of the 2nd chromosome. We have verified the location of polypyrimidines in neural ganglion cells, by using a cytological marker of chromosomes 2. In male cells, hybrid was also found on the Y chromosome.
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PMID:Polypyrimidine segments in Drosophila melanogaster DNA: II. Chromosome location and nucleotide sequence. 80 50

The parasitic protozoan Trypanosoma brucei has some hundred mini-chromosomes of 50-150 kb, which mainly consist of telomeric repeats, sub-telomeric repeats and internal 177-bp repeats. Their primary function seems to be to expand the repertoire of non-transcribed sub-telomeric variant surface glycoprotein (VSG) genes. Here we report that two of the smaller mini-chromosomes (55 and 60 kb) contain sequences homologous to the ribosomal RNA gene promoter region. We have targeted by homologous recombination the neomycin phosphotransferase (neo(r)) gene behind the promoter on the 55 kb chromosome and show that this promoter mediates the efficient synthesis of properly trans-spliced and polyadenylated neo mRNA. The resulting high resistance to G418 (a neo analogue) is stable in the absence of drug showing that mitotic segregation of this mini-chromosome is precise. Downstream of the transcription start the wild-type version of the ribosomal promoter is flanked by telomeric repeats. The absence of the sub-telomeric repeats found in other T.brucei chromosome ends suggests that the rDNA-telomeric junction has been formed by de novo addition of telomeric repeats to a broken chromosome end (healing). Our results provide a plausible explanation for the alpha-amanitin-resistant transcription of telomeric repeats in T.brucei reported by Rudenko and Van der Ploeg and they show that trypanosomes can efficiently use RNA polymerase I for the expression of sub-telomeric genes, supporting the notion that the alpha-amanitin-resistant transcription of sub-telomeric VSG genes may also be catalyzed by this enzyme.
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PMID:A ribosomal RNA gene promoter at the telomere of a mini-chromosome in Trypanosoma brucei. 131 72

Ciliated protozoa harbor two different types of nuclei in each cell. The diploid micronucleus is the transcriptionally inactive generative nucleus, while the macronuclous contains a highly amplified transcriptionally active genome of lower complexity. The macronuclear genes encoding the two largest subunits of both RNA polymerases I and II of Euplotes octocarinatus were identified by a novel method of two step PCR walking, employing primer pairs derived from telomeric sequences of the organism and known conserved RNA polymerase polypeptide sequences, respectively. The relative gene dosage was determined. The genes are present in equal copy numbers for the respective matching subunits. Northern hybridizations showed comparable amounts of transcripts, as well, within the matching pairs. Mapping of the 5'-termini of the transcripts of the gene sized chromosomes showed that the upstream nontranscribed regions are very short and contain characteristic sequence motifs which could be the determinants of equal promoter strengths for subunits of a common RNA polymerase.
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PMID:Gene dosage as a possible major determinant for equal expression levels of genes encoding RNA polymerase subunits in the hypotrichous ciliate Euplotes octocarinatus. 140 46

While preferential repair of the transcribed strands within active genes has been demonstrated in organisms as diverse as humans and Escherichia coli, it has not previously been shown to occur in chromosomal genes in the yeast Saccharomyces cerevisiae. We found that repair of cyclobutane pyrimidine dimers in the transcribed strand of the expressed RPB2 gene in the chromosome of a repair-proficient strain is much more rapid than that in the nontranscribed strand. Furthermore, a copy of the RPB2 gene borne on a centromeric ARS1 plasmid showed the same strand bias in repair. To investigate the relation of this strand bias to transcription, we studied repair in a yeast strain with the temperature-sensitive mutation, rpb1-1, in the largest subunit of RNA polymerase II. When exponentially growing rpb1-1 cells are shifted to the nonpermissive temperature, they rapidly cease mRNA synthesis. At the permissive temperature, both rpb1-1 and the wild-type, parental cells exhibited rapid, proficient repair in the transcribed strand of chromosomal and plasmid-borne copies of the RPB2 gene. At the nonpermissive temperature, the rate of repair in the transcribed strand in rpb1-1 cells was reduced to that in the nontranscribed strand. These findings establish the dependence of strand bias in repair on transcription by RNA polymerase II in the chromosomes and in plasmids, and they validate the use of plasmids for analysis of the relation of repair to transcription in yeast.
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PMID:Preferential repair of cyclobutane pyrimidine dimers in the transcribed strand of a gene in yeast chromosomes and plasmids is dependent on transcription. 143 66

The major surface antigens of Trypanosoma brucei are the VSG (variant surface glycoprotein) at the bloodstream stage, and procyclin at the procyclic stage. Variation in the VSG allows the parasite to escape the antibody response of its mammalian host. This occurs through either DNA rearrangement in the telomeric VSG gene expression site, or alternate activation, without DNA rearrangement, of different telomeric expression sites. The VSG and procyclin genes each belong to large, polycistronic transcription units. Although the promoters of these units are both active at the two main stages of the parasite life cycle, stage-specific controls operating at the level of RNA elongation and processing lead to strictly differential expression of the end products of the two units. Despite their mutually exclusive control of expression, the VSG and procyclin transcription units share common characteristics. Both contain a similar gene, and both are transcribed by the same type of RNA polymerase, unusually resistant to alpha-amanitin. Among the eight genes present in the VSG transcription unit, two may be involved in the synthesis of cyclic AMP. The function of the other genes is unknown.
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PMID:Genetics of antigenic variation in African trypanosomes. 196 83

Experimental evidence suggests that centromere arrangement is relevant to the expression of ribosomal genes in murine Sertoli cells. Nuclei endowed with a nucleolus inactive in rRNA synthesis presented several clusters, each containing a bunch of individual centromeres. RNA polymerase I was not cytochemically detected in the nucleolar structure, which contained only small amounts of fibrillarin. In the course of nucleolar activation, the centromeres within the separate clusters became fused into larger centromeric bodies. Synthesis of precursor rRNAs and their processing were visualized by strong nucleolar fluorescence signals using antibodies to RNA polymerase I and fibrillarin.
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PMID:Nucleolar transcriptional activity in mouse Sertoli cells is dependent on centromere arrangement. 222 47

Although several hundred of different antigen genes exist in the trypanosome genome, only one is usually expressed at a time. This expression occurs in one of several possible telomeric expression sites. Besides being exclusively telomeric, transcription of the antigen gene exhibits other particular characteristics: the RNA polymerase is highly resistant to alpha-amanitin, and the transcription unit comprises several other genes, one of which may encode an adenylate cyclase. Post-transcriptional controls modulate the activity of this transcription unit during the parasite life-cycle. Antigenic variation is achieved through either alternative activation of different expression sites, or gene recombination within a given expression site. These mechanisms ensure a relative programming of antigen expression.
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PMID:[Antigenic variation of African trypanosomes]. 226 83

An enzymatic activity in crude extracts of macronuclei from the hypotrichous ciliate Oxytricha nova catalyzes the synthesis of RNA consisting of (C4A4)n using an oligodeoxynucleotide template of the telomeric sequence (dG4T4)n. Single-stranded (dG4T4)n is an effective template if it has a random sequence at its 5' end. The enzyme will not use a (dG4T4)n template of any length (up to 64 bases) if it lacks a random sequence at the 5' end. With a random, single-stranded sequence at the 5' end, the (dG4T4)n oligodeoxynucleotide must be at least 36 bases long to work as a template. A 16-base, single-stranded region of (dG4T4)2 is an effective template when joined to a 20-base double-stranded region of (dG4T4)n/(dA4dC4)n, a structural arrangement that is the same as the native telomere of Oxytricha macronuclear DNA. The RNA-synthesizing activity is unaffected by 1.0 mg/ml of alpha-amanitin. Macronuclear extracts have an alpha-amanitin-insensitive, RNA-polymerizing activity that can use a random 55mer oligodeoxynucleotide as a template. This enzyme activity may be the same one that uses (dG4T4)n templates to make (C4A4)n RNA. The (C4A4)n RNA made in the reaction can prime DNA synthesis by the E. coli DNA polymerase I Klenow fragment. Therefore, the RNA polymerase activity fulfills the requirements of the telomere DNA primase that we postulated for replication of telomeres in hypotrichs (Zahler and Prescott, 1988, Nucleic Acids Research 16, 6953-6972).
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PMID:DNA primase and the replication of the telomeres in Oxytricha nova. 247 56

The telomerically located variant cell surface glycoprotein (VSG) gene expression sites of the protozoan parasite Trypanosoma brucei are transcribed by an unusual alpha-amanitin resistant RNA polymerase. We show that the telomere GGGTTA repeats located at the chromosome ends of T. brucei and the related protozoan T. equiperdum are also transcribed by alpha-amanitin resistant RNA polymerases. This transcription predominantly proceeds unidirectionally towards the end of the chromosome, in both bloodstream and insect form trypanosomes and results in the generation of heterogeneously sized steady state RNA. We postulate that telomere repeat transcription results from readthrough downstream of telomeric genes. Telomere repeat transcription was found in all seven protozoan species tested, but was alpha-amanitin resistant only in trypanosome species which exhibited antigenic variation. The data indicate that in some trypanosome species a subset of telomeres is transcribed by a different type of RNA polymerase.
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PMID:Transcription of telomere repeats in protozoa. 251 Oct 8

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