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)

Two proteins with sigma-like activity have been isolated from the alga, Chlamydomonas reinhardi. One protein, sigma 2, has been partially purified and appears to have a molecular weight of 51,000. The interaction of this protein with a heterologous (Escherichia coli) and homologous (Chlamydomonas, chloroplast rifampicin-sensitive) core RNA-polymerase (RNA nucleotidyltransferase, nucleosidetriphosphate: RNA nucleotidyltransferase, EC 2.7.7.6) was studied. Sigma 2 protein appears to stimulate the formation of open (rapid starting) binary complexes by both of the core enzymes. Stimulation of transcription by sigma 2 on chloroplast DNA was greater when Chlamydomonas core enzyme was used. Moreover, in vitro transcription on a variety of templates using RNA polymerases I and II from Chlamydomonas was not stimulated by this protein.
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PMID:Purification and characterization of a putative sigma factor from Chalamydomonas reinhardi. 79 79

Chloroplast tRNA(Glu) is a bifunctional molecule involved in both the early steps of chlorophyll synthesis and chloroplast protein biosynthesis. Recently the enzymes involved in these processes have been characterized from the green alga Chlamydomonas reinhardtii. In order to investigate whether transcription of the gene for the tRNA(Glu) cofactor would be a possible point of regulation for the biosynthesis of chlorophyll, a homologous in vitro transcription system for C. reinhardtii chloroplast RNA polymerase was developed. The enzymatic activity was partially purified by ion-exchange chromatography to separate it from nuclear RNA polymerases. The highest rate of synthesis was found at pH 7.9, 40 mM KCl, 9 mM MgCl2 and with 25 micrograms plasmid DNA containing the chloroplast tRNA gene per milliliter. The activity was not sensitive to high amounts of alpha-amanitin (500 micrograms/ml) and rifampicin, but was clearly inhibited by heparin. This system was used to undertake a promoter analysis of one of the two identical tRNA(Glu) gene copies found in the C. reinhardtii chloroplast genome (trnE1). The analyzed tRNA gene behaved like a single transcription unit driven by its own promoter. The transcript terminated in a run of four consecutive T residues downstream of the gene. The nucleotide sequence in the 5' region of the gene revealed several potential promoter elements with homology to known chloroplast promoters of the "-10 and -35 region" and the "Euglena promoter" types. Surprisingly, deletion of the complete 5' region did not affect in vitro transcription, while partial deletions of the 5' and 3' coding region totally abolished transcription. This indicates the presence of an internal control region previously found for genes transcribed by nuclear RNA polymerase III. Protein binding studies with the coding region of trnE1 using gel retardation assays demonstrated the formation of two differently sized complexes. In vitro transcription of the tRNA(Glu) gene in extracts prepared from light and dark grown algae failed to demonstrate any significant influence of light on the transcription reaction.
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PMID:Expression of the Chlamydomonas reinhardtii chloroplast tRNA(Glu) gene in a homologous in vitro transcription system is independent of upstream promoter elements. 141 80

Nucleotide sequence analysis of a 17043 base-pair (bp) region of the Chlamydomonas reinhardtii plastome indicates the presence of three open reading frames (ORFs) similar to RNA polymerase subunit genes. Two, termed rpoB1 and rpoB2, are homologous to the 5'- and 3'-halves of the Escherichia coli beta subunit gene, respectively. A third, termed rpoC2, is similar to the 3'-half of the bacterial beta' subunit gene. These genes exhibit several unusual features: (1) all three represent chimeric structures in which RNA polymerase gene sequences are juxtaposed in-frame with long sequences of unknown identity; (2) unlike their counterparts in plants and eubacteria, rpoB1 and rpoB2 are separated from rpoC2 by a long (7 kilobase-pair, kbp) region containing genes unrelated to RNA polymerase; (3) DNA homologous to the 5' half of rpoC (termed rpoC1 in other species) is not present at the 5' end of rpoC2 and could not be detected in C. reinhardtii chloroplast DNA. RNA expression could not be detected for any of the RNA polymerase genes, suggesting that they are pseudogenes or genes expressed at stages of the C. reinhardtii life-cycle not investigated. The three genes are flanked by GC-rich repeat elements. We suggest that repeat DNA-mediated chloroplast recombination events may have contributed to their unusual arrangement.
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PMID:Chloroplast RNA polymerase genes of Chlamydomonas reinhardtii exhibit an unusual structure and arrangement. 161 38

We have determined the nucleotide sequence of a 5159 base-pair (bp) region of the Chlamydomonas reinhardtii plastome containing three photoelectron transport genes, psbF, psbL and petG, and an unusual open reading frame, ORF712. The photosynthetic genes have an unprecedented arrangement, psbF and psbL are located in close proximity to petG, and are not grouped with two other genes of the cytochrome b559 locus, psbE and ORF42. ORF712, located adjacent to psbL, has homology at its 5'- and 3'-ends to the ribosomal protein rps3 gene, but contains a central 437 residue domain that lacks similarity to any other known sequence. These sequences add to the growing body of evidence that the chloroplast genome of C. reinhardtii has a significantly different gene arrangement to its counterpart in plants. The structure of ORF712 also provides another example of a phenomenon we have discovered with C. reinhardtii RNA polymerase genes (Fong and Surzycki 1992); namely, that the algal plastome contains chimeric genes in which reading frames with homology to known genes are juxtaposed in-frame with long coding regions of unknown identity.
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PMID:Organization and structure of plastome psbF, psbL, petG and ORF712 genes in Chlamydomonas reinhardtii. 161 41

Alpha-1 tubulin is the principal alpha-tubulin isotype found in the flagella of the unicellular green alga, Chlamydomonas reinhardii. Although the pattern of tubulin mRNA accumulation and utilization has been examined in some detail in Chlamydomonas (Lefebvre and Rosenbaum 1986), the transcriptional mechanisms establishing tubulin mRNA levels are not understood. To begin an analysis of the alpha-1 tubulin gene transcriptional control elements, we studied a number of promoter mutants of this gene from Chlamydomonas. These mutants, assayed by injection into Xenopus oocyte nuclei, delimit the promoter to 36 bp of DNA upstream of the cap site and 73 bp of the untranslated mRNA leader. A major rate-controlling element lies in a short GC-rich sequence positioned between the TATA homology and the mRNA cap site (position + 1). A similar sequence motif has been found in the same position upstream of all four tubulin genes of Chlamydomonas (Brunke et al. 1984). A 10 bp linker insertion within this sequence abolishes transcription. A far upstream sequence, located in a fragment between -400 and -800, is an efficiency element, whose deletion inhibits transcription in vivo by about 30%. The upstream element (ue) also has the unique ability to drive RNA polymerase II (RNAPII) transcription in vivo when isolated from all downstream promoter elements, unlike any control element described to date. These results suggest that a sequence within the upstream element is an entry site for RNAPII into the tubulin transcription unit.
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PMID:Novel control elements in the alpha-1 tubulin gene promoter from Chlamydomonas reinhardii. 323 8

We show that in E. coli, a Chlamydomonas chloroplast promoter, PA, is repressed by Integration Host Factor (IHF). The himA 42 mutation, altering the alpha-subunit of E. coli IHF, leads to over-accumulation of PA transcripts in vivo. This effect requires upstream chloroplast DNA sequences. DNAase I and methylation protection experiments show that IHF binds in vitro to a site within PA and band-retardation shows that IHF inhibits formation of PA-E. coli RNA polymerase open complexes. We interpret these results, together with our previous deletion analyses, to mean that in E. coli, repression of PA by IHF minimally requires both binding of IHF to a site overlapping PA and binding of one or more additional proteins, perhaps including IHF itself, to sequences upstream of PA.
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PMID:Integration host factor (IHF) represses a Chlamydomonas chloroplast promoter in E. coli. 328 26

The effect of rifampin, an inhibitor of bacterial DNA-dependent RNA polymerase, was studied in Chlamydomonas reinhardi. It was shown, in vivo and in vitro, that chloroplast-located, but not nuclear, DNA-dependent RNA polymerase is inhibited by this drug. The inhibition of chloroplast RNA polymerase results in the inhibition of chloroplast rRNA synthesis, and thus in the loss of chloroplast ribosomes. The ability to carry out photosynthesis is also lost after prolonged heterotrophic growth in the presence of rifampin, but cell division and chloroplast replication are not affected. It is proposed that chloroplast DNA contains information for chloroplast rRNA, but this DNA does not have the information for chloroplast DNA polymerase. Moreover, the DNA polymerase is not synthesized on chloroplast ribosomes.
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PMID:Genetic functions of the chloroplast of Chlamydomonas reinhardi: effect of rifampin on chloroplast DNA-dependent RNA polymerase. 526 Sep 35

Wild-type cells of the unicellular green alga Chlamydomonas reinhardi have been grown for several generations in the presence of rifampicin, an inhibitor of chloroplast DNA-dependent RNA polymerase, spectinomycin and chloramphenicol, two inhibitors of protein synthesis on chloroplast ribosomes, and cycloheximide, an inhibitor of protein synthesis on cytoplasmic ribosomes. The effects of cycloheximide are complex, and it is concluded that this inhibitor cannot give meaningful information about the cytoplasmic control over the synthesis of chloroplast components in long-term experiments with C. reinhardi. In the presence of acetate and at the appropriate concentrations, the three inhibitors of chloroplast protein synthesis retard growth rates only slightly and do not affect the synthesis of chlorophyll; however, photosynthetic rates are reduced fourfold after several generations of growth. Each inhibitor produces a similar pattern of lesions in the organization of chloroplast membranes. Only rifampicin prevents the production of chloroplast ribosomes.
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PMID:The effects of inhibitors of RNA and protein synthesis on chloroplast structure and function in wild-type Chlamydomonas reinhardi. 556 50

The ac-20 strain of Chlamydomonas reinhardi is characterized by low levels of chloroplast ribosomes when grown mixotrophically. Cells can be transferred to minimal medium and their ribosome levels increase. If, at the time of transfer, cells are exposed to chloramphenicol, an inhibitor of protein synthesis in the chloroplast, or cycloheximide, an inhibitor of protein synthesis in the cytoplasm, ribosome recovery is not affected; however, recovery is blocked by exposure to rifampicin, an inhibitor of chloroplast DNA-dependent RNA polymerase. It is therefore concluded that ac-20 cells suffer from an impaired chloroplast ribosomal RNA synthesis. Mixotrophic ac-20 cells are also characterized by low rates of photosynthetic electron transport, disorganized chloroplast membranes, and a small pyrenoid. If chloramphenicol is applied to transferred cells whose chloroplast ribosome levels have already recovered, recovery of photosynthetic electron transport and of structural integrity does not occur. Under the same conditions, cycloheximide has no effect on recovery. It is concluded that the structural and photosynthetic lesions in ac-20 are a secondary consequence of the low levels of chloroplast ribosomes. Finally, we present evidence that recovery of photosynthetic electron transport requires the transcription of chloroplast DNA. This transcription is apparently triggered by light.
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PMID:The effects of inhibitors of RNA and protein synthesis on the recovery of chloroplast ribosomes, membrane organization, and photosynthetic electron transport in the ac-20 strain of Chlamydomonas reinhardi. 556 51

DNA methyltransferase was purified 310-fold from a green alga, Chlamydomonas reinhardi vegetative cells. The native enzyme of molecular weight 55 000--58 000 catalyzed the transfer of methyl groups from S-adenosylmethionine to the 5 position of cytosine in DNA. Native DNA accepted methyl groups 10-fold more than did denatured DNA. The sequence specificity analysis of methylated deoxycytidine in vitro revealed that the enzyme introduces methyl groups preferentially into sequences containing 5'd(T-mC-R)3'. Kinetic analysis of the reaction indicated that the enzyme obeys a random sequential mechanism. The extent of saturation with methyl groups depends upon the species from which the DNA was obtained. Kinetic analysis of the reaction catalyzed by RNA polymerase II has indicated that DNA methylation decreases the rate of initiation of RNA synthesis, but does not affect the rate of RNA chain elongation.
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PMID:Deoxyribonucleic acid methyltransferase from the eukaryote, Chlamydomonas reinhardi. 737 44

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