EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three DNA polymerase activities, A, B and C, were identified in extracts of exponentially growing synchronous cultures of Chlamydomonas reinhardii, and DNA polymerases A and B were characterized in detail. Both enzymes have the same binding affinity for DEAE-cellulose at pH 7.8, but can be distinguished from each other by their behaviour on phosphocellulose and DNA-agarose. 'Activated' calf thymus DNA was used as template, and the pH, K+ and bivalent-cation optima were measured. DNA polymerase A sediments at 5.3 S in glycerol gradients, with an apparent mol.wt. of 90000-100000. Polymerase B sediments between 8S and 10S in 100mM-KCl, the predominant species having an apparent mol.wt. of 200000. In 200mM-KCl, polymerase B dissociates to a single species, which sediments at 5.8S. A 3S species was found in aged preparations of both enzymes. The activity of polymerase B from cells harvested during nuclear DNA synthesis is twice that found in Chlamydomonas at other times during the cell cycle.
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PMID:DNA polymerases from Chlamydomonas reinhardii. Purification and properties. 2 59

The properties of three DNA polymerase species A, B and C, purified from Chlamydomonas reinhardii were compared. DNA polymerases A and B have Km values with respect to deoxyribonucleoside triphosphates of 19 micron and 3 micron respectively. DNA polymerase A is most active with activated DNA, but will also use native DNA and synthetic RNA and DNA templates with DNA primers. DNA polymerase B is also most active with activated DNA, but will use denatured DNA and synthetic DNA templates. It is inactive with RNA templates. DNA polymerase B is completely inactive in the presence of 100 micron-heparin, which has no effect on DNA polymerase A activity. Heparin dissociates DNA polymerase B into subunits that are still catalytically active, but which heparin inhibited. DNA polymerase B possesses deoxyribonuclease activity that is inhibited by 5 micron-heparin, suggesting that the deoxyribonuclease is an integral part of the DNA polymerase moiety. DNA polymerase A is devoid of nuclease activity. DNA polymerase C is similar to DNA polymerase B in all these properties, though it is more active with RNA primers and has greater heat-sensitivity.
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PMID:DNA polymerases from Chlamydomonas reinhardii. Further characterization, action of inhibitors and associated nuclease activities. 64 18

An enzyme system prepared from maize chloroplasts catalyzes the synthesis of DNA from maize chloroplast DNA sequences cloned in bacterial plasmids. Cloned maize chloroplast DNA fragments Bam HI 17' (2470 bp) and Eco RI x (1368 bp) have been shown to be preferred templates for in vitro DNA synthesis catalyzed by pea chloroplast DNA polymerase preparations [Gold et al. (1987) Proc. Natl. Acad. Sci. USA 84, 194-198]. Analysis of replicative intermediates indicates that although the template activity of the recombinant plasmid pZmcBam 17' is substantially greater than that of the pZmcEco x, replication in both cases originates from within a 455 bp region which overlaps the two plasmids. The remaining approximately 1500 basepair portion of maize chloroplast BamHI fragment 17' is not more active because it contains additional origins for replication. The overlapping region shows sequence homology with a portion of the Chlamydomonas reinhardtii chloroplast chromosome that contains a replication origin. Replication is shown to proceed bidirectionally within the 455 bp origin region. Recombinant plasmid pZmc 427, which is also active in the in vitro DNA synthesis assay, promoted localized replication initiation within a 1 kbp Bg1II-Eco RI fragment of the chloroplast DNA insert, a region that includes the 3' terminal part of the psbA gene.
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PMID:Chloroplast DNA replication in vitro: site-specific initiation from preferred templates. 283 23

Maize chloroplast DNA sequences representing 94% of the chromosome have been surveyed for their activity as autonomously replicating sequences in yeast and as templates for DNA synthesis in vitro by a partially purified chloroplast DNA polymerase. A maize chloroplast DNA region extending over about 9 kilobase pairs is especially active as a template for the DNA synthesis reaction. Fragments from within this region are much more active than DNA from elsewhere in the chromosome and 50- to 100-fold more active than DNA of the cloning vector pBR322. The smallest of the strongly active subfragments that we have studied, the 1368-base-pair EcoRI fragment x, has been sequenced and found to contain the coding region of chloroplast ribosomal protein L16. EcoRI fragment x shows sequence homology with a portion of the Chlamydomonas reinhardtii chloroplast chromosome that forms a displacement loop [Wang, X.-M., Chang, C.H., Waddell, J. & Wu, M. (1984) Nucleic Acids Res. 12, 3857-3872]. Maize chloroplast DNA fragments that permit autonomous replication of DNA in yeast are not active as templates for DNA synthesis in the in vitro assay. The template active region we have identified may represent one of the origins of replication of maize chloroplast DNA.
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PMID:Nucleotide sequence of a preferred maize chloroplast genome template for in vitro DNA synthesis. 302 53

1. The activities of DNA polymerase preparations from the algae Euglena gracilis, Chlamydomonas reinhardtii, Chlorella pyrenoidosa, Anabaena variabilis and Anacystis nidulans were measured. The blue-green algae Anabaena and Anacystis contain a 5-20-fold higher activity of the enzyme than do the green algae. DNA polymerases from the blue-green algae show a pH optimum of 9 and prefer a relatively low Mg(2+) concentration (1-3mm). DNA polymerases from the green algae, however, display a pH optimum between 7.5 and 8.5 and an optimum Mg(2+) concentration of 8mm. With all algae, a higher polymerase activity was obtained with denatured salmon sperm DNA as template than with native DNA. All four deoxyribonucleoside 5'-triphosphates must be present for full activity of the polymerases. 2. With one exception, the deoxyribonuclease activities in the preparations, measured under conditions of the DNA polymerase assay, are low compared with corresponding preparations from Escherichia coli. Chlamydomonas extracts contain a high deoxyribonuclease activity. 3. After purification on columns of DEAE-cellulose, the polymerase activity was linear over a wide range of protein concentrations, except for Chlamydomonas preparations, where the observed deviation from linearity was probably attributable to the high nuclease activity. 4. DNA polymerases from all these algae bind strongly to DNA-cellulose; 6-40-fold purifications of the enzyme were obtained by chromatography on columns of DNA-cellulose. 5. The partially purified polymerases of Euglena and Anacystis are heat-labile but become much more heat-stable when tested in the presence of DNA.
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PMID:The activity of deoxyribonucleic acid polymerase in some species of algae. 462 75

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

A number of group II introns from eukaryotic organelles and prokaryotes contain open reading frames for polypeptides with homology to retroviral reverse transcriptases (RTs). We have used the yeast transposon (Ty) system to express ORFs for RTs from eukaryotic organelles. This includes the mitochondrial coxI intron i1 from the fungus Podospora anserina, the plastid petD intron from the alga Scenedesmus obliquus and the mitochondrial RTL gene from the alga Chlamydomonas reinhardtii. The ORFs were fused with the TYA ORF from the yeast retrotransposon Ty to produce virus-like particles in the recipient strains with detectable amounts of the RT-like polypeptides. Analysis of the heterologous gene products revealed biochemical evidence that the P. anserina intron encodes an RNA-directed DNA polymerase with properties typically found for RTs of viral or retrotransposable origin. In vitro assays showed that the intron encoded RT is sensitive to RT inhibitors such as N-ethylmaleimide and dideoxythymidine triphosphate but is insensitive against the DNA polymerase inhibitor aphidicolin. The direct biochemical evidence provided here supports the idea that intron encoded RTs are involved in intron transposition events.
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PMID:Reverse transcriptase activity of an intron encoded polypeptide. 751 30

We have developed a novel method for the rapid preparation of large quantities of 3' end-labeled single-stranded (ss) DNA (ssDNA) probes for transcript mapping. A recombinant phagemid vector containing the probe sequence was used to raise large quantities of ssDNA. Based on the DNA sequence of the probe, an oligonucleotide primer complementary to the ssDNA probe was synthesized. Annealing of the primer to the purified ssDNA phagemid clone produced a short double-stranded DNA duplex containing a restriction site, which was then cut with a restriction enzyme to generate a 5' overhang of the primer strand. The phagemid DNA was labeled at the 3' end with the Klenow fragment of polymerase I. The low melting temperatures of the short primer-phagemid duplex caused the primer to dissociate during the hybridization of the probe to algal RNA. For this reason, the probe can be used for S1 mapping without further purification. This method was used to map the 3' end of the Chlamydomonas reinhardtii chloroplast psbK transcript.
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PMID:3' transcript mapping of the Chlamydomonas reinhardtii chloroplast psbK mRNA using a novel method to prepare 3' end-labeled single-stranded DNA probes. 851 10

A complementation experiment was developed to identify the protein component that is essential for the in vitro replication of a cloned template containing a chloroplast DNA replication origin of Chlamydomonas reinhardtii. Using this method, we have identified a DNA primase activity that copurified with DNA polymerase from the crude protein mixture. The primase catalyzed the synthesis of short RNA primers on single-stranded DNA templates. Among the synthetic templates, the order of preference was poly(dA), poly(dT), and poly(dC). The primer size range for these templates was 11-18, 5-12, and 3-11 nucleotides, respectively. On a single-stranded template containing the chloroplast DNA replication origin, the primer length range reached 19 to 27 nucleotides, indicating a better processtivity. Several initiation sites were mapped on both strands of the cloned replication origin. Some preferential initiation sites were located on A tracks spaced at one helical turn apart within the bending locus. Primase improved the template specificity of the in vitro DNA replication system and enhanced the incorporation of radioactive dATP into the supercoiled template containing the core sequences of the chloroplast DNA replication origin.
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PMID:The functional role of a DNA primase in chloroplast DNA replication in Chlamydomonas reinhardtii. 1046 54

Chlamydomonas reinhardtii is a prospective model system for understanding molecular mechanisms associated with DNA repair in plants and algae. To explore this possibility, we have developed an in vitro repair system from C. reinhardtii cell-free extracts that can efficiently repair UVC damage (Thymine-dimers) in the DNA. We observed that excision repair (ER) synthesis based nucleotide incorporation, specifically in UVC damaged supercoiled (SC) DNA, was followed by ligation of nicks. Photoreactivation efficiently competed out the ER in the presence of light. In addition, repair efficiency in cell-free extracts from ER deficient strains was several fold lower than that of wild-type cell extract. Interestingly, the inhibitor profile of repair DNA polymerase involved in C. reinhardtii in vitro ER system was akin to animal rather than plant DNA polymerase. The methodology to prepare repair competent cell-free extracts described in the current study can aid further molecular characterization of ER pathway in C. reinhardtii.
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PMID:Preparation of efficient excision repair competent cell-free extracts from C. reinhardtii cells. 2529 16

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