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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)

We have investigated three aspects of RNA turmor virus replication and cell transformation: (1) the properties of the purified avian and mammalian viral RNA-directed DNA polumerase, (2) some characteristics of the viral 60-70S RNA genome, 30-40S RNA subunits and intracellular viral RNA species, and (3) the interaction of the viral DNA polymerase with its RNA template early during infection and cell transformation by the murine sarcoma-leukemia virus (MSV[MLV]). Avian myeloblastosis virus (AMV) contains two forms of RNA-directed DNA polymerase, alpha, consisting of a single polypeptide of molecular weight 65,000, and alphabeta, consisting of two polypeptides of molecular weights 65,000 and 105,000. The alpha and alphabeta forms of AMV DNA polymerase both possess RNase H activity that requires free end termini on the ribopolymer and can degrade the RNA of the RNA-DNA hybrid in the 3' to 5' and 5' to 3' directions. But, alpha and alphabeta possess a different mode of exoribonuclease activity. While alphabeta RNase H is a processive exoribonuclease that degrades the polynucleotide chain to a core residue before attacking a second chain, alpha RNase H is a random exoribonuclease that releases the polynucleotide after each scission. Highly purified Moloney-MSV(MLV) DNA polymerase has both RNase H activity and the ability to read viral 60-70S RNA. These activities comigrate through five different steps of purification and are present at levels comparable to those found in purified AMV DNA polymerase. The MSV(MLV) 60-70S RNA genome and 35S RNA subunits were shown by periodate oxidationtritiated borohydride reduction to contain adenosine as the major 3'-terminal nucleoside. Poly (A) segments were isolated from viral 60-70S and 35S RNA by treatment with RNase A or RNase T1 and purified by afinity chromatography and gel electrophoresis. Viral poly(A) was shown to be present at the 3' terminus as -G(C,U)A190AOH. The similar sequence reported for poly(A) present in mammalian mRNA suggests that similar mechanisma are involved in the transcription and processing of both cellular and viral DNA sequences. Within transformed cells replicating MSV(MLV), viral 35S and 20S RNA were found in membrane-bound polyribosomes, whereas only 35S RNA was detected in free polyribosomes. The origin and function of 20S RNA is unknown. The early events during rapid infection and cell transformation of mouse 3T6 cells by the Harvey strain of MSV(MLV) were studied. By both autoradiographic analysis and molecular hybridization, viral DNA synthesis was detected in the cytoplasm by 1 hour after infection, reached a maximum at 2 hours, and subsequently decreased. Cytological chase experiments produced evidence that cytoplasmic viral DNA was transported to the nucleus. In situ hybridization experiments using radioactive viral DNA product as a probe demonstrated the rapid association of viral DNA sequences with the chromocenters of interphase nuclei and with the centromeric heterochromatin regions of some chromosomes.
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PMID:Properties of oncornavirus RNA-directed DNA polymerase, the RNA template, and the intracellular products formed early during infection and cell transformation. 5 Sep 2

Heat-soaked PCR (HS-PCR) is a method for enhancing amplification performed by heating the DNA sample at 94 degrees C in 90 microliters 1.1 x buffer for 30 min. A 10-microliters bolus of concentrated (10x) deoxynucleotides, Taq DNA polymerase and primers prepared without buffer is then added just prior to thermal cycling. We have investigated the application of this method in a variety of forensically important DNA samples and compared it with regular PCR (R-PCR). DNA samples extracted from bone, postmortem tissues, bloodstains and hair contained low concentrations of human DNA or were contaminated with either non- human DNA or hemoglobin degradation products. Optimal conditions for HS-PCR were determined for the 3' ApoB VNTR locus and applied to a centromeric repeat element and to a single-copy locus. HS-PCR consistently and reproducibly enhanced product yield and specificity over R-PCR at all three loci in the entire set of DNA samples. HS-PCR was also effective in overcoming the inhibitory effect of hemoglobin at concentrations that fully impeded R-PCR.
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PMID:Heat-soaked PCR: an efficient method for DNA amplification with applications to forensic analysis. 138 59

Since DNA polymerase requires a labile primer to initiate unidirectional 5'-3' synthesis, some bases at the 3' end of each template strand are not copied unless special mechanisms bypass this "end-replication" problem. Immortal eukaryotic cells, including transformed human cells, apparently use telomerase, an enzyme that elongates telomeres, to overcome incomplete end-replication. However, telomerase has not been detected in normal somatic cells, and these cells lose telomeres with age. Therefore, to better understand the consequences of incomplete replication, we modeled this process for a population of dividing cells. The analysis suggests four things. First, if single-stranded overhangs generated by incomplete replication are not degraded, then mean telomere length decreases by 0.25 of a deletion event per generation. If overhangs are degraded, the rate doubles. Data showing a decrease of about 50 base-pairs per generation in fibroblasts suggest that a full deletion event is 100 to 200 base-pairs. Second, if cells senesce after 80 doublings in vitro, mean telomere length decreases about 4000 base-pairs, but one or more telomeres in each cell will lose significantly more telomeric DNA. A checkpoint for regulation of cell growth may be signalled at that point. Third, variation in telomere length predicted by the model is consistent with the abrupt decline in dividing cells at senescence. Finally, variation in length of terminal restriction fragments is not fully explained by incomplete replication, suggesting significant interchromosomal variation in the length of telomeric or subtelomeric repeats. This analysis, together with assumptions allowing dominance of telomerase inactivation, suggests that telomere loss could explain cell cycle exit in human fibroblasts.
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PMID:Telomere end-replication problem and cell aging. 161 1

Oligonucleotides were annealed to complementary sequences in fixed human metaphase chromosomes and extended with DNA polymerase. The newly synthesized fragments were labeled by incorporating bio-11-dUTP instead of TTP, and the sites of synthesis were detected by immunocytochemistry, using fluorochromes as the reporter molecules. We have obtained clear localization with oligonucleotides from alphoid (centromeric sequences), simple sequence (satellite) DNAs, a variety of Alu-dispersed repeated sequences, and oligonucleotides derived from the Tetrahymena and Trypanosoma telomere-specific sequences. The simple sequence and alphoid oligonucleotides gave results at least comparable to those obtained using the whole molecule as a probe for in situ hybridization, whereas the Alu oligonucleotides produced a diversity of results which depended on the absolute length and location of the oligonucleotide within the Alu sequence. The telomere-specific oligomers also produced a variety of results. The G-rich Trypanosoma oligomer and its complementary C-rich sequence produced strong telomeric signals and some interstitial signals on mouse chromosomes, but only weak telomeric signals on human chromosomes. The G-rich Tetrahymena oligomer produced detectable telomeric signals on human chromosomes. The technique appears to be a valuable extension of present tools for mapping and examining the organization of DNA sequences within chromosomes.
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PMID:Oligonucleotide-primed in situ DNA synthesis (PRINS): a method for chromosome mapping, banding, and investigation of sequence organization. 191 15

We conducted Southern blot analysis of DNAs from mouse x hamster somatic cell hybrids and progeny of an interspecies backcross to localize the mouse gene for DNA polymerase beta (Polb) to the centromeric end of Chromosome 8. These results provide additional support for the regional localization of polymerase beta on the short arm of human chromosome 8 or the very proximal end of the long arm.
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PMID:Mapping of the gene for DNA polymerase beta to mouse chromosome 8. 197 75

By using T4 DNA polymerase rather than S1 or Bal31 nuclease to clone yeast telomeres, very little telomeric DNA is lost. These clones were used to determine the DNA sequence of virtually the entire telomeric tract. Our results demonstrated that a slightly modified version, C2-3A(CA)1-6, of the consensus derived from sequence analysis of more-internal regions (J. Shampay, J. W. Szostak, and E. H. Blackburn, Nature [London] 310:154-157, 1984) extends to the very end of the chromosome. The sequence analysis also suggests that yeast telomeres consist of two domains: the proximal 120 to 150 base pairs, which appear to be protected from processes such as recombination, degradation, and elongation, and the distal portion of the telomere, which is more susceptible to these events.
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PMID:Sequencing of Saccharomyces telomeres cloned using T4 DNA polymerase reveals two domains. 219 53

The terminus of a DNA helix has been called its Achilles' heel. Thus to prevent possible incomplete replication and instability of the termini of linear DNA, eukaryotic chromosomes end in characteristic repetitive DNA sequences within specialized structures called telomeres. In immortal cells, loss of telomeric DNA due to degradation or incomplete replication is apparently balanced by telomere elongation, which may involve de novo synthesis of additional repeats by novel DNA polymerase called telomerase. Such a polymerase has been recently detected in HeLa cells. It has been proposed that the finite doubling capacity of normal mammalian cells is due to a loss of telomeric DNA and eventual deletion of essential sequences. In yeast, the est1 mutation causes gradual loss of telomeric DNA and eventual cell death mimicking senescence in higher eukaryotic cells. Here, we show that the amount and length of telomeric DNA in human fibroblasts does in fact decrease as a function of serial passage during ageing in vitro and possibly in vivo. It is not known whether this loss of DNA has a causal role in senescence.
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PMID:Telomeres shorten during ageing of human fibroblasts. 234 78

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

We have investigated two reactions that occur on telomeric sequences introduced into Saccharomyces cerevisiae cells by transformation. The elongation reaction added repeats of the yeast telomeric sequence C1-3A to telomeric sequences at the end of linear DNA molecules. The reaction worked on the Tetrahymena telomeric sequence C4A2 and also on the simple repeat CA. The reaction was orientation specific: it occurred only when the GT-rich strand ran 5' to 3' towards the end of the molecule. Telomere elongation occurred by non-template-directed DNA synthesis rather than any type of recombination with chromosomal telomeres, because C1-3A repeats could be added to unrelated DNA sequences between the CA-rich repeats and the terminus of the transforming DNA. The elongation reaction was very efficient, and we believe that it was responsible for maintaining an average telomere length despite incomplete replication by template-directed DNA polymerase. The resolution reaction processed a head-to-head inverted repeat of telomeric sequences into two new telomeres at a frequency of 10(-2) per cell division.
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PMID:Characterization of two telomeric DNA processing reactions in Saccharomyces cerevisiae. 306 64

Chromosome ends in the lower eukaryotes terminate in variable numbers of tandem, simple DNA repeats. We tested predictions of a model in which these telomeric repeats provide a substrate for the addition of more repeats by a terminal transferase-like mechanism that, in concert with DNA polymerase and primase, effectively counterbalances the loss of DNA due to degradation or incomplete replication. For individual chromosome ends in yeast, the mean length of any given telomere was shown to vary between different clonal populations of the same strain and to be determined by the initial length of that telomere in the single cell giving rise to the clone. This type of variation was independent of the major yeast recombination pathway. The length heterogeneity at each telomeric end increased with additional rounds of cell division or DNA replication. Lengths of individual telomeres within a single clone varied independently of each other. Thus, this clonal variability is distinct from genetic regulation of chromosome length, which acts on all chromosome ends coordinately. These in vivo phenomena suggest that lengthening and shortening activities act on yeast telomeres during each round of replication.
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PMID:Generation of telomere-length heterogeneity in Saccharomyces cerevisiae. 327 78


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