Gene/Protein Disease Symptom Drug Enzyme Compound
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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 distribution of DNA topoisomerase I within Drosophila polytene chromosomes was observed by immunofluorescent staining with affinity-purified antibodies. The enzyme is preferentially associated with active loci, as shown by prominent staining of puffs. The heat shock loci 87A-87C are stained after, but not before, heat shock induction. A detailed comparison of the distribution of topoisomerase I with that of RNA polymerase II reveals a similar, although not identical, pattern of association. Topoisomerase I is also found in association with the nucleolus, the site of transcription by RNA polymerase I.
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PMID:Drosophila DNA topoisomerase I is associated with transcriptionally active regions of the genome. 609 63

Progress of the replication forks of the Escherichia coli chromosome depends on a multisubunit DNA polymerase (for chain elongation) and a primosome (for chain initiations), together comprising about 30 polypeptides with a mass in excess of 10(6) daltons. Integration of their actions with those of helicases and DNA binding proteins suggest a more complex and integrated replisome assembly with novel possibilities for concurrent replication of both parental strands. Initiation of a new cycle of chromosome replication at its unique 245-bp (oriC) is being studied in a soluble enzyme system with plasmids, autonomous replication of which depends on the oriC sequence. Required proteins include RNA polymerase, DNA gyrase, dnaA protein (with 4 strong binding sites in oriC), HU protein, and additional proteins (e.g., topoisomerase I and ribonuclease H) that confer oriC specificity by suppressing initiation of replication elsewhere on the duplex DNA. Clarification of the biochemical mechanisms of replication is fundamental for understanding cell growth and development. Knowledge of the biochemistry of initiating a cycle of chromosome replication opens the way toward exploring the regulation of the cell cycle. I remain faithful to the conviction that anything a cell can do, a biochemist should be able to do. He should do it even better, being freed from the constraints of substrate and enzyme concentrations, pH, ionic strength, and temperature, and by having the license to introduce novel reagents to drive or restrain a reaction. Put another way, one can be creative more easily with a reconstituted system. One can grapple directly with the molecules instead of trying by remote means to manipulate their structures or levels in the intact cell. Enzyme purification carries many dangers beyond the well-known exposure of the fragile enzyme to the hostilities of an unfamiliar environment, high dilution, glass containers and a denaturable investigator. But the rewards of enzyme purification have justified the effort. The polymerases, nucleases, ligases purified out of curiosity about the mechanisms of replication, repair and recombination have supplied the cast of actors responsible for the current drama of genetic engineering. Beyond the uses of these enzymes as reagents, understanding the mechanisms of DNA metabolism will have practical value in manipulating the replication of plasmids and viruses and the expression of their genes and, beyond that, in obtaining a more secure grasp of chromosome structure and function.
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PMID:Enzyme studies of replication of the Escherichia coli chromosome. 609 56

Superhelical pBR 322 derivatives have been relaxed by eukaryotic topoisomerase I in the presence or in the absence of E. coli cyclic AMP receptor protein (CRP) and of cyclic AMP (cAMP). CRP alone, or cAMP alone do not affect the average linking number of the distribution of the relaxed topoisomers. Hence, they do not unwind the template. In the presence of cAMP, CRP induces a small unwinding. The extent of this unwinding is barely modified when the relaxation is carried out on a similar vector plasmid where the CRP binding site of the lac or of the gal operon has been inserted. Under these conditions, we checked that CRP occupies the lactose control site and that upon addition of RNA polymerase, the corresponding promoter is readily activated. These findings are difficult to reconcile with the proposal that activation of these promoters results from the binding of the CRP-cAMP complex to left-handed DNA sequences.
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PMID:Is DNA unwound by the cyclic AMP receptor protein? 627 15

After treatment of SV40 minichromosomes with DNA topoisomerase I, the superhelicity in the bulk of the DNA extracted from minichromosomes is known to remain unchanged. However, we found that the DNA extracted from a small fraction of SV40 minichromosomes (2-5%), was almost completely relaxed, and covalently closed as shown by agarose gel electrophoresis. Thus, the DNA in these 2-5% of SV40 minichromosomes was probably torsionally strained (TS). The proportion of such TS minichromosomes is close to the estimated proportion of transcriptionally active minichromosomes. The distribution of the TS minichromosomes in sucrose gradient coincided with the distribution of transcriptionally active complexes. Both sedimented faster than the majority of minichromosomes. Furthermore, after treatment with topoisomerase I the relaxed minichromosomes could be quantitatively separated from the bulk of material by recentrifugation in a sucrose gradient. A major part of the endogenous RNA polymerase activity was recovered in the relaxed fraction. These data suggest that TS-minichromosomes correspond to transcriptionally active chromatin. After relaxation with topoisomerase I the TS minichromosomes lacked histones.
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PMID:Elastic torsional strain in DNA within a fraction of SV40 minichromosomes: relation to transcriptionally active chromatin. 632 65

The polytene chromosomes of Drosophila strains that differ in the synthesis of the major salivary gland glue protein sgs-4 were examined by indirect immunofluorescence using antisera to several nonhistone chromosomal proteins. The Oregon-R X chromosome, which produces sgs-4 messenger RNA, showed a strong fluorescent band at locus 3C11-12 when stained with anti-RNA polymerase II, whereas the null mutant Berkeley 1 failed to exhibit fluorescence at that locus. The presence of another antigen (Band 2), normally associated with developmentally active loci, was clearly evident at locus 3C11-12 of both transcriptionally competent and null strains, indicating that the association of Band 2 antigen with the chromatin is an event independent of RNA polymerase II binding. Antibodies directed against Drosophila topoisomerase I stained 3C11-12 in the Sgs-4+ (wild-type) strain brightly, but gave significantly less staining in the null strain. This indicates that the high concentrations of topoisomerase I seen at active loci are closely associated with the transcriptional event. In some of these analyses, we have made use of flies heterozygous for the wild-type and null alleles in order to make internally controlled comparisons. The results suggest that this type of analysis will enable conclusions to be drawn concerning the interdependence and order of action of chromosomal proteins involved in developmental gene activation.
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PMID:A cytological approach to the ordering of events in gene activation using the Sgs-4 locus of Drosophila melanogaster. 633 Jan 26

Supercoiling of DNA is now known to have considerable effects on transcription in bacteria. By abortive initiation reaction (6) we have determined the binding constant KB and the forward rate of isomerization k2 as a function of temperature, pH and buffer for the tet promoter in a supercoiled plasmid. If the activation energy of isomerization is very similar to that obtained previously under the same conditions on a linearized plasmid (6) (respectively 21 +/- 5 kcal/mole and 13 +/- 5 kcal/mole) the supercoiling introduces very important and not well understood changes in the thermodynamic parameters of the association polymerase - promoter. Using the technique of superhelical DNA relaxation by eukaryotic topoisomerase I, we have determined the specific unwinding by RNA polymerase of the tet promoter of pBR322 (430 degrees). This unwinding differs only slightly from the mean value (470 degrees) obtained for all the promoters of pBR322.
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PMID:Effect of superhelicity on the transcription from the tet promoter of pBR322. Abortive initiation and unwinding experiments. 638 26

We have previously identified T4 late promoters governing the in vivo expression of T4 late genes 23 and 24 (P23 and P24). T4 late transcription in vivo is known to involve the binding of at least five phage-coded proteins to the bacterial RNA polymerase and normally requires concurrent DNA replication for DNA template activation. We show here that in vitro transcription, primarily of plasmids carrying T4 genes 23 and 24, by RNA polymerase purified from Escherichia coli at late times after T4 infection allows specific initiation at P23 and P24 in the absence of DNA replication. These promoters are not utilized by E. coli RNA polymerase holoenzyme, by RNA polymerase core, or by T4-modified RNA polymerase purified from cells infected with a T4 gene 55 mutant (gene 55 codes for an RNA polymerase binding protein required for late transcription). The utilization of P23 and P24 in vitro is sharply inhibited by NaCl concentrations greater than 100 mM, and this inhibition is partly reversed by the addition of 10% DMSO. Relaxation of plasmid DNA containing P23 (with topoisomerase I) reduces P23 utilization at low salt (50 mM Na+) and nearly abolishes it at high salt (250 mM Na+). P23 utilization is discernible in linear, glucosylated hydroxymethylcytosine-containing T4 virion DNA.
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PMID:Initiation of transcription at phage T4 late promoters with purified RNA polymerase. 687 99

We have analysed the unwinding of nucleosomally organized DNA by simian virus 40 large tumour (T) antigen. Isolated T antigen can bind to existing nucleosome cores containing the viral replication origin sequence, which results in displacement of the histone octamer and unwinding of the DNA. However, specific binding to nucleosome cores is salt sensitive and nearly completely blocked under ionic conditions that otherwise support DNA replication. Once started, the progressing T antigen helicase, like an elongating RNA polymerase, is not further repressed by histone octamers, irrespective of the presence or absence of linker histone H1. Disruption of the nucleosomal structure in the process of unwinding may be assisted by the demonstrated interaction of the hexameric T antigen complex with histone proteins H1 and H3. Finally, our studies reveal the inability of topoisomerase I and/or II to continually relieve the superhelical tension of covalently closed circular minichromosomes as generated during their unwinding by T antigen. This may indicate that chromatin relaxation during the process of DNA replication can only be efficiently performed by a topoisomerase that is (trans)activated by other factors.
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PMID:Unwinding of chromatin by the SV40 large T antigen DNA helicase. 762 34

Autoantibodies in systemic sclerosis target a limited set of nuclear proteins, principally those of the nucleolus and RNA transcription complexes. These antibodies have proved helpful in diagnosis of this disease, and have been used extensively as probes of nuclear structure and function. Despite these advances, the events that initially trigger autoantibody production in systemic sclerosis are not yet known. While these ANA are not known to disrupt cellular processes by entering living cells, or to cause tissue injury (in contrast to SLE, where autoantibodies may mediate tissue damage), it seems likely that they do not merely represent epiphenomena of the disease. Rather, it is logical to assume that their origin is in some manner tied to etiology of systemic sclerosis, since they segregate by syndrome within the spectrum of this disease (for example, anti-kinetochore antibodies occur in limited cutaneous disease, and anti-topoisomerase I and anti-RNA polymerase antibodies occur in diffuse disease), and since they are distinct from the ANA found in other connective tissue diseases in their selectivity for the nucleolus and RNA polymerases.
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PMID:Molecular structure and function of autoantigens in systemic sclerosis. 765 Apr 17

DNA sequence coding for the last 121 amino acids of Escherichia coli topoisomerase I was synthesized by PCR and cloned into a plasmid under the control of the T7 promoter. Induction of T7 RNA polymerase in E. coli carrying the plasmid clone resulted in over-expression of this C-terminal domain fragment previously shown to confer higher DNA binding affinity to the enzyme. Purification to homogeneity was achieved by phosphocellulose and single-stranded DNA agaraose chromatography. Direct interaction between this 14K domain and poly(dA) was demonstrated by UV spectroscopy. Noncovalent complexes formed between this fragment and oligo(dT) 8 and oligo(dT) 16 can also be trapped by photo-crosslinking.
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PMID:Expression and DNA-binding properties of the 14K carboxyl terminal fragment of Escherichia coli DNA topoisomerase I. 766 93


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