Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A heat-sensitive factor obtained from lysates of competent Streptococcus sanguis cells reacts specifically with native DNA of heterospecific (S. pneumoniae or calf thymus) origin. In vitro it does not alter the double or single strand length of the DNA, nor does it affect uptake of the DNA by compentent S. pneumoniae cells in DNase I-resistant form. Following uptake, however, DNA previously exposed to the factor loses over 90% of its biological activity. Reaction of heterospecific DNA with the factor is competitive, suggesting a competition for binding to the factor. Heating treated DNA prior to its reaction with recipient cells, apparently by irreversibly dissociating the factor, restores to the DNA its original potential transforming activity. Specific activity of the factor can be increased in cells grown under certain conditions; this increase is blocked by erythromycin.
Mol Gen Genet 1978 Apr 06
PMID:Specific inactivation of heterospecific transforming DNA by a factor derived from Streptococcus sanguis lysates. 2 19

Competent Streptococcus sanguis treated with non-lethal doses of coumermycin A1 immediately before or after uptake of radioactive transforming DNA were reduced in their capacity to yield transformants. This treatment did not alter bacterial ability to bind DNA in DNase I-resistant form, nor did it prevent the single-stranded donor DNA-recipient protein complexes formed upon uptake at the surface of the bacteria from translocating to chromosomal sites. Inhibition of transformation by heterospecific DNA was greater than that by homospecific DNA. The reduction in transformant yield was not accompanied by any loss of donor counts incorporated into the recipient chromosome, but rather by a loss of genetic activity of incorporated donor material indicating a failure of genetic integration and degradation of donor DNA as a consequence of coumermycin treatment. The inhibitory effect of coumermycin on transformation was associated with in vivo loss of chromosomal DNA superhelicity, The chromosomal DNA remained intact, however, indicative of inhibition of a gyrase-like enzyme responsible for the maintenance of negative supercoiling of the S. sanguis chromosome. Upon treatment with the drug, a coumermycin-resistant mutant strain showed neither loss of chromosomal superhelicity nor any inhibitory effect on genetic integration of donor DNA. The evidence supports the idea that chromosomal superhelicity promotes genetic recombination in vivo.
Mol Gen Genet 1979 Oct 03
PMID:Superhelical DNA in Streptococcus sanguis: role in recombination in vivo. 4 56

The action of micrococcal nuclease, DNase I and DNase II on mouse TLT hepatoma chromatin revealing the periodicity of its structure as visualized by denaturing and non-denaturing gel electrophoresis, was consistent with the action of these enzymes on other chromatins. Micrococcal nuclease showed a complex subnucleosome fragment pattern based on multiples of 10 base pairs with a prominant couplet at 140/160 base pairs and the absence of the 80 base pair fragment. This couplet of the core and minimal nucleosome fragments was conspicuously present in the mononucleosomes found in the 11S fractions of a glycerol gradient centrifugation. DNase I and II produced a fairly even distribution of a 10 base pair increasing series of fragments to about 180 base pairs, a pattern also repeated in the DNA of nucleosome glycerol-gradient fractions. In limited digestions by these nucleases multinucleosomic DNA fragments are pronounced. These fragment lengths are multiples of an estimated average repeat length of nucleosome DNA of 180 base pairs. The action of the endogenous Mg/Ca-stimulated endonuclease produced only limited cuts in the hepatoma chromatin resulting primarily in multi-nucleosomic DNA fragment lengths and only upon lengthy digestion limited subnucleosomic, 10-base-pair multiple fragments are produced. The putative euchromatin-enriched fractions (50-75S) of the glycerol gradient centrifugation of autodigested chromatin, similarly, contained primarily the multinucleosomic DNA fragment lengths. These results are consistent with our previous electron microscopic demonstration that autodigested chromatin as well as the putative euchromatin-enriched fractions were composed of multi-nucleosomic chromatin segments containing a full complement of histones.
Mol Cell Biochem 1978 Apr 11
PMID:Periodicity and fragment size of DNA from mouse TLT hepatoma chromatin and chromatin fractions using endogenous and exogenous nucleases. 20 20

Donor DNA in its initially bound, single-stranded form exists in a chromosomally-unassociated complex where it is resistant to exogenous DNase I but sensitive to micrococcal nuclease. Most of the complexes are readily recuperable from the supernatant of recipients converted into spheroplasts. Subsequent to formation of this superficially located complex, donor DNA progressively associates with the recipient chromosome into which it is eventually integrated. Treatment of recipients with ethidium bromide at various times after initial DNA binding almost immediately halts translocation of whatever donor material is not yet synapsed with the chromosome. On the other hand, donor DNA that has already synapsed experiences no difficulty in becoming genetically integrated. Some degradation occurs to DNA that fails to undergo translocation as a result of ethidium bromide treatment, the acid-soluble products appearing in the culture medium. DNA in untranslocated complexes surviving treatment is not appreciably different in single-strand length from that in untreated complexes. When these surviving complexes are isolated from a cell lysate, the contained DNA can be shown by spectrofluorometry to have bound the drug.
Mol Gen Genet 1979 Mar 05
PMID:Translocation of the pre-synaptic complex formed upon DNA uptake by Streptococcus sanguis and its inhibition by ethidium bromide. 28 50

The activity of Ustilago maydis DNase I, an enzyme implicated in genetic recombination, on DNA substrates containing unpaired or mismatched bases, was examined. The enzyme nicked supercoiled PM-2 molecules, converting these to relaxed circular and linear molecules. Discrete double stranded linear fragments smaller than unit length were also observed after digestion at high enzyme concentration. Heteroduplex molecules were constructed using phi80 bacteriophage derivatives which contained single base substitutions within the E. coli tRNA1tyr gene. Single and double stranded nicking at or near the single mismatched site was observed with three out of the five pairs of heteroduplexes.
Mol Gen Genet 1978 May 31
PMID:The recognition of mismatched base pairs in DNA by DNase I from Ustilago maydis. 35 13

By a combination of DNase I footprinting, methylation interference, and gel shift analyses we have identified multiple binding sites for nuclear proteins within the promoter region of the human neurofilament H gene. Two sites likely bind the transcription factor Sp1 while two others may be targets for previously unrecognized DNA binding proteins. One site, PAL, occurs within the 10 bp sequence GGGGAGGAGG. Two copies of the PAL sequence form an interrupted palindrome around one of the Sp1 sites. A second site, PROX, is found within the sequence GGTTGGACC. Nuclear extracts prepared from both neural and non-neural cell lines, mouse brain, and mouse liver contain proteins that recognize and bind to the PROX and PAL sequences indicating that proteins which bind to these target sequences are widespread. The appearance of these target sequences in the 5' upstream region of several neuron specific genes suggests that they play key roles in the transcription of neuron specific genes. The functional activity of these target DNA sequences was demonstrated by transfection assays using a reporter gene fused to nested deletions of the NF(H) promoter region. Interestingly, these assays revealed that maximal transient expression was obtained with DNA fusion genes containing the PAL, PROX and TATA sequences. Inclusion of the Sp1 sites into the fusion genes failed to enhance the expression of the reporter gene. To determine if the NF(H) promoter can be activated in a tissue specific manner during development transgenic mice containing the promoter region linked to a beta-galactosidase reporter gene were generated. In one line sporadic expression of the transgene occurred in the CNS and testis while in four other lines no expression occurred. Collectively these results suggest that the NF(H) gene promoter is active in a tissue specific manner only by interactions with regulatory elements that lie further upstream or downstream of the start site of initiation.
Brain Res Mol Brain Res 1992 Sep
PMID:Novel DNA binding proteins participate in the regulation of human neurofilament H gene expression. 127 52

The Moloney murine leukemia virus causes thymic leukemias when injected into newborn mice. A major genetic determinant of the thymic disease specificity of the Moloney virus genetically maps to two protein binding sites in the Moloney virus enhancer, the leukemia virus factor b site and the adjacent core site. Point mutations introduced into either of these sites significantly shifts the disease specificity of the Moloney virus from thymic leukemia to erythroleukemia (N. A. Speck, B. Renjifo, E. Golemis, T. Frederickson, J. Hartley, and N. Hopkins, Genes Dev. 4:233-242, 1990). We have purified several polypeptides that bind to the core site in the Moloney virus enhancer. These proteins were purified from calf thymus nuclear extracts by selective pH denaturation, followed by chromatography on heparin-Sepharose, nonspecific double-stranded DNA-cellulose, and core oligonucleotide-coupled affinity columns. We have achieved greater than 13,000-fold purification of the core-binding factors (CBFs), with an overall yield of approximately 19%. Analysis of purified protein fractions by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis reveals more than 10 polypeptides. Each of the polypeptides was recovered from an SDS-polyacrylamide gel, and those in the molecular size range of 19 to 35 kDa were demonstrated to have core-binding activity. The purified CBFs were shown by DNase I footprint analyses to bind the core site in the Moloney virus enhancer specifically, and also to core motifs in the enhancers from a simian immunodeficiency virus, the immunoglobulin mu chain, and T-cell receptor gamma-chain genes.
Mol Cell Biol 1992 Jan
PMID:Purification of core-binding factor, a protein that binds the conserved core site in murine leukemia virus enhancers. 130 96

The behavior of the major vegetative cell RNA polymerase of Bacillus subtilis, E sigma A, during initiation of transcription was compared to that of its Escherichia coli counterpart, E sigma 70, at several promoters known to be actively transcribed by both RNA polymerases. Challenge experiments using heparin, restriction endonucleases, and competing promoter DNA under various conditions showed that, at several promoters, complexes with B. subtilis RNA polymerase formed in the absence of nucleoside triphosphates were unstable. These complexes produced DNase I footprints that were less extended than those produced by the E. coli enzyme at the same promoters. Further, in the presence of certain combinations of nucleoside triphosphates, conditions that allow production of abortive oligonucleotides, these B. subtilis RNA polymerase complexes remained dissociable. Thus, at these promoters, the B. subtilis enzyme interacted with the DNA and reached a catalytically active initial transcribing complex without becoming committed to the template. At these same promoters, E. coli RNA polymerase formed stable open complexes before forming any phosphodiester bonds. B. subtilis initial transcribing complexes also remained sensitive to the drug rifampicin until a later stage in the initiation process than did the corresponding E. coli complexes. At one promoter, B. subtilis E sigma A and E. coli E sigma 70 behaved similarly, forming stable open complexes in the absence of any nucleoside triphosphates.
J Mol Biol 1992 Jan 20
PMID:Mechanism of initiation of transcription by Bacillus subtilis RNA polymerase at several promoters. 131 Jul 45

The arginine-dependent repressor-activator from Bacillus subtilis, AhrC, has been overexpressed in Escherichia coli and purified to homogeneity. AhrC, expressed in E. coli, is able to repress a Bacillus promoter (argCp), which lies upstream of the argC gene. The purified protein is a hexamer with a subunit molecular mass of 16.7 kDa. Its ability to recognize DNA has been examined in vitro using argCp in both DNase I and hydroxyl radical protection assays. AhrC binds at two distinct sites within the argCp fragment. One site, argCo1, with the highest affinity for protein, is located within the 5' promoter sequences, whilst the other, argCo2, is within the coding region of argC. The data are consistent with the binding of a single hexamer of AhrC to argCo1 via four of its subunits, possibly allowing the remaining two subunits to bind at argCo2 in vivo forming a repression loop similar to those observed for the E. coli Lac repressor.
Mol Microbiol 1992 Jan
PMID:Purification and initial characterization of AhrC: the regulator of arginine metabolism genes in Bacillus subtilis. 131 12

Nucleosome formation on inverted repeats or on some alternations of purines and pyrimidines can be inhibited in vitro by DNA supercoiling through their supercoiling-induced structural transitions to cruciforms or Z-form DNA, respectively. We report here, as a result of study of single nucleosome reconstitutions on a DNA minicircle, that a physiological level of DNA supercoiling can also enhance nucleosome sequence preference. The 357 base-pair minicircle was composed of a promoter of phage SP6 RNA polymerase joined to a 256 base-pair fragment containing a sea urchin 5 S RNA gene. Nucleosome formation on the promoter was found to be enhanced on a topoisomer with in vivo superhelix density when compared to topoisomers of lower or higher superhelical densities, to the nicked circle, or to the linear DNA. In contrast, nucleosomes at other positions appeared to be insensitive to supercoiling. This observation relied on a novel procedure for the investigation of nucleosome positioning. The reconstituted circular chromatin was first linearized using a restriction endonuclease, and the linear chromatin so obtained was electrophoresed as nucleoprotein in a polyacrylamide gel. The gel showed well-fractionated bands whose mobilities were a V-like function of nucleosome positions, with the nucleosome near the middle migrating less. This behavior is similar to that previously observed for complexes of sequence-specific DNA-bending proteins with circularly permuted DNA fragments, and presumably reflects the change in the direction of the DNA axis between the entrance and the exit of the particle. Possible mechanisms for such supercoiling-induced modulation of nucleosome formation are discussed in the light of the supercoiling-dependent susceptibility to cleavage of the naked minicircle with S1 and Bal31 nucleases; and a comparison between DNase I cleavage patterns of the modulated nucleosome and of another, non-modulated, overlapping nucleosome.
J Mol Biol 1992 Apr 20
PMID:Chromatin reconstitution on small DNA rings. IV. DNA supercoiling and nucleosome sequence preference. 131 7


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