UNIPROT:P06889 - FACTA Search

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A three-stranded DNA that is a putative intermediate of homologous recombination is a novel DNA triplex, R-form DNA. In R-form DNA the third strand includes both purines and pyrimidines and is parallel to the identical strand of the duplex. To test and refine our previously proposed R-form base triplets we have used two approaches: (1) dimethyl sulfate protection of R-form DNA; and (2) thermal dissociation of R-form DNAs in which the duplex strands were substituted in a strand-specific manner with either 7-deaza-guanine or 7-deaza-adenine. Together, the footprinting and isosteric substitution results demonstrate that the third strand in R-form DNA is in contact with the purines in the N7 position in the major groove of the Watson-Crick duplex in three ((GC):G, (AT):A and (TA):T) out of the four possible triplets. Furthermore, these results suggest that the N7 positions of the duplex play a significant role in stabilizing the DNA-DNA contacts during the homology recognition process.
J Mol Biol 1995 Apr 14
PMID:Probing the structure of a putative intermediate in homologous recombination: the third strand in the parallel DNA triplex is in contact with the major groove of the duplex. 772 38

DNA binding proteins of the winged helix family contain a conserved 110 amino acid region, the fork head/HNF-3 domain. Three members of the recently described XFD (Xenopus fork head domain related) multigene family in the frog Xenopus laevis that contain this DNA-binding domain have been studied. We determined the in vitro DNA recognition sequences by means of two independent methods: PCR supported site selection with degenerated deoxyoligonucleotides and affinity chromatography of genomic Xenopus DNA fragments. In contrast to a remarkable sequence divergence within their protein sequence of the fork head domains, all three proteins share a similar 7 bp DNA target motif. The protein-DNA interaction has been studied by means of DMS interference and hydroxyl radical footprinting. A region of 18 bp encompassing the 7 bp target motif is sufficient to confer binding and specificity. The specificity of binding could be attributed on the DNA level to residues located 5' to the 7 bp core region, and on the protein level most likely to a region within the first half of the fork head domain. The possible role of specific nucleotides within the target site in binding the protein is discussed in the context of the current crystal structure of the complex of this domain with DNA.
J Mol Biol 1995 Apr 28
PMID:DNA recognition site analysis of Xenopus winged helix proteins. 773 38

Activation of expression at the mouse mammary tumor virus (MMTV) promoter is thought to be controlled by nucleosome positioning. On stably integrated MMTV DNA, the long terminal repeat (LTR) region is organized in a phased array of nucleosomes which allegedly occludes transcription factors such as NFI from binding. NFI only binds to the promoter region when the ordered nucleosome structure is apparently disrupted by activated steroid hormone receptors in hormone induced transcription. In certain cell lines, binding sites for the transcription factors NFI and OTF1 are however required for hormone-independent expression of MMTV. We have used stably transfected mouse NIH3T3 and GR cells that exhibit detectable MMTV expression in the absence of hormone for in vivo determination of proteins binding to the MMTV promoter. Here, we present in vivo dimethyl sulfate footprinting data that show that the NFI and OTF binding sites are permanently occupied in vivo in these cells. The contacting guanine residues identified in vivo were demonstrated in in vitro methylation interference assays to correspond to binding by NFI and OTF1. These results demonstrate a novel feature of transcription factor occupancy at the MMTV LTR promoter.
Cell Mol Biol Res 1994
PMID:In vivo binding of proteins to stably integrated MMTV DNA in murine cell lines: occupancy of NFI and OTF1 binding sites in the absence and presence of glucocorticoids. 778 82

The E. coli rrnB P1 promoter owes its strength, in part, to the transcriptional activator protein FIS. FIS binds to three sites upstream of the RNA polymerase (RNAP) binding site and increases transcription in vivo four to ten-fold. In this report, hydroxyl radical and DMS footprinting analyses show that FIS binds to its three sites along one side of the DNA helix, and that FIS bound at the promoter-proximal site (site I) and RNAP bound at the promoter are in close proximity. The binding of FIS at site I and RNAP at the promoter are mutually cooperative. These observations support a model for direct interaction between the FIS protein bound at site I and RNAP in transcription activation at rrnB P1. We also find that FIS does not bind cooperatively to its three sites upstream of rrnB P1, and that the relatively small activation associated with FIS bound at sites II and III does not result indirectly by facilitation of binding of FIS to site I.
J Mol Biol 1995 Jan 20
PMID:The transcriptional activator protein FIS: DNA interactions and cooperative interactions with RNA polymerase at the Escherichia coli rrnB P1 promoter. 784 12

The complete sequence was determined for the chicken beta B1-crystallin gene and 2.2 kbp of its 5' flanking region; the chicken gene was then compared to its rat ortholog. Although both have a 5' non-coding exon followed by 5 protein coding exons, the chicken gene is only 2.2 kbp while the rat gene is 13.6 kpb due to longer introns. The coding exons of the chicken beta B1-crystallin gene, like those of the rat and other beta-crystallin genes, each correspond to one of the four 'Greek key' motifs of the encoded protein. The only obvious similarity between the 5' flanking sequences of the chicken and rat beta B1-crystallin gene is associated with the TATA box. A CR1 repetitive element is present at positions -559 to -730 of the chicken beta B1-crystallin gene. In vivo footprinting using dimethyl sulfate/ligation mediated PCR showed that the PL-1 (-116/-102), PL-2 (-90/-76), OL-2 (-75/-68) and OL-1 (-125/-118) control elements identified previously (Roth et al. (1991) Mol. Cell. Biol. 11, 1488-1499) bind proteins within the chromatin of cultured embryonic chicken lens cells. Both -2448/+30 and -434/+30 promoter fragments from the chicken beta B1-crystallin gene directed lens-specific CAT gene expression in a copy number and position independent manner in transgenic mice. These data indicate that the structure and lens-specific expression of this gene are highly conserved although, like other crystallin genes, the 5' flanking sequences have diverged appreciably during evolution.
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PMID:Chicken beta B1 crystallin: gene sequence and evidence for functional conservation of promoter activity between chicken and mouse. 789 62

Previous studies have documented that 250 bp of the rat cardiac ventricular myosin light-chain 2 (MLC-2v) promoter is sufficient to confer cardiac muscle-specific expression on a luciferase reporter gene in both transgenic mice and primary cultured neonatal rat myocardial cells. Utilizing ligation-mediated PCR to perform in vivo dimethyl sulfate footprinting, the present study has identified protein-DNA interaction within the position from -176 to -165. This region, identified as MLE1, contains a core sequence, CACGTG, which conforms to the consensus E-box site and is identical to the upstream stimulating factor (USF)-binding site of the adenovirus major late promoter. Transient assays of luciferase reporter genes containing point mutations of the site demonstrate the importance of this cis regulatory element in the transcriptional activation of this cardiac muscle gene in ventricular muscle cells. The protein complex that occupies this site is capable of binding to HF-1a and PRE B sites which are known to be required for cardiac muscle-specific expression of rat MLC-2v and alpha-myosin heavy-chain genes, respectively. This study provides direct evidence that USF, a member of the basic helix-loop-helix leucine zipper family, binds to MLE1, HF-1a, and PRE B sites and suggests that it is a component of protein complexes that may coordinately control the expression of MLC-2v and alpha-myosin heavy-chain genes. The current study also provides evidence that USF can positively and negatively regulate the MLC-2v gene via independent cis regulatory elements.
Mol Cell Biol 1994 Nov
PMID:The basic helix-loop-helix protein upstream stimulating factor regulates the cardiac ventricular myosin light-chain 2 gene via independent cis regulatory elements. 793 47

Retinoic acid (RA) activates transcription of the RA receptor beta 2 (RAR beta 2) gene in embryonal carcinoma (EC) cells. This activation involves binding of the RAR/retinoid X receptor (RAR/RXR) heterodimer to the RA-responsive element (beta RARE). Dimethyl sulfate-based genomic footprinting was performed to examine occupancy of this promoter in P19 EC cells. No footprint was detected at the beta RARE prior to RA treatment, but a footprint was detected within the first hour of RA treatment. Concomitantly, other elements in the promoter, the cyclic AMP-responsive element and tetradecanoyl phorbol acetate-like-responsive element became footprinted. Footprints at these elements were induced by RA without requiring new protein synthesis and remained for the entire duration of RA treatment but rapidly reversed upon withdrawal of RA. A delayed protection observed at the initiator site was also reversed upon RA withdrawal. The RA-inducible footprint was not due to induction of factors that bind to these element, since in vitro assays showed that these factors are present in P19 cell extracts before RA treatment. Significantly, no RA-induced footprint was observed at any of these elements in P19 cells expressing a dominant negative RXR beta, in which RXR heterodimers are unable to bind to the beta RARE. Results indicate that binding of a liganded heterodimer receptor to the beta RARE is the initial event that allows other elements to gain access to the factors. In accordance, reporter analyses showed that a mutation in the beta RARE, but not those in other elements, abrogates RA activation of the promoter. It is likely that the RAR beta 2 promoter opens in a hierarchically ordered manner, signalled by the occupancy of liganded heterodimers.
Mol Cell Biol 1994 Dec
PMID:Ligand-dependent occupancy of the retinoic acid receptor beta 2 promoter in vivo. 796 56

The 413 nucleotide self-splicing group I intron from Tetrahymena thermophila pre-rRNA contains a 160 nucleotide independently folding domain of RNA tertiary structure, the P4-P6 domain. This domain consists of sequence elements highly conserved among group I introns (P4 and P6) and peripheral extensions conserved in certain subgroups of these introns (P5abc and P6ab). The effect of mutation of selected bases on the formation of domain structure was analyzed using two probes: solvent-based Fe(II)-EDTA, which monitors backbone accessibility, and dimethyl sulfate, which monitors availability of N(1) of adenine and N(3) of cytosine. A GAAA tetraloop and an adenosine-rich bulge were found to stabilize domain tertiary structure in a sequence-specific manner. A single base change in the GAAA tetraloop disrupted Fe(II)-EDTA protection both locally and in P6a, and a specific base-pair substitution in P6a similarly disrupted protection locally and in the tetraloop; thus remote elements of the secondary structure are linked in tertiary structure. Our model of the domain's tertiary structure is refined to include this long-range tertiary interaction. The interaction requires severe bending of the domain RNA such that sequences separated by approximately 50 bases of largely double-stranded RNA are in proximity in the tertiary structure. The bending causes or allows for contact between sequences of the conserved core and sequences of the P5 extension. Thus the P5 extension may serve to stabilize the structure of the intron core in vivo.
J Mol Biol 1994 Feb 11
PMID:GAAA tetraloop and conserved bulge stabilize tertiary structure of a group I intron domain. 810 25

Endonucleases encoded by mobile group I introns are highly specific DNases that induce a double-strand break near the site to which the intron moves. I-PpoI from the acellular slime mold Physarum polycephalum mediates the mobility of intron 3 (Pp LSU 3) in the extrachromosomal nuclear ribosomal DNA of this organism. We showed previously that cleavage by I-PpoI creates a four-base staggered cut near the point of intron insertion. We have now characterized several further properties of the endonuclease. As determined by deletion analysis, the minimal target site recognized by I-PopI was a sequence of 13 to 15 bp spanning the cleavage site. The purified protein behaved as a globular dimer in sedimentation and gel filtration. In gel mobility shift assays in the presence of EDTA, I-PpoI formed a stable and specific complex with DNA, dissociating with a half-life of 45 min. By footprinting and interference assays with methidiumpropyl-EDTA-iron(II), I-PpoI contacted a 22- to 24-bp stretch of DNA. The endonuclease protected most of the purines found in both the major and minor grooves of the DNA helix from modification by dimethyl sulfate (DMS). However, the reactivity to DMS was enhanced at some purines, suggesting that binding leads to a conformational change in the DNA. The pattern of DMS protection differed fundamentally in the two partially symmetrical halves of the recognition sequence.
Mol Cell Biol 1993 Dec
PMID:Interaction of the intron-encoded mobility endonuclease I-PpoI with its target site. 824 71

Dimethyl sulfate, DNase I and micrococcal nuclease DNA cleavage were combined with the ligation-mediated polymerase chain reaction to obtain high resolution maps of the promoter regions for two cell-type-specific genes: the a-specific STE2 gene and the alpha-specific STE3 gene. We find that MCM1 binds in vivo in a-cells to a 16 bp P-box sequence located in the STE2 UAS. In alpha-cells, the footprint pattern is extended relative to a-cells, consistent with the additional binding of MAT alpha 2 to the sequences flanking each end of the P-box. A nucleosome was found adjacent to the P-box of the transcriptionally repressed a-specific STE2 UAS in alpha-cells, positioned so that the nucleosome overlaps the TATA-box. In contrast, such well-positioned nucleosomes were not found for the transcriptionally active STE2 UAS in a-cells, where instead the TATA box appears to be bound to the general transcription factor TFIID. These observations support the hypothesis that MAT alpha 2 repression of a-specific genes is mediated by nucleosomes, perhaps by exclusion of TFIID from the TATA-box.
J Mol Biol 1993 Dec 20
PMID:Genomic footprinting of the promoter regions of STE2 and STE3 genes in the yeast Saccharomyces cerevisiae. 826 44

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