Chromatin opening of DNA satellites by targeted sequence-specific drugs.
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There are few tools available for dissecting and elucidating the functions of DNA satellites and other nongenic DNA. To address this, we have explored the experimental potential of DNA sequence-specific drugs containing pyrrole and imidazole amino acids (polyamides). Compounds were synthesized that target different Drosophila melanogaster satellites. Dimeric oligopyrroles were shown to target the AT-rich satellites I, III, and SARs (scaffold associated regions). One polyamide (P31) specifically binds the GAGAA satellite V. Specificity of targeting was established by footprinting, epifluorescence of nuclei, and polytene chromosomes stained with fluorescent derivatives. These polyamides were shown to mediate satellite-specific chromatin opening of the chromatin fiber. Remarkably, certain polyamides induced defined gain or loss-of-function phenotypes when fed to Drosophila melanogaster. (+info)
Specific gain- and loss-of-function phenotypes induced by satellite-specific DNA-binding drugs fed to Drosophila melanogaster.
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DNA-binding pyrrole-imidazole compounds were synthesized that target different Drosophila melanogaster satellites. Compound P31 specifically binds the GAGAA satellite V, and P9 targets the AT-rich satellites I and III. Remarkably, these drugs, when fed to developing Drosophila flies, caused gain- or loss-of-function phenotypes. While polyamide P9 (not P31) suppressed PEV of white-mottled flies (increased gene expression), P31 (not P9) mediated three well-defined, homeotic transformations (loss-of-function) exclusively in brown-dominant flies. Both phenomena are explained at the molecular level by chromatin opening (increased accessibility) of the targeted DNA satellites. Chromatin opening of satellite III by P9 is proposed to suppress PEV of white-mottled flies, whereas chromatin opening of satellite V by P31 is proposed to create an inopportune "sink" for the GAGA factor (GAF). (+info)
A long T. A tract in the upp initially transcribed region is required for regulation of upp expression by UTP-dependent reiterative transcription in Escherichia coli.
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In Escherichia coli, pyrimidine-mediated regulation of upp expression occurs by UTP-sensitive selection of alternative transcriptional start sites, which produces transcripts that differ in the ability to be elongated. The upp initially transcribed region contains the sequence GATTTTTTTTG (nontemplate strand). Initiation can occur at either the first or the second base in this sequence (designated G6 and A7, with numbering from the promoter -10 region). High intracellular UTP levels favor initiation at position A7; however, the resulting transcripts are subject to reiterative transcription (i.e., repetitive UMP addition) within the 8-bp T. A tract in the initially transcribed region and are aborted. In contrast, low intracellular UTP levels favor initiation at position G6, which results in transcripts that can, in part, avoid reiterative transcription and be elongated normally. In this study, we examined the regulatory requirement for the long T. A tract in the upp initially transcribed region. We constructed upp promoter mutations that shorten the T. A tract to 7, 6, 5, 4, 3, or 2 bp and examined the effects of these mutations on upp expression and regulation. The results indicate that pyrimidine-mediated regulation is gradually reduced as the T. A tract is shortened from 7 to 3 bp; at which point regulation ceases. This reduction in regulation is due to large-percentage increases in upp expression in cells grown under conditions of pyrimidine excess. Quantitation of cellular transcripts and in vitro transcription studies indicate that the observed effects of a shortened T. A tract on upp expression and regulation are due to increases in the fraction of both G6- and A7-initiated transcripts that avoid reiterative transcription and are elongated normally. (+info)
Effect of introns and AT-rich sequences on expression of the bacterial hygromycin B resistance gene in the basidiomycete Schizophyllum commune.
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Previously, it was shown that introns are required for efficient mRNA accumulation in Schizophyllum commune and that the presence of AT-rich sequences in the coding region of genes can result in truncation of transcripts in this homobasidiomycete. Here we show that intron-dependent mRNA accumulation and truncation of transcripts are two independent events that both affect expression of the bacterial hygromycin B resistance gene in S. commune. (+info)
Structural analysis of the binding modes of minor groove ligands comprised of disubstituted benzenes.
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Two-dimensional homonuclear NMR was used to characterize synthetic DNA minor groove-binding ligands in complexes with oligonucleotides containing three different A-T binding sites. The three ligands studied have a C(2) axis of symmetry and have the same general structural motif of a central para-substituted benzene ring flanked by two meta-substituted rings, giving the molecules a crescent shape. As with other ligands of this shape, specificity seems to arise from a tight fit in the narrow minor groove of the preferred A-T-rich sequences. We found that these ligands slide between binding subsites, behavior attributed to the fact that all of the amide protons in the ligand backbone cannot hydrogen bond to the minor groove simultaneously. (+info)
The AT-rich region between -54 to -66 is important for the promoter activity of interleukin-10 in Epstein-Barr virus positive Burkitt's lymphoma cells.
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IL-10 is an important regulatory cytokine. The recent characterization of the 5'-flanking region of IL-10 led to the identification of the promoter region. The infection of B cells with EBV induces IL-10 production which may contribute to EBV-induced transformation. In the present report, IL-10 promoter elements involved in the constitutive expression of IL-10 in EBV-positive lymphoma cells are described. The AT-rich region between -54/-66 from the transcriptional start site was found to be important for IL-10-promoter activity in BL36. A point mutation at position -60 (T/A) was associated with over 90% reduction of luciferase activity in the cell lines BL36 and BL74. The conversion of A/T at position -57 led to enhanced promoter activity. In addition the AT-rich region could serve as an enhancer for the beta-globin basic promoter. In BJAB cells (EBV-negative), sequences between -205/-139 rather than the AT-rich region were involved in IL-10 promoter regulation. This underlines the importance of the AT-rich region for EBV-associated IL-10 promoter regulation. Our results further the understanding of how the IL-10 gene could be regulated in B cell lymphomas. (+info)
A novel mRNA-decapping activity in HeLa cytoplasmic extracts is regulated by AU-rich elements.
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While decapping plays a major role in mRNA turnover in yeast, biochemical evidence for a similar activity in mammalian cells has been elusive. We have now identified a decapping activity in HeLa cytoplasmic extracts that releases (7me)GDP from capped transcripts. Decapping is activated in extracts by the addition of (7me)GpppG, which specifically sequesters cap-binding proteins such as eIF4E and the deadenylase DAN/PARN. Similar to in vivo observations, the presence of a poly(A) tail represses decapping of RNAs in vitro in a poly(A)-binding protein-dependent fashion. AU-rich elements (AREs), which act as regulators of mRNA stability in vivo, are potent stimulators of decapping in vitro. The stimulation of decapping by AREs requires sequence-specific ARE-binding proteins. These data suggest that cap recognition and decapping play key roles in mediating mRNA turnover in mammalian cells. (+info)
Evolutionary role of restriction/modification systems as revealed by comparative genome analysis.
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Type II restriction modification systems (RMSs) have been regarded either as defense tools or as molecular parasites of bacteria. We extensively analyzed their evolutionary role from the study of their impact in the complete genomes of 26 bacteria and 35 phages in terms of palindrome avoidance. This analysis reveals that palindrome avoidance is not universally spread among bacterial species and that it does not correlate with taxonomic proximity. Palindrome avoidance is also not universal among bacteriophage, even when their hosts code for RMSs, and depends strongly on the genetic material of the phage. Interestingly, palindrome avoidance is intimately correlated with the infective behavior of the phage. We observe that the degree of palindrome and restriction site avoidance is significantly and consistently less important in phages than in their bacterial hosts. This result brings to the fore a larger selective load for palindrome and restriction site avoidance on the bacterial hosts than on their infecting phages. It is then consistent with a view where type II RMSs are considered as parasites possibly at the verge of mutualism. As a consequence, RMSs constitute a nontrivial third player in the host-parasite relationship between bacteria and phages. (+info)