The cellular interleukin-6 (IL-6) gene contains a target site for the mammalian transcriptional repressor RBP. The target site is contained within the interleukin response element (ILRE), which mediates IL-6 activation by NF-kappa B. In this study, we show by using transient-expression assays that RBP represses activated transcription from the IL-6 gene. The presence and position of the RBP target site are crucial in mediating repression by RBP. While RBP binds within the ILRE, it does not target NF-kappa B alone; nonetheless, NF-kappa B binding to the ILRE is required for repression. Our results indicate that RBP represses coactivation by NF-kappa B and another cellular transcription factor, C/EBP-beta.
The left end of the adenovirus genome is arranged such that the polypeptide IX gene is 'buried' (entirely contained) within the E1B transcription unit. The E1B gene is transcribed actively early in infection while, in contrast, IX gene transcription only occurs after DNA replication. Using recombinant plasmid constructs and recombinant viruses, we have found that the nested arrangement of the IX gene prevents its transcription. The experiments show that E1B transcription across the IX promoter inhibits IX gene expression early in infection, and yet, the 21-kD E1B protein activates the IX gene. IX mRNA synthesis occurs in the absence of DNA replication when the E1A gene and E1B promoter are absent, but only when the 21-kD E1B protein is present in trans. Our results indicate that during the adenovirus infectious cycle, the only templates on which IX transcription can be activated are newly replicated templates not committed to E1B transcription. This situation may be a model for genes that are activated specifically at the time of replication.
Escherichia coli strains containing mutations (ssbA1 and lexC113) which affect single-strand deoxyribonucleic acid binding protein have been examined. Among the properties studied were: sensitivity to ultraviolet irradiation and methyl methane sulfonate, temperature sensitivity, induction of prophage lambda by ultraviolet light, temperature, and mitomycin C, and deoxyribonucleic acid synthesis. Strains containing the ssbA1 and lexC113 mutations differ significantly in several of these properties.
The ILRE (interleukin response element) contained within the promoter of the interleukin-6 (IL-6) gene is defined as the site recognized by the p65 NF-B transcriptional activator and is crucial for activation of the IL-6 gene. The region of the promoter containing the ILRE is complex containing a CCAAT enhancer-binding protein (C/EBP) site immediately upstream of the ILRE, which is required for optimal activation of the IL-6 gene. Additionally, the ILRE overlaps a site that is recognized by the mammalian transcriptional repressor RBP (CBF-1), and RBP binding within the ILRE region represses activated IL-6 expression. In this study, the complexity of this region is further revealed by the identification of a second nested C/EBP site, which overlaps that of RBP and therefore also the ILRE. Optimal activation requires both the upstream and newly identified C/EBP sites in conjunction with the p65 NF-B binding site. We previously reported that RBP represses IL-6 activation but does not target p65. We extend these analyses here to show that RBP binding does not occlude p65 from binding but instead directly overlaps the newly identified downstream C/EBP site, thereby impeding p65-C/ EBP-mediated co-activation. This result suggests a role for RBP in the repression of other genes containing a C/EBP site that exhibits sequence overlap with the RBP site.
Temperature induction of an Escherichia coli strains with lambda cI1857 integrated in the guaB gene has been used to produce strains containing chromosomal deletions extending into the xse and upp genes. By utilizing strains containing these deletions, it has been possible to order the genes in the guanine operon with respect to the xseA and upp genes. The order of the genes in this region is glyA-hisS-xseA-guaO-guaB-guaA-purG-upp-purC.
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