Project description:FliA in S. Typhimurium directs transcription of large numbers of unstable, non-coding RNAs from intragenic promoters. Also in this study, we identify two previously unreported FliA-transcribed protein coding genes, including sdiA, which encodes a transcription factor that responds to quorum sensing signals produced by other bacteria.

Project description:Nascent peptide chain targeting to the endoplasmic reticulum (ER) membrane is required for correct localization and efficient translation of membrane-bound and secreted proteins. However, little is known about the contribution of RNA-binding proteins (RBPs) to the recognition, localization and translation of ER-localized mRNAs. In this work we used biochemical, transcriptomic and proteomic approaches to delineate the role of human HDLBP. PAR-CLIP analysis revealed that HDLBP directly and specifically interacted with more than 80% of all expressed ER-localized mRNAs. Interestingly, the binding to the coding sequence was most prominent for ER-localized mRNAs, while cytosolic mRNAs showed higher binding in the 3’UTR. HDLBP crosslinked strongly to long CU-rich motifs that resided more frequently in coding sequences of ER-localized but not in cytosolic mRNAs. This indicated that the primary sequence composition determines the basis for HDLBP binding specificity and its multivalent interactions with ER-bound mRNAs. PAR-CLIP analysis also revealed direct interactions of HDLBP with the RNA components of the translational apparatus, while in vivo proximity proteomics detected proteins involved in translation and components of the signal recognition particle (SRP). Functional studies using CRISPR-Cas9 HDLBP knockout cell lines in combination with ribosome profiling, pSILAC, and luciferase assays showed decreased translation efficiency of HDLBP target mRNAs, impaired protein synthesis and secretion in the knockout conditions. Finally, HDLBP absence resulted in decrease of lung tumor formation capacity in vivo. These results highlight a general function for HDLBP in the translation of ER -localized mRNAs via the secretory pathway and discover its relevance for cell profileration and tumor progression.

Project description:We investigated the genome-wide binding sites for sigma54 and RNA polymerase in wild-type Escherichia coli MG1655.

Project description:We mapped the genome-wide binding of the flagellar regulators FlhD, FlhC, and FliA in FLAG-tagged derivatives of E. coli K-12 MG1655 using ChIP coupled with deep sequencing (ChIP-seq). We identify new binding sites for each factor.

Project description:HilD is a regulator of Salmonella pathogenicity island 1 (SPI-1) virulence genes in Salmonella enterica serovar Typhimurium. To identify novel HilD-regulated genes, we mapped the genome-wide association of HilD in S. Typhimurium under SPI-1-inducing conditions (high salt, low aeration) using ChIP-seq. HilD was C-terminally tagged with 3 FLAG tags in strain 14028s.

Project description:We looked at binding sites in a FliA FLAG-tagged wild-type Salmonella enterica serovar Typhimurium strain.

Project description:We mapped the genome-wide binding of C-terminally FLAG-tagged AraC in S. enterica subsp. enterica serovar Typhimurium strain 14028s using ChIP coupled with deep sequencing (ChIP-seq). We identified five putative target loci for AraC: upstream of araB/araC, araE, araJ, STM14_0178, and within sseD.

Project description:We mapped the genome-wide binding of sigma 70 in E. coli K-12 MG1655 and an hns mutant that is otherwise isogenic using ChIP coupled with deep sequencing (ChIP-seq). We show that intragenic binding of sigma 70 is increased in the hns mutant.

Project description:ChIP-seq was performed to map the association of SPA-tagged DnaA across the Escherichia coli MG1655 chromosome during exponential phase growth in LB. As a control to remove background, ChIP-Seq was also performed on SPA-tagged AcpS, a protein that is not known to bind DNA.

Project description:To determine sites where RpoS binds (and hence likely plays a direct role in transcription), we used ChIP-seq to map the association of RpoS across the Escherichia coli chromosome during stationary phase growth in minimal medium. To facilitate ChIP, RpoS was C-terminally SPA-tagged at its native locus.