Project description:We present the data obtained from high-resolution ribosome profiling analysis of Mycobacterium tuberculosis grown under standard conditions (log phase) and cells subjected to oxidative stress (50 µM cumene hydroperoxide) and pH stress (pH 4.5). Our data shows pervasive ribosome pausing in the M. tb translatome. A large number of genes show very high pause immediately downstream to the translation start site. Moreover, serines and alanines in the E site of the ribosome exhibit highest pause scores.
Project description:HGPS is a rare premature ageing disease, caused by a mutation in the LMNA gene, which activates a cryptic splice site, resulting in the production of a mutant lamin A isoform, called progerin. Sporadic usage of the same cryptic splice site has been observed with normal physiological aging. As it is unknown how HGPS causes premature ageing defects, we set out to determine the gene signature of both young healthy individuals, old healthy individuals, as well as HGPS patients.
Project description:Neutrophils are accumulated in mouse lungs following Mycobacterium tuberculosis infections. Increased influx of neutrophils is associated with increased susceptibility to disease, but the underlying mechanisms of neutrophil mediated Tuberculosis disease pathogenesis is poorly understood. To understand the transcriptomic differences between resistant (C57 BL/6) and susceptible (C3HeB/FeJ) mouse lung neutrophils, we sorted them at Day 29 post infection and analyzed them by bulk mRNA sequencing.
Project description:The major human pathogen Mycobacterium tuberculosis can survive in the host organism for decades without causing symptoms. A large cohort of Toxin-Antitoxin (TA) modules contribute to this persistence. Of these, 48 TA modules belong to the vapBC (virulence associated protein) gene family. VapC toxins are PIN domain endonucleases that, in Enterobacteria, inhibit translation by site-specific cleavage of initiator tRNA. In contrast, VapC20 of M. tuberculosis inhibits translation by site-specific cleavage of the universally conserved Sarcin-Ricin loop (SRL) in 23S rRNA. Here we identify cleavage targets for 12 VapCs from M. tuberculosis by applying UV-crosslinking and deep sequencing. Remarkably, these VapCs are all endoribo-nucleases that cleave RNA targets that are essential for decoding at the ribosomal A-site. Eleven VapCs cleave specific tRNAs while one exhibits SRL cleavage activity. These findings suggest that multiple vapBC modules contribute to the survival of M. tuberculosis in its human host by reducing the level of translation.
