Project description:Halobacterium salinarum is an extreme halophilic archaeon adapted to total salinities upwards of 4 M. Here we studied gene expression in H. salinarum grown in ten ion composition media that vary in two major aspects of ion composition: [NaCl] and Mg:K ratio.
Project description:RosR is a haloarchaeal-specific transcription factor required for the response to extreme oxidative stress in Halobacterium salinarum NRC-1.
Project description:To investigate the contribution of ribonucleases to post-transcriptional regulation of mRNA levels, we examined the fitness consequences and gene expression changes of ribonuclease mutants in the extreme halophilic archaeon Halobacterium salinarum NRC-1. H. salinarum NRC-1 is known to use a large repertoire of environment-specific transcriptional regulatory programs, which may be complemented by post-transcriptional regulatory mechanisms. Homology searches identified putative RNase genes in H. salinarum NRC-1 that include likely orthologs for RNases found in prokaryotic and eukaryotic lineages. The VNG2099C protein sequence is significantly similar (e = 2 x 10^-34) to the sequence of the rat liver perchloric acid-soluble protein (L-PSP), which has been shown to have endoribonuclease activity in vitro (Morishita et al 1999). The VNG2099C protein, like the archaeal Sulfolobus tokodaii YjgF/L-PSP protein for which a crystal structure has been solved (Miyakawa et al 2006), shares conservation of residues proposed to constitute the active site of the rat protein. The purpose of this gene expression study was to investigate the role of the putative endoribonuclease VNG2099C on gene regulation.
Project description:Data-Independent Acquisition (DIA) is a mass spectrometry-based method to reliably identify and reproducibly quantify large fractions of a target proteome. The peptide-centric data analysis strategy employed in DIA requires a priori generated spectral assay libraries. Such assay libraries allow to extract quantitative data in a targeted approach and have been generated for human, mouse, zebrafish, E. coli and few other organisms. However, a spectral assay library for the extreme halophilic archaeon Halobacterium salinarum NRC-1, a model organism that contributed to several notable discoveries, is not publicly available yet. Here, we report a comprehensive spectral assay library to measure 2,563 of 2,646 annotated H. salinarum NRC-1 proteins. We demonstrate the utility of this library by measuring global protein abundances over time under standard growth conditions. The H. salinarum NRC-1 library includes 21,074 distinct peptides representing 97% of the predicted proteome and provides a new, valuable resource to confidently measure and quantify any protein of this archaeon.
Project description:Data-Independent Acquisition (DIA) is a mass spectrometry-based method to reliably identify and reproducibly quantify large fractions of a target proteome. The peptide-centric data analysis strategy employed in DIA requires a priori generated spectral assay libraries. Such assay libraries allow to extract quantitative data in a targeted approach and have been generated for human, mouse, zebrafish, E. coli and few other organisms. However, a spectral assay library for the extreme halophilic archaeon Halobacterium salinarum NRC-1, a model organism that contributed to several notable discoveries, is not publicly available yet. Here, we report a comprehensive spectral assay library to measure 2,563 of 2,646 annotated H. salinarum NRC-1 proteins. We demonstrate the utility of this library by measuring global protein abundances over time under standard growth conditions. The H. salinarum NRC-1 library includes 21,074 distinct peptides representing 97% of the predicted proteome and provides a new, valuable resource to confidently measure and quantify any protein of this archaeon.