Project description:Reversible protein phosphorylation is one of the major mechanisms in the regulation of protein expression and protein activity, controlling physiological functions of the important human pathogen Staphylococcus aureus. Phosphorylations at serine, threonine and tyrosine are known to influence for example protein activity in central metabolic pathways and the more energy-rich phosphorylations at histidine, aspartate or cysteine can be found as part of two component system sensor domains or mediating bacterial virulence. In addition to these well-known phosphorylations, the phosphorylation at arginine residues plays an essential role. Hence, the deletion mutant S. aureus COL ΔptpB (protein tyrosine phosphatase B) was studied since the protein PtpB is assumed to be an arginine phosphatase. A gel-free approach was applied to analyse the changes in the phosphoproteome of the deletion mutant ΔptpB and the wild type in growing cells, thereby focusing on the occurrence of phosphorylation on arginine residues. In order to enhance the reliability of identified phosphorylation sites at arginine residues, a subset of arginine phosphorylated peptides was chemically synthesised. Combined spectral libraries based on phosphoenriched samples, synthetic arginine phosphorylated peptides and classical proteome samples provide a sophisticated tool for the analysis of arginine phosphorylations. This way, 212 proteins phosphorylated on serine, threonine, tyrosine or arginine residues were identified within the mutant ∆ptpB and 102 in wild type samples. Among them, 207 arginine phosphosites were identified exclusively within the mutant ∆ptpB, widely distributed along the whole bacterial metabolism. This identification of putative targets of PtpB allows further investigation of the physiological relevance of arginine phosphorylations and provides the basis for reliable quantification of arginine phosphorylations in bacteria.

Project description:I-Traq based quantitative phosphoproteomics was used to examine changes in phosphopeptide abundance over longer term drought (low water potential) treatments. Samples were analyzed from unstressed seedlings grown on agar plates and from seedlings of the same age that had been transferred to low water potential (-1.2 MPa) for 96 h on PEG-infused agar plates. The genotypes analyzed were wild type Col-0 and two phosphatases mutants. One was a double mutant of two Clade E protein phosphatase 2Cs (Salk_011589 which lacks activity of AT3G05640 and Salk_048861 which lacks activity of AT5G27930). The other was a mutant (hai1-2) of the Clade A protein phosphatase 2C Highly ABA-Induced 1 (HAI1): Salk_108282 which lacks activity of AT5G59220). Our characterization of hai1-2 as well as detailed description of growth conditions and stress treatments has been reported in Bhaskara et al. (Plant Physiology 160:379-395, 2012). Characterization of the Clade E protein phosphatase 2Cs have not been previously reported and we have designated these as Clade E Growth Regulating PP2Cs (EGRs) based on characterization in our laboratory. The double mutant used for phosphoproteomic analysis has been designated egr1-1egr2-1. Three biological replicates were performed and microarray analysis of gene expression was performed on samples collected from the same experiments. The gene expression data sets have been deposited in Gene Expression Onmibus (GEO) under accession numbers GSE35258 (hai1-2 data) and GSE71237 (egr1-1egr2-1 data).

Project description:This SuperSeries is composed of the following subset Series: GSE33033: ahrC mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + 10 mM arginine GSE33034: argR1 mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + 10 mM arginine GSE33035: argR1-ahrC mutant compared to D39 wild-type in Streptococcus pneumoniae in CDM + 10 mM arginine GSE33036: Streptococcus pneumoniae D39 wild-type grown in CDM+10 mM arginine compared to D39 wild type grown in CDM + 0.05 mM arginine Refer to individual Series

Project description:Long noncoding RNAs (lncRNAs) have emerged as important components of gene regulatory network in embryonic stem cells (ESCs). However, the function and molecular mechanism of lncRNAs are still largely unknown. Here we identified Trincr1 (TRIM71 interacting long noncoding RNA 1) lncRNA that regulates the FGF/ERK signaling and self-renewal of ESCs. Trincr1 is exported by THOC complex to cytoplasm where it binds and represses TRIM71, leading to the downregulation of SHCBP1 protein. Knocking out Trincr1 leads to the upregulation of phosphorylated ERK and ERK pathway target genes and the decrease of ESC self-renewal, while knocking down Trim71 completely rescues the defects of Trincr1 knockout. Furthermore, ectopic expression of Trincr1 represses FGF/ERK signaling and the self-renewal of neural progenitor cells. Together, this study reveals more regulators in FGF/ERK signaling pathway and highlights lncRNA as an important player in cell signaling network to coordinate cell fate specification.

Project description:Comparison of Streptococcus pneumoniae D39 wild-type grown in CDM+10 mM arginine compared to D39 wild type grown in CDM + 0.05 mM arginine to define the genome-wide transcriptional response to arginine. Details described in Kloosterman TG and Kuipers OP. ArgR1 and AhrC Mediate Arginine-Dependent Regulation of Arginine Acquisition- and Virulence Genes in the Human Pathogen Streptococcus pneumoniae. JBC 2011 Two condition design comparison of wild type strain

Project description:Staphylococcus aureus COL wild type strain was cultivated in LB medium in 3 biological replicates and harvested at an OD500 of 0.5 before (as control) and at 30 min after exposure to 1176 μM neutrophil-derived oxidant hypothiocyanous acid (HOSCN) stress. Cells were disrupted in 3 mM EDTA/ 200 mM NaCl lysis buffer with a Precellys24 ribolyzer followed by RNA isolation using the acid phenol extraction protocol as described. The RNA quality was approved by Trinean Xpose (Gentbrugge, Belgium) and the Agilent RNA Nano 6000 kit using an Agilent 2100 Bioanalyzer (Agilent Technologies, Böblingen, Germany). Ribo-Zero rRNA Removal Kit (Bacteria) from Illumina (San Diego, CA, USA) was used to remove the rRNA. TruSeq Stranded mRNA Library Prep Kit from Illumina (San Diego, CA, USA) was applied to prepare the cDNA libraries. The cDNAs were sequenced paired end on an NextSeq 500 (San Diego, CA, USA) using 75 bp read length and a minimum sequencing depth of 8 million reads per library. The paired end cDNA reads were mapped to the Staphylococcus aureus COL genome sequence (accession number CP000046) using bowtie2 v2.2.7 (Langmead and Salzberg, 2012) with default settings for paired-end read mapping. All mapped sequence data were converted from SAM to BAM format with SAMtools v1.3 (Li et al., 2009) and imported to the software ReadXplorer v.2.2 (Hilker et al., 2016).

Project description:In Staphylococcus aureus, de novo methionine biosynthesis is regulated by a unique hierarchical pathway involving stringent-response controlled CodY repression in combination with a T-box riboswitch and RNA decay. The T-box riboswitch residing in the 5' untranslated region (met leader RNA) of the S. aureus metICFE-mdh operon controls downstream gene transcription upon interaction with uncharged methionyl-tRNA. met leader and metICFE-mdh (m)RNAs undergo RNase-mediated degradation in a process whose molecular details are poorly understood. Here, we determined the secondary structure of the met leader RNA and found the element to harbor, beyond other conserved T-box riboswitch structural features, a terminator helix which is a target for RNase III endoribonucleolytic cleavage. As the terminator is a thermodynamically highly stable structure, it also forms posttranscriptionally in met leader/ metICFE-mdh read-through transcripts. Cleavage by RNase III releases the met leader from metICFE-mdh mRNA and initiates RNase J-mediated degradation of the mRNA from the 5'-end. Of note, metICFE-mdh mRNA stability varies over the length of the transcript with a longer lifespan towards the 3'-end. Corresponding variations in protein levels led us to hypothesize that coordinated RNA decay represents another level in the hierarchical methionine biosynthesis control network to adjust methionine biosynthesis enzyme amounts to current metabolic requirements.

Project description:In Staphylococcus aureus, de novo methionine biosynthesis is regulated by a unique hierarchical pathway involving stringent-response controlled CodY repression in combination with a T-box riboswitch and RNA decay. The T-box riboswitch residing in the 5' untranslated region (met leader RNA) of the S. aureus metICFE-mdh operon controls downstream gene transcription upon interaction with uncharged methionyl-tRNA. met leader and metICFE-mdh (m)RNAs undergo RNase-mediated degradation in a process whose molecular details are poorly understood. Here, we determined the secondary structure of the met leader RNA and found the element to harbor, beyond other conserved T-box riboswitch structural features, a terminator helix which is a target for RNase III endoribonucleolytic cleavage. As the terminator is a thermodynamically highly stable structure, it also forms posttranscriptionally in met leader/ metICFE-mdh read-through transcripts. Cleavage by RNase III releases the met leader from metICFE-mdh mRNA and initiates RNase J-mediated degradation of the mRNA from the 5'-end. Of note, metICFE-mdh mRNA stability varies over the length of the transcript with a longer lifespan towards the 3'-end. Corresponding variations in protein levels led us to hypothesize that coordinated RNA decay represents another level in the hierarchical methionine biosynthesis control network to adjust methionine biosynthesis enzyme amounts to current metabolic requirements.

Project description:Comparison of Streptococcus pneumoniae D39 argR1 mutant compared to D39 wild type in CDM with 10 mM arginine to define the regulon of the ArgR1 regulator under this condition. Details described in Kloosterman TG and Kuipers OP. ArgR1 and AhrC Mediate Arginine-Dependent Regulation of Arginine Acquisition- and Virulence Genes in the Human Pathogen Streptococcus pneumoniae. JBC 2011 One condition design comparison of two strains including a dye swap

Project description:Comparison of Streptococcus pneumoniae D39 ahrC mutant compared to D39 wild type in CDM with 10 mM arginine to define the regulon of the AhrC regulator under this condition. Details described in Kloosterman TG and Kuipers OP. ArgR1 and AhrC Mediate Arginine-Dependent Regulation of Arginine Acquisition- and Virulence Genes in the Human Pathogen Streptococcus pneumoniae. JBC 2011 One condition design comparision of two strains including a dye swap