Here we develop a set of new tools for S. pneumoniae and as a case study we show that S. pneumoniaea SMC is recruited to oriC by ParB and promotes chromosome segregation.
SEEK ID: https://fairdomhub.org/studies/64
Wetlab approach to transcription fidelity
Projects: Noisy-Strep
Study position:
Experimentalists: Anita Minnen, Maria Thon, Stephan Gruber
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Created: 8th Feb 2011 at 11:47
Last updated: 22nd Nov 2011 at 19:12
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Projects: Noisy-Strep
Institutions: University of Groningen
Expertise: Microbiology, Genetics, Molecular Biology, Single Cell analysis, Bacillus subtilis, Bacterial Cell Biology, Molecular microbiology, Medical microbiology, Streptococcus pneumoniae
Tools: Microbiology, Biochemistry, Genetics, Genetic modification, Transcriptomics, Fluorecence based reporter gene analyses/single cell analyses, Molecular biology techniques (RNA/DNA/Protein)
The Veening lab is interested in phenotypic bi-stability in Streptococcus pneumoniae and its importance in virulence of this human pathogen.
SysMO is a European transnational funding and research initiative on "Systems Biology of Microorganisms".
The goal pursued by SysMO was to record and describe the dynamic molecular processes going on in unicellular microorganisms in a comprehensive way and to present these processes in the form of computerized mathematical models.
Systems biology will raise biomedical and biotechnological research to a new quality level and contribute markedly to progress in understanding. Pooling European research ...
Projects: BaCell-SysMO, COSMIC, SUMO, KOSMOBAC, SysMO-LAB, PSYSMO, SCaRAB, MOSES, TRANSLUCENT, STREAM, SulfoSys, SysMO DB, SysMO Funders, SilicoTryp, Noisy-Strep
Web page: http://sysmo.net/
Bistable switches are the key elements of the regulatory networks governing cell development, differentiation and life-strategy decisions. Transcriptional noise is a main determinant that causes switching between different states in bistable systems. By using the human pathogen Streptococcus pneumoniae as a model bacterium, we will investigate how transcriptional fidelity and processivity influence (noisy) gene expression and participate in bistability. To study this question, we will use both ...
Programme: SysMO
Public web page: http://www.sysmo.net/index.php?index=163
Organisms: Streptococcus pneumoniae
Handling and manipulation of S. pneumoniae using molecular, cell biological and genetic tools.
Submitter: Jan-Willem Veening
Studies: Automated time-lapse microscopy, Chromosome segregation in S. pneumoniae, Investigation of bacterial transcription fidelity and processivity, The role of transcription factor GreA in transcription fidelity and proc...
Assays: Kinetics of misincorporation and proofreading by bacterial RNA polymerase, Live Cell Imaging of Bacillus subtilis and Streptococcus pneumoniae usin..., ParB-GFP ChIP on chip, RNA-Seq
Snapshots: No snapshots
Cells were grown to mid-exponential phase (OD600nm ~0.2) in GM17 medium at 37°C (with 0.15 mM ZnSO4 where relevant) and 84 ml of culture was mixed by inverting with 8.4 ml of fixing solution (50 mM Tris pH 8.0, 100 mM NaCl, 0.5 mM EGTA, 1 mM EDTA, 30% (v/v) formaldehyde) and incubated at room temperature for 30 min. Cells were disrupted and crosslinked DNA was sheared by sonication. Antibodies coupled to magnetic beads were used to pull down cross-linked complexes. DNA was purified, amplified, ...
Submitter: Jan-Willem Veening
Assay type: Transcriptomics
Technology type: ChIP-on-chip
Investigation: Wetlab approach to transcription fidelity
Organisms: Streptococcus pneumoniae : D39 (wild-type / wild-type)
SOPs: No SOPs
Data files: ChIP-chip ParB-GFP
Snapshots: No snapshots
GEO format data
Creator: Jan-Willem Veening
Submitter: Jan-Willem Veening
Investigations: Wetlab approach to transcription fidelity
Studies: Chromosome segregation in S. pneumoniae
Assays: ParB-GFP ChIP on chip