Petra Sudzinova- Ph.D.
- PostDoc Position at The Czech Academy of Sciences
Petra Sudzinova
- Ph.D.
- PostDoc Position at The Czech Academy of Sciences
About
17
Publications
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243
Citations
Introduction
Current institution
Additional affiliations
August 2013 - present
Education
September 2013 - June 2018
September 2008 - June 2013
Publications
Publications (17)
Mycobacterial HelD is a transcription factor that recycles stalled RNAP by dissociating it from nucleic acids and, if present, from the antibiotic rifampicin. The rescued RNAP, however, must disengage from HelD to participate in subsequent rounds of transcription. The mechanism of release is unknown. We show that HelD from Mycobacterium smegmatis f...
Sigma factors bind and direct the RNA polymerase core to specific promoter sequences, and alternative sigma factors direct transcription of different regulons of genes. Here, we study the pBS32 plasmid-encoded sigma factor SigN of Bacillus subtilis to determine how it contributes to DNA damage-induced cell death. We find that SigN causes cell death...
Rifampicin is a clinically important antibiotic that binds to, and blocks the DNA/RNA channel of bacterial RNA polymerase (RNAP). Stalled, nonfunctional RNAPs can be removed from DNA by HelD proteins; this is important for maintenance of genome integrity. Recently, it was reported that HelD proteins from high G + C Actinobacteria, called HelR, are...
The alarming rise of bacterial antibiotic resistance requires the development of new compounds. Such compounds, lipophosphonoxins (LPPOs), were previously reported to be active against numerous bacterial species, but serum albumins abolished their activity. Here we describe the synthesis and evaluation of novel antibacterial compounds termed LEGO-L...
The expression of rRNA is one of the most energetically demanding cellular processes and, as such, it must be stringently controlled. Here, we report that DNA topology, i.e., the level of DNA supercoiling, plays a role in the regulation of Bacillus subtilis σA-dependent rRNA promoters in a growth phase-dependent manner. The more negative DNA superc...
RNA synthesis is central to life, and RNA polymerase (RNAP) depends on accessory factors for recovery from stalled states and adaptation to environmental changes. Here, we investigated the mechanism by which a helicase-like factor HelD recycles RNAP. We report a cryo-EM structure of a complex between the Mycobacterium smegmatis RNAP and HelD. The c...
RNA synthesis is central to life, and RNA polymerase depends on accessory factors for recovery from stalled states and adaption to environmental changes. Here we investigated the mechanism by which a helicase-like factor HelD recycles RNA polymerase. We report a cryo-EM structure of an unprecedented complex between the Mycobacterium smegmatis RNA p...
Bacillus subtilis cells are well suited to study how bacteria sense and adapt to proteotoxic stress such as heat, since temperature fluctuations are a major challenge to soil-dwelling bacteria. Here, we show that the alarmones (p)ppGpp, well known second messengers of nutrient starvation, are also involved in the heat stress response as well as the...
RNase J1 is the major 5'-to-3' bacterial exoribonuclease. We demonstrate that in its absence, RNA polymerases (RNAPs) are redistributed on DNA, with increased RNAP occupancy on some genes without a parallel increase in transcriptional output. This suggests that some of these RNAPs represent stalled, non-transcribing complexes. We show that RNase J1...
Here, B. subtilis was used as a model organism to investigate how cells respond and adapt to proteotoxic stress conditions. Our experiments suggested that the stringent response, caused by raised levels of the (p)ppGpp alarmone, plays a role during thermotolerance development and the heat shock response. Accordingly, our experiments revealed a rapi...
HelD is a helicase‐like protein binding to Bacillus subtilis RNA polymerase (RNAP), stimulating transcription in an ATP‐dependent manner. Here, our small angle X‐ray scattering data bring the first insights into the HelD structure: HelD is compact in shape and undergoes a conformational change upon substrate analog binding. Furthermore, the HelD do...
Spx is a Bacillus subtilis transcription factor that interacts with the alpha subunits of RNA polymerase. It can activate the thiol stress response regulon and interfere with the activation of many developmental processes. Here, we show that Spx is a central player orchestrating the heat shock response by up‐regulating relevant stress response gene...
The increase in the number of bacterial strains resistant to known antibiotics is alarming. In this study we report the synthesis of novel compounds termed Lipophosphonoxins II (LPPO II). We show that LPPO II display excellent activities against Gram positive and -negative bacteria, including pathogens and multiresistant strains. We describe their...
Bacterial RNA polymerase (RNAP) is an essential multisubunit protein complex required for gene expression. Here, we characterize YvgS (HelD) from Bacillus subtilis, a novel binding partner of RNAP. We show that HelD interacts with RNAP-core between the secondary channel of RNAP and the alpha subunits. Importantly, we demonstrate that HelD stimulate...
Questions
Questions (2)
I am preparing samples for NGS, RNA sequencing.
I isolate total RNA from B. subtilis, deplete it from rRNA and then make DNA libraries. Every step is quality-checked using BioAnalyser.
And in the last step some issue occurs:
I have 12 samples and in case of 4 of them, the second peak after PCR amplification appears, suggesting large heteroduplex DNA complexes creation. So I lower the number of cycles in my PCR and everything works fine. But there is the question: Can we use samples with different numbers of cycles in amplification? Will be these samples comparable? Or is a better "scientific" way to have all samples with the same numbers of cycles, even though in some DNA libraries will be large heteroduplexes?
Thanks for your kind advice.
Is there any method to quantificate amount of EPS (exopolysaccharides) that bacterial strain produce? some staining, measurement of optical density or so?
