Robert Łyżeń scite author profile

Toxin-antitoxin systems were shown to be involved in plasmid maintenance when they were initially discovered, but other roles have been demonstrated since. Here we identify and characterize a novel toxin-antitoxin system (pemIK Sa ) located on Staphylococcus aureus plasmid pCH91. The toxin (PemK Sa ) is a sequence-specific endoribonuclease recognizing the tetrad sequence UkAUU, and the antitoxin (PemI Sa ) inhibits toxin activity by physical interaction. Although the toxin-antitoxin system is responsible for stable plasmid maintenance our data suggest the participation of pemIK Sa in global regulation of staphylococcal virulence by alteration of the translation of large pools of genes. We propose a common mechanism of reversible activation of toxin-antitoxin systems based on antitoxin transcript resistance to toxin cleavage. Elucidation of this mechanism is particularly interesting because reversible activation is a prerequisite for the proposed general regulatory role of toxin-antitoxin systems.

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ppGpp inhibits the activity of Escherichia coli DnaG primase

Maciąg

Kochanowska

Łyżeń

et al. 2010

Plasmid

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Transcription from bacteriophage pR promoter is regulated independently and antagonistically by DksA and ppGpp

Łyżeń

Kochanowska

Węgrzyn

et al. 2009

Nucleic Acids Research

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The stringent response effector, guanosine tetraphosphate (ppGpp), adjust gene expression and physiology in bacteria, by affecting the activity of various promoters. RNA polymerase-interacting protein, DksA, was proposed to be the co-factor of ppGpp effects; however, there are reports suggesting independent roles of these regulators. Bacteriophage λ major lytic promoter, pR, is down-regulated by the stringent response and ppGpp. Here, we present evidence that DksA significantly stimulates pR-initiated transcription in vitro in the reconstituted system. DksA is also indispensable for pR activity in vivo. DksA-mediated activation of pR-initiated transcription is predominant over ppGpp effects in the presence of both regulators in vitro. The possible role of the opposite regulation by ppGpp and DksA in λ phage development is discussed. The major mechanism of DksA-mediated activation of transcription from pR involves facilitating of RNA polymerase binding to the promoter region, which results in more productive transcription initiation. Thus, our results provide evidence for the first promoter inhibited by ppGpp that can be stimulated by the DksA protein both in vivo and in vitro. Therefore, DksA role could be not only independent but antagonistic to ppGpp in transcription regulation.

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Bioluminescence-mediated stimulation of photoreactivation in bacteria

Kozakiewicz

Gajewska

Łyżeń

et al. 2005

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Although biochemistry and genetics of light emission by cells have been investigated in detail, a biological role for bacterial luminescence has remained obscure for a long time. It was proposed recently that luminescence may stimulate DNA repair, but the specific mechanism of this phenomenon was not investigated. Moreover, experiments showing decreased survival of UV-irradiated lux mutants relative to luminescent cells were performed previously using only one bacterial species, Vibrio harveyi. Here, we demonstrate that dark mutants of various strains of naturally luminescent bacteria (Photobacterium leiognathi, Photobacterium phosphoreum and Vibrio fischeri) are more sensitive to UV irradiation than wild-type cells. Thus, this phenomenon occurs not only in V. harveyi but also in other bacterial species. Using an artificial system of luminescent Escherichia coli in combination with phr mutants (defective in photolyase functions), we found that bacterial luminescence may stimulate photoreactivation, perhaps by providing photons that are necessary for photolyase activity.

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Effects of partial silencing of genes coding for enzymes involved in glycolysis and tricarboxylic acid cycle on the enterance of human fibroblasts to the S phase

et al. 2015

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BackgroundPreviously published reports indicated that some enzymes of the central carbon metabolism (CCM), particularly those involved in glycolysis and the tricarboxylic acid cycle, may contribute to regulation of DNA replication. However, vast majority of such works was performed with the use of cancer cells, in the light of carcinogenesis. On the other hand, recent experiments conducted on bacterial models provided evidence for the direct genetic link between CCM and DNA replication. Therefore, we asked if silencing of genes coding for glycolytic and/or Krebs cycle enzymes may affect the control of DNA replication in normal human fibroblasts.ResultsParticular genes coding for these enzymes were partially silenced with specific siRNAs. Such cells remained viable. We found that silencing of certain genes resulted in either less efficient or delayed enterance to the S phase. This concerned following genes: HK2, PFKM, TPI, GAPDH, ENO1, LDHA, CS1, ACO2, SUCLG2, SDHA, FH and MDH2. Decreased levels of expression of HK2, GADPH, CS1, ACO2, FH and MDH2 caused also a substantial impairment in DNA synthesis efficiency.ConclusionsThe presented results illustrate the complexity of the influence of genes coding for enzymes of glycolysis and the tricarboxylic acid cycle on the control of DNA replication in human fibroblasts, and indicate which of them are especially important in this process.Electronic supplementary materialThe online version of this article (doi:10.1186/s12860-015-0062-8) contains supplementary material, which is available to authorized users.

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Robert Łyżeń

A regulatory role for Staphylococcus aureus toxin–antitoxin system PemIKSa

ppGpp inhibits the activity of Escherichia coli DnaG primase

Transcription from bacteriophage pR promoter is regulated independently and antagonistically by DksA and ppGpp

Bioluminescence-mediated stimulation of photoreactivation in bacteria

Effects of partial silencing of genes coding for enzymes involved in glycolysis and tricarboxylic acid cycle on the enterance of human fibroblasts to the S phase

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