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Construction and characterization of recombinant systems for stress response analysis in pollutant-degrading rhodococci
Křenková, Lucie ; Štěpánek, Václav (advisor) ; Marešová, Helena (referee)
Genus Rhodococcus is represented by Gram-positive, mycolate-containing non- sporulating actinobacteria that excel in their ability to withstand effects of various physical and chemical stressors. Their enormous metabolic capacity allows them to efficiently degrade a wide range of toxic compounds. To benefit from these capabilities, it is essential to know the molecular basis of their response to the stresses, the regulation of which is primarily controlled by σ factors of RNA polymerase. These σ factors are still poorly described in rhodococci. This thesis aims to explore the potential of Rhodococcus erythropolis CCM2595 as a model organism for studying stress responses in rhodococci. R. erythropolis ΔsigH mutant and single-plasmid strains have been constructed which allow studying promoter activities of genes responding to osmotic, heat, and oxidative stress by measurement of GFP fluorescence intensity, in the cells of R. erythropolis. Further, homologous two- plasmid strains, which support induced overproduction of s factors, were also constructed. Comparison with analogous Corynebacterium glutamicum host-based systems showed that the use of rhodococci themselves as hosts for plasmid systems is still very limited, probably due to the plasmid instability in rhodococcal cells. Thus, for routine...
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Identification and modeling of gene expression regulatory networks during streptomycetes germination
Straková, Eva ; Vohradský, Jiří (advisor) ; Stopka, Pavel (referee) ; Vondrášek, Jiří (referee)
Streptomycetes have been studied mostly as producers of antibiotics and for fundamentals of complex bacterial cell development. Here, transcriptomic and proteomic approaches were applied to systems study of Streptomyces coelicolor germination as a developmental transition from dormancy to the vegetative stage. The time dynamics of the gene expression levels represented by mRNA and intracellular protein accumulation and synthesis were measured throughout 5.5 h of germination at 13 time points by employing both DNA microarray and two-dimensional gel electrophoresis techniques. Using a numerical model of gene expression, genetic networks were reconstructed and functional groups of genes controlled by the sigma factors were identified. Modeling of the regulatory interactions provided a set of parameters allowing simulate kinetics of gene expression control among the sigma factors and their target genes. Particularly regulons of two sigma factors, SigR and HrdD, were identified. The analysis assigned their key role during the germination process. Analysis of global trends in the gene/protein expression revealed that the full capability of regulatory mechanisms responding to the environmental cues is reached within the first hour of germination, and identified the basic gene/protein functional groups...
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Function of sigma factors in strains of genus Rhodococcus
Nový, David ; Štěpánek, Václav (advisor) ; Sudzinová, Petra (referee)
Thanks to their large genome sizes, rhodococci share considerable biotechnological potential, however, there is still little known about the regulation of gene expression during the initiation of transcription process. The knowledge of this process might help to optimize biotechnological application. A large number of sigma factors are involved in the transcriptional regulation of rhodococci and this number often positively correlates with their genome sizes. Sigma factors can be potentially divided into two groups: the first, conserved factors that may in some variants occur in many different species among bacteria, and the second, specific sigma factors, that have been evolutionarily selected in individual strains due to environmental and lifestyle conditions. All sigma factors present in rhodococci belong to the σ70 family and can also be divided into four groups according to the presence of conserved structural domains (groups 1 to 4). A special type of sigma factors with extracytoplasmic function (ECF, group 4) are factors carrying specific domains at their C-terminus, namely NTF- 2-like or TPR, whose functions are still not fully understood. Very little information about the physiological functions of individual sigma factors in rhodococci has been published but it can be supplemented by...
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Identification and modeling of gene expression regulatory networks during streptomycetes germination
Straková, Eva ; Vohradský, Jiří (advisor) ; Stopka, Pavel (referee) ; Vondrášek, Jiří (referee)
Streptomycetes have been studied mostly as producers of antibiotics and for fundamentals of complex bacterial cell development. Here, transcriptomic and proteomic approaches were applied to systems study of Streptomyces coelicolor germination as a developmental transition from dormancy to the vegetative stage. The time dynamics of the gene expression levels represented by mRNA and intracellular protein accumulation and synthesis were measured throughout 5.5 h of germination at 13 time points by employing both DNA microarray and two-dimensional gel electrophoresis techniques. Using a numerical model of gene expression, genetic networks were reconstructed and functional groups of genes controlled by the sigma factors were identified. Modeling of the regulatory interactions provided a set of parameters allowing simulate kinetics of gene expression control among the sigma factors and their target genes. Particularly regulons of two sigma factors, SigR and HrdD, were identified. The analysis assigned their key role during the germination process. Analysis of global trends in the gene/protein expression revealed that the full capability of regulatory mechanisms responding to the environmental cues is reached within the first hour of germination, and identified the basic gene/protein functional groups...
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