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Regulation of mycobacterial transcription
Kafka, Vojtěch ; Krásný, Libor (advisor) ; Dostálová, Hana (referee)
RNA polymerase (RNAP) is the enzyme that catalyzes synthesis of RNA. Mycobacterial RNAP significantly differs from RNAPs from other bacterial species. It requires special transcription factors such as RbpA or CarD. Another difference is the presence of a small RNA (sRNA), Ms1, that binds to mycobacterial RNAP. Ms1 regulates the amount of RNAP in the cell. In our laboratory we recently discovered MoaB2, a new binding partner of mycobacterial A (encoded by sigA), an RNAP subunit, which is essential for recognition of the initial promoter sequence and initiation of transcription. The function of MoaB2 in the regulation of transcription and gene expression is still unknown. The first aim of this Thesis is contribute to elucidation of the mechanism by which Ms1 affects the amount of RNAP. The experiments revealed that this regulation occurs at the level of transcription; Ms1 affects the activity of promoter(s) that drive the transcription of rpoB- rpoC that encode the two catalytic subunits of RNAP. The second aim of this Thesis is to characterize the interactions of MoaB2 with protein of the transcription apparatus. The results confirmed the interaction of MoaB2 with A and showed that neither RNAP nor transcription factors RbpA and CarD are required for this interaction. Finally, a role of the...
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RNA polymerase: The "meeting point" of regulatory networks
Wiedermannová, Jana ; Krásný, Libor (advisor) ; Pospíšek, Martin (referee) ; Valášek, Leoš (referee)
Bacterial RNA polymerase (RNAP) is a multisubunit complex essential for transcription of DNA into RNA. As a key enzyme responsible for regulation of gene expression it interprets regulatory signals from the cell and based on these cues RNAP adjusts transcription level of particular genes. This process is affected both by the regular subunits of RNAP as well as other transcription factors (TFs) directly or indirectly interacting with RNAP. The general focus of this Thesis was to extend the knowledge about the complex transcriptional regulatory networks and about the connections between individual pathways. The main specific topic and the main publication of the thesis are focused on the HelD protein, a novel binding partner of RNAP in Bacillus subtilis. We showed that HelD binds between the secondary channel of RNAP and alpha subunits of the core form of the enzyme. We proved that HelD stimulates transcription in an ATP dependent manner by enhancing transcriptional cycling and elongation. We revealed a new connection in the transcription regulatory machinery when we demonstrated that the stimulatory effect of HelD can be amplified by delta, a small subunit of RNAP specific for gram positive (G+) bacteria. Two other publications of the thesis are dealing with the delta subunit. We solved the 3D...
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Regulation of mycobacterial transcription
Kafka, Vojtěch ; Krásný, Libor (advisor) ; Dostálová, Hana (referee)
RNA polymerase (RNAP) is the enzyme that catalyzes synthesis of RNA. Mycobacterial RNAP significantly differs from RNAPs from other bacterial species. It requires special transcription factors such as RbpA or CarD. Another difference is the presence of a small RNA (sRNA), Ms1, that binds to mycobacterial RNAP. Ms1 regulates the amount of RNAP in the cell. In our laboratory we recently discovered MoaB2, a new binding partner of mycobacterial A (encoded by sigA), an RNAP subunit, which is essential for recognition of the initial promoter sequence and initiation of transcription. The function of MoaB2 in the regulation of transcription and gene expression is still unknown. The first aim of this Thesis is contribute to elucidation of the mechanism by which Ms1 affects the amount of RNAP. The experiments revealed that this regulation occurs at the level of transcription; Ms1 affects the activity of promoter(s) that drive the transcription of rpoB- rpoC that encode the two catalytic subunits of RNAP. The second aim of this Thesis is to characterize the interactions of MoaB2 with protein of the transcription apparatus. The results confirmed the interaction of MoaB2 with A and showed that neither RNAP nor transcription factors RbpA and CarD are required for this interaction. Finally, a role of the...
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RNA polymerase: The "meeting point" of regulatory networks
Wiedermannová, Jana ; Krásný, Libor (advisor) ; Pospíšek, Martin (referee) ; Valášek, Leoš (referee)
Bacterial RNA polymerase (RNAP) is a multisubunit complex essential for transcription of DNA into RNA. As a key enzyme responsible for regulation of gene expression it interprets regulatory signals from the cell and based on these cues RNAP adjusts transcription level of particular genes. This process is affected both by the regular subunits of RNAP as well as other transcription factors (TFs) directly or indirectly interacting with RNAP. The general focus of this Thesis was to extend the knowledge about the complex transcriptional regulatory networks and about the connections between individual pathways. The main specific topic and the main publication of the thesis are focused on the HelD protein, a novel binding partner of RNAP in Bacillus subtilis. We showed that HelD binds between the secondary channel of RNAP and alpha subunits of the core form of the enzyme. We proved that HelD stimulates transcription in an ATP dependent manner by enhancing transcriptional cycling and elongation. We revealed a new connection in the transcription regulatory machinery when we demonstrated that the stimulatory effect of HelD can be amplified by delta, a small subunit of RNAP specific for gram positive (G+) bacteria. Two other publications of the thesis are dealing with the delta subunit. We solved the 3D...
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