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The Impact Of Transcription And Nucleoid-Associated Proteins On Dna Supercoiling In Escherichia Coli And Salmonella Typhimurium, Andrews Agbleke
The Impact Of Transcription And Nucleoid-Associated Proteins On Dna Supercoiling In Escherichia Coli And Salmonella Typhimurium, Andrews Agbleke
All ETDs from UAB
Bacterial chromosomes are maintained under constant negative supercoiled stress that influences almost all cellular processes including DNA replication, transcription, segregation, site-specific and homologous recombination, and other DNA transposition. The average supercoiling density of the chromosome is generated by gyrase, and supercoil equilibrium is maintained by two other topoisomerases topo I and topo IV. The supercoils generated by gyrase can diffuse over 10 kb domains. The other half of the chromosome's supercoil structure is connected to abundant nucleoid-associated proteins (NAPs). My goal was to characterize factors other than gyrase that participate in generating or regulating supercoil dynamics in Escherichia coli and …
Intrinsic Properties Of Rna Polymerase I And Trans-Acting Factors Control Transcription Elongation Efficiency, Olga V. Viktorovskaya
Intrinsic Properties Of Rna Polymerase I And Trans-Acting Factors Control Transcription Elongation Efficiency, Olga V. Viktorovskaya
All ETDs from UAB
Transcription of ribosomal (r) DNA by RNA polymerase I (Pol I) is the initial step of ribosome synthesis. Pol I transcription is unique in its high rate of initiation, specific organization within the nucleolus and tight connection to cell growth and proliferation. Moreover, transcription elongation by Pol I is functionally coupled with rRNA processing and assembly of the ribosomes. Regulatory insights into transcription elongation by Pol I and its interface with rRNA processing are limited, despite decades of research. To fulfill that gap, we asked several important questions: Do the obvious functional divergences between Pol I and other eukaryotic polymerases …