Motor proteins that translocate on nucleic acids are key players in gene expression and mainte-nance. While the function of these proteins is diverse, they are driven by highly conserved core motor domains. In transcription-coupled DNA repair, motor activity serves to remove RNA polymerase stalled on damaged DNA, making the lesion accessible for repair. Structural and biochem-ical data on the bacterial transcription-repair coupling factor Mfd suggest that this enzyme undergoes large conformational changes from a dormant state to an active state upon substrate binding. Mfd can be functionally dissected into an N-terminal part instrumental in recruiting DNA repair proteins (domains 1–3, MfdN), and a C-terminal part harboring motor activity (d...
The Escherichia coli transcription-repair coupling factor Mfd displaces stalled RNA polymerase and d...
Transcription coupled nucleotide excision repair (TC-NER) is involved in correcting UV-induced damag...
In 1989, transcription-repair coupling (TRC) was first described in Escherichia coli, as the transcr...
Motor proteins that translocate on nucleic acids are key players in gene expression and mainte-nance...
Cells dedicate tremendous amounts of energy to express essential genes for survival. During transcri...
Damage to actively transcribed genes is repaired at a faster rate than damage to non-transcribed gen...
The bacterial Mfd protein is a transcription-repair coupling factor that performs two key functions ...
Damage to actively transcribed genes is repaired at a faster rate than damage to non-transcribed gen...
AbstractTranscription and DNA repair are coupled in E. coli by the Mfd protein, which dissociates tr...
During transcription elongation, bacterial RNA polymerase (RNAP) can pause, backtrack or stall when ...
International audienceTranscription-coupled DNA repair uses components of the transcription machiner...
Transcription-repair coupling factors (TRCFs) are large ATPases that mediate the preferential repair...
ATP-dependent nucleic acid helicases and translo-cases play essential roles in many aspects of DNA a...
Preferential repair of the transcribed strand of active genes is usually attributed to a coupling pr...
In vitro and in vivo experiments with Escherichia coli have shown that the Mfd translocase is respon...
The Escherichia coli transcription-repair coupling factor Mfd displaces stalled RNA polymerase and d...
Transcription coupled nucleotide excision repair (TC-NER) is involved in correcting UV-induced damag...
In 1989, transcription-repair coupling (TRC) was first described in Escherichia coli, as the transcr...
Motor proteins that translocate on nucleic acids are key players in gene expression and mainte-nance...
Cells dedicate tremendous amounts of energy to express essential genes for survival. During transcri...
Damage to actively transcribed genes is repaired at a faster rate than damage to non-transcribed gen...
The bacterial Mfd protein is a transcription-repair coupling factor that performs two key functions ...
Damage to actively transcribed genes is repaired at a faster rate than damage to non-transcribed gen...
AbstractTranscription and DNA repair are coupled in E. coli by the Mfd protein, which dissociates tr...
During transcription elongation, bacterial RNA polymerase (RNAP) can pause, backtrack or stall when ...
International audienceTranscription-coupled DNA repair uses components of the transcription machiner...
Transcription-repair coupling factors (TRCFs) are large ATPases that mediate the preferential repair...
ATP-dependent nucleic acid helicases and translo-cases play essential roles in many aspects of DNA a...
Preferential repair of the transcribed strand of active genes is usually attributed to a coupling pr...
In vitro and in vivo experiments with Escherichia coli have shown that the Mfd translocase is respon...
The Escherichia coli transcription-repair coupling factor Mfd displaces stalled RNA polymerase and d...
Transcription coupled nucleotide excision repair (TC-NER) is involved in correcting UV-induced damag...
In 1989, transcription-repair coupling (TRC) was first described in Escherichia coli, as the transcr...