ABSTRACT
After transcription termination, cellular RNA polymerases (RNAPs) are occasionally trapped on DNA, impounded in an undefined Post-Termination Complex (PTC), limiting free RNAP pool and making transcription inefficient. In Escherichia coli, a Swi2/Snf2 ATPase RapA is involved in countering such inefficiency through RNAP recycling. To understand its mechanism of RNAP recycling, we have determined the cryo-electron microscopy (cryo-EM) structures of two sets of E. coli RapA-RNAP complexes along with RNAP core enzyme and elongation complex (EC). The structures revealed the large conformational changes of RNAP and RapA upon their association implicated in the hindrance in PTC formation. Our study reveals that although RapA binds away from the DNA binding channel of RNAP, it can close the RNAP clamp allosterically thereby preventing its non-specific DNA binding. Together with DNA binding assays, we propose that RapA acts as a guardian of RNAP by which prevents non-specific DNA binding of RNAP without affecting the sigma factor binding to RNAP core enzyme, thereby enhancing RNAP recycling.