Functionally important components of the transcription elongation complex involved in Rho-dependent termination.

Bacterial transcription terminator, Rho is an RNA-dependent ATPase that terminates transcription. Several structures of pre-termination complexes of the Rho-transcription elongation complex (EC) revealed a static picture of components of the EC that come close to the nascent RNA-bound Rho, where many of the residues of EC reside ≤ 10 Å from the Rho residues. However, the in vitro-formed Rho-EC complexes do not reveal the in vivo Rho-EC dynamic interaction patterns during the termination process. Here we report synthetic defect analyses of various combinations of the mutations in RNAP β, β' and ω-subunits, NusA, NusG, and Rho proteins to delineate the functional network of this process. Several mutations in the β-flap and β'-Zn-finger and -Clamp helices domains of RNAP are synthetically defective in the presence of Rho mutants indicating functional involvement of these domains. Mutations in the NusA RNA-binding domains were synthetically defective with the Rho mutants suggesting its involvement. Our genetic analyses also revealed functional antagonisms between the ω-subunit of RNAP and the NusG-CTD during termination. We concluded that the regions surrounding the RNA exit channel, the RNA-binding domains of NusA, the RNAP ω-subunit, and NusG-CTD constitute a functional network with Rho just before the onset of in vivo Rho-dependent termination.