4g3v

Publication Abstract from PubMed

The sigma subunits of bacterial RNA polymerase occur in many variant forms and confer promoter specificity to the holopolymerase. Members of the sigma(54) family of sigma subunits require the action of a 'transcriptional activator' protein to open the promoter and initiate transcription. The activator proteins undergo regulated assembly from inactive dimers to hexamers that are active ATPases. These contact sigma(54) directly and, through ATP hydrolysis, drive a conformational change that enables promoter opening. sigma(54) activators use several different kinds of regulatory domains to respond to a wide variety of intracellular signals. One common regulatory module, the GAF domain, is used by sigma(54) activators to sense small-molecule ligands. The structural basis for GAF domain regulation in sigma(54) activators has not previously been reported. Here, we present crystal structures of GAF regulatory domains for Aquifex aeolicus sigma(54) activators NifA-like homolog (Nlh)2 and Nlh1 in three functional states-an 'open', ATPase-inactive state; a 'closed', ATPase-inactive state; and a 'closed', ligand-bound, ATPase-active state. We also present small-angle X-ray scattering data for Nlh2-linked GAF-ATPase domains in the inactive state. These GAF domain dimers regulate sigma(54) activator proteins by holding the ATPase domains in an inactive dimer conformation. Ligand binding of Nlh1 dramatically remodels the GAF domain dimer interface, disrupting the contacts with the ATPase domains. This mechanism has strong parallels to the response to phosphorylation in some two-component regulated sigma(54) activators. We describe a structural mechanism of GAF-mediated enzyme regulation that appears to be conserved among humans, plants, and bacteria.

Structural mechanism of GAF-regulated sigma(54) activators from Aquifex aeolicus.,Batchelor JD, Lee PS, Wang AC, Doucleff M, Wemmer DE J Mol Biol. 2013 Jan 9;425(1):156-70. doi: 10.1016/j.jmb.2012.10.017. Epub 2012, Nov 1. PMID:23123379^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.