Multimerization of phosphorylated and non-phosphorylated ArcA is necessaryfor the response regulator function of the Arc two-component signal transduction system

Citation
Y. Jeon et al., Multimerization of phosphorylated and non-phosphorylated ArcA is necessaryfor the response regulator function of the Arc two-component signal transduction system, J BIOL CHEM, 276(44), 2001, pp. 40873-40879
Citations number
26
Language
INGLESE
art.tipo
Article
Categorie Soggetti
Biochemistry & Biophysics
Journal title
JOURNAL OF BIOLOGICAL CHEMISTRY
ISSN journal
0021-9258 → ACNP
Volume
276
Issue
44
Year of publication
2001
Pages
40873 - 40879
Database
ISI
SICI code
0021-9258(20011102)276:44<40873:MOPANA>2.0.ZU;2-2
Abstract
To adapt to anaerobic conditions, Escherichia coli operates the Arc two-com ponent signal transduction system, consisting of a sensor kinase, ArcB, and a response regulator, ArcA. ArcA is converted to the active form, phosphor ylated ArcA (ArcA-P), by ArcB-mediated phosphorylation. The active ArcA-P b inds to the promoter regions of target genes, thereby regulating their tran scriptional activities. The phosphoryl group of ArcA-P is unstable with a h alf-life of 30 min. However, we were able to inhibit the dephosphorylation for more than 12 h by the addition of EDTA; this allowed us to characterize ArcA-P. Gel-filtration and glycerol sedimentation experiments demonstrated that ArcA exists as a homo-dimer. ArcA phosphorylated by either ArcB or ca rbamyl phosphate multimerizes to form a tetramer of dimers; this multimer b inds to the ArcA DNA binding site. Isoelectric focusing gel electrophoresis and nitrocellulose-filter binding analyses indicated that the ArcA multime r is composed of both ArcA-P and ArcA in a ratio, 1:1. The ArcA(D54E) mutan t protein was unable to be phosphorylated by ArcB. This defect resulted in the inability of ArcA(D54E) to form a multimer or to bind to the ArcA DNA b inding site. These results indicate that phosphorylation of ArcA induces mu ltimerization prior to DNA binding, and the multimerization is a prerequisi te for binding. Our results suggest a novel model that phosphorylation of A rcA by ArcB regulates multimerization of ArcA, which in turn functions as a response regulator.