Conformational changes triggered by Mg2+ mediate transactivator function.

Transactivator protein C of bacteriophage mu is essential for the transition from middle to late gene expression during the phage life cycle. The unusual, multistep activation of mom promoter (P(mom)) by C protein involves activator-mediated promoter unwinding to recruit RNA polymerase and subsequent enhanced promoter clearance of the enzyme. To achieve this, C binds its site overlapping the -35 region of the mom promoter with a very high affinity, in Mg(2+)-dependent fashion. Mg(2+)-mediated conformational transition in C is necessary for its DNA binding and transactivation. We have determined the residues in C which coordinate Mg(2+), to induce allosteric transition in the protein, required for the specific interaction with DNA. Residues E26 and D40 in the putative metal binding motif (E(26)X(10)D(37)X(2)D(40)) present toward the N-terminus of the protein are found to be important for Mg(2+) ion binding. Mutations in these residues lead to altered Mg(2+)-induced conformation, compromised DNA binding, and reduced levels of transcription activation. Although Mg(2+) is widely used in various DNA transaction reactions, this report provides the first insights on the importance of the metal ion-induced allosteric transitions in regulating transcription factor function.

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