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OCA

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 ==Overview==
-PhoB is an Escherichia coli transcription factor from a two-component, signal transduction system that is sensitive to limiting environmental, phosphate conditions. It consists of an N-terminal receiver domain (RD), and a C-terminal DNA-binding domain. The protein is activated upon, phosphorylation at the RD, an event that depends on Mg(2+) binding. The, structure of PhoB RD in complex with Mg(2+) is presented, which shows, three protomers in the asymmetric unit that interact across two different, surfaces. One association is symmetric and has been described as a, non-active dimerization contact; the other involves the, alpha4-beta5-alpha5 interface and recalls the contact found in activated, PhoB. However, here this last interaction is not perfectly symmetric and, helix alpha4, which in the activated molecule undergoes a helical shift, becomes strongly destabilized in one of the interacting monomers. All, protomers bind the cation in a similar manner but, interestingly, at the, prospective binding site for the phosphate moiety the side chains of, either Glu88 (in helix alpha4) or Trp54 alternate and interact with, active-site atoms. When Glu88 is inside the cavity, helix alpha4 is, arranged similarly to the unliganded wild-type structure. However, if, Trp54 is present, the helix loses its contacts with the active-site cavity, and vanishes. Accordingly, the presence of Trp54 in the active site, induces a flexible state in helix alpha4, potentially allowing a helical, shift that phosphorylation would eventually stabilize.
+PhoB is an Escherichia coli transcription factor from a two-component signal transduction system that is sensitive to limiting environmental phosphate conditions. It consists of an N-terminal receiver domain (RD) and a C-terminal DNA-binding domain. The protein is activated upon phosphorylation at the RD, an event that depends on Mg(2+) binding. The structure of PhoB RD in complex with Mg(2+) is presented, which shows three protomers in the asymmetric unit that interact across two different surfaces. One association is symmetric and has been described as a non-active dimerization contact; the other involves the alpha4-beta5-alpha5 interface and recalls the contact found in activated PhoB. However, here this last interaction is not perfectly symmetric and helix alpha4, which in the activated molecule undergoes a helical shift, becomes strongly destabilized in one of the interacting monomers. All protomers bind the cation in a similar manner but, interestingly, at the prospective binding site for the phosphate moiety the side chains of either Glu88 (in helix alpha4) or Trp54 alternate and interact with active-site atoms. When Glu88 is inside the cavity, helix alpha4 is arranged similarly to the unliganded wild-type structure. However, if Trp54 is present, the helix loses its contacts with the active-site cavity and vanishes. Accordingly, the presence of Trp54 in the active site induces a flexible state in helix alpha4, potentially allowing a helical shift that phosphorylation would eventually stabilize.
 ==About this Structure==
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 [[Category: Escherichia coli]]
 [[Category: Single protein]]
-[[Category: Blanco, A.G.]]
+[[Category: Blanco, A G.]]
 [[Category: Coll, M.]]
-[[Category: Drew, D.L.]]
+[[Category: Drew, D L.]]
-[[Category: Gomis-Ruth, F.X.]]
+[[Category: Gomis-Ruth, F X.]]
 [[Category: Sola, M.]]
 [[Category: MG]]
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 [[Category: two-component regulatory system]]
-''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Sun Feb  3 10:39:45 2008''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 17:57:31 2008''