2gl0
From Proteopedia
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Structure of PAE2307 in complex with adenosine
Overview
Phosphorylation of both small molecules and proteins plays a central role, in many biological processes. In proteins, phosphorylation most commonly, targets the oxygen atoms of Ser, Thr, and Tyr. In contrast, stably, phosphorylated His residues are rarely found, due to the lability of the, N-P bond, and histidine phosphorylation features most often in transient, processes. Here we present the crystal structure of a protein of, previously unknown function, which proves to contain a stably, phosphorylated histidine residue. The protein is the product of open, reading frame PAE2307, from the hyperthermophilic archaeon Pyrobaculum, aerophilum, and is representative of a highly conserved protein family, found in archaea and bacteria. The crystal structure of PAE2307, solved at, 1.45-A resolution (R = 0.208, R(free) = 0.227), forms a remarkably tightly, associated hexamer. The phosphorylated histidine at the proposed active, site, pHis85, occupies a cavity that is at the interface between two, subunits and contains a number of fully conserved residues. Stable, phosphorylation is attributed to favorable hydrogen bonding of the, phosphoryl group and a salt bridge with pHis85 that provides electronic, stabilization. In silico modeling suggested that the protein may function, as an adenosine kinase, a conclusion that is supported by in vitro assays, of adenosine binding, using fluorescence spectroscopy, and, crystallographic visualization of an adenosine complex of PAE2307 at, 2.25-A resolution.
About this Structure
2GL0 is a Single protein structure of sequence from Pyrobaculum aerophilum with and as ligands. Active as Adenosine kinase, with EC number 2.7.1.20 Full crystallographic information is available from OCA.
Reference
The structure of an ancient conserved domain establishes a structural basis for stable histidine phosphorylation and identifies a new family of adenosine-specific kinases., Lott JS, Paget B, Johnston JM, Delbaere LT, Sigrell-Simon JA, Banfield MJ, Baker EN, J Biol Chem. 2006 Aug 4;281(31):22131-41. Epub 2006 May 30. PMID:16737961
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