1g8e

From Proteopedia

proteopedia linkproteopedia link

spinqualitylabelsall models 1g8e, resolution 1.8Å Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image

CRYSTAL STRUCTURE OF FLHD FROM ESCHERICHIA COLI

Overview

FlhD is a 13.3 kDa transcriptional activator protein of flagellar genes, and a global regulator. FlhD activates the transcription of class II, operons in the flagellar regulon when complexed with a second protein FlhC, (21.5 kDa). FlhD also regulates other expression systems in Escherichia, coli. We are seeking to understand this plasticity of FlhD's DNA-binding, specificity and, to this end, we have determined the crystal structure of, the isolated FlhD protein. The structure was solved by substituting, seleno-methionine for natural sulphur-methionine in FlhD, crystallizing, the protein and determining the structure factor phases by the method of, multiple-energy anomalous dispersion (MAD). The FlhD protein is dimeric., The dimer is tightly coupled, with an intimate contact surface, implying, that the dimer does not easily dissociate. The FlhD monomer is, predominantly alpha-helical. The C-termini of both FlhD monomers (residues, 83-116) are completely disrupted by crystal packing, implying that this, region of FlhD is highly flexible. However, part of the C-terminus, structure in chain A (residues 83-98) was modelled using a native FlhD, crystal. What is seen in chain A suggests a classic DNA-binding, helix-turn-helix (HTH) motif. FlhD does not bind DNA by itself, so it may, be that the DNA-binding HTH motif becomes rigidly defined only when FlhD, forms a complex with some other protein, such as FlhC. If this were true, it might explain how FlhD exhibits plasticity in its DNA-binding, specificity, as each partner protein with which it forms a complex could, allosterically affect the binding specificity of its HTH motif. A, disulphide bridge is seen between the unique cysteine residues (Cys-65) of, FlhD native homodimers. Alanine substitution at Cys-65 does not affect, FlhD transcription activator activity, suggesting that the disulphide bond, is not necessary for either dimer stability or this function of FlhD., Electrostatic potential analysis indicates that dimeric FlhD has a, negatively charged surface.

About this Structure

1G8E is a Single protein structure of sequence from Escherichia coli. Full crystallographic information is available from OCA.

Reference

Crystal structure of the global regulator FlhD from Escherichia coli at 1.8 A resolution., Campos A, Zhang RG, Alkire RW, Matsumura P, Westbrook EM, Mol Microbiol. 2001 Feb;39(3):567-80. PMID:11169099

Page seeded by OCA on Tue Nov 20 15:48:39 2007