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4PFT

Crystal structure of mannobiose bound oligopeptide ABC transporter, periplasmic oligopeptide-binding protein (TM1223) from THERMOTOGA MARITIMA at 1.75 A resolution

Summary for 4PFT
Entry DOI10.2210/pdb4pft/pdb
Related1VR5 4PFU 4PFW 4PFY
Related PRD IDPRD_900115
DescriptorABC transporter substrate-binding protein, beta-D-mannopyranose-(1-4)-beta-D-mannopyranose, MAGNESIUM ION, ... (5 entities in total)
Functional Keywordsoligopeptide abc transporter, periplasmic oligopeptide-binding protein, transport protein
Biological sourceThermotoga maritima
Total number of polymer chains2
Total formula weight126681.35
Authors
Lu, X.,Ghimire-Rijal, S.,Cuneo, M.J. (deposition date: 2014-04-30, release date: 2014-09-17, Last modification date: 2023-09-27)
Primary citationGhimire-Rijal, S.,Lu, X.,Myles, D.A.,Cuneo, M.J.
Duplication of Genes in an ATP-binding Cassette Transport System Increases Dynamic Range While Maintaining Ligand Specificity.
J.Biol.Chem., 289:30090-30100, 2014
Cited by
PubMed Abstract: Many bacteria exist in a state of feast or famine where high nutrient availability leads to periods of growth followed by nutrient scarcity and growth stagnation. To adapt to the constantly changing nutrient flux, metabolite acquisition systems must be able to function over a broad range. This, however, creates difficulties as nutrient concentrations vary over many orders of magnitude, requiring metabolite acquisition systems to simultaneously balance ligand specificity and the dynamic range in which a response to a metabolite is elicited. Here we present how a gene duplication of a periplasmic binding protein in a mannose ATP-binding cassette transport system potentially resolves this dilemma through gene functionalization. Determination of ligand binding affinities and specificities of the gene duplicates with fluorescence and circular dichroism demonstrates that although the binding specificity is maintained the Kd values for the same ligand differ over three orders of magnitude. These results suggest that this metabolite acquisition system can transport ligand at both low and high environmental concentrations while preventing saturation with related and less preferentially metabolized compounds. The x-ray crystal structures of the β-mannose-bound proteins help clarify the structural basis of gene functionalization and reveal that affinity and specificity are potentially encoded in different regions of the binding site. These studies suggest a possible functional role and adaptive advantage for the presence of two periplasmic-binding proteins in ATP-binding cassette transport systems and a way bacteria can adapt to varying nutrient flux through functionalization of gene duplicates.
PubMed: 25210043
DOI: 10.1074/jbc.M114.590992
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.747 Å)
Structure validation

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