2fw0

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==Overview==
==Overview==
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D-Glucose/D-Galactose-binding protein (GGBP) mediates chemotaxis toward, and active transport of glucose and galactose in a number of bacterial, species. GGBP, like other periplasmic binding proteins, can exist in open, (ligand-free) and closed (ligand-bound) states. We report a 0.92 angstroms, resolution structure of GGBP from Escherichia coli in the glucose-bound, state and the first structure of an open, unbound form of GGBP (at 1.55, angstroms resolution). These structures vary in the angle between the two, structural domains; the observed difference of 31 degrees arises from, torsion angle changes in a three-segment hinge. A comparison with the, closely related periplasmic receptors, ribose- and allose-binding, proteins, shows that the GGBP hinge residue positions that undergo the, largest conformational changes are different. Furthermore, the, high-quality data collected for the atomic resolution glucose-bound, structure allow for the refinement of specific hydrogen atom positions, the assignment of alternate side chain conformations, the first, description of CO(2) trapped after radiation-induced decarboxylation, and, insight into the role of the exo-anomeric effect in sugar binding., Together, these structures provide insight into how the hinge-bending, movement of GGBP facilitates ligand binding, transport, and signaling.
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D-Glucose/D-Galactose-binding protein (GGBP) mediates chemotaxis toward and active transport of glucose and galactose in a number of bacterial species. GGBP, like other periplasmic binding proteins, can exist in open (ligand-free) and closed (ligand-bound) states. We report a 0.92 angstroms resolution structure of GGBP from Escherichia coli in the glucose-bound state and the first structure of an open, unbound form of GGBP (at 1.55 angstroms resolution). These structures vary in the angle between the two structural domains; the observed difference of 31 degrees arises from torsion angle changes in a three-segment hinge. A comparison with the closely related periplasmic receptors, ribose- and allose-binding proteins, shows that the GGBP hinge residue positions that undergo the largest conformational changes are different. Furthermore, the high-quality data collected for the atomic resolution glucose-bound structure allow for the refinement of specific hydrogen atom positions, the assignment of alternate side chain conformations, the first description of CO(2) trapped after radiation-induced decarboxylation, and insight into the role of the exo-anomeric effect in sugar binding. Together, these structures provide insight into how the hinge-bending movement of GGBP facilitates ligand binding, transport, and signaling.
==About this Structure==
==About this Structure==
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[[Category: Escherichia coli]]
[[Category: Escherichia coli]]
[[Category: Single protein]]
[[Category: Single protein]]
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[[Category: Borrok, M.J.]]
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[[Category: Borrok, M J.]]
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[[Category: Forest, K.T.]]
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[[Category: Forest, K T.]]
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[[Category: Kiessling, L.L.]]
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[[Category: Kiessling, L L.]]
[[Category: CA]]
[[Category: CA]]
[[Category: CIT]]
[[Category: CIT]]
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[[Category: transport]]
[[Category: transport]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Wed Jan 23 13:55:47 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 17:25:38 2008''

Revision as of 15:25, 21 February 2008

Image:2fw0.gif

2fw0, resolution 1.55Å

Drag the structure with the mouse to rotate

Apo Open Form of Glucose/Galactose Binding Protein

Overview

D-Glucose/D-Galactose-binding protein (GGBP) mediates chemotaxis toward and active transport of glucose and galactose in a number of bacterial species. GGBP, like other periplasmic binding proteins, can exist in open (ligand-free) and closed (ligand-bound) states. We report a 0.92 angstroms resolution structure of GGBP from Escherichia coli in the glucose-bound state and the first structure of an open, unbound form of GGBP (at 1.55 angstroms resolution). These structures vary in the angle between the two structural domains; the observed difference of 31 degrees arises from torsion angle changes in a three-segment hinge. A comparison with the closely related periplasmic receptors, ribose- and allose-binding proteins, shows that the GGBP hinge residue positions that undergo the largest conformational changes are different. Furthermore, the high-quality data collected for the atomic resolution glucose-bound structure allow for the refinement of specific hydrogen atom positions, the assignment of alternate side chain conformations, the first description of CO(2) trapped after radiation-induced decarboxylation, and insight into the role of the exo-anomeric effect in sugar binding. Together, these structures provide insight into how the hinge-bending movement of GGBP facilitates ligand binding, transport, and signaling.

About this Structure

2FW0 is a Single protein structure of sequence from Escherichia coli with , , and as ligands. Full crystallographic information is available from OCA.

Reference

Conformational changes of glucose/galactose-binding protein illuminated by open, unliganded, and ultra-high-resolution ligand-bound structures., Borrok MJ, Kiessling LL, Forest KT, Protein Sci. 2007 Jun;16(6):1032-41. Epub 2007 May 1. PMID:17473016

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