2nln

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==Overview==
==Overview==
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Relative to other parvalbumin isoforms, the mammalian beta-parvalbumin, (oncomodulin) displays attenuated divalent ion affinity. High-resolution, structural data for the Ca(2+)-bound protein have provided little insight, into the physical basis for this behavior, prompting an examination of the, unliganded state. This article describes the solution structure and, peptide backbone dynamics of Ca(2+)-free rat beta-parvalbumin (beta-PV)., Ca(2+) removal evidently provokes significant structural alterations., Interaction between the D helix and the AB domain in the Ca(2+)-bound, protein is greatly diminished in the apo-form, permitting the D helix to, straighten. There is also a significant reorganization of the hydrophobic, core and a concomitant remodeling of the interface between the AB and, CD-EF domains. These modifications perturb the orientation of the C and D, helices, and the energetic penalty associated with their reversal could, contribute to the low-affinity signature of the CD site. By contrast, Ca(2+) removal causes a comparatively minor perturbation of the E and F, helices, consistent with the more typical divalent ion affinity observed, for the EF site. Ca(2+)-free rat beta-PV retains structural rigidity on, the picosecond-nanosecond timescale. At 20 degrees C, the majority of, amide vectors show no evidence for motion on timescales above 20 ps, and, the average order parameter for the entire molecule is 0.92.
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Relative to other parvalbumin isoforms, the mammalian beta-parvalbumin (oncomodulin) displays attenuated divalent ion affinity. High-resolution structural data for the Ca(2+)-bound protein have provided little insight into the physical basis for this behavior, prompting an examination of the unliganded state. This article describes the solution structure and peptide backbone dynamics of Ca(2+)-free rat beta-parvalbumin (beta-PV). Ca(2+) removal evidently provokes significant structural alterations. Interaction between the D helix and the AB domain in the Ca(2+)-bound protein is greatly diminished in the apo-form, permitting the D helix to straighten. There is also a significant reorganization of the hydrophobic core and a concomitant remodeling of the interface between the AB and CD-EF domains. These modifications perturb the orientation of the C and D helices, and the energetic penalty associated with their reversal could contribute to the low-affinity signature of the CD site. By contrast, Ca(2+) removal causes a comparatively minor perturbation of the E and F helices, consistent with the more typical divalent ion affinity observed for the EF site. Ca(2+)-free rat beta-PV retains structural rigidity on the picosecond-nanosecond timescale. At 20 degrees C, the majority of amide vectors show no evidence for motion on timescales above 20 ps, and the average order parameter for the entire molecule is 0.92.
==About this Structure==
==About this Structure==
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[[Category: Rattus norvegicus]]
[[Category: Rattus norvegicus]]
[[Category: Single protein]]
[[Category: Single protein]]
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[[Category: Henzl, M.T.]]
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[[Category: Henzl, M T.]]
[[Category: calcium-binding protein]]
[[Category: calcium-binding protein]]
[[Category: metal binding protein]]
[[Category: metal binding protein]]
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[[Category: rat oncomodulin]]
[[Category: rat oncomodulin]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Wed Jan 23 13:39:26 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 18:08:23 2008''

Revision as of 16:08, 21 February 2008

Image:2nln.jpg

2nln

Drag the structure with the mouse to rotate

Solution Structure of Calcium-free Rat Beta-parvalbumin

Overview

Relative to other parvalbumin isoforms, the mammalian beta-parvalbumin (oncomodulin) displays attenuated divalent ion affinity. High-resolution structural data for the Ca(2+)-bound protein have provided little insight into the physical basis for this behavior, prompting an examination of the unliganded state. This article describes the solution structure and peptide backbone dynamics of Ca(2+)-free rat beta-parvalbumin (beta-PV). Ca(2+) removal evidently provokes significant structural alterations. Interaction between the D helix and the AB domain in the Ca(2+)-bound protein is greatly diminished in the apo-form, permitting the D helix to straighten. There is also a significant reorganization of the hydrophobic core and a concomitant remodeling of the interface between the AB and CD-EF domains. These modifications perturb the orientation of the C and D helices, and the energetic penalty associated with their reversal could contribute to the low-affinity signature of the CD site. By contrast, Ca(2+) removal causes a comparatively minor perturbation of the E and F helices, consistent with the more typical divalent ion affinity observed for the EF site. Ca(2+)-free rat beta-PV retains structural rigidity on the picosecond-nanosecond timescale. At 20 degrees C, the majority of amide vectors show no evidence for motion on timescales above 20 ps, and the average order parameter for the entire molecule is 0.92.

About this Structure

2NLN is a Single protein structure of sequence from Rattus norvegicus. Full crystallographic information is available from OCA.

Reference

Solution structure of Ca2+-free rat beta-parvalbumin (oncomodulin)., Henzl MT, Tanner JJ, Protein Sci. 2007 Sep;16(9):1914-26. PMID:17766386

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