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An alternate conformation of the hyperthermostable HU protein from Thermotoga maritima has unexpectedly high flexibility

An alternate conformation of the hyperthermostable HU protein from Thermotoga maritima has unexpectedly high flexibility
An alternate conformation of the hyperthermostable HU protein from Thermotoga maritima has unexpectedly high flexibility
The homodimeric HU protein from the hyperthermophile Thermotoga maritima (HUTmar) is a model system which can yield insights into the molecular determinants of thermostability in proteins. Unusually for a thermostable protein, HUTmar exists in a structurally heterogeneous state as evidenced by the assignment of two distinct and approximately equally populated forms in solution. Relaxation measurements combined with chemical shift, hydrogen exchange, and nuclear Overhauser enhancement data confirm the main structural features of both forms. In addition, these data support a two-state model for HUTmar in which the major form closely resembles the X-ray structure while the very flexible minor form is less structured. HUTmar may therefore be a new example of the small class of hyperthermostable proteins with unexpected flexibility.
conformational flexibility, protein dynamics, thermostability, nuclear magnetic resonance spin relaxationdna-binding protein, histone-like protein, bacillus-stearothermophilus, spectroscopy, c-13, ihf, purification, resonance
0014-5793
49-54
Durney, Michael A.
ae0006ef-db8f-4957-909b-a8f5227d7adf
Wechselberger, Rainer W.
d13ee6c7-95ab-4d7d-b6cd-73f2e3f73d7b
Kalodimos, Charalampos G.
ccc516ba-b9c9-478d-82ee-f7ca2094a2e6
Kaptein, Robert
6cc7a293-071a-40b1-ae79-d85bd500c5b9
Vorgias, Constantinos E.
56971b2f-c2a6-4daf-8d3d-dbd119d71b05
Boelens, Rolf
067ca42c-4eb9-468c-bc11-4daa00030113
Durney, Michael A.
ae0006ef-db8f-4957-909b-a8f5227d7adf
Wechselberger, Rainer W.
d13ee6c7-95ab-4d7d-b6cd-73f2e3f73d7b
Kalodimos, Charalampos G.
ccc516ba-b9c9-478d-82ee-f7ca2094a2e6
Kaptein, Robert
6cc7a293-071a-40b1-ae79-d85bd500c5b9
Vorgias, Constantinos E.
56971b2f-c2a6-4daf-8d3d-dbd119d71b05
Boelens, Rolf
067ca42c-4eb9-468c-bc11-4daa00030113

Durney, Michael A., Wechselberger, Rainer W., Kalodimos, Charalampos G., Kaptein, Robert, Vorgias, Constantinos E. and Boelens, Rolf (2004) An alternate conformation of the hyperthermostable HU protein from Thermotoga maritima has unexpectedly high flexibility. FEBS Letters, 563 (1-3), 49-54. (doi:10.1016/S0014-5793(04)00247-9).

Record type: Article

Abstract

The homodimeric HU protein from the hyperthermophile Thermotoga maritima (HUTmar) is a model system which can yield insights into the molecular determinants of thermostability in proteins. Unusually for a thermostable protein, HUTmar exists in a structurally heterogeneous state as evidenced by the assignment of two distinct and approximately equally populated forms in solution. Relaxation measurements combined with chemical shift, hydrogen exchange, and nuclear Overhauser enhancement data confirm the main structural features of both forms. In addition, these data support a two-state model for HUTmar in which the major form closely resembles the X-ray structure while the very flexible minor form is less structured. HUTmar may therefore be a new example of the small class of hyperthermostable proteins with unexpected flexibility.

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Published date: 9 April 2004
Related URLs:
Keywords: conformational flexibility, protein dynamics, thermostability, nuclear magnetic resonance spin relaxationdna-binding protein, histone-like protein, bacillus-stearothermophilus, spectroscopy, c-13, ihf, purification, resonance
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Identifiers

Local EPrints ID: 20187
URI: http://eprints.soton.ac.uk/id/eprint/20187
DOI: doi:10.1016/S0014-5793(04)00247-9
ISSN: 0014-5793
PURE UUID: 00b6c815-8a4e-404a-a64e-6520724c3720

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Date deposited: 22 Feb 2006
Last modified: 15 Mar 2024 06:22

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Contributors

Author: Michael A. Durney
Author: Rainer W. Wechselberger
Author: Charalampos G. Kalodimos
Author: Robert Kaptein
Author: Constantinos E. Vorgias
Author: Rolf Boelens

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