2bke

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==Overview==
==Overview==
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Homologous recombinational repair is an essential mechanism for repair of, double-strand breaks in DNA. Recombinases of the RecA-fold family play a, crucial role in this process, forming filaments that utilize ATP to, mediate their interactions with single- and double-stranded DNA. The, recombinase molecules present in the archaea (RadA) and eukaryota (Rad51), are more closely related to each other than to their bacterial counterpart, (RecA) and, as a result, RadA makes a suitable model for the eukaryotic, system. The crystal structure of Sulfolobus solfataricus RadA has been, solved to a resolution of 3.2 A in the absence of nucleotide analogues or, DNA, revealing a narrow filamentous assembly with three molecules per, helical turn. As observed in other RecA-family recombinases, each RadA, molecule in the filament is linked to its neighbour via interactions of a, short beta-strand with the neighbouring ATPase domain. However, despite, apparent flexibility between domains, comparison with other structures, indicates conservation of a number of key interactions that introduce, rigidity to the system, allowing allosteric control of the filament by, interaction with ATP. Additional analysis reveals that the interaction, specificity of the five human Rad51 paralogues can be predicted using a, simple model based on the RadA structure.
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Homologous recombinational repair is an essential mechanism for repair of double-strand breaks in DNA. Recombinases of the RecA-fold family play a crucial role in this process, forming filaments that utilize ATP to mediate their interactions with single- and double-stranded DNA. The recombinase molecules present in the archaea (RadA) and eukaryota (Rad51) are more closely related to each other than to their bacterial counterpart (RecA) and, as a result, RadA makes a suitable model for the eukaryotic system. The crystal structure of Sulfolobus solfataricus RadA has been solved to a resolution of 3.2 A in the absence of nucleotide analogues or DNA, revealing a narrow filamentous assembly with three molecules per helical turn. As observed in other RecA-family recombinases, each RadA molecule in the filament is linked to its neighbour via interactions of a short beta-strand with the neighbouring ATPase domain. However, despite apparent flexibility between domains, comparison with other structures indicates conservation of a number of key interactions that introduce rigidity to the system, allowing allosteric control of the filament by interaction with ATP. Additional analysis reveals that the interaction specificity of the five human Rad51 paralogues can be predicted using a simple model based on the RadA structure.
==About this Structure==
==About this Structure==
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[[Category: Sulfolobus solfataricus]]
[[Category: Sulfolobus solfataricus]]
[[Category: Ariza, A.]]
[[Category: Ariza, A.]]
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[[Category: Bond, C.S.]]
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[[Category: Bond, C S.]]
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[[Category: Richard, D.L.]]
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[[Category: Richard, D L.]]
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[[Category: White, M.F.]]
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[[Category: White, M F.]]
[[Category: CL]]
[[Category: CL]]
[[Category: archaea]]
[[Category: archaea]]
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[[Category: sulfolobus solfataricus]]
[[Category: sulfolobus solfataricus]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Sun Feb 3 10:25:05 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 16:38:43 2008''

Revision as of 14:38, 21 February 2008

Image:2bke.gif

2bke, resolution 3.200Å

Drag the structure with the mouse to rotate

CONFORMATIONAL FLEXIBILITY REVEALED BY THE CRYSTAL STRUCTURE OF A CRENARCHAEAL RADA

Overview

Homologous recombinational repair is an essential mechanism for repair of double-strand breaks in DNA. Recombinases of the RecA-fold family play a crucial role in this process, forming filaments that utilize ATP to mediate their interactions with single- and double-stranded DNA. The recombinase molecules present in the archaea (RadA) and eukaryota (Rad51) are more closely related to each other than to their bacterial counterpart (RecA) and, as a result, RadA makes a suitable model for the eukaryotic system. The crystal structure of Sulfolobus solfataricus RadA has been solved to a resolution of 3.2 A in the absence of nucleotide analogues or DNA, revealing a narrow filamentous assembly with three molecules per helical turn. As observed in other RecA-family recombinases, each RadA molecule in the filament is linked to its neighbour via interactions of a short beta-strand with the neighbouring ATPase domain. However, despite apparent flexibility between domains, comparison with other structures indicates conservation of a number of key interactions that introduce rigidity to the system, allowing allosteric control of the filament by interaction with ATP. Additional analysis reveals that the interaction specificity of the five human Rad51 paralogues can be predicted using a simple model based on the RadA structure.

About this Structure

2BKE is a Single protein structure of sequence from Sulfolobus solfataricus with as ligand. Known structural/functional Site: . Full crystallographic information is available from OCA.

Reference

Conformational flexibility revealed by the crystal structure of a crenarchaeal RadA., Ariza A, Richard DJ, White MF, Bond CS, Nucleic Acids Res. 2005 Mar 8;33(5):1465-73. Print 2005. PMID:15755748

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