The structures of frataxin oligomers reveal the mechanism for the delivery and detoxification of iron

Tobias Karlberg; Ulrika Schagerlöf; Oleksandr Gakh; Sungjo Park; Ulf Ryde; Martin Lindahl; Kirstin Leath; Elspeth Garman; Grazia Isaya; Salam Al-Karadaghi

doi:10.1016/j.str.2006.08.010

The structures of frataxin oligomers reveal the mechanism for the delivery and detoxification of iron

Tobias Karlberg, Ulrika Schagerlöf, Oleksandr Gakh, Sungjo Park, Ulf Ryde, Martin Lindahl, Kirstin Leath, Elspeth Garman, Grazia Isaya, Salam Al-Karadaghi

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

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Sammanfattning

Defects in the mitochondrial protein frataxin are responsible for Friedreich ataxia, a neurodegenerative and cardiac disease that affects 1:40,000 children. Here, we present the crystal structures of the iron-free and iron-loaded frataxin trimers, and a single-particle electron microscopy reconstruction of a 24 subunit oligomer. The structures reveal fundamental aspects of the frataxin mechanism. The trimer has a central channel in which one atom of iron binds. Two conformations of the channel with different metal-binding affinities suggest that a gating mechanism controls whether the bound iron is delivered to other proteins or transferred to detoxification sites. The trimer constitutes the basic structural unit of the 24 subunit oligomer. The architecture of this oligomer and several features of the trimer structure demonstrate striking similarities to the iron-storage protein ferritin. The data reveal how stepwise assembly provides frataxin with the structural flexibility to perform two functions: metal delivery and detoxification.

Originalspråk	engelska
Sidor (från-till)	1535-1546
Tidskrift	Structure
Volym	14
Nummer	10
DOI	https://doi.org/10.1016/j.str.2006.08.010
Status	Published - 2006

Bibliografisk information

The information about affiliations in this record was updated in December 2015.
The record was previously connected to the following departments: Theoretical Chemistry (S) (011001039), Biochemistry and Structural Biology (S) (000006142)

Ämnesklassifikation (UKÄ)

Teoretisk kemi (Här ingår: Beräkningskemi)
Biologi

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10.1016/j.str.2006.08.010

88-frataxinAccepterat manuskript från författare, 18,1 MBLicens: CC BY-NC-ND

http://www.structure.org/content/article/abstract?uid=PIIS0969212606003601

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title = "The structures of frataxin oligomers reveal the mechanism for the delivery and detoxification of iron",

abstract = "Defects in the mitochondrial protein frataxin are responsible for Friedreich ataxia, a neurodegenerative and cardiac disease that affects 1:40,000 children. Here, we present the crystal structures of the iron-free and iron-loaded frataxin trimers, and a single-particle electron microscopy reconstruction of a 24 subunit oligomer. The structures reveal fundamental aspects of the frataxin mechanism. The trimer has a central channel in which one atom of iron binds. Two conformations of the channel with different metal-binding affinities suggest that a gating mechanism controls whether the bound iron is delivered to other proteins or transferred to detoxification sites. The trimer constitutes the basic structural unit of the 24 subunit oligomer. The architecture of this oligomer and several features of the trimer structure demonstrate striking similarities to the iron-storage protein ferritin. The data reveal how stepwise assembly provides frataxin with the structural flexibility to perform two functions: metal delivery and detoxification.",

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T1 - The structures of frataxin oligomers reveal the mechanism for the delivery and detoxification of iron

AU - Karlberg, Tobias

AU - Schagerlöf, Ulrika

AU - Gakh, Oleksandr

AU - Park, Sungjo

AU - Ryde, Ulf

AU - Lindahl, Martin

AU - Leath, Kirstin

AU - Garman, Elspeth

AU - Isaya, Grazia

AU - Al-Karadaghi, Salam

N1 - The information about affiliations in this record was updated in December 2015. The record was previously connected to the following departments: Theoretical Chemistry (S) (011001039), Biochemistry and Structural Biology (S) (000006142)

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N2 - Defects in the mitochondrial protein frataxin are responsible for Friedreich ataxia, a neurodegenerative and cardiac disease that affects 1:40,000 children. Here, we present the crystal structures of the iron-free and iron-loaded frataxin trimers, and a single-particle electron microscopy reconstruction of a 24 subunit oligomer. The structures reveal fundamental aspects of the frataxin mechanism. The trimer has a central channel in which one atom of iron binds. Two conformations of the channel with different metal-binding affinities suggest that a gating mechanism controls whether the bound iron is delivered to other proteins or transferred to detoxification sites. The trimer constitutes the basic structural unit of the 24 subunit oligomer. The architecture of this oligomer and several features of the trimer structure demonstrate striking similarities to the iron-storage protein ferritin. The data reveal how stepwise assembly provides frataxin with the structural flexibility to perform two functions: metal delivery and detoxification.

AB - Defects in the mitochondrial protein frataxin are responsible for Friedreich ataxia, a neurodegenerative and cardiac disease that affects 1:40,000 children. Here, we present the crystal structures of the iron-free and iron-loaded frataxin trimers, and a single-particle electron microscopy reconstruction of a 24 subunit oligomer. The structures reveal fundamental aspects of the frataxin mechanism. The trimer has a central channel in which one atom of iron binds. Two conformations of the channel with different metal-binding affinities suggest that a gating mechanism controls whether the bound iron is delivered to other proteins or transferred to detoxification sites. The trimer constitutes the basic structural unit of the 24 subunit oligomer. The architecture of this oligomer and several features of the trimer structure demonstrate striking similarities to the iron-storage protein ferritin. The data reveal how stepwise assembly provides frataxin with the structural flexibility to perform two functions: metal delivery and detoxification.

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JO - Structure

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The structures of frataxin oligomers reveal the mechanism for the delivery and detoxification of iron

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