The structure of the FnI-EGF-like tandem domain of coagulation factor XII solved using SIRAS

D.X. Beringer; L.M.J. Kroon-Batenburg

doi:10.1107/S1744309113000286

The structure of the FnI-EGF-like tandem domain of coagulation factor XII solved using SIRAS

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Abstract

Coagulation factor XII (FXII) is a key protein in the intrinsic coagulation and kallikrein-kinin pathways. It has been found that negative surfaces and amyloids, such as Aβ fibrils, can activate FXII. Additionally, it has been suggested that FXII simulates cells and that it plays an important role in thrombosis. To date, no structural data on FXII have been deposited, which makes it difficult to support any hypothesis on the mechanism of FXII function. The crystal structure of the FnI-EGF-like tandem domain of FXII presented here was solved using experimental phases. To determine the phases, a SIRAS approach was used with a native and a holmium chloride-soaked data set. The holmium cluster was coordinated by the C-terminal tails of two symmetry-related molecules. Another observation was that the FnI domain was much more ordered than the EGF-like domain owing to crystal packing. Furthermore, the structure shows the same domain orientation as the homologous FnI-EGF-like tandem domain of tPA. The plausibility of several proposed interactions of these domains of FXII is discussed. Based on this FXII FnI-EGF-like structure, it could be possible that FXII binding to amyloid and negatively charged surfaces is mediated via this part of FXII. © 2013 International Union of Crystallography All rights reserved.

Original language	English
Pages (from-to)	94-102
Number of pages	9
Journal	Acta crystallographica. Section F, Structural biology and crystallization communications
Volume	69
Issue number	2
DOIs	https://doi.org/10.1107/S1744309113000286
Publication status	Published - 1 Feb 2013

Keywords

EGF-like domain
experimental phasing
fibronectin type I domain
FXII
Hageman factor
blood clotting factor 12
epidermal growth factor
epidermal growth factor receptor
fibronectin
holmium
tissue plasminogen activator
article
chemistry
metabolism
methodology
protein binding
protein secondary structure
protein tertiary structure
static electricity
thermodynamics
X ray crystallography

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10.1107/S1744309113000286

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title = "The structure of the FnI-EGF-like tandem domain of coagulation factor XII solved using SIRAS",

abstract = "Coagulation factor XII (FXII) is a key protein in the intrinsic coagulation and kallikrein-kinin pathways. It has been found that negative surfaces and amyloids, such as Aβ fibrils, can activate FXII. Additionally, it has been suggested that FXII simulates cells and that it plays an important role in thrombosis. To date, no structural data on FXII have been deposited, which makes it difficult to support any hypothesis on the mechanism of FXII function. The crystal structure of the FnI-EGF-like tandem domain of FXII presented here was solved using experimental phases. To determine the phases, a SIRAS approach was used with a native and a holmium chloride-soaked data set. The holmium cluster was coordinated by the C-terminal tails of two symmetry-related molecules. Another observation was that the FnI domain was much more ordered than the EGF-like domain owing to crystal packing. Furthermore, the structure shows the same domain orientation as the homologous FnI-EGF-like tandem domain of tPA. The plausibility of several proposed interactions of these domains of FXII is discussed. Based on this FXII FnI-EGF-like structure, it could be possible that FXII binding to amyloid and negatively charged surfaces is mediated via this part of FXII. {\textcopyright} 2013 International Union of Crystallography All rights reserved.",

keywords = "EGF-like domain, experimental phasing, fibronectin type I domain, FXII, Hageman factor, blood clotting factor 12, epidermal growth factor, epidermal growth factor receptor, fibronectin, holmium, tissue plasminogen activator, article, chemistry, metabolism, methodology, protein binding, protein secondary structure, protein tertiary structure, static electricity, thermodynamics, X ray crystallography",

author = "D.X. Beringer and L.M.J. Kroon-Batenburg",

year = "2013",

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doi = "10.1107/S1744309113000286",

language = "English",

volume = "69",

pages = "94--102",

journal = "Acta crystallographica. Section F, Structural biology and crystallization communications",

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TY - JOUR

T1 - The structure of the FnI-EGF-like tandem domain of coagulation factor XII solved using SIRAS

AU - Beringer, D.X.

AU - Kroon-Batenburg, L.M.J.

PY - 2013/2/1

Y1 - 2013/2/1

N2 - Coagulation factor XII (FXII) is a key protein in the intrinsic coagulation and kallikrein-kinin pathways. It has been found that negative surfaces and amyloids, such as Aβ fibrils, can activate FXII. Additionally, it has been suggested that FXII simulates cells and that it plays an important role in thrombosis. To date, no structural data on FXII have been deposited, which makes it difficult to support any hypothesis on the mechanism of FXII function. The crystal structure of the FnI-EGF-like tandem domain of FXII presented here was solved using experimental phases. To determine the phases, a SIRAS approach was used with a native and a holmium chloride-soaked data set. The holmium cluster was coordinated by the C-terminal tails of two symmetry-related molecules. Another observation was that the FnI domain was much more ordered than the EGF-like domain owing to crystal packing. Furthermore, the structure shows the same domain orientation as the homologous FnI-EGF-like tandem domain of tPA. The plausibility of several proposed interactions of these domains of FXII is discussed. Based on this FXII FnI-EGF-like structure, it could be possible that FXII binding to amyloid and negatively charged surfaces is mediated via this part of FXII. © 2013 International Union of Crystallography All rights reserved.

AB - Coagulation factor XII (FXII) is a key protein in the intrinsic coagulation and kallikrein-kinin pathways. It has been found that negative surfaces and amyloids, such as Aβ fibrils, can activate FXII. Additionally, it has been suggested that FXII simulates cells and that it plays an important role in thrombosis. To date, no structural data on FXII have been deposited, which makes it difficult to support any hypothesis on the mechanism of FXII function. The crystal structure of the FnI-EGF-like tandem domain of FXII presented here was solved using experimental phases. To determine the phases, a SIRAS approach was used with a native and a holmium chloride-soaked data set. The holmium cluster was coordinated by the C-terminal tails of two symmetry-related molecules. Another observation was that the FnI domain was much more ordered than the EGF-like domain owing to crystal packing. Furthermore, the structure shows the same domain orientation as the homologous FnI-EGF-like tandem domain of tPA. The plausibility of several proposed interactions of these domains of FXII is discussed. Based on this FXII FnI-EGF-like structure, it could be possible that FXII binding to amyloid and negatively charged surfaces is mediated via this part of FXII. © 2013 International Union of Crystallography All rights reserved.

KW - EGF-like domain

KW - experimental phasing

KW - fibronectin type I domain

KW - FXII

KW - Hageman factor

KW - blood clotting factor 12

KW - epidermal growth factor

KW - epidermal growth factor receptor

KW - fibronectin

KW - holmium

KW - tissue plasminogen activator

KW - article

KW - chemistry

KW - metabolism

KW - methodology

KW - protein binding

KW - protein secondary structure

KW - protein tertiary structure

KW - static electricity

KW - thermodynamics

KW - X ray crystallography

U2 - 10.1107/S1744309113000286

DO - 10.1107/S1744309113000286

M3 - Article

SN - 1744-3091

VL - 69

SP - 94

EP - 102

JO - Acta crystallographica. Section F, Structural biology and crystallization communications

JF - Acta crystallographica. Section F, Structural biology and crystallization communications

IS - 2

ER -

The structure of the FnI-EGF-like tandem domain of coagulation factor XII solved using SIRAS

Abstract

Keywords

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