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Structural and Functional Characterization of Four Novel Fibrinogen Mutations in FGB Causing Congenital Fibrinogen Disorder
E. Ceznerová, J. Kaufmanová, Ž. Sovová, J. Štikarová, J. Loužil, R. Kotlín, J. Suttnar
Jazyk angličtina Země Švýcarsko
Typ dokumentu kazuistiky, časopisecké články
Grantová podpora
00023736
The Ministry of Health of the Czech Republic
NLK
Free Medical Journals
od 2000
Freely Accessible Science Journals
od 2000
PubMed Central
od 2007
Europe PubMed Central
od 2007
ProQuest Central
od 2000-03-01
Open Access Digital Library
od 2000-01-01
Open Access Digital Library
od 2007-01-01
Health & Medicine (ProQuest)
od 2000-03-01
ROAD: Directory of Open Access Scholarly Resources
od 2000
PubMed
35054908
DOI
10.3390/ijms23020721
Knihovny.cz E-zdroje
- MeSH
- afibrinogenemie krev diagnóza genetika MeSH
- fenotyp * MeSH
- fibrinogen chemie genetika metabolismus MeSH
- genetická predispozice k nemoci * MeSH
- genetické asociační studie MeSH
- hemokoagulace MeSH
- konformace proteinů MeSH
- lidé středního věku MeSH
- lidé MeSH
- mladiství MeSH
- molekulární modely MeSH
- mutace * MeSH
- mutační analýza DNA MeSH
- novorozenec MeSH
- senioři MeSH
- vyšetření krevní srážlivosti MeSH
- vztahy mezi strukturou a aktivitou MeSH
- Check Tag
- lidé středního věku MeSH
- lidé MeSH
- mladiství MeSH
- mužské pohlaví MeSH
- novorozenec MeSH
- senioři MeSH
- ženské pohlaví MeSH
- Publikační typ
- časopisecké články MeSH
- kazuistiky MeSH
Congenital fibrinogen disorders are caused by mutations in genes coding for fibrinogen and may lead to various clinical phenotypes. Here, we present a functional and structural analysis of 4 novel variants located in the FGB gene coding for fibrinogen Bβ chain-heterozygous missense BβY416C and BβA68S, homozygous nonsense BβY345*, and heterozygous nonsense BβW403* mutations. The cases were identified by coagulation screening tests and further investigated by various methods. Fibrin polymerization had abnormal development with decreased maximal absorbance in all patients. Plasmin-induced fibrin degradation revealed different lytic phases of BβY416C and BβW403* than those of the control. Fibrinopeptide cleavage measured by reverse phase high pressure liquid chromatography of BβA68S showed impaired release of fibrinopeptide B. Morphological properties, studied through scanning electron microscopy, differed significantly in the fiber thickness of BβY416C, BβA68S, and BβW403*, and in the fiber density of BβY416C and BβW403*. Finally, homology modeling of BβA68S showed that mutation caused negligible alternations in the protein structure. In conclusion, all mutations altered the correct fibrinogen function or structure that led to congenital fibrinogen disorders.
Citace poskytuje Crossref.org
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- $a Congenital fibrinogen disorders are caused by mutations in genes coding for fibrinogen and may lead to various clinical phenotypes. Here, we present a functional and structural analysis of 4 novel variants located in the FGB gene coding for fibrinogen Bβ chain-heterozygous missense BβY416C and BβA68S, homozygous nonsense BβY345*, and heterozygous nonsense BβW403* mutations. The cases were identified by coagulation screening tests and further investigated by various methods. Fibrin polymerization had abnormal development with decreased maximal absorbance in all patients. Plasmin-induced fibrin degradation revealed different lytic phases of BβY416C and BβW403* than those of the control. Fibrinopeptide cleavage measured by reverse phase high pressure liquid chromatography of BβA68S showed impaired release of fibrinopeptide B. Morphological properties, studied through scanning electron microscopy, differed significantly in the fiber thickness of BβY416C, BβA68S, and BβW403*, and in the fiber density of BβY416C and BβW403*. Finally, homology modeling of BβA68S showed that mutation caused negligible alternations in the protein structure. In conclusion, all mutations altered the correct fibrinogen function or structure that led to congenital fibrinogen disorders.
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