Update of the UMD-FBN1 Mutation Database and Creation of an FBN1 Polymorphism Database

Overview

Journal Hum Mutat

Specialty Genetics

Date 2003 Aug 26

PMID 12938084

Citations 118

Authors

Gwenaelle Collod-Beroud

Saga Le Bourdelles

Lesley Ades

Leena Ala-Kokko

Patrick Booms

Maureen Boxer

Anne Child

Paolo Comeglio

Anne De Paepe

James C Hyland

Katerine Holman

Ilkka Kaitila

Bart Loeys

Gabor Matyas

Lieve Nuytinck

Leena Peltonen

Terhi Rantamaki

Peter Robinson

Beat Steinmann

Claudine Junien

Christophe Beroud

Catherine Boileau

Affiliations

Soon will be listed here.

Abstract

Fibrillin is the major component of extracellular microfibrils. Mutations in the fibrillin gene on chromosome 15 (FBN1) were first described in the heritable connective disorder, Marfan syndrome (MFS). FBN1 has also been shown to harbor mutations related to a spectrum of conditions phenotypically related to MFS, called "type-1 fibrillinopathies." In 1995, in an effort to standardize the information regarding these mutations and to facilitate their mutational analysis and identification of structure/function and phenotype/genotype relationships, we created a human FBN1 mutation database, UMD-FBN1. This database gives access to a software package that provides specific routines and optimized multicriteria research and sorting tools. For each mutation, information is provided at the gene, protein, and clinical levels. This tool is now a worldwide reference and is frequently used by teams working in the field; more than 220,000 interrogations have been made to it since January 1998. The database has recently been modified to follow the guidelines on mutation databases of the HUGO Mutation Database Initiative (MDI) and the Human Genome Variation Society (HGVS), including their approved mutation nomenclature. The current update shows 559 entries, of which 421 are novel. UMD-FBN1 is accessible at www.umd.be/. We have also recently developed a FBN1 polymorphism database in order to facilitate diagnostics.

Citing Articles

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Genetic insights from a Brazilian cohort of aortopathies through targeted next-generation sequencing and FBN1 direct sequencing.

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