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The Fucosyltransferase Gene Family: an Amazing Summary of the Underlying Mechanisms of Gene Evolution

Overview
Journal Genetica
Specialties Cell Biology
Genetics
Date 2003 Jul 19
PMID 12868606
Citations 24
Authors
Christophe Javaud
Fabrice Dupuy
Abderrahman Maftah
Raymond Julien
Jean-Michel Petit
Affiliations
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Abstract

The fucosyltransferase gene family encodes enzymes that transfer fucose in alpha 1,2, alpha 1,3/4 and alpha 1,6 linkages on a large variety of glycans. The most ancient genes harbour a split coding sequence, and encode enzyme that transfer fucose at or near O- and N-peptidic sites (serine, threonine or chitobiose unit). Conversely, the more recent genes have a monoexonic coding sequence, and encode enzymes that transfer fucose at the glycan periphery. All basic mechanisms of gene evolution contribute to this amazing scenario: exon shuffling, transposition, point mutations, and duplication. As typical examples: (i) exon shuffling leads to the ancestral organization of the alpha 1,6 fucosyltransferase gene; (ii) the ancestor of alpha 1,2 fucosyltransferase genes is reshaped by retrotransposition at the same locus; (iii) duplication associated to point mutations leads to the most recent alpha 1,3/4 fucosyltransferase genes.

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