Send to

Choose Destination
Glycobiology. 1993 Jun;3(3):219-24.

O-linked fucose and other post-translational modifications unique to EGF modules.

Author information

Department of Medicinal and Analytical Chemistry, Genentech, Inc., South San Francisco, CA 94080.


Three types of unusual post-translational modification have been found within conserved amino acid sequences in epidermal growth factor homology regions (EGF modules) of some multidomain proteins. beta-Hydroxyaspartate and beta-hydroxyasparagine are found within -Cys-Xxx-Asp/Asn-Xxx-Xxx-Xxx-Xxx-Tyr/Phe-Xxx-Cys-Xxx-Cys- sequences. (Xyl alpha 1-->3)Xyl alpha 1-->3Glc beta 1-->O-Ser glycans at conserved sites within -Cys-Xxx-Ser-Xxx-Pro-Cys- sequences have been reported in several proteins. Fuc alpha 1-->O-Thr/Ser modifications have been found at conserved sites within -Cys-Xxx-Xxx-Gly-Gly-Thr/Ser-Cys- sequences. More recently, it has been discovered that the Ser residue corresponding to the potential O-fucosylation site in human factor IX carries the novel tetrasaccharide NeuAc alpha 2-->6Gal beta 1-->4GlcNAc beta 1-->3Fuc alpha 1-->O-Ser; this tetrasaccharide can be considered to be an extension of the Fuc alpha 1-->O moiety. The consensus sequences for these post-translational modifications are in close proximity to each other; e.g. human factor IX has all three unusual modifications within a 12 amino acid linear sequence. In proteins with multiple EGF modules, the O-glycosidic modifications have been found only within the N-terminal EGF module; beta-hydroxyaspartate/asparagine residues are not restricted in the same fashion. Little is known yet about the functions of, or possible relationships between, any of these modifications.

[Indexed for MEDLINE]

Supplemental Content

Loading ...
Support Center