From the Cover: γ-Glutamyl carboxylation: An extracellular posttranslational modification that antedates the divergence of molluscs arthropods and chordates

摘要

The posttranslational γ-carboxylation of glutamate residues in secreted proteins to γ-carboxyglutamate is carried out by the vitamin K-dependent enzyme γ-glutamyl carboxylase. γ-Carboxylation has long been thought to be a biochemical specialization of vertebrates, essential for blood clotting. Recently, a γ-carboxylase was shown to be expressed in Drosophila, although its function remains undefined in this organism. We have characterized both cDNA and genomic clones for the γ-glutamyl carboxylase from the marine mollusc, Conus, the only nonvertebrate organism for which γ-carboxyglutamate-containing proteins have been biochemically and physiologically characterized. The predicted amino acid sequence has a high degree of sequence similarity to the Drosophila and vertebrate enzymes. Although γ-carboxylases are highly conserved, the Conus and mammalian enzymes have divergent substrate specificity. There are striking parallels in the gene organization of Conus and human γ-carboxylases. Of the 10 Conus introns identified, 8 are in precisely the same position as the corresponding introns in the human enzyme. This remarkable conservation of intron/exon boundaries reveals that an intron-rich γ-carboxylase was present early in the evolution of the animal phyla; although specialized adaptations in mammals and molluscs that require this extracellular modification have been identified, the ancestral function(s) and wider biological roles of γ-carboxylation still need to be defined. The data raise the possibility that most introns in the genes of both mammals and molluscs antedate the divergence of these phyla.