Abstract
Although protein S (PROS1) and growth arrest-specific protein 6 (GAS6) proteins are homologous with a high degree of structural similarity, they are functionally different. The objectives of this study were to identify the evolutionary origins from which these functional differences arose. Bioinformatics methods were used to estimate the evolutionary divergence time and to detect the amino acid residues under functional divergence between GAS6 and PROS1. The properties of these residues were analysed in the light of their three-dimensional structures, such as their stability effects, the identification of electrostatic patches and the identification potential protein–protein interaction. The divergence between GAS6 and PROS1 probably occurred during the whole-genome duplications in vertebrates. A total of 78 amino acid sites were identified to be under functional divergence. One of these sites, Asn463, is involved in N-glycosylation in GAS6, but is mutated in PROS1, preventing this post-translational modification. Sites experiencing functional divergence tend to express a greater diversity of stabilizing/destabilizing effects than sites that do not experience such functional divergence. Three electrostatic patches in the LG1/LG2 domains were found to differ between GAS6 and PROS1. Finally, a surface responsible for protein–protein interactions was identified. These results may help researchers to analyse disease-causing mutations in the light of evolutionary and structural constraints, and link genetic pathology to clinical phenotypes.
Highlights
Growth arrest-specific protein 6 (GAS6, MIM# 600441) and protein S (PROS1, MIM# 176880) are homologous vitamin K-dependent proteins [1]
Representative sequences were collected using BlastP searches of sex hormonebinding globulin (SHBG), PROS1 and growth arrest-specific protein 6 (GAS6) amino acid sequences against the UniProtKB/Swiss-Prot database
Only approximately 40% identical residues were found between the two clades of, respectively, GAS6 and PROS1 sequences, and sequences of the SHBG clade share only between 22 and 28% of residues with sequences of the GAS6 and PROS1 clades, respectively
Summary
Growth arrest-specific protein 6 (GAS6, MIM# 600441) and protein S (PROS1, MIM# 176880) are homologous vitamin K-dependent proteins [1]. GAS6 and PROS1 have been associated with a wide variety of conditions and disorders, including thrombosis [6,7], systemic lupus erythematus [8,9], kidney disorders [10,11], sepsis [12,13], cancer [14,15], pregnancy [16], infections such as human immunodeficiency virus [17] and during the use of oral contraceptives [18]
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