Abstract
Genomic structural variants constitute the majority of variable base pairs in primate genomes and affect gene function in multiple ways. While whole gene duplications and deletions are relatively well-studied, the biology of subexonic (i.e., within coding exon sequences), copy number variation remains elusive. The salivary MUC7 gene provides an opportunity for studying such variation, as it harbors copy number variable subexonic repeat sequences that encode for densely O-glycosylated domains (PTS-repeats) with microbe-binding properties. To understand the evolution of this gene, we analyzed mammalian and primate genomes within a comparative framework. Our analyses revealed that (i) MUC7 has emerged in the placental mammal ancestor and rapidly gained multiple sites for O-glycosylation; (ii) MUC7 has retained its extracellular activity in saliva in placental mammals; (iii) the anti-fungal domain of the protein was remodified under positive selection in the primate lineage; and (iv) MUC7 PTS-repeats have evolved recurrently and under adaptive constraints. Our results establish MUC7 as a major player in salivary adaptation, likely as a response to diverse pathogenic exposure in primates. On a broader scale, our study highlights variable subexonic repeats as a primary source for modular evolutionary innovation that lead to rapid functional adaptation.
Highlights
MUC7 belongs to the secretory calcium-binding phosphoprotein (SCPP) family, which likely evolved after the divergence of bony and cartilaginous fish[12]
MUC7 is evolutionarily related to SCPP gene family through gene duplication[23]
MUC7 orthologs could not be found in rat and mouse reference genomes, it was recently reported that rodents express a salivary mucin gene that functionally resembles MUC715
Summary
MUC7 belongs to the secretory calcium-binding phosphoprotein (SCPP) family, which likely evolved after the divergence of bony and cartilaginous fish[12]. The SCPP gene family resides at the short arm of chromosome 4 in humans It includes other salivary proteins, such as histatins, proline-rich proteins, and statherin, as well as non-salivary proteins, such as milk caseins and enamel matrix proteins. In addition to the PTS-repeats, the MUC7 protein contains a non-glycosylated “naked” region at the N-terminus of the apomucin molecule that shares homology with salivary histatins. Similar to them, this region exhibits bactericidal and fungicidal properties[13]. Other than its syntenic relationship with the SCPP gene family and the functional similarity to other mucins, the evolution of MUC7 remains unclear. In this study, we conducted genomic analyses to elucidate the evolution of MUC7 in primates, especially with regards to its subexonic repeats
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