Mineralize It or Not: Comparative Proteomics and Elemental Analysis Reveal Ancestral Compositions of Iron Mineralized Molluscan Radulae.

The radula is a unique foraging organ to Mollusca, which is important for their evolution and taxonomic classification. Many radulae are mineralized with metals. Although the remarkable mechanical properties of mineralized radulae are well-studied, the formation of mineralization from nonmineralized radulae is poorly understood. Taking advantage of the recently sequenced octopus and chiton genomes, we were able to identify more species-specific radular proteins by proteomics. Comparing these proteomes with the known limpet radula proteome enabled us to gain insight into the molecular components of nonmineralized and mineralized radula, highlighting that iron mineralization in the chiton radula is possibly due to the evolution of ferritins and peroxiredoxins. Through an in vitro binding assay, ferritin is shown to be important to iron accumulation into the nonmineralized radula. Moreover, radular proteomes reflect their adaption to dietary habits to some extent. The octopus radula has many scaffold modification proteins to suit flexibility while the chiton radula has abundant sugar metabolism proteins (e.g., glycosyl hydrolases) to adapt to algae feeding. This study provides a foundation for the understanding of molluscan radula formation and evolution and may inspire the synthesis of iron nanomaterials.