Low-complexity domain-containing protein (LCDP), induced accumulation of calcium carbonate individual crystals to irregular polycrystals in the triangle sail mussel Hyriopsis cumingii.

The nacre layer is composed of sheet-like aragonite crystals, with often loosely arranged polycrystal aragonite sheets which may induce poor mechanical properties in shells. In this study, a full-length low-complexity domain-containing protein (LCDP) cDNA from the triangle sail mussel Hyriopsis cumingii was generated and its role in shell formation investigated. The full-length cDNA was 1058 bp; it had an open reading frame (ORF) of 714 bp encoding 237 amino acids and contained a 20-amino acid signal peptide at the N-terminus and two low-complexity domains. H. cumingii LCDP was not homologous with other species. Tissue expression analyses showed that LCDP was specifically expressed in the mantle. In shell repair assays, significantly higher LCDP expression was observed in the shell repair group from days 12-21 (p < 0.01). After LCDP silencing, aragonite flake shapes in pearl layers became irregular with disordered deposition, while calcium carbonate (CaCO) crystal surfaces in prismatic layers became rougher and organic matrices between crystals appeared skeletonized, indicating the importance of biomineralization. Our in vitro CaCO crystallization assays showed that LCDP induced single crystals to polycrystals, probably via loose arrangement between aragonite flakes. These results provide new insights on freshwater mollusk biomineralization and a theoretical basis for improved pearl quality.