Abstract
Nacreous layers of pearl oyster are one of the major functional biominerals. By participating in organic compound-crystal interactions, they assemble into consecutive mineral lamellae-like photonic crystals. Their biomineralization mechanisms are controlled by macromolecules; however, they are largely unknown. Here, we report two novel lectins termed PPL2A and PPL2B, which were isolated from the mantle and the secreted fluid of Pteria penguin oyster. PPL2A is a hetero-dimer composed of α and γ subunits, and PPL2B is a homo-dimer of β subunit, all of which surprisingly shared sequence homology with the jacalin-related plant lectin. On the basis of knockdown experiments at the larval stage, the identification of PPLs in the shell matrix, and in vitro CaCO3 crystallization analysis, we conclude that two novel jacalin-related lectins participate in the biomineralization of P. penguin nacre as matrix proteins. Furthermore, it was found that trehalose, which is specific recognizing carbohydrates for PPL2A and is abundant in the secreted fluid of P. penguin mantle, functions as a regulatory factor for biomineralization via PPL2A. These observations highlight the unique functions, diversity and molecular evolution of this lectin family involved in the mollusk shell formation.
Highlights
Biomineralization is a process of selective extraction of metal ions into specific functional structures under strict biological control [1,2,3,4]
Strong hemagglutinating activity was still detected in the unadsorbed fraction, and this was inhibited by trehalose, which is one of major carbohydrate components identified in the oyster, Crassostrea virginica [39]
Since the first and third peaks showed strong agglutination activity toward rabbit erythrocytes, and gave a single protein band corresponding to the dimeric species on SDS-PAGE under non-reducing conditions (Fig. 1C), the lectins from the first and third peaks were designated as PPL2A and PPL2B, respectively
Summary
Biomineralization is a process of selective extraction of metal ions into specific functional structures under strict biological control [1,2,3,4]. Since the first and third peaks showed strong agglutination activity toward rabbit erythrocytes, and gave a single protein band corresponding to the dimeric species on SDS-PAGE under non-reducing conditions (Fig. 1C), the lectins from the first and third peaks were designated as PPL2A and PPL2B, respectively.
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