Issue 25, 2024

Implications of intracrystalline OC17 on the protection of lattice incorporated proteins

Abstract

Biogenic CaCO3 formation is regulated by crystallization proteins during crystal growth. Interactions of proteins with nascent mineral surfaces trigger proteins to be incorporated into the crystal lattice. As a result of incorporation, these intracrystalline proteins are protected in the lattice, an example of which is ancient eggshell proteins that have persisted in CaCO3 for thousands of years even under harsh environmental conditions. OC17 is an eggshell protein known to interact with CaCO3 during eggshell formation during which OC17 becomes incorporated into the lattice. Understanding protein incorporation into CaCO3 could offer insights into protein stability inside crystals. Here, we study the protection of OC17 in the CaCO3 lattice. Using thermogravimetric analysis we show that the effect of temperature on intracrystalline proteins of eggshells is negligible below 250 °C. Next, we show that lattice incorporation protects the OC17 structure despite a heat-treatment step that is shown to denature the protein. Because incorporated proteins need to be released from crystals, we verify metal chelation as a safe crystal dissolution method to avoid protein denaturation during reconstitution. Finally, we optimize the recombinant expression of OC17 which could allow engineering OC17 for engineered intracrystalline entrapment studies.

Graphical abstract: Implications of intracrystalline OC17 on the protection of lattice incorporated proteins

Supplementary files

Article information

Article type
Paper
Submitted
29 Mar 2024
Accepted
29 May 2024
First published
29 May 2024
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2024,20, 4886-4894

Implications of intracrystalline OC17 on the protection of lattice incorporated proteins

H. B. Caliskan and F. I. Ustok, Soft Matter, 2024, 20, 4886 DOI: 10.1039/D4SM00371C

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