Complete inhibition of a polyol nucleation by a micromolar biopolymer additive

X Wen and S Wang and R Ramji and LO Butler and Y Bagdagulyan and A Kishishita and JA Golen and AL Rheingold and SK Kim and WA Goddard and TA Pascal, CELL REPORTS PHYSICAL SCIENCE, 3, 100723 (2022).

DOI: 10.1016/j.xcrp.2021.100723

Preventing spontaneous crystallization of supersaturated solutions by additives is of critical interest to successful process design and implementation, with numerous applications in chemical, pharmaceutical, medical, pigment, and food industries, but challenges remain in laboratory and industry settings and fundamental understanding is lacking. When copresented with antifreeze proteins (AFPs), otherwise spontaneously crystallizing osmolytes are maintained at high supersaturations for months in over-wintering organisms. Thus, we here explore the inhibition phenomenon by AFPs, using persistent crystallization of a common sugar alcohol, D-mannitol, as a case study. We report experimentally that DAFP1, an insect AFP, completely inhibits D-mannitol nucleation. Computer simulations reveal a new mechanism for crystallization inhibition where the population of the crystal-forming conformers are selectively bound and randomized in solution by hydrogen bonding to the protein surface. These results highlight the advantages of using natural polymers to address crystallization inhibition challenges and suggest new strategies in controlling the nucleation processes.

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