Design Principles for Broad-Spectrum Protein-Crystal Nucleants with Nanoscale Pits
Abstract
Growing high-quality crystals is a bottleneck in the determination of protein structures by x-ray diffraction. Experiments find that materials with a disordered pitted surface seed the growth of protein crystals. Here we report computer simulations of rapid crystal nucleation in nanoscale pits. Nucleation is rapid, as the crystal forms in pits that have filled with liquid via capillary condensation. Surprisingly, we find that pits whose surfaces are rough are better than pits with crystalline surfaces; the roughness prevents the growing crystal from trying to conform to the pit surface and becoming strained.
- Publication:
-
Physical Review Letters
- Pub Date:
- November 2010
- DOI:
- Bibcode:
- 2010PhRvL.105t5501V
- Keywords:
-
- 81.10.Aj;
- 64.60.Q-;
- 64.70.dg;
- 87.15.nt;
- Theory and models of crystal growth;
- physics of crystal growth crystal morphology and orientation;
- Nucleation;
- Crystallization of specific substances;
- Crystallization