Biomolecular self-assembly plays a vital role in synthetic and biological material systems and has therefore attracted tremendous interest due to its great potential for applications in biomedical and tissue engineering, biosensing, materials science, and nanotechnology. Although there have been numerous studies focusing on these systems’ designs, structures, and functions, little attention has been given to the mechanisms by which they nucleate. In this chapter, we review some recent advances in understanding the nucleation pathways of self-assembling biomolecular systems. We will mainly focus on crystallization via nonclassical nucleation mechanisms, which involve the addition of oligomers and more complex species or passage through transient metastable states, including dense liquids, amorphous clusters, and crystalline polymorphs. However, some cases that go through classical pathways are also introduced and discussed.
Published: October 28, 2021
Citation
Chen J., and J.J. De Yoreo. 2021.Nonclassical Crystallization Pathway in Biomolecular Self-assembly. In Crystallization via Nonclassical Pathways Vol II: Aggregation, Biomineralization, Imaging & Application. ACS Symposium Series, edited by X. Zhang. 89-103. Washington Dc:American Chemical Society.PNNL-SA-159485.