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Molecular nucleation mechanisms and control strategies for crystal polymorph selection

成核 蛋白质结晶 背景(考古学) 结晶学 化学 材料科学 高分子 分子间力 生物物理学 亚稳态 化学物理 纳米技术 结晶 分子 生物 生物化学 古生物学 有机化学
作者
Alexander E. S. Van Driessche,Nani Van Gerven,Paul H. H. Bomans,Rick R. M. Joosten,Heiner Friedrich,David Gil,Nico A. J. M. Sommerdijk,Mike Sleutel
出处
期刊:Nature [Nature Portfolio]
卷期号:556 (7699): 89-94 被引量:150
标识
DOI:10.1038/nature25971
摘要

The formation of condensed (compacted) protein phases is associated with a wide range of human disorders, such as eye cataracts, amyotrophic lateral sclerosis, sickle cell anaemia and Alzheimer's disease. However, condensed protein phases have their uses: as crystals, they are harnessed by structural biologists to elucidate protein structures, or are used as delivery vehicles for pharmaceutical applications. The physiochemical properties of crystals can vary substantially between different forms or structures ('polymorphs') of the same macromolecule, and dictate their usability in a scientific or industrial context. To gain control over an emerging polymorph, one needs a molecular-level understanding of the pathways that lead to the various macroscopic states and of the mechanisms that govern pathway selection. However, it is still not clear how the embryonic seeds of a macromolecular phase are formed, or how these nuclei affect polymorph selection. Here we use time-resolved cryo-transmission electron microscopy to image the nucleation of crystals of the protein glucose isomerase, and to uncover at molecular resolution the nucleation pathways that lead to two crystalline states and one gelled state. We show that polymorph selection takes place at the earliest stages of structure formation and is based on specific building blocks for each space group. Moreover, we demonstrate control over the system by selectively forming desired polymorphs through site-directed mutagenesis, specifically tuning intermolecular bonding or gel seeding. Our results differ from the present picture of protein nucleation, in that we do not identify a metastable dense liquid as the precursor to the crystalline state. Rather, we observe nucleation events that are driven by oriented attachments between subcritical clusters that already exhibit a degree of crystallinity. These insights suggest ways of controlling macromolecular phase transitions, aiding the development of protein-based drug-delivery systems and macromolecular crystallography.

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