Abstract
Knowledge of protein structures is of central importance in modern drug discovery and molecular biology, but to be useful the structures, including those obtained in the crystalline state, must be biologically relevant. Small variations in crystallization conditions can lead to alternative crystal forms, conformations, and oligomerization states, causing changes which can lead to altered fold and active site architectures. In the determination of protein structures by X-ray crystallography, crystallization is an essential prerequisite and remains a major bottleneck in drug discovery. Although many methods have been tried in an attempt to improve the production of protein crystals, it is still largely a “trial and error” process. To our knowledge, crystallization by cross-seeding using homologous proteins has previously only been successful for proteins with greater than 61–74% sequence identity. In the study presented here, we explore the effect of low sequence similarity on cross-seeding using metallo-β-...
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