Abstract
Protein crystallization is usually conducted by using precipitants, although the “salting-out” phenomenon is still unclear and complex. Moreover, the addition of precipitants sometimes results in irreversible disordered precipitation of protein molecules. Although precipitant-free lysozyme crystals obtained by centrifugal concentration showed significant changes in three-dimensional structure compared to the structure of salted-out crystals, it was rather difficult to mount crystals from a viscous dense liquid phase after centrifugal concentration, and the quality of the crystals often deteriorated during the mounting process. Here we present novel precipitant-free crystallization methods, which were effective for lysozyme and glucose isomerase. Tetragonal lysozyme crystals were successfully crystallized in a glass capillary simply by drying highly concentrated lysozyme solution in the presence of 0.01 M hydrochloric acid without using any precipitants. Glucose isomerase dissolved in ultra-pure water was also successfully crystallized in hanging drops by drying highly concentrated solution under low-humidity conditions. Oscillation images of the obtained crystals were safely collected without handling; they clearly indicated the crystals had a tetragonal form for lysozyme and an orthorhombic form for glucose isomerase, and their lattice parameters are similar to those of previously reported crystals obtained by salting-out methods.
Highlights
High quality protein crystals that can be analyzed at high resolution (
We showed that hen eggwhite lysozyme (HEWL) and glucose isomerase (GI) could be crystallized by drying; HEWL was crystallized by the slow evaporation of water in glass capillaries, and GI was crystallized by slow evaporation of water in hanging drops
From the three images (0◦, 60◦, 120◦ ), the crystal structure of the tetragonal form was determined. This result clearly indicates that a very large single crystal existed in the capillary before complete drying: drying processes are effective for protein crystallization
Summary
High quality protein crystals that can be analyzed at high resolution (
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