While high-throughput screening for protein crystallization conditions have rapidly evolved in the last few decades, it is also becoming increasingly necessary for the control of crystal size and shape as increasing diversity of protein crystallographic experiments. For example, X-ray crystallography (XRC) combined with photoexcitation and/or spectrophotometry requires optically thin but well diffracting crystals. By contrast, large-volume crystals are needed for weak signal experiments, such as neutron crystallography (NC) or recently developed X-ray fluorescent holography (XFH). In this article, we present, using hemoglobin as an example protein, some techniques for obtaining the crystals of controlled size, shape, and adequate quality. Furthermore, we describe a few case studies of applications of the optimized hemoglobin crystals for implementing the above mentioned crystallographic experiments, providing some hints and tips for the further progress of advanced protein crystallography.
Crystals, Free Full-Text, i can copy talents pt br
Crystals September 2014 - Browse Articles
Healing crystals for love collection Royalty Free Vector
Crystals, Free Full-Text
Crystals, Free Full-Text
Crystals, Free Full-Text
Crystals, Free Full-Text, i can copy talents pt br
Crystals, Free Full-Text
Improving synthetic dye degradation with cocatalyst-enhanced Zn-doped Cu2O photocatalysts – Journal of Materials Chemistry Blog, Synthetic Dye
PDF) Shock-Free Ferroelectric Liquid Crystal Compositions: Optimized Chiral Compounds and Their Mixing Ratio with Non-Chiral Components
