Bunching of elementary steps by solution flow is still not yet clarified for protein crystals. Hence, in this study, we observed elementary steps on crystal surfaces of model protein hen egg-white lysozyme (HEWL) under forced flow conditions, by our advanced optical microscopy. We found that in the case of a HEWL solution of 99.99% purity, forced flow changed bunched steps into elementary ones (debunching) on tetragonal HEWL crystals. In contrast, in the case of a HEWL solution of 98.5% purity, forced flow significantly induced bunching of elementary steps. These results indicate that in the case of HEWL crystals, the mass transfer of impurities is more significantly enhanced by forced solution flow than that of solute HEWL molecules. We also showed that forced flow induced the incorporation of microcrystals into a mother crystal and the subsequent formation of screw dislocations and spiral growth hillocks.
Sazaki G,Dai GL. Direct observation of bunching of elementary steps on protein crystals under forced flow conditions[J]. Theoretical and Applied Mechanics Letters,2015,5,4,:173-176.
APA
Sazaki G,&Dai GL.(2015).Direct observation of bunching of elementary steps on protein crystals under forced flow conditions.Theoretical and Applied Mechanics Letters,5(4),173-176.
MLA
Sazaki G,et al."Direct observation of bunching of elementary steps on protein crystals under forced flow conditions".Theoretical and Applied Mechanics Letters 5.4(2015):173-176.
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