0 前言 X 射线单晶衍射技术是目前最成功的蛋白质(7)
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导读:35. Adachi H, Niino A, Takano K, et al. Temperature-screening system for determining protein crystallizationconditions[J]. Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes Review
35. Adachi H, Niino A, Takano K, et al. Temperature-screening system for determining protein crystallizationconditions[J]. Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Review Papers.
2005,44(6A):4080
36. Murai R, Nakata S, Kashii M, et al. Cooling-rate screening system for determining protein crystal growthconditions[J]. Journal of Crystal Growth. 2006,292(2):433
37. Schall CA, Riley JS, Li E, Arnold E, Wiencek JM. Application of temperature control strategies to the growthof hen egg-white lysozyme crystals[J]. Journal of Crystal Growth. 1996,165(3):299
38. Darcy PA, Wiencek JM. Estimating Lysozyme Crystallization Growth Rates and Solubility from IsothermalMicrocalorimetry[J]. Acta Crystallographica Section D. 1998,54(6 Part 2):1387
39. Riès-Kautt MM, Ducruix AF. Crystallization of basic proteins by ion pairing[J]. Journal of Crystal Growth.1991,110(1-2):20
40. Guilloteau JP, Ries-Kautt MM, Ducruix AF. Variation of lysozyme solubility as a function of temperature inthe presence of organic and inorganic salts [J]. Journal of Crystal Growth. 1992,122(1-4):223
41. Ries-Kautt MM, Ducruix AF. Relative effectiveness of various ions on the solubility and crystal growth oflysozyme[J]. J Biol Chem. 1989,264(2):745
42. Jones WF, Wiencek JM, Darcy PA. Improvements in lysozyme crystal quality via temperature-controlledgrowth at low ionic strength[J]. Journal of Crystal Growth. 2001,232(1-4):221
