空间微重力环境可消除或减弱常重力场下溶液中存在的对流和沉降,为蛋白质晶体生长提供一个相对均一和稳定的环境,有利于得到尺寸更大、衍射分辨率更高的蛋白质晶体.通过对这些高质量空间晶体进行X射线衍射分析,可获得多种蛋白质的精细三维结构.从空间蛋白质晶体生长的发展历史、研究成果、生长机理、存在的问题与对策等方面总结了空间微重力环境下蛋白质晶体生长的研究进展,展望了空间蛋白质结晶的未来.
参考文献
| [1] | Lorber B .The crystallization of biological macromolecules under microgravity:A way to more accurate three-dimensional structures[J].Biochim Biophys Acta (BBA)-Proteins Proteomics,2002,1599(1-2):1. |
| [2] | Vergara A;Lorber B;Sauter C;Giege R;Zagari A .Lessons from crystals gown in the Advanced Protein Crystallisation Facility for conventional crystallisation applied to structural biology[J].Biophysical Chemistry: An International Journal Devoted to the Physical Chemistry of Biological Phenomena,2005(2/3):102-112. |
| [3] | Kundrot C E;Judge R A;Pusey M L et al.Microgravity and macromolecular crystallography[J].Crystal Growth and Design,2001,1(01):87. |
| [4] | Moreno A;Sazaki G .The use of a new ad hoc growth cell with parallel electrodes for the nucleation control of lysozyme[J].Journal of Crystal Growth,2004,264(1-3):438. |
| [5] | 毕汝昌 .用国产装置进行的空间蛋白质结晶实验[J].空间科学学报,1996,16(03):208. |
| [6] | Miele AE;Federici L;Sciara G;Draghi F;Brunori M;Vallone B .Analysis of the effect of microgravity on protein crystal quality: the case of a myoglobin triple mutant.[J].Acta crystallographica.Section D. Biological crystallography,2003(Pt.6):982-988. |
| [7] | 赵颖,赵剑峰,吕玉兵,黄巨富,王耀萍,仓怀兴,毕汝昌.固氮酶CrFe蛋白和MnFe蛋白的空间晶体生长[J].植物学报,2003(09):1043-1048. |
| [8] | Snell EH;Helliwell JR .Macromolecular crystallization in microgravity[J].Reports on Progress in Physics,2005(4):799-853. |
| [9] | Chayen N E;Helliwell J R .Microgravity protein crystallization-Are we reaping the full benefit of outer space[J].Annals of the New York Academy of Sciences,2002,974:591. |
| [10] | U.R.Alvarado;C.R.DeWitt;B.B.Shultz .Crystallization of a human Bence-Jones protein in microgravity using vapor diffusion in capillaries[J].Journal of Crystal Growth,2001(3):407-414. |
| [11] | Ng J D .Space-grown protein crystals are more useful for structure determination[J].Annals of the New York Academy of Sciences,2002,974:598. |
| [12] | Vergara A;Lorber B;Zagari A;Giege R .Physical aspects of protein crystal growth investigated with the Advanced Protein Crystallization Facility in reduced-gravity environments.[J].Acta crystallographica.Section D. Biological crystallography,2003(Pt.1):2-15. |
| [13] | 陈万春.水溶液晶体的空间生长及其地基模拟实验[J].硅酸盐学报,2007(08):1131-1140. |
| [14] | 董君,潘冀森,王耀萍,毕汝昌.微重力下生长的蛋白质晶体的溶剂结构研究[J].航天医学与医学工程,1998(01):26-29. |
| [15] | 梁宇和,查正,华子千,梁学,徐谦,卢光莹.空间和地面条件下斑头雁血红蛋白晶体结构的比较研究[J].北京大学学报(自然科学版),2001(04):483-489. |
| [16] | 王耀萍;潘冀燊;牛秀田 等.我国第2次空间蛋白质晶体生长实验[J].中国科学A辑,1996,26(02):121. |
| [17] | 董君,潘冀森,牛秀田,周元聪,毕汝昌.微重力对蛋白质晶体结构的影响[J].科学通报,2000(01):55-59. |
| [18] | 董君;王耀萍;韩青 等.不同重力条件下生长的溶菌酶晶体的结构[J].中国科学A辑,1998,28(04):289. |
| [19] | 华子千,梁学,梁宇和,徐谦,邝宝,李会广,卫新成.在空间微重力条件下斑头雁血红蛋白晶体生长[J].北京大学学报(自然科学版),1999(02):237-242. |
| [20] | 董君;韩青;储乃明 等.空间生长的溶菌酶晶体的结构研究[J].科学通报,1994,39(24):2264. |
| [21] | Zegers I;Carotenuto L;Evrard C et al.Counterdiffusion protein crystallisation in microgravity and its observation with PromISS(protein microscope for the international space station)[J].Microgravity Sci Techn,2006,18(3-4):165. |
| [22] | DeLucas LJ.;Moore KM.;Long MM.;Rouleau R.;Bray T.;Crysel W.;Weise L. .Protein crystal growth in space, past and future[J].Journal of Crystal Growth,2002(Pt.3):1646-1650. |
| [23] | Tanaka H;Umehara T;Inaka K et al.Crystallization of the archaeal transcription termination factor NusA:A significant decrease in twinning under microgravity conditions[J].Acta Crystallogr Sect F-Struct Biol Crystallization Commun,2007,63:69. |
| [24] | Meyer A;Rypniewski W;Szymanski M .Structure of mistletoe lectin I from Viscum album in complex with the phytohormone zeatin.[J].Biochimica et biophysica acta: BBA: International journal of biochemistry, biophysics and molecular biololgy. Proteins and Proteomics,2008(11):1590-1595. |
| [25] | Smirnova, EA;Kislitsyn, YA;Sosfenov, NI;Lyashenko, AV;Popov, AN;Baidus', AN;Timofeev, VI;Kuranova, IP .Protein Crystal Growth on the Russian Segment of the International Space Station[J].Crystallography reports,2009(5):901-911. |
| [26] | Takahashi S;Tsurumura T;Aritake K et al.High-quality crystals of human haematopoietic prostaglandin D synthase with novel inhibitors[J].Acta Crystallogr Sect F-Struct Biol Crystallization Commun,2010,66:846. |
| [27] | Shabalin, I.G.;Serov, A.E.;Skirgello, O.E.;Timofeev, V.I.;Samygina, V.R.;Popov, V.O.;Tishkov, V.I.;Kuranova, I.P. .Recombinant formate dehydrogenase from Arabidopsis thaliana: Preparation, crystal growth in microgravity, and preliminary X-ray diffraction study[J].Crystallography reports,2010(5):806-810. |
| [28] | Oda K;Matoba Y;Noda M;Kumagai T;Sugiyama M .Catalytic mechanism of bleomycin N-acetyltransferase proposed on the basis of its crystal structure.[J].The Journal of biological chemistry,2010(2):1446-1456. |
| [29] | Vergara A;Castagnolo D;Carotenuto L;Vitagliano L;Berisio R;Sorrentino G;Gonzalez-Ramirez L;Garcia-Ruiz J;Zagari A .Phase behavior and crystallogenesis under counter-diffusion conditions of the collagen-model peptide (Pro-Pro-Gly)(10)[J].Journal of Crystal Growth,2009(2):304-309. |
| [30] | L. B. Wang;N. I. Wakayama;W.Q. Tao .The Role Of Solutal Convection In Protein Crystal Growth-a New Dimensionless Number To Evaluate The Effects Of Convection On Protein Crystal Growth[J].Journal of Crystal Growth,2008(24):5370-5374. |
| [31] | Verma, S;Shlichta, PJ .Imaging techniques for mapping solution parameters, growth rate, and surface features during the growth of crystals from solution[J].Progress in Crystal Growth and Characterization of Materials,2008(1/2):1-120. |
| [32] | Otalora F;Gavira J A;Ng J D et al.Counterdiffusion methods applied to protein crystallization[J].Progress in Biophysics and Molecular Biology,2009,101(1-3):26. |
| [33] | Satoshi Murakami .Femtosecond laser processing of protein crystals grown in agarose gel[J].Journal of Crystal Growth,2009(1):73. |
| [34] | 马建华;仓怀兴 .空间蛋白质晶体生长新技术[J].生物物理学报,2009,25(z1):314. |
| [35] | Hervieu E;Coutris N;Boichon C .Oscillations of a drop in aerodynamic levitation[J].Nuclear Engineering and Design,2001,204(1-3):167. |
| [36] | Francis Millot;Jean Claude Rifflet;Guillaume Wille .Analysis of Surface Tension from Aerodynamic Levitation of Liquids[J].Journal of the American Ceramic Society,2002(1):187-192. |
| [37] | Chayen NE. .A NOVEL TECHNIQUE FOR CONTAINERLESS PROTEIN CRYSTALLIZATION[J].Protein Engineering,1996(10):927-929. |
| [38] | Lorber B.;Giege R. .CONTAINERLESS PROTEIN CRYSTALLIZATION IN FLOATING DROPS - APPLICATION TO CRYSTAL GROWTH MONITORING UNDER REDUCED NUCLEATION CONDITIONS[J].Journal of Crystal Growth,1996(1/4):204-215. |
| [39] | Rhim W K;Chung S K;Barber D et al.An electrostatic levitator for high-temperature containerless materials processing in 1-g[J].Review of Scientific Instruments,1993,64(10):2961. |
| [40] | Aaron J. Rulison;John L. Watkins;Brian Zambrano .Electrostatic containerless processing system[J].Review of Scientific Instruments,1997(7):2856-2863. |
| [41] | C. Notthoff;H. Franz;M. Hanfland;D. M. Herlach;D. Holland-Moritz;W. Petry .Electromagnetic levitation apparatus for investigations of the phase selection in undercooled melts by energy-dispersive X-ray diffraction[J].Review of Scientific Instruments,2000(10):3791-3796. |
| [42] | Brandt E H .Levitation in Physics[J].Science,1989,243(4889):349. |
| [43] | Chung SK.;Trinh EH. .Containerless protein crystal growth in rotating levitated drops[J].Journal of Crystal Growth,1998(3/4):384-397. |
| [44] | Yin DC;Lu HM;Geng LQ;Shi ZH;Luo HM;Li HS;Ye YJ;Guo WH;Shang P;Wakayama NI .Growing and dissolving protein crystals in a levitated and containerless droplet[J].Journal of Crystal Growth,2008(6):1206-1212. |
| [45] | Yin DC;Inatomi Y;Luo HM;Li HS;Lu HM;Ye YJ;Wakayama NI .Interferometry measurement of protein concentration evolution during crystallization and dissolution with improved reliability and versatility[J].Measurement Science & Technology,2008(4):45303-1-45303-8-0. |
| [46] | F.W. Leslie;N. Ramachandran .Stability of magnetically suppressed solutal convection in crystal growth from solutions[J].Journal of Crystal Growth,2007(2):597-606. |
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