利用先进蛋白质结晶设施在微重力环境下对蛋白质晶体生长的物理方面进行研究。

Physical aspects of protein crystal growth investigated with the Advanced Protein Crystallization Facility in reduced-gravity environments.

作者信息

Vergara Alessandro, Lorber Bernard, Zagari Adriana, Giegé Richard

机构信息

Dipartimento di Chimica, Università di Napoli Federico II, Monte S. Angelo, 80126 Napoli, Italy.

出版信息

Acta Crystallogr D Biol Crystallogr. 2003 Jan;59(Pt 1):2-15. doi: 10.1107/s0907444902021443. Epub 2002 Dec 19.

DOI:10.1107/s0907444902021443

PMID:12499533

Abstract

The physicochemical aspects of protein crystallization in reduced-gravity environments ( micro g) have been investigated with the Advanced Protein Crystallization Facility during six space missions. This review summarizes the results, dealing with the mechanisms of nucleation and crystal growth and with the quality of the crystals that were obtained under reduced gravity as well as under normal gravity on earth. Statistical analyses of the experimental data strongly support the fact that micro g has a positive effect on crystallization and on crystal quality. A comparison of experiments and theories of protein crystallization in reduced-gravity environments is presented. Recommendations for improving the performance of protein crystallization experiments in micro g and on earth are discussed.

摘要

在六次太空任务中，利用先进蛋白质结晶设备对低重力环境（微重力）下蛋白质结晶的物理化学方面进行了研究。本综述总结了相关结果，涉及成核和晶体生长机制，以及在低重力和地球上正常重力条件下获得的晶体质量。对实验数据的统计分析有力地支持了微重力对结晶和晶体质量有积极影响这一事实。本文还对低重力环境下蛋白质结晶的实验与理论进行了比较。讨论了改进微重力和地球上蛋白质结晶实验性能的建议。

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利用先进蛋白质结晶设施在微重力环境下对蛋白质晶体生长的物理方面进行研究。

Physical aspects of protein crystal growth investigated with the Advanced Protein Crystallization Facility in reduced-gravity environments.

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