用于大分子结晶的新型缓冲系统。

Novel buffer systems for macromolecular crystallization.

作者信息

Newman Janet

出版信息

Acta Crystallogr D Biol Crystallogr. 2004 Mar;60(Pt 3):610-2. doi: 10.1107/S0907444903029640. Epub 2004 Feb 25.

Abstract

In protein crystallization, screening is initially performed to obtain an indication of the conditions under which a macromolecule might crystallize. These preliminary conditions are then optimized to produce (in a perfect world) well diffracting crystals; this process of optimization often involves fine grid screening around the initial conditions. An issue in optimization is to find factors which are independent, so as to simplify the analysis of the results of optimization trials. This is necessarily difficult with buffers, as a buffer and its pH range tend to be very highly correlated. Multi-buffer systems for pH modulation are presented which enable a broad pH range to be sampled without changing the chemical composition of the buffering component.

摘要

在蛋白质结晶过程中，最初要进行筛选以获得有关大分子可能结晶的条件的指示。然后对这些初步条件进行优化，以（在理想情况下）得到能够良好衍射的晶体；这种优化过程通常涉及在初始条件周围进行精细网格筛选。优化过程中的一个问题是找到相互独立的因素，以便简化对优化试验结果的分析。对于缓冲液来说，这必然很困难，因为一种缓冲液及其pH范围往往高度相关。本文介绍了用于pH调节的多缓冲系统，该系统能够在不改变缓冲成分化学组成的情况下对较宽的pH范围进行采样。

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用于大分子结晶的新型缓冲系统。

Novel buffer systems for macromolecular crystallization.

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