结构生物学：探索未知世界的百年征程

Structural Biology: A Century-long Journey into an Unseen World.

作者信息

Curry Stephen

机构信息

Department of Life Sciences, Imperial College London, UK.

出版信息

Interdiscip Sci Rev. 2015 Jul 3;40(3):308-328. doi: 10.1179/0308018815Z.000000000120. Epub 2015 Dec 7.

DOI:10.1179/0308018815Z.000000000120

PMID:26740732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4697198/

Abstract

When the first atomic structures of salt crystals were determined by the Braggs in 1912-1913, the analytical power of X-ray crystallography was immediately evident. Within a few decades the technique was being applied to the more complex molecules of chemistry and biology and is rightly regarded as the foundation stone of structural biology, a field that emerged in the 1950s when X-ray diffraction analysis revealed the atomic architecture of DNA and protein molecules. Since then the toolbox of structural biology has been augmented by other physical techniques, including nuclear magnetic resonance spectroscopy, electron microscopy, and solution scattering of X-rays and neutrons. Together these have transformed our understanding of the molecular basis of life. Here I review the major and most recent developments in structural biology that have brought us to the threshold of a landscape of astonishing molecular complexity.

摘要

1912年至1913年间，布拉格父子测定了盐晶体的首批原子结构，X射线晶体学的分析能力随即彰显。几十年内，这项技术就被应用于化学和生物学中更为复杂的分子，并且理所当然地被视为结构生物学的基石。结构生物学这一领域兴起于20世纪50年代，当时X射线衍射分析揭示了DNA和蛋白质分子的原子结构。从那时起，结构生物学的工具箱就因其他物理技术而得到扩充，包括核磁共振光谱学、电子显微镜以及X射线和中子的溶液散射技术。这些技术共同改变了我们对生命分子基础的理解。在此，我回顾结构生物学的主要及最新进展，正是这些进展将我们带到了一个分子复杂性惊人的领域的门槛。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/930d/4697198/2db238829d4e/yisr_a_1117761_f0001_c.jpg

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结构生物学：探索未知世界的百年征程

Structural Biology: A Century-long Journey into an Unseen World.

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