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2
Mapping the spatial and temporal progression of human dental enamel biomineralization using synchrotron X-ray diffraction.利用同步辐射 X 射线衍射技术绘制人类牙釉质生物矿化的时空进展图谱。
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Molecular structures of amyloid and prion fibrils: consensus versus controversy.淀粉样纤维和朊病毒纤维的分子结构:共识与争议。
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Non-enzymatic decomposition of collagen fibers by a biglycan antibody and a plausible mechanism for rheumatoid arthritis.通过核心蛋白聚糖抗体对胶原蛋白纤维的非酶分解及类风湿关节炎的一种可能机制。
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X-ray diffraction from intact tau aggregates in human brain tissue.来自人类脑组织中完整tau聚集体的X射线衍射。
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The Japanese mutant Aβ (ΔE22-Aβ(1-39)) forms fibrils instantaneously, with low-thioflavin T fluorescence: seeding of wild-type Aβ(1-40) into atypical fibrils by ΔE22-Aβ(1-39).日本突变体 Aβ(ΔE22-Aβ(1-39))瞬间形成原纤维,硫黄素 T 荧光较弱:通过 ΔE22-Aβ(1-39)将野生型 Aβ(1-40)接种到非典型原纤维中。
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Molecular and structural mapping of collagen fibril interactions.胶原纤维相互作用的分子和结构定位。
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Fast-scanning high-flux microprobe for biological X-ray fluorescence microscopy and microXAS.用于生物 X 射线荧光显微镜和微 XAS 的快速扫描高通量微探针。
J Synchrotron Radiat. 2010 Jul;17(4):522-9. doi: 10.1107/S0909049510016869. Epub 2010 May 26.
10
Hyperquenching for protein cryocrystallography.用于蛋白质低温晶体学的超猝灭
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在先进光子源的生物催化光束线18-ID对生物样品进行的X射线微衍射研究。

X-ray micro-diffraction studies on biological samples at the BioCAT Beamline 18-ID at the Advanced Photon Source.

作者信息

Barrea R A, Antipova O, Gore D, Heurich R, Vukonich M, Kujala N G, Irving T C, Orgel J P R O

机构信息

The Biophysics Collaborative Access Team (BioCAT), CSRRI and Departments of Biology, Physics and Biomedical Engineering, Illinois Institute of Technology, Chicago, IL 60616, USA.

出版信息

J Synchrotron Radiat. 2014 Sep;21(Pt 5):1200-5. doi: 10.1107/S1600577514012259. Epub 2014 Aug 8.

DOI:10.1107/S1600577514012259
PMID:25178013
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4151685/
Abstract

The small source sizes of third-generation synchrotron sources are ideal for the production of microbeams for diffraction studies of crystalline and non-crystalline materials. While several such facilities have been available around the world for some time now, few have been optimized for the handling of delicate soft-tissue specimens under cryogenic conditions. Here the development of a new X-ray micro-diffraction instrument at the Biophysics Collaborative Access Team beamline 18-ID at the Advanced Photon Source, and its use with newly developed cryo-diffraction techniques for soft-tissue studies, are described. The combination of the small beam sizes delivered by this instrument, the high delivered flux and successful cryo-freezing of rat-tail tendon has enabled us to record data to better than 4 Å resolution. The ability to quickly raster scan samples in the beam allows selection of ordered regions in fibrous samples for markedly improved data quality. Examples of results of experiments obtainable using this instrument are presented.

摘要

第三代同步辐射源的小源尺寸非常适合用于产生微束,以对晶体和非晶体材料进行衍射研究。虽然目前世界上已有数处这样的设施,但很少有针对在低温条件下处理脆弱软组织样本进行优化的。本文介绍了在先进光子源生物物理协作访问团队18-ID光束线处开发的一种新型X射线微衍射仪,以及它与新开发的用于软组织研究的低温衍射技术的联用情况。该仪器提供的小束斑尺寸、高通量以及对大鼠尾腱的成功低温冷冻相结合,使我们能够记录分辨率优于4 Å的数据。在光束中快速光栅扫描样品的能力,使得能够在纤维状样品中选择有序区域,从而显著提高数据质量。文中还给出了使用该仪器可获得的实验结果示例。