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Diffraction spectroscopy of metalloproteins

Date

2014-04-02

Journal Title

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Type

Degree Level

Doctoral

Abstract

X-ray absorption is not only element specific, but atom specific: two atoms of the same element in different states or in different neighbourhoods will have slightly different absorption characteristics. These energy dependent atomic form factors are carried over to the diffraction intensities. The atomic form factors are sensitive not only to the the energy of the X-ray but also the diffraction criteria; providing individual local physical data at different ratios in various diffractions. This process is referred to as site selectivity, it is unique to Diffraction Spectroscopy, and is achieved only when the sample is in crystal form. Through this work, a technique has been devised to site-separate two atoms of iron from within a protein, that builds on prior small unit cell Diffraction Anomalous Fine Structure experiments and harnesses the collection and processing software commonly used in large unit cell crystallography. A technique (dev + PCA) has been developed to retrieve the small signals from individual atom-labels out of the large and noisy background of real diffraction taken across a spectrum. The intensity of the diffractions are calculated by integrating over multiple images, profiling spots, merging datasets, and scaling across the whole spectrum. This thesis explores how Diffraction Spectroscopy can be used effectively on large unit cells, namely those of proteins. Site-selective absorption experiments were conducted on large unit cell crystals at a 3rd generation beamline, exclusively using existing equipment. The spectra generated were limited in scope but are an adequate proof of concept.

Description

Keywords

X-ray Crystallography, X-Ray Absorption Spectroscopy, Diffraction Anomalous Fine Structure, Diffraction Spectroscopy, Metalloprotein, Redox, Macromolecule

Citation

Degree

Doctor of Philosophy (Ph.D.)

Department

Geological Sciences

Program

Biochemistry

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