Radiation damage in protein crystals examined under various conditions by different methods

Investigation of radiation damage in protein crystals has progressed in several directions over the past couple of years. There have been improvements in the basic procedures such as calibration of the incident X‐ray intensity and calculation of the dose likely to be deposited in a crystal of known...

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Bibliographic Details
Published in:Journal of synchrotron radiation 2009-03, Vol.16 (2), p.129-132
Main Authors: Garman, Elspeth F., Nave, Colin
Format: Article
Language:English
Subjects:
Crystallization
Crystallography, X-Ray - methods
microspectroscopy
Protein Conformation - radiation effects
protein crystals
Protein Denaturation - radiation effects
Proteins - chemistry
Proteins - radiation effects
Proteins - ultrastructure
radiation damage
Radiation Dosage
scavengers
Specimen Handling - methods
X-Rays
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Summary:Investigation of radiation damage in protein crystals has progressed in several directions over the past couple of years. There have been improvements in the basic procedures such as calibration of the incident X‐ray intensity and calculation of the dose likely to be deposited in a crystal of known size and composition with this intensity. There has been increased emphasis on using additional techniques such as optical, Raman or X‐ray spectroscopy to complement X‐ray diffraction. Apparent discrepancies between the results of different techniques can be explained by the fact that they are sensitive to different length scales or to changes in the electronic state rather than to movement of atoms. Investigations have been carried out at room temperature as well as cryo‐temperatures and, in both cases, with the introduction of potential scavenger molecules. These and other studies are leading to an overall description of the changes which can occur when a protein crystal is irradiated with X‐rays at both cryo‐ and room temperatures. Results from crystallographic and spectroscopic radiation‐damage experiments can be reconciled with other studies in the field of radiation physics and chemistry.
ISSN:1600-5775
0909-0495
1600-5775
DOI:10.1107/S0909049509005238