Scalable Fabrication of an Array-Type Fixed-Target Device for Automated Room Temperature X-ray Protein Crystallography

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Scalable Fabrication of an Array-Type Fixed-Target Device for Automated Room Temperature X-ray Protein Crystallography

Authors

Saha, S.; Chen, Y.; Marchany-Rivera, D.; Russi, S.; Cohen, A. E.; Perry, S. L.

Abstract

X-ray crystallography is one of the leading tools to analyze the 3-D structure, and therefore, function of proteins and other biological macromolecules. Traditional methods of mounting individual crystals for X-ray diffraction analysis can be tedious and result in damage to fragile protein crystals. Furthermore, the advent of serial crystallography methods explicitly require the mounting of large numbers of crystals. To address this need, we have developed a device that facilitates the straightforward mounting of protein crystals for diffraction analysis, and that can be easily manufactured at scale. Inspired by grid-style devices that have been reported in the literature, we have developed an X-ray compatible microfluidic device that can be used to trap protein crystals in an array configuration, while also providing excellent optical transparency, a low X-ray background, and compatibility with the robotic sample handling and environmental controls used at synchrotron macromolecular crystallography beamlines. At the Stanford Synchrotron Radiation Lightsource (SSRL), these capabilities allow for fully remote-access data collection at controlled humidity conditions. Furthermore, we have demonstrated continuous manufacturing of these devices via roll-to-roll fabrication to enable cost-effective and efficient large-scale production.

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