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High-throughput <i>in situ</i> experimental phasing

Julien Orlans, Gwyndaf Evans, Allen M. Orville, James Foadi, Pierre Aller

Year
2020
Citations
6
Access
Open access

Abstract

In this article, a new approach to experimental phasing for macromolecular crystallography (MX) at synchrotrons is introduced and described for the first time. It makes use of automated robotics applied to a multi-crystal framework in which human intervention is reduced to a minimum. Hundreds of samples are automatically soaked in heavy-atom solutions, using a Labcyte Inc. Echo 550 Liquid Handler, in a highly controlled and optimized fashion in order to generate derivatized and isomorphous crystals. Partial data sets obtained on MX beamlines using an in situ setup for data collection are processed with the aim of producing good-quality anomalous signal leading to successful experimental phasing.

Keywords

PhaserIn situThroughputRoboticsExperimental dataComputer scienceMaterials scienceArtificial intelligenceCrystallographyAlgorithm

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