High-throughput crystallography has reached a level of automation where complete computer-assisted robotic crystallization pipelines are capable of cocktail preparation, crystallization plate setup, and inspection and interpretation of results. While mounting of crystal pins, data collection and structure solution are highly automated, crystal harvesting and cryocooling remain formidable challenges towards full automation. To address the final frontier in achieving fully automated high-throughput crystallography, the prototype of an anthropomorphic six-axis universal micromanipulation robot (UMR) has been designed and tested; this UMR is capable of operator-assisted harvesting and cryoquenching of protein crystals as small as 10 microm from a variety of 96-well plates. The UMR is equipped with a versatile tool exchanger providing full operational flexibility. Trypsin crystals harvested and cryoquenched using the UMR have yielded a 1.5 A structure demonstrating the feasibility of robotic protein crystal harvesting.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2483483 | PMC |
| http://dx.doi.org/10.1107/S0021889807012149 | DOI Listing |
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Automated robotic harvesting of protein crystals-addressing a critical bottleneck or instrumentation overkill?
J Struct Funct Genomics
December 2007
Square One Systems Design, Jackson Hole, WY 83002, USA.
One of the critical steps in high throughput crystallography that so far has evaded automation is the actual harvesting of the delicate crystals from the mother liquor in which they are growing. The late-stage operation of harvesting is presently a most risky and loss-intensive procedure, compounded by its tight integration with the critical steps of cryo-protection and cryo-quenching. Recent advances in micromanipulation robotics and micro-fabrication have made it possible to seriously consider automation of protein crystal harvesting.
View Article and Find Full Text PDFHigh-throughput crystallography has reached a level of automation where complete computer-assisted robotic crystallization pipelines are capable of cocktail preparation, crystallization plate setup, and inspection and interpretation of results. While mounting of crystal pins, data collection and structure solution are highly automated, crystal harvesting and cryocooling remain formidable challenges towards full automation. To address the final frontier in achieving fully automated high-throughput crystallography, the prototype of an anthropomorphic six-axis universal micromanipulation robot (UMR) has been designed and tested; this UMR is capable of operator-assisted harvesting and cryoquenching of protein crystals as small as 10 microm from a variety of 96-well plates.
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