Journal:Acta Cryst D:S2059798320008475
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Furthermore, RT diffraction data can reveal motions crucial for catalysis, ligand binding, and allosteric regulation, not always accessible under standard cryogenic data collection.The chips are fabricated by a combination of either OSTEMER-Kapton or OSTEMER-Mylar materials, both produce a sufficiently low scattering background to permit atomic resolution diffraction data collection at room temperature. The proposed system can be easily incorporated into a fully automatized workflow at any synchrotron beamline facilitating the collection of users' data with no-intervention required of the end-user. | Furthermore, RT diffraction data can reveal motions crucial for catalysis, ligand binding, and allosteric regulation, not always accessible under standard cryogenic data collection.The chips are fabricated by a combination of either OSTEMER-Kapton or OSTEMER-Mylar materials, both produce a sufficiently low scattering background to permit atomic resolution diffraction data collection at room temperature. The proposed system can be easily incorporated into a fully automatized workflow at any synchrotron beamline facilitating the collection of users' data with no-intervention required of the end-user. | ||
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| + | *<scene name='85/853720/Cv1/2'>Glucose isomerase</scene>, Kapton glucose isomerase ([[6ybo]]) is in yellow green; Mylar glucose isomerase ([[6ybr]]) is in cyan. | ||
*<scene name='85/853720/Cv/17'>Kapton glucose isomerase</scene> ([[6ybo]]) | *<scene name='85/853720/Cv/17'>Kapton glucose isomerase</scene> ([[6ybo]]) | ||
Revision as of 07:10, 28 June 2021
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