Time-resolved cryoEM using Spotiton

We present an approach for preparing cryoEM grids to study short-lived molecular states. Using piezo electric dispensing, two independent streams of ~50 pL sample drops are deposited within 10 ms of each other onto a nanowire EM grid surface, and the mixing reaction stops when the grid is vitrified...

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Veröffentlicht in:	Nature methods 2020-08, Vol.17 (9), p.897-900
Hauptverfasser:	Dandey, Venkata P., Budell, William C., Wei, Hui, Bobe, Daija, Maruthi, Kashyap, Kopylov, Mykhailo, Eng, Edward T., Kahn, Peter A., Hinshaw, Jenny E., Kundu, Nidhi, Nimigean, Crina M., Fan, Chen, Sukomon, Nattakan, Darst, Seth A., Saecker, Ruth M., Chen, James, Malone, Brandon, Potter, Clinton S., Carragher, Bridget
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creator	Dandey, Venkata P. Budell, William C. Wei, Hui Bobe, Daija Maruthi, Kashyap Kopylov, Mykhailo Eng, Edward T. Kahn, Peter A. Hinshaw, Jenny E. Kundu, Nidhi Nimigean, Crina M. Fan, Chen Sukomon, Nattakan Darst, Seth A. Saecker, Ruth M. Chen, James Malone, Brandon Potter, Clinton S. Carragher, Bridget
description	We present an approach for preparing cryoEM grids to study short-lived molecular states. Using piezo electric dispensing, two independent streams of ~50 pL sample drops are deposited within 10 ms of each other onto a nanowire EM grid surface, and the mixing reaction stops when the grid is vitrified in liquid ethane, ~100 ms later. We demonstrate this approach for four biological systems where short-lived states are of high interest.
doi_str_mv	10.1038/s41592-020-0925-6
format	Article
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title	Time-resolved cryoEM using Spotiton
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