REL
2026-01-06
2026-04-28
2026-04-28
Cryo-EM of SARS-CoV-2 frame shift stimulation element
0000-0001-7497-0972
Rhiju
Das
Department of Biochemistry, Stanford University; Howard Hughes Medical Institute
279 Campus Dr W
Stanford
CA
United States
94305
0000-0002-8910-3078
Wah
Chiu
Department of Bioengineering, James H. Clark Center, Stanford University; CryoEM and Bioimaging Division, Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory
318 CAMPUS DR
Stanford
CA
United States
94305
Zhang K
Zheludev IN
Hagey RJ
Haslecker R
Hou YJ
Kretsch R
Pintilie GD
Rangan R
Kladwang W
Li S
Wu MT
Pham EA
Bernardin-Souibgui C
Baric RS
Sheahan TP
D'Souza V
Glenn JS
Chiu W
Das R
National Institutes of Health/National Institute of General Medical Sciences (NIH/NIGMS)
R35GM122579
United States
Howard Hughes Medical Institute (HHMI)
N/A
United States
National Institutes of Health/National Institute of General Medical Sciences (NIH/NIGMS)
U24GM129541
United States
13.7
10.6019/EMPIAR-13496
EMDB
molecule
EMD-22296
EMD-22297
Zhang K
Zheludev IN
Hagey RJ
Haslecker R
Hou YJ
Kretsch R
Pintilie GD
Rangan R
Kladwang W
Li S
Wu MT
Pham EA
Bernardin-Souibgui C
Baric RS
Sheahan TP
D'Souza V
Glenn JS
Chiu W
Das R
Cryo-EM and antisense targeting of the 28-kDa frameshift stimulation element from the SARS-CoV-2 RNA genome
Nature structural & molecular biology
Nat Struct Mol Biol
9
28
747
754
2021
English
10.1038/s41594-021-00653-y
34426697
Unaligned multiframe micrographs of SARS-CoV-2 Frameshift Stimulation Element
/data/FSE_1
micrographs - multiframe
MRC
MRC
10010
30
UNSIGNED BYTE
variable
0.82
variable
0.82
The final datasets in this study were imaged in a Titan Krios cryo-electron microscope (Thermo Fisher Scientific) operated at 300 kV with a GIF energy filter (Gatan) at a magnification of ×165,000 (corresponding to a calibrated sampling of 0.82 Å per pixel) for both samples. Micrographs were recorded by EPU software (Thermo Fisher Scientific) with a Gatan K2 Summit direct electron detector, where each image was composed of 30 individual frames with an exposure time of 6 s and an exposure rate of 8.3 electrons per second per Å2.
data/FSE_1/Images-Disc1/G*/Data/F*Data*-*.mrc
Unaligned multiframe micrographs of SARS-CoV-2 Frameshift Stimulation Element
/data/FSE_2
micrographs - multiframe
MRC
MRC
13155
30
UNSIGNED BYTE
variable
0.82
variable
0.82
The final datasets in this study were imaged in a Titan Krios cryo-electron microscope (Thermo Fisher Scientific) operated at 300 kV with a GIF energy filter (Gatan) at a magnification of ×165,000 (corresponding to a calibrated sampling of 0.82 Å per pixel) for both samples. Micrographs were recorded by EPU software (Thermo Fisher Scientific) with a Gatan K2 Summit direct electron detector, where each image was composed of 30 individual frames with an exposure time of 6 s and an exposure rate of 8.3 electrons per second per Å2.
data/FSE_2/Images-Disc1/G*/Data/*Data*-*mrc
Unaligned multiframe micrographs of SARS-CoV-2 Frameshift Stimulation Element Tagged with ATP-TTR3 nanostructure
/data/FSE_ATP_TTR3_1
micrographs - multiframe
MRC
MRC
2714
30
UNSIGNED BYTE
variable
0.82
variable
0.82
The final datasets in this study were imaged in a Titan Krios cryo-electron microscope (Thermo Fisher Scientific) operated at 300 kV with a GIF energy filter (Gatan) at a magnification of ×165,000 (corresponding to a calibrated sampling of 0.82 Å per pixel) for both samples. Micrographs were recorded by EPU software (Thermo Fisher Scientific) with a Gatan K2 Summit direct electron detector, where each image was composed of 30 individual frames with an exposure time of 6 s and an exposure rate of 8.3 electrons per second per Å2.
data/FSE_ATP_TTR3_1/Images-Disc1/G*/Data/*Data*-*mrc
Unaligned multiframe micrographs of SARS-CoV-2 Frameshift Stimulation Element Tagged with ATP-TTR3 nanostructure
/data/FSE_ATP_TTR3_2
micrographs - multiframe
MRC
MRC
9455
30
UNSIGNED BYTE
variable
0.82
variable
0.82
The final datasets in this study were imaged in a Titan Krios cryo-electron microscope (Thermo Fisher Scientific) operated at 300 kV with a GIF energy filter (Gatan) at a magnification of ×165,000 (corresponding to a calibrated sampling of 0.82 Å per pixel) for both samples. Micrographs were recorded by EPU software (Thermo Fisher Scientific) with a Gatan K2 Summit direct electron detector, where each image was composed of 30 individual frames with an exposure time of 6 s and an exposure rate of 8.3 electrons per second per Å2.
data/FSE_ATP_TTR3_2/Images-Disc1/G*/Data/*Data*-*mrc