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Usc1000 2k 2k camera

Manufactured by Ametek
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The USC1000 2k x 2k camera is a high-resolution scientific imaging device. It features a 2048 x 2048 pixel sensor capable of capturing detailed images. The camera is designed for laboratory and research applications that require precise, high-quality image capture.

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Lab products found in correlation

Cm120, by Thermo Fisher Scientific (2 mentions) Libra 120, by Zeiss (1 mentions)

4 protocols using usc1000 2k 2k camera

1

Hfq Peptide Filament Imaging via TEM

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One droplet of Hfq peptide filaments was applied to glow-discharged 300 mesh carbon-coated copper grids for 1 min, washed with water, stained with 2% uranyl acetate (w/v) for 1 min, and dried under dark conditions. Samples were observed using a FEI CM120 transmission electron microscope at an accelerating voltage of 120 kV under TEM low-dose mode. TEM images were recorded using a Gatan USC1000 2k × 2k camera.
Berbon M., Martinez D., Morvan E., Grélard A., Kauffmann B., Waeytens J., Wien F., Arluison V, & Habenstein B. (2023). Hfq C-terminal region forms a β-rich amyloid-like motif without perturbing the N-terminal Sm-like structure. Communications Biology, 6, 1075.
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2

Transmission Electron Microscope Imaging

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Samples were loaded onto previously glow-discharged carbon-coated copper grids and stained with 2% uranyl acetate (w/v) solution. Observations were performed under low-dose conditions on a CM120 120 kV FEI electron microscope using a Gatan USC1000 2k × 2k camera. Clichés were analyzed with the Fiji distribution of ImageJ2 (Schindelin et al., 2012 (link); Rueden et al., 2017 (link)).
Legrand A., Martinez D., Grélard A., Berbon M., Morvan E., Tawani A., Loquet A., Mongrand S, & Habenstein B. (2019). Nanodomain Clustering of the Plant Protein Remorin by Solid-State NMR. Frontiers in Molecular Biosciences, 6, 107.
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3

Transmission Electron Microscopy of TDP Fibrils

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TDP fibrils were diluted twice in 150 mM acetic acid buffer and applied to glow-discharged 300 mesh carbon-coated copper grids for 1 min, washed with water, stained with a 2% uranyl acetate (w/v) solution for 1 min, and dried in dark condition, and monitored in an FEI CM120 transmission electron microscope at an accelerating voltage of 120 kV under TEM low-dose mode at a magnification of 200,00×. TEM images were recorded using a Gatan USC1000 2 k × 2 k camera (Pleasanton, CA, United States).
Shenoy J., Lends A., Berbon M., Bilal M., El Mammeri N., Bertoni M., Saad A., Morvan E., Grélard A., Lecomte S., Theillet F.X., Buell A.K., Kauffmann B., Habenstein B, & Loquet A. (2023). Structural polymorphism of the low-complexity C-terminal domain of TDP-43 amyloid aggregates revealed by solid-state NMR. Frontiers in Molecular Biosciences, 10, 1148302.
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4

Characterizing Kif5b/MT and HIV-1 CA Assemblies

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The morphology of Kif5b/MT and HIV-1 CA assemblies was characterized by transmission electron microscopy (TEM). TEM analysis was performed with a Zeiss Libra 120 transmission electron microscope operating at 120 kV. Samples were negatively stained with uranyl acetate (2% w/v), deposited onto 400 mesh, formvar/carbon-coated copper grids, and air dried for 40–45 min. The copper grids were glow discharged prior to staining, so that the assemblies are uniformly spread on the grid surface and adhere to it. Analogous negative stain TEM analysis was performed for huPrP23–144 fibrils with a FEI Techai G2 Spirit TEM instrument operating at 80 kV.
For the HET-s sample, one droplet of Het-s fibrils diluted in 150 mM acetic acid buffer was applied to glow-discharged 300 mesh carbon-coated copper grids for 1 min, washed with water, stained with 2% uranyl acetate (w/v) for 1 min and dried under dark condition. Samples were observed using a FEI CM120 transmission electron microscope at an accelerating voltage of 120kV under TEM low-dose mode. TEM images were recorded using a Gatan USC1000 2k × 2k camera.
Hassan A., Quinn C.M., Struppe J., Sergeyev I.V., Zhang C., Guo C., Runge B., Theint T., Dao H.H., Jaroniec C.P., Berbon M., Lends A., Habenstein B., Loquet A., Kuemmerle R., Perrone B., Gronenborn A.M, & Polenova T. (2019). Sensitivity Boosts by the CPMAS CryoProbe for Challenging Biological Assemblies. Journal of magnetic resonance (San Diego, Calif. : 1997), 311, 106680.
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