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Ultra du 897 camera

Manufactured by Oxford Instruments
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The Ultra DU-897 camera is a high-performance scientific camera designed for demanding imaging applications. It features a large-format CCD sensor, low-noise electronics, and advanced cooling technology to deliver exceptional image quality and sensitivity. The camera's core function is to capture and record images with high spatial and temporal resolution, making it suitable for a wide range of scientific and industrial applications.

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Lab products found in correlation

Cfi sr apochromat tirf 100x oil objective, by Oxford Instruments (2 mentions)

Spelling variants of this product

Ultra 897 (34 citations) DU-897 camera (10 citations) IXon Ultra DU-897 EMCCD camera (6 citations) Ultra DU-897 EMCCD camera (4 citations)

2 protocols using ultra du 897 camera

1

Super-resolution Imaging of Clathrin and Epsin

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Unroofed cells were prepared as for correlative microscopy. Intact cells were rinsed with imaging buffer and fixed with 2% paraformaldehyde. Immunolabeling clathrin heavy chain with Atto 488 and epsin 1 with AF647 is described above. Fixed and immunolabeled cells were placed in blinking buffer and imaged with a Nikon N-STORM super-resolution microscope system (N-1245) equipped with a CFI SR Apochromat TIRF 100x oil objective, a 80mW 488nm laser, a 125 mW 647 nm laser, and an Andor Ixon Ultra DU-897 camera. Two-color images were acquired in TIRF at full laser power with 20 ms frames. Final super-resolution images were localizations from 20–30,000 frames (each color).
Sochacki K.A., Shtengel G., van Engelenburg S.B., Hess H.F, & Taraska J.W. (2014). Correlative super-resolution fluorescence and metal replica transmission electron microscopy. Nature methods, 11(3), 305-308.
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2

Super-resolution Imaging of Clathrin and Epsin

Check if the same lab product or an alternative is used in the 5 most similar protocols
Unroofed cells were prepared as for correlative microscopy. Intact cells were rinsed with imaging buffer and fixed with 2% paraformaldehyde. Immunolabeling clathrin heavy chain with Atto 488 and epsin 1 with AF647 is described above. Fixed and immunolabeled cells were placed in blinking buffer and imaged with a Nikon N-STORM super-resolution microscope system (N-1245) equipped with a CFI SR Apochromat TIRF 100x oil objective, a 80mW 488nm laser, a 125 mW 647 nm laser, and an Andor Ixon Ultra DU-897 camera. Two-color images were acquired in TIRF at full laser power with 20 ms frames. Final super-resolution images were localizations from 20–30,000 frames (each color).
Sochacki K.A., Shtengel G., van Engelenburg S.B., Hess H.F, & Taraska J.W. (2014). Correlative super-resolution fluorescence and metal replica transmission electron microscopy. Nature methods, 11(3), 305-308.
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