Saturn 944 ccd camera

Manufactured by Rigaku

Sourced in Japan

The Saturn 944 CCD camera is a high-performance X-ray detector designed for a variety of applications in crystallography and materials science. It features a large active area, high sensitivity, and low noise, making it suitable for a range of X-ray diffraction and scattering experiments.

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Lab products found in correlation

Fr e generator, by Rigaku (2 mentions) Optima max ultracentrifuge, by Beckman Coulter (1 mentions) Structure studio, by Rigaku (1 mentions)

2 protocols using saturn 944 ccd camera

X-ray Diffraction Analysis of Fibrils

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Fibrils were pelleted by ultracentrifugation at 100,000 g for 4 hours (Beckman Coulter Optima MAX Ultracentrifuge, with TLA 120.2 rotor) and then the supernatant was removed. The hydrated pellet was packed into a glass capillary (0.7 mm) using a spatula and PBS buffer was inserted on both ends of the capillary by syringe. Capillaries were then sealed with capillary wax. A Rigaku FR-E generator (2kW, spot size 0.07 mm) with a source wavelength of 1.541780 Å was placed 65 mm from the sample and diffraction data was collected on a Rigaku Saturn 944 CCD camera (Tokyo, Japan) operating at −45 °C. The sample remained at room temperature during data collection. Diffraction datasets were analyzed in Structure Studio v. 2.2.3 r1 (Rigaku).

Boatz J.C., Piretra T., Lasorsa A., Matlahov I., Conway J.F, & van der Wel P.C. (2020). Protofilament structure and supramolecular polymorphism of aggregated mutant huntingtin exon 1. Journal of molecular biology, 432(16), 4722-4744.

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Structural analysis of P23T hγD aggregates

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Aggregates of P23T hγD formed under acidic (pH 3) and neutral (pH 7) conditions were pelleted by centrifugation. Aggregates formed under neutral conditions were pelleted at 14,000 g for 20 min in a table-top VWR Galaxy 14D centrifuge, while aggregates formed under acidic conditions were pelleted by ultracentrifugation at 100,000 g for 4 h (Beckman Coulter Optima MAX Ultracentrifuge, with TLA 120.2 rotor). The majority of the supernatant was removed, and the pellet was resuspended in the remaining buffer and packed into a glass capillary (0.7 mm) using a syringe. Capillaries were sealed with wax to retain hydration of the samples. Diffraction data were measured at room temperature with a Rigaku Saturn 944 CCD camera (Tokyo, Japan). A Rigaku FR-E generator (2 kW, spot size 0.07 mm) was used as the X-ray source. Aggregates formed under neutral conditions were exposed for 75 s, while aggregates formed under acidic conditions were exposed for 210 s. Diffraction data were processed and analysed in Structure Studio (Rigaku).

Boatz J.C., Whitley M.J., Li M., Gronenborn A.M, & van der Wel P.C. (2017). Cataract-associated P23T γD-crystallin retains a native-like fold in amorphous-looking aggregates formed at physiological pH. Nature Communications, 8, 15137.

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