Log In Sign up
The largest database of trusted experimental protocols

Em ccd camera c9100 50

Manufactured by Hamamatsu Photonics
Visit Supplier

The EM-CCD camera (C9100-50) is a charge-coupled device (CCD) imaging sensor that utilizes an electron-multiplying (EM) structure to amplify the electronic signal before readout. This enables the camera to achieve high sensitivity and low-light imaging capabilities.

Automatically generated - may contain errors

Lab products found in correlation

Improvision ultraview vox system, by PerkinElmer (3 mentions) Du897, by Oxford Instruments (2 mentions) 35 mm glass bottom dishes, by MatTek (2 mentions) Axiocam mrm, by Zeiss (1 mentions) Cfi apochromat tirf objective, by Hamamatsu Photonics (1 mentions) Sp5 2 laser scanning microscope, by Leica (1 mentions) Axiovert 200, by Zeiss (1 mentions)

Close spelling variants of this product

EM-CCD C9100 camera EM-CCD C9100 C9100-50 camera EM-CCD camera C9100-50 EM-CCD CCD camera

4 protocols using em ccd camera c9100 50

1

Imaging Protocols for Live-Cell Microscopy

Check if the same lab product or an alternative is used in the 5 most similar protocols
For imaging experiments, cells were plated on 35mm glass bottom dishes at low density (MatTek Corp, Ashland, MA). Immunofluorescence and live cell imaging were carried out one day after transfection. Spinning disc confocal (SDC) microscopy was performed using the Improvision UltraVIEW VoX system (Perkin-Elmer) built around a Nikon Ti-E inverted microscope, equipped with PlanApo objectives (40x1.0-NA 1.0 and 60X1.49-NA) and controlled by Volocity (Improvision) software. Excitation light was provided by 488-nm/50-mW diode laser (Coherent) and 561-nm/50-mW diode laser (Cobolt), and fluorescence was detected by EM-CCD camera (C9100–50; Hamamatsu Photonics).
Total internal reflection fluorescence (TIRF) microscopy was performed on a setup built around a Nikon TiE microscope equipped with 60X1.49-NA. Excitation light was provided by 488-nm (for GFP), 561-nm (for mCherry/mRFP/mdsRed) and 640-nm (for iRFP) DPSS lasers coupled to the TIRF illuminator through an optic fiber. The output from the lasers was controlled by an acousto-optic tunable filter and fluorescence was detected with an EM-CCD camera (Andor iXon DU-897). Acquisition was controlled by Andor iQ software. Images were sampled at 0.20 Hz with exposure times in the 100–500 ms range. SDC microscopy was carried out at room temperature (20–25°C) and TIRF microscopy at 37°C.
Saheki Y., Bian X., Schauder C.M., Sawaki Y., Surma M.A., Klose C., Pincet F., Reinisch K.M, & De Camilli P. (2016). Control of plasma membrane lipid homeostasis by the extended synaptotagmins. Nature cell biology, 18(5), 504-515.
+ Open protocol
+ Expand
2

Confocal Imaging Protocols with Multicolor Fluorescence

Check if the same lab product or an alternative is used in the 5 most similar protocols
Confocal imaging was performed using a Perkin Elmer VoX-1000 Spinning Disk microscope equipped with a 60 ×/1.4 NA/oil CFI Apochromat TIRF objective, four laser lines (405, 488, 561 and 635 nm) and a Hamamatsu EMCCD camera (C9100-50). The following filter sets were used: excitation: quad-bandpass 405/488/568/640 nm with the matching emission filters for DAPI (445/30 nm), Alexa Fluor 488 (500–548 nm), TRITC (526–623 nm) and Cy5 (664–750 nm). For higher special resolution, images were acquired using a Leica SP5 II laser scanning microscope using a 100 × 1.44 NA HCX PL APO Objective with a pixel size of 86.6 nm and a z-spacing of 125 nm for subsequent deconvolution. For imaging the 405, 488, 561 and 633 nm laser line and spectral detection windows of 425–465 nm (DAPI), 495–558 nm (Alexa 488), 600–660 nm (Alexa 594) and 640–705 nm (Cy5) were used. Images were then deconvolved with wavelength specific point spread functions using ImageJ and the Iterative Deconvolution 3D plugin [58 ]. In addition, a Zeiss Axiovert 200 with a 100 ×/1.4 NA/oil Plan-Apochromat objective was used to image metaphase spreads. Images were recorded using a Zeiss Axiocam mRM, and the following filters were used: DAPI; ex: 350/50 nm; bs: 400 nm; em: 460/50 nm and Alexa Fluor 488: ex: 482/18 nm; bs: 495 nm; 520/28 nm.
Natale F., Scholl A., Rapp A., Yu W., Rausch C, & Cardoso M.C. (2018). DNA replication and repair kinetics of Alu, LINE-1 and satellite III genomic repetitive elements. Epigenetics & Chromatin, 11, 61.
+ Open protocol
+ Expand
3

Imaging Protocols for Live-Cell Microscopy

Check if the same lab product or an alternative is used in the 5 most similar protocols
For imaging experiments, cells were plated on 35mm glass bottom dishes at low density (MatTek Corp, Ashland, MA). Immunofluorescence and live cell imaging were carried out one day after transfection. Spinning disc confocal (SDC) microscopy was performed using the Improvision UltraVIEW VoX system (Perkin-Elmer) built around a Nikon Ti-E inverted microscope, equipped with PlanApo objectives (40x1.0-NA 1.0 and 60X1.49-NA) and controlled by Volocity (Improvision) software. Excitation light was provided by 488-nm/50-mW diode laser (Coherent) and 561-nm/50-mW diode laser (Cobolt), and fluorescence was detected by EM-CCD camera (C9100–50; Hamamatsu Photonics).
Total internal reflection fluorescence (TIRF) microscopy was performed on a setup built around a Nikon TiE microscope equipped with 60X1.49-NA. Excitation light was provided by 488-nm (for GFP), 561-nm (for mCherry/mRFP/mdsRed) and 640-nm (for iRFP) DPSS lasers coupled to the TIRF illuminator through an optic fiber. The output from the lasers was controlled by an acousto-optic tunable filter and fluorescence was detected with an EM-CCD camera (Andor iXon DU-897). Acquisition was controlled by Andor iQ software. Images were sampled at 0.20 Hz with exposure times in the 100–500 ms range. SDC microscopy was carried out at room temperature (20–25°C) and TIRF microscopy at 37°C.
Saheki Y., Bian X., Schauder C.M., Sawaki Y., Surma M.A., Klose C., Pincet F., Reinisch K.M, & De Camilli P. (2016). Control of plasma membrane lipid homeostasis by the extended synaptotagmins. Nature cell biology, 18(5), 504-515.
+ Open protocol
+ Expand
4

Live Imaging of Cells by Spinning Disk Confocal

Check if the same lab product or an alternative is used in the 5 most similar protocols
Spinning disk confocal (SDC) live microscopy was carried out at 35 °C either on a Nikon Ti-E inverted microscope using the Improvision UltraVIEW VoX system (PerkinElmer) and a planar Apo objective ×60, 1.49-NA. Fluorescence was detected by an EM‐CCD camera (C9100‐50; Hamamatsu Photonics). During imaging, cells were incubated in tyrode solution (136 mM NaCl, 2.5 mM KCl, 2 mM CaCl2, 1.3 mM MgCl2, 10 mM HEPES and 10 mM glucose). All images were analyzed with ImageJ.
Park D., Wu Y., Lee S.E., Kim G., Jeong S., Milovanovic D., De Camilli P, & Chang S. (2021). Cooperative function of synaptophysin and synapsin in the generation of synaptic vesicle-like clusters in non-neuronal cells. Nature Communications, 12, 263.
+ Open protocol
+ Expand

About PubCompare

Our mission is to provide scientists with the largest repository of trustworthy protocols and intelligent analytical tools, thereby offering them extensive information to design robust protocols aimed at minimizing the risk of failures.

We believe that the most crucial aspect is to grant scientists access to a wide range of reliable sources and new useful tools that surpass human capabilities.

However, we trust in allowing scientists to determine how to construct their own protocols based on this information, as they are the experts in their field.

Ready to get started?

Sign up for free.
Registration takes 20 seconds.
Available from any computer
No download required

Sign up now

Revolutionizing how scientists
search and build protocols!