Fluorescent Western blot imaging systems do it all: illuminate the blotting membrane, detect the signals over background noise, capture the blot image, and analyze the signals. As such, most systems contain a light source, emission filters, and a photosensor (such as a CCD camera). Possible light sources may include RGB (red/green/blue), UV (ultraviolet) and/or white light. Some systems do even more, with multiplexing capabilities to detect and image multiple fluorescent signals simultaneously in the same experiments. In addition to multiplex fluorescent signals, some fluorescent Western blot imaging systems may also be able to detect luminescent, colorimetric, and radioisotopic signals. Some systems may feature confocal optics to boost sensitivity when detecting targets present in low abundance, which must be reliably distinguished from background signals.
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- This cutting-edge multimodal imager provides you and your ...
- Near-Infrared Fluorescent Western Blot, Chemiluminescent ...
- sCMOS image sensor; CCD chemiluminescence sensor
- RGB LED (trans, reflective); Solid state diode lasers (488 ...
- 5, 10, 20, 50, or 100 µm
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- Image your near-infrared (NIR) and enhanced chemiluminescent...
- Near-Infrared Fluorescent Western Blot, Chemiluminescent ...
- Cooled CCD
- 525 nm LED; Solid-state diode lasers (685 nm, 785 nm)
- 125 µm
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- Odyssey F instruments not only offer researchers greater ...
- Near-Infrared Fluorescent Western Blot, Visible Fluorescent ...
- APD detectors
- Solid-state diode lasers (488 nm, 520 nm, 685 nm, 785 nm)
- 21, 42, 84, 169, or 337 µm
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