ChemiDoc™ MP System
The ChemiDoc MP system is a full-feature instrument for gel or western blot imaging. It is designed to address multiplex fluorescent western blotting, chemiluminescence detection, and general gel documentation applications.
Its features are based on CCD high-resolution, high-sensitivity detection technology, and modular options to accommodate a wide range of samples and support multiple detection methods. The system is controlled by Image Lab™ software to optimize performance for fast, integrated, and automated image capture and analysis of various samples.
Features and Benefits
Multiple imaging capabilities — the ChemiDoc MP imager can accommodate a variety of sample types and detection methods including multiplex fluorescent western blotting. It is the perfect imager to accompany your protein and DNA electrophoresis runs as well as your western blotting experiments. It delivers quantitative, reproducible results for fluorescence, chemiluminescence, and colorimetric detection
Stain-free technology — UV-induced fluorescence labeling of proteins in the stain-free gels allows a 2 hr Coomassie gel-staining protocol to be condensed into a 5 min stain-and-image step. Stain-free gels are western blot compatible — using the V3 Western Workflow™, check your electrophoresis results and blot transfer quality prior to western blotting
High-sensitivity blot detection — the ChemiDoc MP imaging system offers advanced detection technology that determines optimal exposure, even for faint or intense samples. Superior sensitivity is achieved for chemiluminescence and multiplex fluorescence detection and for colorimetric gel and blot documentation
Superior Image Quality — exceptional dynamic range enables visualization of faint and intense bands on same blot or gel. Images are always in focus at any zoom level to ensure publication-ready images in seconds
Ease of Use — precalibrated system provides the precise focus for any zoom setting or sample height; automated hands-free operation ensures consistent, reproducible, and high-throughput performance