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$1,090.00 – $1,290.00For use with our Vertical and Horizontal Electrophoresis products. Our...
- Select options This product has multiple variants. The options may be chosen on the product page
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$11,999.00An automatic gel imaging system works on the principle that...
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$14,790.00A Chemiluminescence Imaging System operates on the principle of detecting...
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$4,350.00An automatic gel imaging system works on the principle that...
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$100.00 – $319.00- Select options This product has multiple variants. The options may be chosen on the product page
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$15,600.00The QuantiScan PCR Detection System is a Fluorescent Quantitative Detection...
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$560.00Vertical electrophoresis tanks are generally used for the analysis and...
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$439.00Integrated Horizontal Electrophoresis System (Electrophoresis Tank + blue light transilluminator)...
Primarily used for nucleic acid and protein sequencing via vertical gel electrophoresis
Vertical Electrophoresis Tank
Vertical electrophoresis tanks are ideal for protein separation and identification. In vertical electrophoresis systems, the buffer can only migrate through the gel, allowing accurate voltage control during experiments. If the polyacrylamide gel with a small pore size is used, the vertical gel electrophoresis allows greater separation and resolution than horizontal systems.
Generally used for the analysis and size separation of nucleic acids, i.e., DNA and RNA.
Horizontal Electrophoresis Tank
Horizontal gels are prepared with larger wells that allow the researchers to analyze larger samples.
Horizontal systems provide a higher resolution of protein-RNA complexes than vertical systems. Moreover, the gel can be imaged several times during the experiment.
In addition, horizontal systems generate gels with a large number of wells compared to vertical format; hence, multiple samples can be run simultaneously
Accurate image analysis
Automatic Gel Imaging System
Our System works on the principle that when ultraviolet light is directed towards a gel stained with ethidium bromide, the dye intercalates with DNA’s groove, gets excited, and emits fluorescent light. The researchers can choose from a variety of cameras, transilluminators, and imaging software according to their convenience and experimental requirements
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