Agarose Tablets with integrated DNA stain MIDORIGreen Xtra
- Tablet format – no weighing equipment required
- Very stable at room temperature if protected from light
- Just add TBE or TAE buffer
- Fast dissolving protocol
- MIDORIGreen Xtra is a non-carcinogenic alternative to ethidium bromide
- Environmental safety – all working solution can be disposed in regular laboratory waste
MIDORIGreen Xtra Agarose Tablets – safe, clean and fast
The MIDORIGreen Xtra Agarose Tablets are a clean and fast solution for preparing agarose gels without time-consuming weighing. These tablets already contain the ultra-sensitive DNA stain MIDORIGreen Xtra for the safe detection of nucleic acids.
Very fast preparation of agarose gels – DNA stain is already included
Producing an agarose gel is easier than ever before with the MIDORIGreen Xtra Agarose Tablets: Just dissolve the Agarose Tablet in TBE or TAE buffer, heat up and pour the gel. MIDORIGreen Xtra is already included in the tablet, eliminating the need to add an additional DNA stain.
MIDORIGreen Xtra is a safe alternative to the traditional nucleic acid stain ethidium bromide. It is a non-carcinogenic and less mutagenic stain for detecting dsDNA, ssDNA and RNA in agarose gels with a very high sensitivity.
|Gel %||1 tablet||2 tablets|
|1.0 %||50 mL water||100 mL water|
|1.5 %||33 mL water||66 mL water|
|2.0 %||25 mL water||50 mL water|
Ultra-sensitive DNA signals and low background – Just a perfect signal
MIDORIGreen Xtra is a new highly sensitive green fluorescent stain for a safe visualization of DNA and RNA in agarose gels. This DNA stain is a safe and better alternative to the traditional nucleic acid stain ethidium bromide (EtBr). Remarkably, agarose gels stained with MIDORIGreen Xtra have a very low background fluorescence, which makes the identification of low amounts of DNA very easy. MIDORIGreen Xtra is optimized for Blue/Green and Blue LED light, leading to unbeatable fluorescence signals of DNA and RNA in agarose gels. However, you can also use UV light for the detection of DNA.