TAE

Background

Tris acetate with EDTA (TAE) Buffer:
- is best for electrophoresis of large (>20kb) DNA
- is best for applications requiring high resolution
- its low ionic strength and low buffering capacity means that recirculation may be needed for extended run times (>4hrs) or in the largest-sized gels (B2/B3)
TAE is a more expensive and difficult buffer to make (compared to TBE) so we use it for special gels
- Gels with large bands to increase their resolution
- Gels from which we will extract bands of DNA and extract them for further downstream processing

Measure and pour ~700mL dH2O from the FIX graduated cylinder into a FIX large flask
- Graduated cylinder under sink attached to the Nanodrop/Gel counter
- Large flask in cabinets above FIX heating/stir plate
Add 18.61g Na2EDTA x 2H20 (MW 372.24)
- In chemical shelves alphabetically as "EDTA disodium salt, dihydrate, crystal"
Add 57.1mL Glacial Acetic Acid (CH3COOH) in hood with blower on (Use Gloves and Goggles!)
- Glacial Acetic Acid is in the Acid Storage container under the hood across from the Nanodrop/Gel Image counter
Add 242.0g Tris Base (or TRIZMA base)
Put a FIX stir bar in the large flask and cover lid with aluminum foil so dirt/dust doesn't get in mixture
Put flask on the stir plate and allow to stir until all Tris Base and Na2EDTA is dissolved
Pour mixture back into the FIX graduated cylinder and add dH2O up to 1000mL
Pour mixture back into the FIX large flask and mix well
Makes a total of 1L of 50x TAE buffer
Store in 1L media bottles with orange caps under sink attached to the Nanodrop/Gel counter

Dilute the 50x TAE buffer to 1X TAE before using in gels or other molecular work

IF THE 50x TAE SINK SUPPLY RUNS OUT OR LOW, MAKE MORE