TORNADO-SMI™ 646
Cat. #: 8603-01
....................................................................................................................................................................................................................................................................................................................................................................................................................................................
Applications
Fast and guaranteed safe protein labelling for fluorescence microscopy based single molecule imaging.
Description
|
|
Product
|
TORNADO-SMI™ 646
|
Product type
|
kit
|
Molecular mass
|
N/A
|
Product description
|
Fast and safe single molecule imaging with Tornado-SMI™ 646. The kit was developed for fast and safe protein labelling for high resolution imging techniques. Tornado-SMI™ 646 is a complete kit for protein labelling at fluorescent excitation wavelenghts of 665nm.
The kit contains TORNADO-Dye 646 to label 4x250µg of protein by esterification, mini columns and buffers for labelling and purification. TORNADO-Dye 646 permits a fast and guaranteed safe labelling of proteins without impairing its biological function.
Tornado-SMI™ 646 gives a strong red fluorescence of strong brightness and photostability.
|
Optical Properties
|
λex 646nm, λem 665nm
|
Properties
|
|
Form
|
Dry
|
Quantity
|
For 4x 250µg protein
|
Dye
|
TORNADO-Dye (proprietary formula, HYPERMOL®)
|
Labelling method
|
Esterification (NHS-ester)
|
Excitation/Emission
|
ex 646 nm, em 665 nm
|
Kit Content
|
4x units TORNADO-Dye 646
1x Quenching buffer
4x Mini columns for 100 µl (gravity flow)
1x 20ml Labelling buffer
2x 1 ml Protein buffer
1x Product Manual
|
Storage instructions
|
Upon reconstitution the product is stored at -70°C. Always protect from light.
|
Shipping conditions
|
At ambient temperature. Upon delivery store at -70°C.
|
Remarks
|
|
CAS no.
|
N/A
|
Further Information
Table of Dyes and Light Sources
References
Binding of Vinculin to Lipid Membranes in Its Inhibited and Activated States.
Dwivedi M, Winter R.
Biophys J. 2016 Oct 4;111(7):1444-1453. doi: 10.1016/j.bpj.2016.08.019.