26174
PIER26174EA
470
EUR
InStock
PIER26174
Sulpho-LC-SDA (Sulpho-NHS-LC-Diazirine) (Sulphosuccinimidyl 6-(4,4′-azipentanamido)hexanoate), Pierce™
Sulpho-LC-SDA (Sulpho-NHS-LC-Diazirine) (Sulphosuccinimidyl 6-(4,4′-azipentanamido)hexanoate)
Thermo Scientific Pierce Sulfo-LC-SDA (Sulfo-NHS-LC-Diazirine) combines proven NHS-ester and diazirine-based photoreaction chemistries with conjugate amine-containing molecules with nearly any other functional group via long-wave UV-light activation. A 12.5Å spacer arm separates the two photoreactive groups.
- Water soluble—solubility in aqueous solutions improved by a sulfonate group
- Heterobifunctional—NHS ester group reacts with primary amines at pH 7 to 9 to form covalent amide bonds; diazirine (azipentanoate) group reacts efficiently with any amino acid side chain or peptide backbone upon activation with long-wave UV light (330-370 nm)
- Controllable—two-step chemical crosslinking is activated using common laboratory UV lamps
- Easy to use—these crosslinkers are photo-stable under typical laboratory lighting conditions so there is no need to perform experiments in the dark
- Better than aryl azides—the diazirine photoreactive group has better photostability in normal light than phenyl azide groups of traditional photoreactive crosslinkers, yet the diazirine group is more efficiently activated by long-wave UV light
Succinimidyl-diazirine (SDA) reagents are a new class of crosslinkers that combine proven amine-reactive chemistry with an innovative and efficient diazirine-based photochemistry for conjugating amine-containing molecules to nearly any other functional group. The SDA crosslinkers include six compounds differing in spacer arm lengths, ability to cleave the crosslinked proteins, and presence or absence of a charged group for membrane permeability. Protein crosslinking is an important technique used to understand protein structure and to stabilize protein-protein interactions, and these SDA reagents extend the efficiency and range of interactions that can be explored by this approach.
Attention: For Research Use Only. Not for use in diagnostic procedures.