Sigmatropic rearrangement enables access to a highly stable spirocyclic nitroxide for protein spin labelling

Sowinski, Mateusz; Mocanu, Elena; Ruskin-Dodd, Hannah; McKay, Aidan P.; Cordes, David B.; Lovett, Janet E.; Haugland-Grange, Marius

Publisert versjon (PDF)

Dato

2025-05-27

Type

Journal article
Tidsskriftartikkel
Peer reviewed

Forfatter

Sowinski, Mateusz; Mocanu, Elena; Ruskin-Dodd, Hannah; McKay, Aidan P.; Cordes, David B.; Lovett, Janet E.; Haugland-Grange, Marius

Sammendrag

Spin labelling enables the study of biomolecules using electron paramagnetic resonance (EPR) spectroscopy. Here, we describe the synthesis of a cysteine-reactive spin label based on a spirocyclic pyrrolidinyl nitroxide containing an iodoacetamide moiety. The spin label was shown to be highly persistent under reducing conditions while maintaining excellent EPR relaxation parameters up to a temperature of 180 K. After successful double spin labelling of a calmodulin variant, interspin distances were measured by the EPR experiment double electron–electron resonance (DEER) at 120 K.

Forlag

Royal Society of Chemistry

Sitering

Sowinski, Mocanu, Ruskin-Dodd, McKay, Cordes, Lovett, Haugland-Grange. Sigmatropic rearrangement enables access to a highly stable spirocyclic nitroxide for protein spin labelling. Chemical Communications. 2025;61:6755-6758

Metadata

Vis full innførsel

Samlinger

Artikler, rapporter og annet (kjemi) [566]

Med mindre det står noe annet, er denne innførselens lisens beskrevet som Attribution 4.0 International (CC BY 4.0)