7614-53-1Relevant articles and documents
Sydnone Reporters for Highly Fluorogenic Copper-Free Click Ligations
Favre, Camille,De Cremoux, Lucie,Badaut, Jerome,Friscourt, Frédéric
, p. 2058 - 2066 (2018/02/23)
Bioorthogonal fluorescent turn-on reactions are attractive for the sensitive real-time detection of a variety of phenomena including bioconjugation, chemical reactivity, and material assembly. Herein we describe the use of 3,4-disubstituted sydnones, a singular class of mesoionic dipoles, for highly fluorescent turn-on copper-free click cycloadditions with the fluorogenic dibenzocyclooctyne Fl-DIBO. Coherent with time-dependent density functional theory calculations, the pyrazole cycloadducts were found to be highly fluorescent with compelling photophysical properties including excellent fluorescence enhancement (up to 240-fold), high quantum yields (over 45%), and large Stokes shift (over 100 nm). Furthermore, the good stability and reactivity of 4-chlorosydnones with Fl-DIBO allowed us to employ them as chemical reporters for the challenging detection of modified-proteins in complex cellular extracts, with exquisite specificity in no-wash conditions. This novel fluorogenic system significantly expands our chemical biology toolbox and should be beneficial in countless applications.
4-Halogeno-sydnones for fast strain promoted cycloaddition with bicyclo-[6.1.0]-nonyne
Plougastel, Lucie,Koniev, Oleksandr,Specklin, Simon,Decuypere, Elodie,Créminon, Christophe,Buisson, David-Alexandre,Wagner, Alain,Kolodych, Sergii,Taran, Frédéric
, p. 9376 - 9378 (2014/08/05)
New sydnone derivatives have been synthesized and screened for their capacity to undergo fast copper-free cycloaddition reaction with bicyclo-[6.1.0]-nonyne. The influences of substitution in positions N-3 and C-4 of sydnones have been particularly studied leading to the identification of highly reactive partners for bio-orthogonal ligation reactions.
Synthesis and evaluation of phenyl substituted sydnones as potential DPPH-radical scavengers
Mallur, Shanta G.,Tiwari,Raju, B. China,Babu, K. Suresh,Ali, A. Zehra,Sastry,Rao, J. Madhusudana
, p. 1686 - 1689 (2008/09/19)
A series of phenyl substituted sydnones has been synthesized and their radical-scavenging activity has been studied on DPPH free radical. Out of eighteen compounds screened, nine compounds show interesting activity. A mechanism is presented whereby sydnones scavenge DPPH radical through donating H-atom at 4th-position. Its strong radical-scavenging activity mainly arises from 1, 2, 3-oxadiazolium-5-olate ring. Different substituents and their positions on the phenyl ring differently influence DPPH scavenging activity and therefore, may provide clues to design and develop better free-radical scavenging sydnones with multiple activities.