6533b854fe1ef96bd12ae1de

RESEARCH PRODUCT

Bistetrazine-Cyanines as Double-Clicking Fluorogenic Two-Point Binder or Crosslinker Probes

Gábor MezőMadison E. MartinAttila KormosZsófia R. RutkaiEdward A. LemkeEdward A. LemkeChristine KoehlerChristine KoehlerEszter A. FodorPéter Kele

subject

chemistry.chemical_classificationQuenching (fluorescence)010405 organic chemistryChemistryOrganic ChemistryPeptideGeneral ChemistryConjugated system010402 general chemistry01 natural sciencesFluorescenceCombinatorial chemistryCatalysis0104 chemical sciencesTetrazinechemistry.chemical_compoundCovalent bondAzideBioorthogonal chemistry

description

Fluorogenic probes can be used to minimize the background fluorescence of unreacted and nonspecifically adsorbed reagents. The preceding years have brought substantial developments in the design and synthesis of bioorthogonally applicable fluorogenic systems mainly based on the quenching effects of azide and tetrazine moieties. The modulation power exerted by these bioorthogonal motifs typically becomes less efficient on more conjugated systems; that is, on probes with redshifted emission wavelength. To reach efficient quenching, that is, fluorogenicity, even in the red range of the spectrum, we present the synthesis, fluorogenic, and conjugation characterization of bistetrazine-cyanine probes with emission maxima between 600 and 620 nm. The probes can bind to genetically altered proteins harboring an 11-amino acid peptide tag with two appending cyclooctyne motifs. Moreover, we also demonstrate the use of these bistetrazines as fluorogenic, covalent cross-linkers between monocyclooctynylated proteins.

yearjournalcountryeditionlanguage
2018-02-22Chemistry - A European Journal
https://doi.org/10.1002/chem.201800910