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Diazirines are versatile carbene precursors that are extensively used in biological target identification experiments. However, their photo-activation wavelength (ca. 365 nm) precludes their use in living organisms. Here we show that a reconceptualization of the diazirine hybridization state leads to conjugation of the diazirine motif to longer-wavelength chromophores. In a model diazirine–fluorene conjugate, we are able to achieve direct activation (and subsequent C–H insertion) with >450 nm light for the first time. Two-photon activation using near-IR light is also achieved, suggesting the possibility to prepare new diazirine probes for conducting target identification experiments in deep tissue.

A diazirine's central carbon is sp2-hybridized, facilitating conjugation to dye molecules / Michelini, Lorenzo; Slaney, Tanya; Virk, Seerat; Rafic, Estefanía; Qie, L. Charlie; Corejova, Klara; Lepage, Mathieu L.; Musolino, Stefania F.; Oliver, Allen G.; Etchenique, Roberto; Hong, W. David; Dilabio, Gino A.; Wulff, Jeremy E.. - In: CHEMICAL SCIENCE. - ISSN 2041-6520. - 16:2(2025), pp. 970-979. [10.1039/d4sc06427e]

A diazirine's central carbon is sp2-hybridized, facilitating conjugation to dye molecules

Michelini, Lorenzo^{Primo

Investigation};Slaney, Tanya^{Investigation};Rafic, Estefanía^{Investigation};Qie, L. Charlie^{Investigation};Corejova, Klara^{Investigation};Etchenique, Roberto^{Data Curation};

2025

Abstract

Diazirines are versatile carbene precursors that are extensively used in biological target identification experiments. However, their photo-activation wavelength (ca. 365 nm) precludes their use in living organisms. Here we show that a reconceptualization of the diazirine hybridization state leads to conjugation of the diazirine motif to longer-wavelength chromophores. In a model diazirine–fluorene conjugate, we are able to achieve direct activation (and subsequent C–H insertion) with >450 nm light for the first time. Two-photon activation using near-IR light is also achieved, suggesting the possibility to prepare new diazirine probes for conducting target identification experiments in deep tissue.

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	Anno di pubblicazione
	
				2025
			
	Parole chiave
	
				photochemistry; organic synthesis; diazirine
			
	Tipologia
	
				01 Pubblicazione su rivista::01a Articolo in rivista
			
	Citazione
	
				A diazirine's central carbon is sp2-hybridized, facilitating conjugation to dye molecules / Michelini, Lorenzo; Slaney, Tanya; Virk, Seerat; Rafic, Estefanía; Qie, L. Charlie; Corejova, Klara; Lepage, Mathieu L.; Musolino, Stefania F.; Oliver, Allen G.; Etchenique, Roberto; Hong, W. David; Dilabio, Gino A.; Wulff, Jeremy E.. - In: CHEMICAL SCIENCE. - ISSN 2041-6520. - 16:2(2025), pp. 970-979. [10.1039/d4sc06427e]
			
	Appartiene alla tipologia:
	
				01a Articolo in rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1731770

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