Acremolin, a stable natural product with an antiaromatic 1H-azirine moiety? A structural reorientation

Banert, Klaus

13 October 2014

Recently, acremolin (4), a novel modified base, was isolated from a marine-derived fungus and claimed to possess a structure with a 1H-azirine moiety. It is shown now that the reported NMR data are not compatible with this antiaromatic heterocycle, which should be an extremely unstable compound. An isomeric, substituted N2,3-ethenoguanine is presented as a plausible alternative structure of acremolin that is consistent with all spectroscopic data. Thus, 1H-azirines keep their classification as very short-lived intermediates.

Acremolin

antiaromatische Heterocyclen

NMR-Spektroskopie

Strukturberichtigung

Acremolin

antiaromatic heterocycles

NMR spectroscopy

structural corrigendum

ddc:500

ddc:540

ddc:547

NMR-Spektroskopie

Synthesis of Stable 1H-Azirines Reinvestigated: A Structural Corrigendum

Banert, Klaus, Hagedorn, Manfred, Peisker, Heiko

13 October 2014

The isoquinoline-catalyzed synthesis of pretended 1H-azirines from phenacyl bromides and N,N\'-dialkylcarbodiimides was repeated. The products do not possess the structure of antiaromatic 1H-azirines, but simple N-acyl-N,N\'-dialkylureas were formed instead. This structural corrigendum was confirmed by the independent synthesis of the known ureas and comparison of their 1H NMR and 13C NMR spectroscopic data in the case of six compounds. Thus,1H-azirines keep their classification as very short-lived intermediates.

Acylierung

antiaromatische Heterocyclen

Strukturzuordnung

Spektroskopie

Harnstoffe

Acylation

antiaromatic heterocycles

structure assignment

spectroscopy

ureas

ddc:500

ddc:540

ddc:547

Acylierung

Spektroskopie

Harnstoff

Acremolin, a stable natural product with an antiaromatic 1H-azirine moiety? A structural reorientation

Banert, Klaus

January 2012

Recently, acremolin (4), a novel modified base, was isolated from a marine-derived fungus and claimed to possess a structure with a 1H-azirine moiety. It is shown now that the reported NMR data are not compatible with this antiaromatic heterocycle, which should be an extremely unstable compound. An isomeric, substituted N2,3-ethenoguanine is presented as a plausible alternative structure of acremolin that is consistent with all spectroscopic data. Thus, 1H-azirines keep their classification as very short-lived intermediates.

info:eu-repo/classification/ddc/500

ddc:500

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/547

ddc:547

NMR-Spektroskopie

Synthesis of Stable 1H-Azirines Reinvestigated: A Structural Corrigendum

Banert, Klaus, Hagedorn, Manfred, Peisker, Heiko

January 2012

The isoquinoline-catalyzed synthesis of pretended 1H-azirines from phenacyl bromides and N,N\'-dialkylcarbodiimides was repeated. The products do not possess the structure of antiaromatic 1H-azirines, but simple N-acyl-N,N\'-dialkylureas were formed instead. This structural corrigendum was confirmed by the independent synthesis of the known ureas and comparison of their 1H NMR and 13C NMR spectroscopic data in the case of six compounds. Thus,1H-azirines keep their classification as very short-lived intermediates.

info:eu-repo/classification/ddc/500

ddc:500

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/547

ddc:547

Acylierung; Spektroskopie; Harnstoff