RESUMEN
BODIPYs have a well-established role in biological sciences as chemosensors and versatile biological markers due to their chemical reactivity, which allows for fine-tuning of their photophysical characteristics. In this work, we combined the unique reactivity of arylazo sulfones with the advantages of a "sunflow" reactor to develop a fast, efficient, and versatile method for the photochemical arylation of BODIPYs and other chromophores. This approach resulted in red-shifted emitting fluorophores due to extended electronic delocalization at the 3- and 5-positions of the BODIPY core. This method represents an advantageous approach for BODIPY functionalization compared to existing strategies.
RESUMEN
INTRODUCTION: The genus Omphalotus, in particular the "Jack-O'Lantern mushrooms" Omphalotus illudens and Omphalotus olearius, are famous for the production of the DNA-alkylating illudins. A lesser-known species, Omphalotus mexicanus, native to Central America, also produces cytotoxic illudins S and M, but its minor secondary metabolites are yet to be investigated. OBJECTIVE: To identify, isolate, and elucidate the structure of novel secondary metabolites of the illudin family in mycelial extracts of O. mexicanus from submerse cultivation. METHODOLOGY: A fermentation of the fungus in 15 L stirred tank bioreactors is described. Mycelial extracts were separated using a combination of flash chromatography with preparative RP-C18 high-performance liquid chromatography (HPLC). Analysis of metabolites was done using an ultrahigh-performance liquid chromatography ultraviolet diode array detector (UPLC-UV-DAD) system coupled to an electrospray ionisation quadrupole time-of-flight (ESI-QTOF) mass spectrometer. Structures were elucidated using one-dimensional (1D) and two-dimensional (2D) nuclear magnetic resonance spectroscopy (NMR) techniques followed by comparison of experimental and simulated electronic circular dichroism (ECD) spectra to determine absolute configurations. RESULTS: Two novel illudin derivatives, for which we propose the names omphaderol (1) and illudaneol B (2), as well as illudaneol (3) and the unusual cyclobutylcyclopentane illudosin (4), were isolated from the mycelia and characterised. CONCLUSION: Particularly the illudaneol derivatives with their high titers may be potential building blocks for an alternative semisynthetic route to new illudin derivatives with improved medical properties. Additionally, the findings improve the knowledge of minor illudin compounds in the mycelial extract of this fungus and may be of significance for future biosynthetic studies of the illudins.