ABSTRACT
The stereochemistry of the structurally unique myxobacterial polyketides tuscolid/tuscorons was determined by a combination of high-field NMR studies, molecular modeling, and chemical derivatization and confirmed by a modular total synthesis of tuscoronsâ D and E. Together with the discovery of three novel tuscorons, this study provides detailed insight into the chemically unprecedented tuscolid/tuscoron rearrangement cascade.
Subject(s)
Myxococcales/chemistry , Polyketides/chemical synthesis , Magnetic Resonance Spectroscopy , Models, Molecular , Polyketides/chemistry , StereoisomerismABSTRACT
The 2-(o-nitrophenyl)-propyl (NPP) group is used as caging group to mask the nucleobases adenine and cytosine in N-(2-aminoethyl)glycine peptide nucleic acids (aeg-PNA). The adeninyl and cytosinyl nucleo amino acid building blocks Fmoc-a(NPP) -aeg-OH and Fmoc-c(NPP) -aeg-OH were synthesized and incorporated into PNA sequences by Fmoc solid phase synthesis relying on high stability of the NPP nucleobase protecting group toward Fmoc-cleavage, coupling, capping, and resin cleavage conditions. Removal of the nucleobase caging group was achieved by UV-LED irradiation at 365 nm. The nucleobase caging groups provided sterical crowding effecting the Watson-Crick base pairing, and thereby, the PNA double strand stabilities. Duplex formation can completely be suppressed for complementary PNA containing caging groups in both strands. PNA/PNA recognition can be completely restored by UV light-triggered release of the photolabile protecting group.