Reaction
pathways operative when pyridinophane N-oxides are
photoirradiated have been studied using time course analyses
and careful isolation of photolabile intermediates with support from
DFT calculations. Based on the data and the isolation of two previously
unknown heterocyclophanes, we outline a unified mechanistic scheme
that explains competing processes under varying photochemical conditions.
Octafluorocyclopentene (OFCP) engages linear, unprotected
peptides
in polysubstitution cascades that generate complex fluorinated polycycles.
The reactions occur in a single flask at 0–25 °C and require
no catalysts or heavy metals. OFCP can directly polycyclize linear
sequences using native functionality, or fluorospiroheterocyclic intermediates
can be intercepted with exogenous nucleophiles. The latter tactic
generates molecular hybrids composed of peptides, sugars, lipids,
and heterocyclic components. The platform can create stereoisomers
of both single- and double-looped macrocycles. Calculations indicate
that the latter can mimic diverse protein surface loops. Subsets of
the molecules have low energy conformers that shield the polar surface
area through intramolecular hydrogen bonding. A significant fraction
of OFCP-derived macrocycles tested show moderate to high passive permeability
in parallel artificial membrane permeability assays.
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