Divergent and programmable skeletal remodeling of complex macrocycles with a small method set
Summary
The bioactivity of complex organic macrocycles can vary unpredictably with their three-dimensional structural contours. Here, we present a streamlined, programmable, and systematic strategy for skeletal remodeling of large organic rings. The central diversification platform (hub) is a readily available macrocyclic olefin or a diene. Six transformations, all but one catalytic, are needed: macrocyclic ring-opening/cross-metathesis for cleaving a ring to generate a diene, cross-metathesis and
Content
# Divergent and programmable skeletal remodeling of complex macrocycles with a small method set
*Published: 2026 May 21*
The bioactivity of complex organic macrocycles can vary unpredictably with their
three-dimensional structural contours. Here, we present a streamlined,
programmable, and systematic strategy for skeletal remodeling of large organic
rings. The central diversification platform (hub) is a readily available
macrocyclic olefin or a diene. Six transformations, all but one catalytic, are
needed: macrocyclic ring-opening/cross-metathesis for cleaving a ring to
generate a diene, cross-metathesis and allylic substitution for one-unit chain
homologation, alkene isomerization and ethenolysis for one-unit chain clipping,
and macrocyclic ring-closing metathesis for reforming a ring. The methods are
practical, mild, efficient, and amenable to iteration. Fourteen analogs of
anticancer agent epothilone C (the primary model macrocycle) were accessed
through a divergent network of reactions that correspond to an average of three
steps per analog from the diene hub.
DOI: 10.1126/science.aee3540