1 research outputs found
The Manufacture of a Homochiral 4‑Silyloxycyclopentenone Intermediate for the Synthesis of Prostaglandin Analogues
A process is described for the synthesis of kilogram
quantities
of homochiral 4-silyloxycyclopentenone (<i>R</i>)-<b>1</b>, a key intermediate useful for the synthesis of a plurality
of prostaglandin analogue drugs. Cyclopentenone (<i>R</i>)-<b>1</b> was synthesized in 14 isolated steps from furfural.
Key steps in the synthesis include a Wittig reaction, Piancatelli
rearrangement, and an enzymatic resolution featuring in situ recycling
of the undesired enantiomer furnishing the desired homochiral alcohol
in ≥99.5% ee. As a retort to the unsatisfactory coformation
of about 8% at best of the <i>trans</i>-olefin in the Wittig
reaction, a change to the order of several steps and the identification
of a recrystallisable, amine salt derivative, <b>2</b>, allowed
the unwanted isomer to be controlled to as low as 0.2%