posted on 2023-05-26, 16:10authored byGourlay, BS, Molesworth, PP, Ryan, JH, Jason SmithJason Smith
An investigation of the reaction requirements to effect the Clauson-Kaas pyrrole synthesis led to the formulation of a new procedure that avoids the contact of pyrroles to heat or strongly acidic conditions that cause decomposition of the desired products. The procedure involves mild hydrolysis of 2,5-dimethoxytetrahydrofuran in water to the activated species 2,5-dihydroxy- tetrahydrofuran that reacts with primary amines in an acetate buffer at room temperature to give N-substituted pyrroles in high yield. In the case of chiral amines, pyrrole formation proceeds with no detectable epimerisation. Acid- or heat-sensitive pyrroles are also obtained in high yield and purity.
History
Publication title
Tetrahedron Letters
Volume
47
Pagination
799-801
ISSN
0040-4039
Publication status
Published
Rights statement
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