Biomimetic synthesis and studies toward enantioselective synthesis of flindersial alkaloids

Ravikrishna Vallakati; Brian J. Lundy; Santa Jansone-Popova; Jeremy A. May

doi:10.1002/chir.22134

Biomimetic synthesis and studies toward enantioselective synthesis of flindersial alkaloids

Ravikrishna Vallakati, Brian J. Lundy, Santa Jansone-Popova, Jeremy A. May

Chemical Separations Group

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

A strategy allowing both stereocontrol and control over structural isomer formation has been defined for the antimalarial flindersial alkaloids. The recently reported flinderoles were demonstrated to be derived from the natural product borrerine. The structural isomers of flinderoles, the borreverines, were also produced in vitro along with the flinderoles through the dimerization of borrerine in acidic conditions. This result is thought to replicate the biosynthesis of these compounds. Flinderoles A, B, and C, desmethylflinderole C, isoborreverine, and dimethylisoborreverine can each be synthesized in three steps from tryptamine. Furthermore, progress toward a concise enantioselective synthesis of flinderoles A, B, and C is described. This work includes enantioselective conjugate addition to an unprotected indole-appended enone. Chirality 27:14-17, 2015.

Original language	English
Pages (from-to)	14-17
Number of pages	4
Journal	Chirality
Volume	27
Issue number	1
DOIs	https://doi.org/10.1002/chir.22134
State	Published - Jan 2015

Keywords

BINOL
Biosynthesis
Borrerine
Conjugate addition
Malaria

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10.1002/chir.22134

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title = "Biomimetic synthesis and studies toward enantioselective synthesis of flindersial alkaloids",

abstract = "A strategy allowing both stereocontrol and control over structural isomer formation has been defined for the antimalarial flindersial alkaloids. The recently reported flinderoles were demonstrated to be derived from the natural product borrerine. The structural isomers of flinderoles, the borreverines, were also produced in vitro along with the flinderoles through the dimerization of borrerine in acidic conditions. This result is thought to replicate the biosynthesis of these compounds. Flinderoles A, B, and C, desmethylflinderole C, isoborreverine, and dimethylisoborreverine can each be synthesized in three steps from tryptamine. Furthermore, progress toward a concise enantioselective synthesis of flinderoles A, B, and C is described. This work includes enantioselective conjugate addition to an unprotected indole-appended enone. Chirality 27:14-17, 2015.",

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AU - Vallakati, Ravikrishna

AU - Lundy, Brian J.

AU - Jansone-Popova, Santa

AU - May, Jeremy A.

PY - 2015/1

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AB - A strategy allowing both stereocontrol and control over structural isomer formation has been defined for the antimalarial flindersial alkaloids. The recently reported flinderoles were demonstrated to be derived from the natural product borrerine. The structural isomers of flinderoles, the borreverines, were also produced in vitro along with the flinderoles through the dimerization of borrerine in acidic conditions. This result is thought to replicate the biosynthesis of these compounds. Flinderoles A, B, and C, desmethylflinderole C, isoborreverine, and dimethylisoborreverine can each be synthesized in three steps from tryptamine. Furthermore, progress toward a concise enantioselective synthesis of flinderoles A, B, and C is described. This work includes enantioselective conjugate addition to an unprotected indole-appended enone. Chirality 27:14-17, 2015.

KW - BINOL

KW - Biosynthesis

KW - Borrerine

KW - Conjugate addition

KW - Malaria

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ER -

Biomimetic synthesis and studies toward enantioselective synthesis of flindersial alkaloids

Abstract

Keywords

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