Oxa-Michael-based divergent synthesis of artificial glutamate analogs

Herein we report stereoselective generation of two skeletons, 1,3-dioxane and tetrahydropyranol, by oxa-Michael reaction as the key reaction from δ-hydroxyenone. The construction of the 1,3-dioxane skeleton, achieved through hemiacetal formation followed by oxa-Michael reaction from δ-hydroxyenone,...

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Detalles Bibliográficos
Autores principales: Tsukamoto, Shuntaro, Hlokoane, Oriel, Miyako, Kei, Irie, Raku, Sakai, Ryuichi, Oikawa, Masato
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9364357/
https://www.ncbi.nlm.nih.gov/pubmed/36043066
http://dx.doi.org/10.1039/d2ra03744k
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author Tsukamoto, Shuntaro
Hlokoane, Oriel
Miyako, Kei
Irie, Raku
Sakai, Ryuichi
Oikawa, Masato
author_facet Tsukamoto, Shuntaro
Hlokoane, Oriel
Miyako, Kei
Irie, Raku
Sakai, Ryuichi
Oikawa, Masato
author_sort Tsukamoto, Shuntaro
collection PubMed
description Herein we report stereoselective generation of two skeletons, 1,3-dioxane and tetrahydropyranol, by oxa-Michael reaction as the key reaction from δ-hydroxyenone. The construction of the 1,3-dioxane skeleton, achieved through hemiacetal formation followed by oxa-Michael reaction from δ-hydroxyenone, was exploited to access structurally diverse heterotricyclic artificial glutamate analogs. On the other hand, formation of a novel tetrahydro-2H-pyranol skeleton was accomplished by the inverse reaction order: oxa-Michael reaction followed by hemiacetal formation. Thus, this study succeeded in showing that structural diversity in a compound collection can be acquired by interchanging the order of just two reactions. Among the skeletally diverse, heterotricyclic artificial glutamate analogs synthesized in this study, a neuronally active compound named TKM-50 was discovered in the mice in vivo assay.
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spelling pubmed-93643572022-08-29 Oxa-Michael-based divergent synthesis of artificial glutamate analogs Tsukamoto, Shuntaro Hlokoane, Oriel Miyako, Kei Irie, Raku Sakai, Ryuichi Oikawa, Masato RSC Adv Chemistry Herein we report stereoselective generation of two skeletons, 1,3-dioxane and tetrahydropyranol, by oxa-Michael reaction as the key reaction from δ-hydroxyenone. The construction of the 1,3-dioxane skeleton, achieved through hemiacetal formation followed by oxa-Michael reaction from δ-hydroxyenone, was exploited to access structurally diverse heterotricyclic artificial glutamate analogs. On the other hand, formation of a novel tetrahydro-2H-pyranol skeleton was accomplished by the inverse reaction order: oxa-Michael reaction followed by hemiacetal formation. Thus, this study succeeded in showing that structural diversity in a compound collection can be acquired by interchanging the order of just two reactions. Among the skeletally diverse, heterotricyclic artificial glutamate analogs synthesized in this study, a neuronally active compound named TKM-50 was discovered in the mice in vivo assay. The Royal Society of Chemistry 2022-08-10 /pmc/articles/PMC9364357/ /pubmed/36043066 http://dx.doi.org/10.1039/d2ra03744k Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
Tsukamoto, Shuntaro
Hlokoane, Oriel
Miyako, Kei
Irie, Raku
Sakai, Ryuichi
Oikawa, Masato
Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title_full Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title_fullStr Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title_full_unstemmed Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title_short Oxa-Michael-based divergent synthesis of artificial glutamate analogs
title_sort oxa-michael-based divergent synthesis of artificial glutamate analogs
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9364357/
https://www.ncbi.nlm.nih.gov/pubmed/36043066
http://dx.doi.org/10.1039/d2ra03744k
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