Tuning Selectivity of Anionic Cyclizations: Competition between 5-Exo and 6-Endo-Dig Closures of Hydrazides of o-Acetylenyl Benzoic Acids and Based-Catalyzed Fragmentation/Recyclization of the Initial 5-Exo-Dig Products Full article
Journal |
Journal of Organic Chemistry
ISSN: 0022-3263 |
||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|
Output data | Year: 2009, Volume: 74, Number: 21, Pages: 8106-8117 Pages count : DOI: 10.1021/jo901551g | ||||||||||
Authors |
|
||||||||||
Affiliations |
|
Abstract:
Depending on the reaction conditions and the nature of substituents at the triple bond, anionic cyclizations of hydrazides of o-acetylenyl benzoic acids can be selectively directed along three alternative paths, each of which provides efficient access to a different class of nitrogen heterocycles. The competition between 5-exo and 6-endo cyclizations of the "internal" nitrogen nucleophile is controlled by the nature of alkyne substituents under the kinetic control conditions. In the presence of KOH, the initially formed 5-exo products undergo it new rearrangement that involves a ring-opening followed by recyclization to the formal 6-exo-products and rendered irreversible by a prototropic isomerization. DFT computations provide Insight into the nature of factors controlling relative rates of 5-exo, 6-endo, and 6-exo cyclization paths, ascertain the feasibility of direct 6-exo closure and relative stability for the anionic precursor for this process, provide, for the first time, the benchmark data for several classes of anionic nitrogen cyclizations, and dissect stereoelectronic effects controlling relative stability of cyclic anionic intermediates and influencing reaction stereoselectivity. We show that the stability gain due transformation of a weak pi-bond into a stronger sigma-bond (the Usual driving force for the cyclizations of alkynes) is offset in this case by the transformation of a stable nitrogen anion into an inherently less stable carbanionic center As a result, the cyclizations are much more sensitive to external conditions and substituents than similar cyclizations of neutral species However, the exothermicity of such anionic cyclizations is increased dramatically upon prototropic isomerization of the initially formed carbanions into the more stable N-anions. Such tautomerizations are likely to play the key role in driving Such cyclizations to completion but may also prevent future applications of such processes its the first step in domino cyclization processes.
Cite:
Vasilevsky S.F.
, Mikhailovskaya T.F.
, Mamatyuk V.I.
, Salnikov G.E.
, Bogdanchikov G.A.
, Manoharan M.
, Alabugin I.V.
Tuning Selectivity of Anionic Cyclizations: Competition between 5-Exo and 6-Endo-Dig Closures of Hydrazides of o-Acetylenyl Benzoic Acids and Based-Catalyzed Fragmentation/Recyclization of the Initial 5-Exo-Dig Products
Journal of Organic Chemistry. 2009. V.74. N21. P.8106-8117. DOI: 10.1021/jo901551g WOS Scopus РИНЦ
Tuning Selectivity of Anionic Cyclizations: Competition between 5-Exo and 6-Endo-Dig Closures of Hydrazides of o-Acetylenyl Benzoic Acids and Based-Catalyzed Fragmentation/Recyclization of the Initial 5-Exo-Dig Products
Journal of Organic Chemistry. 2009. V.74. N21. P.8106-8117. DOI: 10.1021/jo901551g WOS Scopus РИНЦ
Dates:
Published online: | Sep 25, 2009 |
Published print: | Nov 6, 2009 |
Identifiers:
Web of science | WOS:000271113400011 |
Scopus | 2-s2.0-70350705891 |
Elibrary | 15295887 |
OpenAlex | W1998603989 |