Rearrangement of a Bicyclo[3.2.0]hept-2-ene to a Bicyclo[4.1.0]hept-4-ene

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OriginalspracheEnglisch
Seiten (von - bis)1167-1173
Seitenumfang7
FachzeitschriftLiebigs Annalen
Ausgabenummer7
PublikationsstatusVeröffentlicht - Juli 1996

Abstract

The chemistry of the highly substituted cyclobutanone derivative 2, which is easily accessible from 1, is dominated by the steric hindrance caused by the substituents: Reduction with hydride reagents and nucleophilic additions with methyllithium are less stereoselective than corresponding reactions with less substituted bicyclo[3.2.0]hept-2-en-6-one derivatives, but under certain conditions, the exo product predominates. With methyl-, benzyl-, ethenyl-, and ethynylmagnesium halides no nucleophilic addition at the carbonyl group is observed, presumably as a result of the steric hindrance. Instead, an unexpected rearrangement to the bicyclo[4.1.0]heptane carbon skeleton occurs with complete diastereoselectivity and high yields. The rearrangement is rationalized by an increase of the carbocationic character of the carbonyl carbon atom as a result of a coordination of the carbonyl oxygen atom at the Lewis acidic magnesium. This facilitates rearrangement of a cyclobutyl carbenium ion to a cyclopropylmethyl carbenium ion, the latter being stabilized by the amino group. Remarkably, with Grignard reagents derived from propargyl or allyl halides, no rearrangement is observed. The constitutions and configurations of the products were determined by 1H- and 13C-NMR spectroscopy using techniques including NOESY and 2D-INADEQUATE.

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Rearrangement of a Bicyclo[3.2.0]hept-2-ene to a Bicyclo[4.1.0]hept-4-ene. / Behrendt, Uwe; Gabor, Barbara; Mynott, Richard et al.
in: Liebigs Annalen, Nr. 7, 07.1996, S. 1167-1173.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Behrendt U, Gabor B, Mynott R, Butenschön H. Rearrangement of a Bicyclo[3.2.0]hept-2-ene to a Bicyclo[4.1.0]hept-4-ene. Liebigs Annalen. 1996 Jul;(7):1167-1173. doi: 10.1002/jlac.199619960716
Behrendt, Uwe ; Gabor, Barbara ; Mynott, Richard et al. / Rearrangement of a Bicyclo[3.2.0]hept-2-ene to a Bicyclo[4.1.0]hept-4-ene. in: Liebigs Annalen. 1996 ; Nr. 7. S. 1167-1173.
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abstract = "The chemistry of the highly substituted cyclobutanone derivative 2, which is easily accessible from 1, is dominated by the steric hindrance caused by the substituents: Reduction with hydride reagents and nucleophilic additions with methyllithium are less stereoselective than corresponding reactions with less substituted bicyclo[3.2.0]hept-2-en-6-one derivatives, but under certain conditions, the exo product predominates. With methyl-, benzyl-, ethenyl-, and ethynylmagnesium halides no nucleophilic addition at the carbonyl group is observed, presumably as a result of the steric hindrance. Instead, an unexpected rearrangement to the bicyclo[4.1.0]heptane carbon skeleton occurs with complete diastereoselectivity and high yields. The rearrangement is rationalized by an increase of the carbocationic character of the carbonyl carbon atom as a result of a coordination of the carbonyl oxygen atom at the Lewis acidic magnesium. This facilitates rearrangement of a cyclobutyl carbenium ion to a cyclopropylmethyl carbenium ion, the latter being stabilized by the amino group. Remarkably, with Grignard reagents derived from propargyl or allyl halides, no rearrangement is observed. The constitutions and configurations of the products were determined by 1H- and 13C-NMR spectroscopy using techniques including NOESY and 2D-INADEQUATE.",
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T1 - Rearrangement of a Bicyclo[3.2.0]hept-2-ene to a Bicyclo[4.1.0]hept-4-ene

AU - Behrendt, Uwe

AU - Gabor, Barbara

AU - Mynott, Richard

AU - Butenschön, Holger

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N2 - The chemistry of the highly substituted cyclobutanone derivative 2, which is easily accessible from 1, is dominated by the steric hindrance caused by the substituents: Reduction with hydride reagents and nucleophilic additions with methyllithium are less stereoselective than corresponding reactions with less substituted bicyclo[3.2.0]hept-2-en-6-one derivatives, but under certain conditions, the exo product predominates. With methyl-, benzyl-, ethenyl-, and ethynylmagnesium halides no nucleophilic addition at the carbonyl group is observed, presumably as a result of the steric hindrance. Instead, an unexpected rearrangement to the bicyclo[4.1.0]heptane carbon skeleton occurs with complete diastereoselectivity and high yields. The rearrangement is rationalized by an increase of the carbocationic character of the carbonyl carbon atom as a result of a coordination of the carbonyl oxygen atom at the Lewis acidic magnesium. This facilitates rearrangement of a cyclobutyl carbenium ion to a cyclopropylmethyl carbenium ion, the latter being stabilized by the amino group. Remarkably, with Grignard reagents derived from propargyl or allyl halides, no rearrangement is observed. The constitutions and configurations of the products were determined by 1H- and 13C-NMR spectroscopy using techniques including NOESY and 2D-INADEQUATE.

AB - The chemistry of the highly substituted cyclobutanone derivative 2, which is easily accessible from 1, is dominated by the steric hindrance caused by the substituents: Reduction with hydride reagents and nucleophilic additions with methyllithium are less stereoselective than corresponding reactions with less substituted bicyclo[3.2.0]hept-2-en-6-one derivatives, but under certain conditions, the exo product predominates. With methyl-, benzyl-, ethenyl-, and ethynylmagnesium halides no nucleophilic addition at the carbonyl group is observed, presumably as a result of the steric hindrance. Instead, an unexpected rearrangement to the bicyclo[4.1.0]heptane carbon skeleton occurs with complete diastereoselectivity and high yields. The rearrangement is rationalized by an increase of the carbocationic character of the carbonyl carbon atom as a result of a coordination of the carbonyl oxygen atom at the Lewis acidic magnesium. This facilitates rearrangement of a cyclobutyl carbenium ion to a cyclopropylmethyl carbenium ion, the latter being stabilized by the amino group. Remarkably, with Grignard reagents derived from propargyl or allyl halides, no rearrangement is observed. The constitutions and configurations of the products were determined by 1H- and 13C-NMR spectroscopy using techniques including NOESY and 2D-INADEQUATE.

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