Michael A. St. Peter scite author profile

Michael A. St. Peter

5Publications

18Citation Statements Received

31Citation Statements Given

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Affiliations

University of California, Davis, University of Duisburg-Essen

Publications

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Synthesis of (±)-Bisavenanthramide B-6 by an Anionic Anhydride Mannich Reaction

et al. 2016

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Bisavenanthramide B-6 (2) is a highly substituted γ-lactam derived from oat leaves. Development of a new base-promoted anhydride Mannich reaction with N-sulfonylated imines that forms the core structure of 2 in a single step is presented. Further elaboration allows for a facile one-pot double Buchwald N-arylation to install the final rings onto the densely substituted γ-lactam core. This route provides the natural product in a longest linear sequence of nine steps.

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4‐Methyl‐1‐(2‐(Phenylsulfonyl)Ethyl)‐2,6,7‐Trioxabicyclo[2.2.2]Octane

Maso

Peter

Shaw

2016

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This article reports the synthesis of 4‐methyl‐1‐(2‐(phenylsulfonyl)ethyl)‐2,6,7‐trioxabicyclo[2.2.2]octane. Ghosez reagent functions as a useful d 3 ‐synthon or homoenolate equivalent as well as a masked electrophilic carbonyl in the acid oxidation state. The reagent has found special use with enantiomerically pure epoxides and aziridines to form enantiomerically pure lactones and lactams, respectively. This reagent is useful in many natural product syntheses.

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ChemInform Abstract: Synthesis of (.+‐.)‐Bisavenanthramide B‐6 by an Anionic Anhydride Mannich Reaction.

et al. 2016

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Reactivity of cyclopentenyl anion analogous heterocycles: 1,5‐electrocyclization of 2‐oxa‐, 2‐thia‐, 2‐aza‐ and 2‐phosphabicyclo[3.2.0]hept‐3‐ene. A sigmatropic [1,3] carbon shift

et al. 1995

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Carbonyl ylide-like intermediates are involved in the 1,5-electrocyclization of the bicyclo[3.2.0]heptenes 3a-c. The activation barriers analyzed by the time-and temperaturedependence of the exo * endo isomerization of specifically deuterated derivatives or of the racemization of optically active derivatives turned out to be higher by AAG* 3 11 kcal/ mol than those determined for the corresponding bicyclo [3.1.0]hexenes la-c. This result can be considered as an evidence for the electrocyclic nature of these ring openings due Carbonyl ylides, thiocarbonyl ylides, and azomethine ylides -formally the products of the oxirane, thiirane, or aziridine ring opening -have attracted attention as reaction partners in 1,3-dipolar cycloaddition~ [~-~]. The corresponding ylides 2a-d have recently been shown to be involved in the 1,5-electrocyclization of the heterocycles la-d[6371. At 120°C the ring opening of homothiophene l b and homopyrrole l c proceeds 63100 and 72 times faster and that of homophosphole 4,5-(CH3)2-ld slower by a factor of 0.0016 than that of homofuran l a . In the corresponding benzo-substituted the heteroatom effect on the rate of ring opening is less pronounced than in the parent systems la-d. At 120°C the ring opening in benzohomothiophene is faster only by a factor of 8.7 and in homoindole even slower by a factor of 0.033 than that in benzohomofuran. This observation has led to the conclusion that the different rates observed for ring opening in la-c is the result of the heteroatom effect on the ground state rather than on the carbonyl ylide-like intermediates.In this paper we report on the ring opening of the 2-hetera-substituted bicyclo[3.2.0]hept-3-enes 3a-d. The replacement of the three-membered by a four-membered ring should provide further insight into the nature of the ringopening reaction. In the case of a simple homolytic bond dissociation similar activation barriers are expected for the cleavage of corresponding cyclopropane and cyclobutane derivatives due to the comparable cyclopropane and cyclobutane strain energy [']. In the case of an orbital symmetrycontrolled electrocyclic ring opening the activation barriers to the diminished Walsh character of cyclobutane bonds compared to cyclopropane bonds. A stereochemical analysis of the fragmentation of 2-oxabicyclo[3.2.0]heptene 3a to furan and ethene leads to the conclusion that a sigmatropic [1.3] carbon shift proceeding with inversion of the migarting carbon followed by stereospecific retro-Diels-Alder reaction is the major pathway for this reaction similar to the rearrangement and fragmentation of the corresponding carbocycle 3e.of the cyclopropane derivatives should be significantly lower than those of the corresponding cyclobutane derivatives, because the Walsh-type molecular orbitals of the cyclopropane ring can interact with the heteroatom lone pair and the molecular orbitals of the bond in an earlier stage of the reaction than those of the cyclobutane ring which show only little Walsh character. D2-3a, endo-D2-3a) and the

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ChemInform Abstract: Reactivity of Cyclopentenyl Anion Analogous Heterocycles: 1,5‐ Electrocyclization of 2‐Oxa‐, 2‐Thia‐, 2‐Aza‐ and 2‐Phosphabicyclo(3.2. 0)hept‐3‐ene. A Sigmatropic (1,3) Carbon Shift

Klaerner¹,

Yaslak²,

Drewes³

et al. 1995

ChemInform

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