Studies on the Manganese-Mediated Isomerization of Alkynyl Carbonyls to Allenyl Carbonyls

Lepore, Salvatore D.; Khoram, Anita; Bromfield, Deborah C.; Cohn, Pamela C.; Jairaj, Vinod; Silvestri, Maximilian A.

doi:10.1021/jo051040u

Cited by 42 publications

(18 citation statements)

References 29 publications

(17 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A regioselective hydrosilylative-decomplexation of cobalt-alkyne complexes was reported [1550]. The role of the base used for isomerization of alkyne-manganese to allene-manganese complexes was examined [1551]. (372) Iron tricarbonyl complexes continued to be used in organic synthesis.…”

Section: Reactions Of Isolated Transitionmetal Complexes and Copper-mentioning

confidence: 99%

Transition metals in organic synthesis: Highlights for the year 2005

Söderberg

2008

Coordination Chemistry Reviews

View full text Add to dashboard Cite

Section: Reactions Of Isolated Transitionmetal Complexes and Copper-mentioning

confidence: 99%

Transition metals in organic synthesis: Highlights for the year 2005

Söderberg

2008

Coordination Chemistry Reviews

View full text Add to dashboard Cite

“…We had previously disclosed our findings demonstrating the utility of allenyl carbonyls in Michael-Stork enamine additions although this method had only limited application to the synthesis of bicycles 2d. However, in our current studies towards the total synthesis of vitisinol D, we recently discovered that stabilized enolates are highly effective in double addition reactions to allenoates.…”

mentioning

confidence: 93%

“…As part of our ongoing efforts in the total synthesis of vitisinol D, an anti-thrombotic natural product,1 we required a general and robust method for the preparation of γ-carbinol allenoates as a multifunctional coupling partner for maximal convergency. A review of existing methods including those developed in our lab2 revealed no efficient catalytic approach to the synthesis of these allenoates save Mukaiyama aldol-type reactions 3. Seeking a Lewis basic approach, we were intrigued by a report demonstrating an amine-catalyzed Morita-Baylis-Hillman (MBH) coupling of an allenyl ketone to aldehydes 4.…”

mentioning

confidence: 97%

See 1 more Smart Citation

Anion-Catalyzed Addition of γ-Silylallenyl Esters to Aldehydes: A New Entry into [3.2.1] Bicyclic Natural Products

Maity

Lepore

2009

J. Am. Chem. Soc.

Self Cite

View full text Add to dashboard Cite

A significant improvement in generality and reactivity of MBH-type reactions made possible by anion-catalysis and a 1,3-Brook rearrangement. In this new reaction, both aliphatic and aromatic aldehydes are rapidly added to silylallenes leading to γ-carbinol allenoates at cold temperatures. The utility of these reaction products is demonstrated by a fast-tracked synthesis of a [3.2.1] bisoxabicycle which makes up the framework of many biologically active natural products including vitisinol D, an anti-thrombotic agent.Catalytic reactions that lead to functionally dense intermediates are of great value in targetoriented synthesis. We are particularly interested in allenyl carbonyls and their synthetic utilization owing to the unique juxtaposition of functional groups including the reactively distinct cumulated double bonds. As part of our ongoing efforts in the total synthesis of vitisinol D, an anti-thrombotic natural product, 1 we required a general and robust method for the preparation of γ-carbinol allenoates as a multifunctional coupling partner for maximal convergency. A review of existing methods including those developed in our lab 2 revealed no efficient catalytic approach to the synthesis of these allenoates save Mukaiyama aldol-type reactions. 3 Seeking a Lewis basic approach, we were intrigued by a report demonstrating an amine-catalyzed Morita-Baylis-Hillman (MBH) coupling of an allenyl ketone to aldehydes. 4 However, this reaction only appears to work with electron-deficient aromatic aldehydes and requires forcing conditions (DMSO, 80 °C).From a mechanistic perspective, two possible rate limiting steps have been attributed to MBH reactions. 5 In the context of allene synthesis, these would be the nucleophilic addition to form C and a proton transfer and catalyst elimination to regenerate the orginal unsaturation giving product D (Scheme 1). 6 Neutral nucleophiles, especially tertiary amines, have been used exclusively as catalysts in this reaction leading to zwitterionic intermediates B (where Nuc is positively charged). Probably due to their overall neutral charge, intermediates such as B have poor nucleophilicities leading to slow addition. We hypothesized that the unique combination of an anionic catalyst and a 1,3-Brook rearrangement would address reactivity problems associated with these two slow steps. By analogy with other systems, 8 we reasoned that silyl-substituted allenoates would lead to intermediates C in which the Nuc would eliminate to form allenic unsaturation with greater facility due to the enhanced propensity of the silyl group to undergo a 1,3-shift relative to the proton of the classic MBH reaction (X = R 3 Si vs H).To test our hypothesis, we first prepared γ-TMS allenylester 1 from 2-benzyl-2,3-butadienoic ethyl ester. 9 Our initial optimization involved the addition of 1 to p-anisaldehyde while varying nucleophilic catalysts and reaction parameters (table 1). We were gratified to discover that LiOPr i led to regiospecific γ-carbinol products 3 in most cases within severa...

show abstract

“…However, this method was limited to α-silylation, stannylation, and methylation with other alkylating agents leading to the deconjugated alkynyl ester product depending on reaction conditions 5. We have also described methods for the isomerization of α-alkynyl esters to their corresponding allenes involving manganese coordination chemistry 6. However, all of our previously disclosed methods to prepare β-alkynyl and α-allenyl esters require conjugated alkynyl esters starting materials which are not always readily available.…”

Section: Introductionmentioning

confidence: 99%

Selective One-Pot Synthesis of Allenyl and Alkynyl Esters from β-Ketoesters

Maity

Lepore

2008

J. Org. Chem.

Self Cite

View full text Add to dashboard Cite

A convenient method is described for the dehydration of β-ketoesters to generate conjugated and deconjugated alkynyl esters and conjugated allenyl esters. This sequential one-pot method involves the formation of a vinyl triflate monoanion intermediate that leads to the selective formation of alkynes or allenes depending on additives and conditions used. Product outcomes appear to be a function of unique mono-and dianion mechanisms which are described.

show abstract

Studies on the Manganese-Mediated Isomerization of Alkynyl Carbonyls to Allenyl Carbonyls

Cited by 42 publications

References 29 publications

Transition metals in organic synthesis: Highlights for the year 2005

Transition metals in organic synthesis: Highlights for the year 2005

Anion-Catalyzed Addition of γ-Silylallenyl Esters to Aldehydes: A New Entry into [3.2.1] Bicyclic Natural Products

Selective One-Pot Synthesis of Allenyl and Alkynyl Esters from β-Ketoesters

Contact Info

Product

Resources

About