Methods for Preparing Cyclic β-Cyclopentadienyl(dicarbonyl)iron-substituted α,β-Unsaturated Carbonyl Compounds: Precursors to Annulated α,β-Butenolides and γ-Lactams

Mikulás, Mark; Rust, Sibylle; Schollmeyer, Dieter; Rück‐Braun, K.

doi:10.1055/s-2000-6492

Cited by 12 publications

(7 citation statements)

References 9 publications

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“…As part of their attempts to increase the scope of reactions with vinyl triflates and halides, Rück-Braun and coworkers extended [103] their Fp anion reaction to ethoxycarbonyl cyclohexenes and tetralones (Scheme 36). These compounds served as precursors to ␣,␤-butenolides and ␥-lactams.…”

Section: Scheme 35mentioning

confidence: 98%

Recent chemistry of the η5-cyclopentadienyl dicarbonyl iron anion

Theys

Dudley

Hossain

2009

Coordination Chemistry Reviews

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Section: Scheme 35mentioning

confidence: 98%

Recent chemistry of the η5-cyclopentadienyl dicarbonyl iron anion

Theys

Dudley

Hossain

2009

Coordination Chemistry Reviews

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“…The same principle has also been extended to the preparation of lactams through the reaction of amines. 31 Davies has continued his use of iron acyl compounds. 32 Asymmetric conjugate addition of a chiral amine to the iron α,β-unsaturated acyl complex is followed by deprotection and cyclisation with loss of the metal (Scheme 14).…”

Section: Scheme 9 Scheme 10mentioning

confidence: 99%

Applications of stoichiometric transition metal complexes in organic synthesis

Fletcher

Christie

2001

J. Chem. Soc., Perkin Trans. 1

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Introduction 2 Transition metal alkyl, alkenyl and allyl complexes in organic synthesis 2.1 Organozirconium-based methodology 2.2 Organotitanium-based methodology 2.3 Organoiron complexes 3 Group IV transition metal carbenes in organic synthesis 4 2 -Complexes in organic synthesis 5 3 -Complexes in organic synthesis 6 4 -Complexes in organic synthesis 7 5 -Complexes in organic synthesis 8 6 -Complexes in organic synthesis 9 Pauson-Khand reaction 10 References Scheme 1 Scheme 2

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“…Interestingly, for reactions of compound 5d conducted in THF by prolongation of the reaction times at -78 °C and room temperature the α,β-butenolide 6b was solely obtained and isolated in 45% yield ( Suitable crystals for X-ray crystal structure analysis were obtained of compound 5b. In the solid state a distorted 1,2-diplanar conformation of the cyclohexene ring and a s-trans conformation of the alkenal moiety is observed, similar to compound 5a studied before [10,12,20]. With the iron complex 5b and 5c at hand and the model compounds 5d and 5e described previously [9], reactions with organolithium compounds RLi (R = Me, nBu) were examined.…”

Section: Addition Of Organolithiums To Iron-substituted Enalsmentioning

confidence: 99%

“…Recently, we reported on the synthesis of α,β-butenolides 6 from β-[η 5 -C 5 H 5 (CO) 2 Fe]-substituted enals 5 and organolithium or Grignard reagents [11,12].…”

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Preparation and Application of Iron-substituted (Z)-Enals: Synthesis of 5-Substituted α,β-Butenolides

et al. 2000

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791Among the reaction sequences for the synthesis of terpene lactones and derivatives the functionalization of an existing ring system with appropriate functional groups is less explored [1 -7]. Whereas syntheses based on intramolecular Diels-Alder reactions [1] or cascade radical processes [2] starting from a functionalized acyclic molecular ensemble bearing an ester functional group or a butenolide are well established, minor attention has been turned to annelative ring expansion strategies. However, starting from cyclic ketones syntheses of annulated butenolides have been accomplished [3], e.g. by Pummerer reaction of γ-(phenylsulfinyl)-α,β-unsaturated aldehydes [4] or group transfer cyclization reactions [5]. In addition lithiation-carboxylation strategies [6] and palladium-catalyzed, carbonylative intramolecular coupling reactions [7] with hydroxy vinylbromides or hydroxy trifluoromethanesulfonates have been applied.Our approach is based on the application of cyclic dicarbonyl(cyclopentadienyl)iron-substituted enals 5 synthesized from an existing ring system with a ketone functionality, for the construction of either lactones or lactams by one-pot procedures [8 -12]. Recently, we reported on the synthesis of α,β-butenolides 6 from β-[η 5 -C 5 H 5 (CO) 2 Fe]-substituted enals 5 and organolithium or Grignard reagents [11,12].We herein wish to report full details on observations with organolithium compounds. Moreover, the experimental procedures for the synthesis of cyclic β-[η 5 -C 5 H 5 (CO) 2 Fe]-substituted enals 5 from β-keto esters 1 are described [12]. Abstract.A reaction sequence furnishing cyclic β-[η 5 -C 5 H 5 (CO) 2 Fe]-substituted enals 5 starting from β-keto esters 1 is described. Organolithiums were found to react smoothly with the iron-substituted enals yielding α,β-butenolides 6 by cyclic β-[η 5 -C 5 H 5 (CO) 2 Fe]-substituted enals 1 with aliphatic substitution pattern (Scheme 1). The cyclohexene carbaldehyde complexes 5a and 5b and the 5α-cholestan-3-one-derived compound 5c were synthesized by this route. Major limitations of the halo Vilsmeier reaction of ketones, a method conveniently employed in the synthesis of iron-substituted enals when starting from β-halovinyl aldehydes, became obvious when applied to cyclic annelated ketones with aliphatic substitution pattern, especially steroidal ketones [13]. For example, starting from 5α-cholestan-3-one by dropwise addition of the Vilsmeier-Haack reagent prepared from POCl 3 and DMF (molar ratio 7:8) at 0 °C and subsequent heating to reflux for 3 -4 hours a separable 2:1 mixture of the regioisomeric β-chloro enals described in the experimental section was only obtained in 54% overall yield [14].an intramolecular cyclocarbonylation of the lithiumalkoxide initially formed. The influence of e.g. the reaction temperature and the solvent on the reaction cascade is discussed. A reaction mechanism is proposed.

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Methods for Preparing Cyclic β-Cyclopentadienyl(dicarbonyl)iron-substituted α,β-Unsaturated Carbonyl Compounds: Precursors to Annulated α,β-Butenolides and γ-Lactams

Cited by 12 publications

References 9 publications

Recent chemistry of the η5-cyclopentadienyl dicarbonyl iron anion

Recent chemistry of the η5-cyclopentadienyl dicarbonyl iron anion

Applications of stoichiometric transition metal complexes in organic synthesis

Preparation and Application of Iron-substituted (Z)-Enals: Synthesis of 5-Substituted α,β-Butenolides

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