Methylenecyclopropanes synthesis

The procedure described for the synthesis of methylenecyclopropane is patterned after the method reported by Caubere and Coudert. Methylenecyclopropane is also available from the stepwise method described by Kdster and co-workers. ... 

Zhou S, Breitenbach JM, Borysko KZ, Drach JC, Kern ER, GuUen E, Cheng YC, Zemhcka J (2004) Synthesis and antiviral activity of (Z)- and (E)-2,2-[bis(hydroxymethyl) cyclopropylidene]methylpurines and -pyrimidines second-generation methylenecyclopropane analogues of nucleosides. J Med Chem 47 566-575... 

An interesting strategy for the synthesis of pyrrolizidines and indolizidines has been developed by Brandi and co-workers. Cycloaddition between nitrones or nitrile oxides with methylenecyclopropanes generates strained tricyclic spiro compounds, which are prone toward further transformations, such as rearrangement, ring opening, and new ring closure (Scheme 10.17).116... 

Thus, in a novel synthesis of hypoglycine A (96), hydroxycyclopropanation of ethenyl-acetaldehyde diethyl acetal (93) followed by formal dehydration of the cyclopropanol 94 via its tosylate intermediate gave the methylenecyclopropane species 95, a key precursor to the target amino acid (Scheme 11.26) [92]. 

This work has since been extended to cyclobutyl isoxazolidine adducts (e.g., 86) from the cycloaddition of 87 to methylenecyclopropane (88) (Scheme 1.18) (124— 127). Thermolysis afforded a mixture of products, of which the bicyclic azepinone (89) predominated. Spirocyclic adducts were also prepared from an intramolecular reaction in the synthesis of cyclic amines (Scheme 1.72, Section 1.11.3). 

The present procedure offers in good yields a simple and ready preparation of pure cyclobutene from the easily available cyclopropylcarbinol. The product is free of the impurities (e.g., 1,3-butadiene, bicyclobutane, methylenecyclopropane) usually obtained with the various methods so far reported. The procedure described for the synthesis of... 

The synthesis of A-fused tricyclic (3-lactams involving a radical cascade sequence in enyne 2-azetidinones 114 and 115 bearing a methylenecyclopropane unit has been reported [82]. Slow addition of Bu3SnH/AIBN to a refluxing solution of 114 gave tricyclic vinylstannane 116 as a single stereoisomer in 42% yield, whereas cyclization of 115 under identical conditions gave fused heterocycles 117 and 118 in 73 and 11% yield, respectively, in all three cases via a 7-endo cyclization. Treatment of vinyl stannanes 117 and 118 with PPTS in dichloromethane yielded a common tricyclic product 119 (Scheme 40). 

Bis(phosphoranimine) ligands, chromium complexes, 5, 359 Bis(pinacolato)diboranes activated alkene additions, 10, 731—732 for alkyl group functionalization, 10, 110 alkyne additions, 10, 728 allene additions, 10, 730 carbenoid additions, 10, 733 diazoalkane additions, 10, 733 imine additions, 10, 733 methylenecyclopropane additions, 10, 733 Bisporphyrins, in organometallic synthesis, 1, 71 Bis(pyrazol-l-yl)borane acetyl complexes, with iron, 6, 88 Bis(pyrazolyl)borates, in platinum(II) complexes, 8, 503 Bispyrazolyl-methane rhodium complex, preparation, 7, 185 Bis(pyrazolyl)methanes, in platinum(II) complexes, 8, 503 Bis(3-pyrazolyl)nickel complexes, preparation, 8, 80-81 Bis(2-pyridyl)amines... 

As shown above, insertion of alkylidene carbenes is highly regioselective. However, when the normal 1,5-C-H insertion pathway is blocked, 1,4- or 1,6-C-H insertion takes place [Eq. (109)]. Thus, the cyclobutene 121 [192] and the six-membered enol ether 123 [193] were obtained in modest yields. Intramolecular insertion into carbon-carbon double bond provides a method for synthesis of cyclopenten-annulated dihydropyrrole 124, which results from homolytic scission of a methylenecyclopropane intermediate [194]. 

Cazes et al. reported the Pd-catalyzed intermolecular hydroamination of substituted allenes using aliphatic amines in the presence of triethylammonium iodide leading to allylic amines [19]. In a way similar to the Pd-catalyzed hydrocarbona-tion reactions we reported that the hydroamination of allenes [20], enynes [21], methylenecyclopropanes [22], and cyclopropene [10] proceeds most probably via oxidative addition of an N-H bond under neutral or acidic conditions to give allylic amines. The presence of benzoic acid as an additive promotes the Pd-medi-ated inter- and intramolecular hydroamination of internal alkynes [23]. Intramolecular hydroamination has attracted more attention in recent years, because of its importance in the synthesis of a variety of nitrogen-containing heterocycles found in many biologically important compounds. The metal-catalyzed intramolecular hydroamination/cyclization of aminoalkenes, aminodienes, aminoallenes, and aminoalkynes has been abundantly documented [23]. 

The intermolecular addition of carbamates to 1,3-dienes (equation 147) under mild conditions has been described as well. The hydrothiolation of 1,3-dienes has also been reported. " Other related conjugate additions can be performed over methylenecyclopropanes (equation 148) with sulfonamides and the resulting product cyclizes by a second hydroamination of an olefin, finally yielding cyclic sulfonamides. This behavior is reproduced in a similar reaction for the ring opening of vinylcyclopropanes with sulfonamides. One more example in this group of reactions is the synthesis of dUiydrobenzofurans from aryl-allyl ethers. ... 

Kilburn has extensively studied radical cascades centered on the use of methylenecyclopropane derivatives. An addition-fragmentation process ap-parented to pathway c opened new routes for the synthesis of carbocycles. In a recent work, a Sml2-promoted cascade of propargyl ether 73 has been used to give bicyclic ether 78 with good diastereoselectivity (Scheme 24), thus providing a short route to the monoterpenoid paeonilactone B. The observed stereoselectivity in the 74 75 cyclization step was shown to be critically dependent on the presence of HMPA [84]. 

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