The chemistry of cyclopropylmethyl and related radicals

Abstract: Ring opening of the cyclopropylmethyl radical (1) gives the but-3-enyl radical (2) with a rate constant at 37 "C of 1.2 x lo8 sl .The cyclopropylmethyl carbanion also undergoes ring opening giving the but-3-enyl anion. The rate of this process is very much slower than that of the corresponding radical and has been estimated to be about 9.5 x l o p 5 s -l at -24"C.2 Unlike the corresponding cations, cyclopropylmethyl radicals do not rearrange to cyclobutane derivatives.The rapidity of the ring opening of the cy… Show more

“…The retro synthetic analysis (Scheme 7) of the target compound 5 does not start from a chiral starting material in contrast to the published diastereoselective synthesis, but employs commercially available 3-furoic acid (59). The chiral information is introduced by a copper(I)-catalyzed cyclopropanation reaction using a chiral bis(oxazoline) ligand to yield the bi-cycle 58.…”

“…By choosing commercially available 3-furoic acid (59) as starting material for the planned synthesis of (-)-Paeonilide (5) a protection of the free carboxylic acid by esterification proved to be necessary to avoid unwanted side reactions. 42 The ester was formed under strongly acidic conditions, i.e.…”

“…Although this hypothesis has yet to be proven, it gives an explanation for the lower enantioselectivity of this cyclopropanations and makes the way for further optimization. In order to increase the steric repulsion, more bulky ester groups could be introduced into the 3-furoic acid (59) to enable a screening process.…”

“…[59][60][61][62] The main reason for the broad interest in this special moiety is the reactivity of cyclopropanes, which is usually associated with electron-donating and/or electron-accepting substituents. (92), vicinal (93), 1,3-dipolar synthon (94).…”

Enantioselective synthesis of (−)-paeonilide

“…The retro synthetic analysis (Scheme 7) of the target compound 5 does not start from a chiral starting material in contrast to the published diastereoselective synthesis, but employs commercially available 3-furoic acid (59). The chiral information is introduced by a copper(I)-catalyzed cyclopropanation reaction using a chiral bis(oxazoline) ligand to yield the bi-cycle 58.…”

“…By choosing commercially available 3-furoic acid (59) as starting material for the planned synthesis of (-)-Paeonilide (5) a protection of the free carboxylic acid by esterification proved to be necessary to avoid unwanted side reactions. 42 The ester was formed under strongly acidic conditions, i.e.…”

“…Although this hypothesis has yet to be proven, it gives an explanation for the lower enantioselectivity of this cyclopropanations and makes the way for further optimization. In order to increase the steric repulsion, more bulky ester groups could be introduced into the 3-furoic acid (59) to enable a screening process.…”

“…[59][60][61][62] The main reason for the broad interest in this special moiety is the reactivity of cyclopropanes, which is usually associated with electron-donating and/or electron-accepting substituents. (92), vicinal (93), 1,3-dipolar synthon (94).…”

Enantioselective synthesis of (−)-paeonilide

“…Moreover, the assignment of the syn-and anti-configuration to the isomers of ketal 21 was also possible by NOE difference spectroscopy, since the enhancement by 23.5% of the intensity of the resonance signal at 1.77 ppm assigned to HÀC(3) of the tricycle observed on irradiation at HÀC (8) Unfortunately, however, reductive cleavage of the cyclopropane ring, which was attempted by catalytic hydrogenation of the mixture of syn-and anti-stereoisomers of 11 (both as racemates), was not regioselective: the reaction product consisted of a mixture of the desired 5-oxonorbornane-2-acetate rac-12a and its isomer rac-12b in a ratio of roughly 1 : 1 (Scheme 2). In view of this difficulty, we next attempted a regioselective cleavage of the cyclopropane ring in consideration of the well-known tendency of cyclopropylmethyl radicals to isomerize, yielding butene radicals [22]. As a matter of fact, rearrangement of the cyclopropylmethyl radical 22, derived from 11, may produce the two radicals 23 and 24, 23 being homoconjugated with the carbonyl group of the norbornanone skeleton (Scheme 4).…”

Stereospecific Synthesis of Carbanucleotides Designed for Antisense Methodology.

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