有機合成化学協会誌 67 巻, 6 号

遷移金属触媒による不斉アリル位置換反応の新展開

Asymmetric allylic substitution catalyzed by an organometallic complex is a powerful method to create carbon-carbon and carbon-heteroatom bonds with high enantioselectivity, and is often applied to total syntheses of biologically active organic molecules. The reaction via a symmetrically substituted π-allylpalladium intermediate has been widely studied using a variety of chiral ligands. However, the reaction of unsymmetrically substituted allylic compounds is still a challenging research subject, because nucleophilic attack generally takes place at the less hindered allylic carbon giving a liner product in the reaction of monosubstituted allylic substrate with palladium catalysts. Recently, other transition metal complexes have shown high potential in this type of reactions, in which a branched isomer is obtained as a main product by the substitution at the hindered allylic carbon. This review focuses on the recent progress in the asymmetric allylic substitutions of unsymmetrically substituted allylic compounds producing branched products with high regio- and enantioselectivities.

特異な反応場を持つルイス酸触媒としての金属ポルフィリンおよびフタロシアニン錯体

Metalloporphyrin complexes, such as Cr(TPP)X, Fe(TPP)X, and Yb(TPP)X, work as an efficient Lewis acid catalyst with a unique reaction-field that can promote the regio- and stereoselective rearrangement of epoxides to carbonyl compounds. Compared to other Lewis acid reagents and catalysts reported so far, these porphyrin-based catalysts have several advantages as follows: (1) These catalysts are stable crystalline solids more convenient to handle; (2) effective loading of the catalyst is generally less than 2% for the rearrangement; and (3) high yields and almost complete regio- and stereoselectivity can easily be achieved by these porphyrin-based catalysts.α,β-Epoxyketones are selectively transformed into the corresponding 1,2-diketones with a metalloporphyrin complex Fe(TPP)OTf. Ketones and aldehydes can selectively be prepared from the same di- and trisubstituted epoxide by the choice of Fe(III) and Cr(III) ions, respectively, as the central metal ion of the porphyrin catalysts. A metallophthalocyanine complex, Cr(TBPC)OTf is further efficient Lewis acid catalyst with an excellent reusability for the rearrangement of epoxides to aldehydes, thus the phthalocyanine-based catalyst enables the practical synthesis of enantioenriched aldehydes bearing a stereogenic quaternary carbon centre from optically active trisubstituted epoxides.

光学活性アセタール類を利用する遠隔位不斉誘導反応の開発と天然物不斉合成への応用

Intramolecular haloetherification of the ene acetals prepared from chiral non-racemic C₂-symmetric diols and achiral 4-pentenal or 5-heptenal proceeded in diastereoselective manners to form two asymmetric centers. The reaction was applied to synthesize optically active 1,4- and 1,5-diols. On the other hand, intramolecular haloetherification of diene acetals proceeded in two different manners. The intramolecular haloetherification of the diene acetals, prepared from chiral hydrobenzoin and σ-symmetric cyclohexa-1,4-dienes, proceeded with one olefin in a diastereoselective manners and gave the compounds having one remained olefin. However, the reaction of the acyclic diene acetals, prepared from hydrobenzoin and σ-symmetric 1,7-dienes, occurred novel double haloetherification giving four newly formed chiral stereocenters. The developed reactions were applied to synthesize optically active natural products, a civet constituent, scyphostatin, (+)-Sch 642305, rublenolide and rubrynolide.

アレンと多重結合間の分子内付加環化反応

Allene functionality has the potential to create interesting and useful reactions in organic synthesis. We have developed the following several novel cycloaddition reactions between allenyl π-bond and carbon-carbon multiple bond: (i) Intramolecular Pauson-Khand-type reaction of allene-alkyne substrates (allenynes) leading to construction of bicyclo[5.3.0]decadienone framework has been realized with the aid of Rh(I) catalyst under CO atmosphere. (ii) The allenynes were found to produce cycloheptene derivatives and/or bicyclo[5.2.0]nonadiene compounds depending on the substitution pattern at the allenic terminus under N₂. (iii) Thermal[2+2]cycloaddition of allenynes was shown to be applicable to the construction of bicyclo[6.2.0]skeleton. (iv) We also found that the Pauson-Khand-type reaction of allene-alkenes (allenenes) and bisallenes resulted in the easy preparation of bicyclo[4.3.0]nonenone skeleton having an alkyl appendage at the ring juncture and bicyclo[6.3.0]undecadienone derivatives, respectively.

高密度多置換ポリオキシ化合物ボトシニン類の構造と不斉全合成

The first asymmetric total syntheses of botcinins A-F, homobotcinin E, botcinic acid, botcinic acid methyl ester, botcineric acid, and 3-O-acetylbotcinic acid methyl ester were achieved. The structures of these compounds have been unequivocally determined through their total syntheses and those of botcinin A, botcinin B, botcinin E, homobotcinin E, botcinic acid, botcinic acid methyl ester, botcineric acid, and 3-O-acetylbotcinic acid methyl ester are identified with the revised forms of the natural products formerly assumed to be 3-O-acetyl-2-epibotcinolide, 3-O-acetyl-2-epihomobotcinolide, 2-epibotcinolide, 2-epihomobotcinolide, botcinolide, 4-O-methylbotcinolide, homobotcinolide, and 3-O-acetyl-5-O-methylbotcinolide, respectively. It was further proved that the proposed nine-membered ring structure of 2-epibotcinolide is very unstable and the ineluctable translactonization easily occurred to form the corresponding γ-lactone.

担持Re触媒を用いたベンゼンと酸素からのフェノールの直接合成反応

Phenol is one of the most important chemicals in industry and it is produced from cumene process from benzene. Direct phenol synthesis from benzene and O₂ is an alternative way to produce phenol efficiently. We have succeeded in preparing a HZSM-5-zeolite-supported Re catalyst, which was highly active and selective for direct phenol synthesis from benzene and O₂ (steady-state reaction: 5.8% benzene conversion and 88% phenol selectivity, pulse reaction: 9.9% benzene conversion and 94% phenol selectivity) in the presence of NH₃. The formation of active Re clusters, their structural change, and the role of NH₃ which are relevant to the selective benzene oxidation were investigated.

二酸化炭素を炭素源とする穏和な触媒反応開発

The use of CO₂ as a carbon resource is one of the environmentally benign protocol in organic synthesis. In this mini review, the recent development to construct a carbon-carbon bond using CO₂ under mild conditions is described.