Oxidative cyclization cycloaddition

Enyne metathesis is unique and interesting in synthetic organic chemistry. Since it is difficult to control intermolecular enyne metathesis, this reaction is used as intramolecular enyne metathesis. There are two types of enyne metathesis one is caused by [2+2] cycloaddition of a multiple bond and transition metal carbene complex, and the other is an oxidative cyclization reaction caused by low-valent transition metals. In these cases, the alkyli-dene part migrates from alkene to alkyne carbon. Thus, this reaction is called an alkylidene migration reaction or a skeletal reorganization reaction. Many cyclized products having a diene moiety were obtained using intramolecular enyne metathesis. Very recently, intermolecular enyne metathesis has been developed between alkyne and ethylene as novel diene synthesis. 

Abdrakhmanov and co-workers observed the cycloaddition of N-( 1 -methyl-2-butenyl)aniline or 2-(l-methyl-2-butenyl)aniline with PdCyDMSO to give a 69% yield of a mixture of 2-ethyl-3-methylindole and 2,4-dimethylquinoline [87]. The authors propose that a Claisen rearrangement is initially involved. A similar oxidative cyclization of a 5-amino-indoleacrylate was the starting point for syntheses of CC-1065 and related compounds [88],... 

Similar oxidative cyclization reactions involving the direct oxidation of acyclic 1,3-dicarbonyl compounds have not been reported. However, the generation of radical intermediates by the direct oxidation of cyclic 1,3-dicarbonyl compounds at an anode surface has been reported. Yoshida and coworkers have shown that the anodic oxidation of cyclic 1,3-dicarbonyl compounds in the presence of olefin trapping groups gives rise to a net cycloaddition reaction (Scheme 10) [23]. These cycloaddition reactions proceeded by initial oxidation of the 1,3-dicarbonyl compound at the anode followed by a radical addition to the second olefin. Following a second oxidation reaction, the material then... 

Hydrogenated isoxazole derivatives were obtained by single electron transfer (SET) cyclization of /9,y-unsaturated oximes , by thermal [4- -2] cycloaddition of aldox-imes or ketoximes to conventional dienophiles or isomerization/cyclization of an ortho halogeno or nitro-substituted amidoximes. Preparation of 1,4-disubstituted 3-hydroximino-2-nitro-l-butenes and their oxidative cyclization to 4-nitroisoxazoles are reported " . Synthesis of fluorine-containing substituted isoxazolidines as well as isoxazoles by ultrasonic methods has been also described. 

Furoxans are not formed by direct oxidation of furazans, but they can readily be prepared by ring closure or cycloaddition pathways. The most synthetically useful routes are the oxidative cyclization of 1,2-dioximes, the dehydration of a-nitroketoximes and, for symmetrically substituted furoxans, dimerization of nitrile oxides. For asymmetrically substituted analogues care must be taken in selecting the route in order to avoid formation of mixtures of 2- and 5-oxide isomers. 

Another method used to prepare dialkyl-substituted diazomethanes involves the photolysis of 2-alkoxy-2,5-dihydro-1,3,4-oxadiazoles (209), which can be prepared by the oxidative cyclization of A(-acetyUiydrazones. The diazoalkanes are trapped in situ by cycloaddition with dimethyl acetylenedicarboxylate (54) (Scheme 8.49). The resulting pyrazoles 210 are converted into cyclopropenes 211 by continued irradiation. 

According to the reaction types these syntheses may be classified as cyclocondensations, cycloadditions, or oxidative cyclizations (80PAC1611). To some extent TPs are prepared by other transformations of the five- and/or six-membered ring. 

The reaction of two alkynes in the presence of pentacarbonyliron affords via a [2 + 2 + 1]-cycloaddition tricarbonyl(ri4-cyclopentadienone)iron complexes (Scheme 1.6) [5, 21-23]. An initial ligand exchange of two carbon monoxide ligands by two alkynes generating a tricarbonyl[bis(ri2-alkyne)]iron complex followed by an oxidative cyclization generates an intermediate ferracyclopentadiene. Insertion of carbon monoxide and subsequent reductive elimination lead to the tricarbonyl(T 4-cyclopentadienone)iron complex. These cyclopentadienone-iron complexes are fairly stable but can be demetallated to their corresponding free ligands (see Section 1.2.2). The [2 + 2 + l]-cycloaddition requires stoichiometric amounts of iron as the final 18-electron cyclopentadienone complex is stable under the reaction conditions. 

Cyclization of butadiene catalysed by Ni(0) catalysts proceeds via 7r-allylnickel complexes. At first, the metallacyclic bis-7i-allylnickel complex 6, in which Ni is bivalent, is formed by oxidative cyclization. The bis-7r-allyl complex 6 may also be represented by cr-allyl structures 7, 8 and 9. Reductive elimination of 7, 8 and 9 produces the cyclic dimers 1, 2 and 3 by [2+2], [2+4] and [4+4] cycloadditions. Selectivity for 1, 2 and 3 is controlled by phosphine ligands. The catalyst made of a 1 1 ratio of Ni and a phosphine ligand affords the cyclic dimers 1, 2 and 3. In particular, 1 and 3 are obtained selectively by using the bulky phosphite 11. 1,2-Divinylcyclobutane (1) can be isolated only at a low temperature, because it undergoes facile Cope rearrangement to form 1,5-COD on warming. Use of tricyclohexylpho-sphine produces 4-vinylcyclohexene (2) with high selectivity. 

A historic method for 1,2,4-oxathiazolidine synthesis is based on 1,3-cycloaddition reactions, for example, addition of carbonyl compounds across the S-C=N groups of 5-imino-l,2,3,4-thiatriazolines <1996CHEC-II(4)453>. The thermally induced conversion of 677-1,3,5-oxathiazine A-oxides 119 in refluxing benzene results in 1,2,4-oxathiazo-lines 20 in high yields by intramolecular cyclization with extrusion of carboxaldehydes (see Section 6.03.8.2). Oxidative cyclization of A-acylthioureas 114 and iV-acylthiocarbamates 115 by Br2 gives 1,2,4-oxathiazolium hydrobromides 43 and 38, respectively (see Section 6.03.8.1). 

The term intramolecular enyne metathesis describes two types of processes. One involves a [2+2] cycloaddition of a multiple bond and a transition-metal carbene complex and the other is an oxidative cyclization catalyzed by low-valent transition-metal complexes, for example, Pt, Pd and Ru. The latter reaction is also called a skeletal reorganization. Both processes lead to similar products (Eq. 84). 

Liu has reported recently a new Co2(CO)8-mediated tandem [5+ 1]/ [2 + 2+ 1]-cycloaddition reaction that gives tricyclic 5-lactones from cis-epoxy enynes 186. This process possibly involves an initial opening of the epoxide in the cobalt hexacarbonyl complex 187 to from the complexed al-lene 189 via 188. Further coordination of the tethered olefin leads to 190 and further oxidative cyclization gives cobaltacycle 191 which inserts CO leading to the final compound 192. When performing the reaction under N2,191 suffers a reductive elimination to give cyclobutane 193 (Scheme 55) [172],... 

The [2 -I- 2] cycloaddition of an alkene and an alkyne is a valuable route leading to cyclobutene derivatives. The ruthenium(0)-catalyzed [2 -1- 2] cycloaddition of a strained cycloalkene, norbornene 40, vith highly electron-deficient DMAD afforded the cyclobutene 74 (Scheme 4.28) [62]. As expected, the reaction took place at the exo face of 40 via the ruthenacyclopentene intermediate 75, that ivas formed by the oxidative cyclization of DMAD and norbornene. In addition to the parent 40, various norbornene derivatives can also be used as alkene components. When the Ru" precatalyst 17 ivas employed, electronically neutral alkynes participated in the [2 -1- 2] cycloaddition with norbornene and its derivatives [63]. A similar [2 -1- 2] cycloaddi-... 

Pyranoisoxazoles 425 have been prepared by intramolecular 1,3-dipolar cycloaddition of nitrile oxides obtained by treatment of nitrooxaheptynes with -BuLi and AC2O (Scheme 102) <2003H(59)685>. The coupling of the Ugi multicomponent reaction with the intramolecular T-oxide cyclization (Ugi/INOC) provided access to novel fused isoxazoles 426 in two steps from easily available starting materials in moderate to good overall yields... 

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