Cycloaddition transition-metal catalyzed

Transition metal-catalyzed carbenoid transfer reactions, such as alkene cyclopro-panation, C-H insertion, X-H insertion (X = heteroatom), ylide formation, and cycloaddition, are powerful methods for the construction of C-C and C-heteroatom bonds [1-6]. In contrast to a free carbene, metallocarbene-mediated reactions often proceed stereo- and regioselectively under mild conditions with tolerance to a wide range of functionalities. The reactivity and selectivity of metallocarbenes can be... 

TRANSITION-METAL CATALYZED CYCLOADDITIONS 4.3.1 Pauson-Khand-Type Reactions... 

To date, only a few examples are known where a domino reaction starts with an electrocydic reaction, although the value of this approach is clearly demonstrated by the beautiful synthesis of estradiol methyl ether 4-319 through a domino elec-trocyclic/cycloaddition process. There is also an impressive example of a double thermal electrocyclization being used however, the starting material for this domino reaction was prepared in situ by a transition metal-catalyzed transformation, and is therefore discussed in Chapter 6. 

Indeed, a Stille reaction of the TES-protected ( )-bromoxone (6/1-175) with the stannane 6/1-173 led to 6/1-176 upon standing overnight, via the diene 6/1-172 (Scheme 6/1.46). This synthesis is a classic example of a transition metal-catalyzed formation of a 1,3-diene, followed by a cycloaddition. 

The first examples of transition metal-catalyzed [5 + 2]-cycloadditions between vinylcyclopropanes (VCPs) and 7r-systems were reported in 1995 by Wender and co-workers.10 This [5 + 2]-reaction was based conceptually on the Diels-Alder reaction, replacing the four-carbon, four-7r-electron diene with a five-carbon, four-electron VCP (Scheme 1). Although the [5 + 2]-reaction of VCPs and 7r-systems can be thought of as a homolog of the Diels-Alder [4 +21-reaction, the kinetic stability of VCPs (activation barrier for the thermal isomerization of VCP to cyclopentene has been reported as 51.7 kcal mol-1)11 makes the thermal [5 + 2]-reactions involving VCPs and 7r-systems very difficult to achieve. A report of a thermal [5 + 2]-cycloaddition between maleic anhydride and a VCP has been published,12 but this reaction has not been reproduced by others.13 14 Based on the metal-catalyzed isomerization of VCPs to cyclopentenes and dienes,15-20 Wender and co-workers hypothesized that a metal might be used to convert a VCP to a metallocyclohexene which in turn might be trapped by a 7r-system to produce a [5 + 2]-cycloadduct. Based on its previous effectiveness in catalyzed [4 + 2]-21 and [4 + 4]-cycloadditions (Section 10.13.2.4), nickel(0) was initially selected to explore the potential of VCPs as four-electron, five-carbon components in [5 + 2]-cycloadditions. 

Keyword Carbocycles a Cascade Reactions a Cycloadditions a Combinatorial Chemistry a Domino Reactions a Enantioselective Transformations a Ene Reactions a Eieterocydes a Natural products a Preservation of Resources and Environment a Sigmatropic Rearrangements a Tandem Reactions a Transition Metal-Catalyzed Transformations... 

Transition Metal-Catalyzed Addition/Cycloaddition of Allenes 925... 

Transition metal-catalyzed [4+ 2]-cycloadditions ofdiene-allenes 247 can lead to different results. With a nickel catalyst Wender et al. isolated the anellated system of two six-membered rings 248 with a rhodium catalyst the anellation of a five- and a six-membered ring 249 was possible (Scheme 15.78) [149]. Both transformations proceed readily at low temperatures whereas the uncatalyzed thermal reaction requires 185 °C. Even an anellation of a six- and a seven-membered ring was achieved. 

The transition metal-catalyzed reaction of diazoalkanes with acceptor-substituted alkenes is far more intricate than reaction with simple alkenes. With acceptor-substituted alkenes the diazoalkane can undergo (transition metal-catalyzed) 1,3-dipolar cycloaddition to the olefin [651-654]. The resulting 3//-pyrazolines can either be stable or can isomerize to l//-pyrazolines. 3//-Pyrazolines can also eliminate nitrogen and collapse to cyclopropanes, even at low temperatures. Despite these potential side-reactions, several examples of catalyzed cyclopropanations of acceptor-substituted alkenes with diazoalkanes have been reported [648,655]. Substituted 2-cyclohexenones or cinnamates [642,656] have been cyclopropanated in excellent yields by treatment with diazomethane/palladium(II) acetate. Maleates, fumarates, or acrylates [642,657], on the other hand, cannot, however, be cyclopropanated under these conditions. 

Lewis acid-catalyzed cycloaddihon is also a powerful synthehc method, and various types of cycloaddihon have been reported. In parhcular, enantioselective variants using chiral Lewis acids have been comprehensively studied some of these were used as key reactions for natural product syntheses [5]. However, they generally require one or more heteroatoms in the substrates, such as enones or enoates, to which (chiral) Lewis acids can coordinate. In conhast, in the case of transition-metal-catalyzed cycloadditions, the metals coordinate direchy to the tt-electron and activate unsaturated motifs, which means that the heteroatom(s) are unnecessary. Moreover, the direct coordinahon to the reachon site can realize highly enantioselechve reachon using chiral transihon-metal complexes. 

Our initial studies focused on the transition metal-catalyzed [4+4] cycloaddition reactions of bis-dienes. These reactions are thermally forbidden, but occur photochemically in some specific, constrained systems. While the transition metal-catalyzed intermole-cular [4+4] cycloaddition of simple dienes is industrially important [7], this process generally does not work well with more complex substituted dienes and had not been explored intramolecularly. In the first studies on the intramolecular metal-catalyzed [4+4] cycloaddition, the reaction was found to proceed with high regio-, stereo-, and facial selectivity. The synthesis of (+)-asteriscanoHde (12) (Scheme 13.4a) [8] is illustrative of the utihty and step economy of this reaction. Recognition of the broader utiHty of adding dienes across rc-systems (not just across other dienes) led to further studies on the use of transition metal catalysts to facilitate otherwise difficult Diels-Alder reactions [9]. For example, the attempted thermal cycloaddition of diene-yne 15 leads only... 

For reviews of transition metal-catalyzed cycloadditions, see (a) G. Aubert,... 

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