Cycloaddition reactions 8-membered rings

Hydrazine synthesis 5- to 7-membered carbocyclic hydrazines are accessible through either cyclocondensation or hetero Diels-Alder cycloaddition (6-membered rings) reactions. Novel diverse oxygen containing cyclic hydrazines were found to signihcantly reduce phytotoxicity in cereal crops. The synthesis of these... 

Dipolar cycloadditions are the reactions that involve atoms with formal charges. Usually four-membered rings are constructed by [2 -I- 2] cycloaddition, six-membered rings by [4 + 2] cycloaddition, and the five-membered rings by 1,3-dipolar cycloaddition reactions (1,3-DPCAs). In general, a... 

Staudinger reaction of ketene and imine gives )5-lactam, via [2-1-2] cycloaddition. Six-membered rings can potentially be formed using a second equivalent of ketene or of imine, via [2-I-2-I-2] processes. DFT has been used to probe annuloselectivity in forming such (N,0), (N,0,0) or (N,N,0) ring systems for a range of seven reactants with substituents which are EWG, EDG or bulky. 

Cycloaddition of COj with the dimethyl-substituted methylenecyclopropane 75 proceeds smoothly above 100 °C under pressure, yielding the five-membered ring lactone 76. The regiocheraistry of this reaction is different from that of above-mentioned diphenyl-substituted methylenecyclopropanes 66 and 67[61], This allylic lactone 76 is another source of trimethylenemethane when it is treated with Pd(0) catalyst coordinated by dppe in refluxing toluene to generate 77, and its reaction with aldehydes or ketones affords the 3-methylenetetrahy-drofuran derivative 78 as expected for this intermediate. Also, the lactone 76 reacts with a, /3-unsaturated carbonyl compounds. The reaction of coumarin (79) with 76 to give the chroman-2-one derivative 80 is an example[62]. 

The distinction between these two classes of reactions is semantic for the five-membered rings Diels-Alder reaction at the F/B positions in (269) (four atom fragment) is equivalent to 1,3-dipolar cycloaddition in (270) across the three-atom fragment, both providing the 47t-electron component of the cycloaddition. Oxazoles and isoxazoles and their polyaza analogues show reduced aromatic character and will undergo many cycloadditions, whereas fully nitrogenous azoles such as pyrazoles and imidazoles do not, except in certain isolated cases. 

Just as in the Diels-Alder reaction, 1,4-dipolar cycloadditions lead to six-membered rings. Their principal use in five-membered heterocycles is for ring annulations giving [5,6] ring-fused systems. 

The total synthesis of caryophyllene and its Z-isomer involved a photochemical [2 + 2] cycloaddition reaction to generate the 4-membered ring and a fragmentation process Helv. Chim. Acta, 1951, 34, 2338) to establish the 9-membered ring. Caryophyllene and various oxygenated derivatives protect plants against insects. 

Dipolar cycloaddUions. Interest in 1,3-dipolar cycloadditions increased dramatically during the past 20 years, largely because of the pioneering studies of Huisgen [7, 2] The versatility of this class of pericychc reactions in the synthesis of five-membered-ring heterocyclic compounds is comparable with that of the Diels-Alder reaction in the synthesis of six-membered-ring carbocyclic systems (equation 1)... 

This type of reaction is represented by 1,3-dipolar cycloadditions, corresponding to one of the Huisgen categories (69MI1). The 1,3-dipolar cycloaddition corresponds to the interaction between a 1,3-dipole and a multiple system five-membered ring closure (Scheme 1). 

Nine-membered ring systems are potentially accessible via a TMM cycloaddition with conjugated trienes in a [6-1-3] fashion. However, tropone is the only reported system that undergoes such a reaction. Interestingly, these cydoadditions are remarkably selective in that only nine-memhered ring products are formed. 

The catalytic enantioselective cycloaddition reaction of carbonyl compounds with conjugated dienes has been in intensive development in recent years with the main focus on synthetic aspects the number of mechanistic studies has been limited. This chapter will focus on the development and understanding of cycloaddition reactions of carbonyl compounds with chiral Lewis acid catalysts for the preparation of optically active six-membered ring systems. 

The Diels-Alder reaction,is a cycloaddition reaction of a conjugated diene with a double or triple bond (the dienophile) it is one of the most important reactions in organic chemistry. For instance an electron-rich diene 1 reacts with an electron-poor dienophile 2 (e.g. an alkene bearing an electron-withdrawing substituent Z) to yield the unsaturated six-membered ring product 3. An illustrative example is the reaction of butadiene 1 with maleic anhydride 4 ... 

By a photochemically induced elimination of CO, a chromium carbene complex with a free coordination site is generated. That species can coordinate to an alkyne, to give the alkyne-chromium carbonyl complex 4. The next step is likely to be a cycloaddition reaction leading to a four-membered ring compound 5. A subsequent electrocyclic ring opening and the insertion of CO leads to the vinylketene complex 6 ... 

Diphenylcyclopropenone is the first stable molecule prepared which has a carbonyl group in a three-membered ring In a very real sense the compound has aromatic character and is fairly stable.4 An interesting cycloaddition reaction of enamincs with diphenylcyclopropenone has been reported.7... 

Bicyclic ketone 13 is a pivotal intermediate in Corey s approach to the prostaglandins. Buried within 13 is the five-membered ring of PGF2a, albeit in an undeveloped form. It would appear that a particularly direct approach to the synthesis of 13 would involve a [4+2] cycloaddition reaction between substituted cyclopentadiene 15 and ketene. Unfortunately, however, ketene itself is not a suit-... 

The class of 1,3-dipolar cycloadditions embraces a variety of reactions that can accomplish the synthesis of a diverse array of polyfunctional and stereochemically complex five-membered rings.3 The first report of a 1,3-dipolar cycloaddition of a nitrone (a 1,3-dipole) to phenyl isocyanate (a dipolarophile) came from Beckmann s laboratory in 1890,4 and a full 70 years elapsed before several investigators simultaneously reported examples of nitrone-olefin [3+2] cycloadditions.5 The pioneering and brilliant investigations of Huisgen and his coworkers6 have deepened our under-... 

The total synthesis of biotin (1) described in this chapter provides an impressive example of the intramolecular nitrone-olefin [3+2] cycloaddition reaction. Aiming for a practical process, the Hoff-mann-La Roche group utilized relatively simple and inexpensive starting materials, and ingeniously controlled the crucial [3+2] cycloaddition reaction to give only one stereoisomer by confining the cycloaddition precursor to a ten-membered ring. 

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