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Intramolecular reaction ring contraction

The photolytic cleavage of cyclic ketones 14 leads to formation of a diradical species, that can undergo analogously the various reactions outlined above. The decarbonylation followed by intramolecular recombination yields a ring-contracted cycloalkane 15 ... [Pg.214]

Nitrones derived from 2-azabicyclo[5.3.0]decane give quinolizidine compounds by photochemical Beckmann rearrangement which implies simultaneous ring expansion and ring contraction reactions. Intramolecular Schmidt reactions in 2(4-azidobutyl)-cyclopentanones also give quinolizidinone derivatives by ring expansion. Examples of both types of reactions are given in Sections 12.01.11.1 and 12.01.11.3, respectively. [Pg.58]

Some other ring expansions involving the intramolecular amino Claisen rearrangement of vinylarylaziridine [ 123], the Diels-Alder reaction of indoles with acetylene derivative [124-127] and the dibromocarbene insertion into quinoline enol ethers [ 128] have been used to prepare 1-benzazepines. On the other hand, treatment of 3-chloro-3-phenyl-l,2,3,4,5,6-hexahydro-l-benz-azocin-2-ones with piperidine causes a ring contraction to give 2-phenyl-2-(l-piperidinylcarbonyl)-2,3,4,5-tetrahydro-l//-l-bcnzazepines in an excellent yield [23]. [Pg.137]

Kassou, M. Castillon, S., Ring Contraction Vs Fragmentation in the Intramolecular Reactions of 3-0-(Trifluoromethanesulfonyl) Pyranosides - Efficient Synthesis of Branched-Chain Furanosides. J. Org. Chem. 1995,60, 4353-4358. [Pg.44]

There are several instances where reactive intermediates present during the synthesis of septanosides have reacted intramolecularly to give ring-contracted or bicyclic products.91 Similar intramolecular reactions (such as the formation of 1,6-anhydro sugars) have precedents in the pyranose literature. Such cases of intramolecular reactivity described in the literature notably involve novel ethers or thioethers as the nucleophilic species in the ring contractions. [Pg.152]

Several mechanisms have been proposed for the intriguing interconversions of sulfur (or selenium) rings. These include the formation of (i) radicals by homolytic S-S bond cleavage, (ii) thiosulfoxides of the type S =S via ring contraction (an intramolecular process) or (iii) spirocyclic sulfuranes (or sele-nanes) via an intermolecular process. A fourth alternative (iv) invokes nucleophilic displacement reactions. Generic examples of mechanisms (ii)-(iv) for homoatomic sulfur or selenium rings are depicted in Scheme 12.1. [Pg.280]

Compounds with a Si=Si or Ge=Ge bond (i.e., disilenes and digermenes) can be isolated when the double bond contains bulky substituents. Only a few cycloaddition reactions with diazo compounds are known, and two reaction modes have been observed. One of the paths leads to the formation of disiliranes 184 (242) and digermiranes 185 (243) (Scheme 8.42), probably by ring contraction of an initially formed [3 + 2] cycloaddition product. The other path involves a 1,1-cycloaddition of the diazoalkane to give disilaaziridine 186 (244) and digermaazir-idine 187 (245). This nitrene-like reactivity is rather uncommon although some intramolecular examples are known (see Section 8.6.1). [Pg.558]

Isomerization of the enantiopure hydroxylated azepane 42, after hydroxyl group activation, afforded either the ring-contracted piperidine derivative 45 (on O-mesylation to 43 followed by internal displacement to the aziridinium ion intermediate 44 and subsequent chloride ion induced ring opening) or the chiral ethylene-bridged morpholines 48 via 47 and an intramolecular Mitsunobu reaction of 46 (Scheme 4) <1996TL1613>. [Pg.5]

Rezaie and Bremner reported the synthesis of tricyclic 1,4-thiazepines by ring contraction. OT-Cyclophane lactam 237 was treated with Ar-bromosuccinimide and azoisobutyronitrile to yield 47% of dihydroindole derivative 238, as the major product next to side products 239-242 (Scheme 42). The same reaction condition was applied for the ester derivative of 237 (X = COOCH3>, but with longer reaction time. This resulted in indole analogues 240-242 (X = COOCH3) without the formation of dihydroindole derivatives. Bromination on the aromatic ring was observed prior to the intramolecular cyclization. The exact mechanism has not been resolved, but a possible reaction sequence could be... [Pg.285]

In the literature there is also an example of an intramolecular Ugi reaction with dipeptides used as bifunctional components, via their amino and carboxy groups [78] (Scheme 1.29). The postulated mechanism for this reaction, leading to N-substituted 2,5-diketopiperazines, is a U-4C-3CR characterized by the formation of a nine-membered cyclic intermediate that evolves to diketopiperazines 86 via ring contraction. Despite the ring size, the configurations of the two Ca of the dipeptide have some influence on the newly generated stereocenter, and diastereomeric ratios up to 6 1 can be obtained. [Pg.22]

See other pages where Intramolecular reaction ring contraction is mentioned: [Pg.527]    [Pg.528]    [Pg.74]    [Pg.158]    [Pg.597]    [Pg.876]    [Pg.150]    [Pg.183]    [Pg.876]    [Pg.742]    [Pg.333]    [Pg.247]    [Pg.156]    [Pg.499]    [Pg.417]    [Pg.152]    [Pg.578]    [Pg.592]    [Pg.472]    [Pg.154]    [Pg.597]    [Pg.317]    [Pg.572]    [Pg.597]    [Pg.266]    [Pg.527]    [Pg.528]    [Pg.952]    [Pg.63]    [Pg.566]    [Pg.566]    [Pg.115]    [Pg.224]    [Pg.1087]    [Pg.195]    [Pg.7]    [Pg.886]    [Pg.173]    [Pg.194]    [Pg.1087]   
See also in sourсe #XX -- [ Pg.11 , Pg.42 , Pg.43 ]



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