Ring-forming reactions Tributyltin hydride

Another complication that can arise in these reactions is that a cycloaddition reaction of the radical intermediate formed in the tin hydride reduction, to an adjacent carbon-carbon double bond, can compete with the simple reduction reaction. This occurs when a five- or six-membered ring can be formed in an intramolecular cycloaddition reaction. For example, Beckwith and Lawrence96 found both five- and six-membered rings in the product when l-bromo-2,2,5-trimethylhex-l-ene was treated with tributyltin hydride (Scheme 15). 

Our approach was to use the unsaturated bromodeoxylactones in an intramolecular radical reaction, since these compounds possess both the radical precursor and the radical trap within the same molecule. Thus, reacting the unsaturated bromodeoxyheptonolactone 20 (Scheme 14) with tributyltin hydride and a radical initiator, the bicyclic lactone 65 a was obtained in a quantitative yield within 1 h. The stereocontrol in the reaction was determined by the structure of the product, since the compound obtained has two fused cyclopentane rings which can only be cis anellated. The radical A, which is the intermediate, was trapped by the tin hydride. The stereochemistry of the newly formed chiral center is determined by the configuration at C-4 in the educt 20 [45]. 

Trimethylsilyl-protected 1-isopropenylcyclobutanols were rearranged to cyclohexanones via a two-step reaction sequence.114 The vinylcyclobutanes 1 were first treated with mercury(II) trifluoroacetate. The crude products were then converted into chlorides (which can be isolated) and finally reduced with tributyltin hydride to give 2. Sometimes small amounts of five-mem-bered ring compounds, which are intermediates of this two-step ring enlargement, are formed as side products. 

In the presence of proton and/or Lewis acid and strong nucleophiles bicyclo[3.2.0]heptan-6-ones are converted to 3-substituted cycloheptanones (Table 15). Bicyclo[3.2.0]heptan-6-ones rearrange to give 3-iodocycloheptanones on treatment with iodotrimethylsilane. Zinc(II) iodide or mercury(II) halides as catalysts enhance the rate and the selectivity of the reaction.31 If a second, enolizable carbonyl group is present, an intramolecular alkylation may follow the ring enlargement under these reaction conditions.32 Consecutive treatment with tributyltin hydride/ 2,2 -azobisisobutyronitrile affords reduced, iodo-free cycloheptanones, whilst treatment with l,8-diazabicyclo[5.4.0]undecene yields cycloheptenones.33 Similarly, benzenethiol adds to the central bond of bicyclo[3.2.0]heptan-6-ones in the presence of zinc(II) chloride and hydrochloric acid under anhydrous conditions to form 3-(phenylsulfanyl)cycloheptanones.34... 

Intramolecular cyclization of N-alkenyl-2-bromoindoles has been described. The formation of five as well as six-membered ring in the radical cyclization proceeds in good yield [95TL4857]. A novel intramolecular free radical aromatic ipso substitution reaction has been reported [95CC1353]. Treatment of 138 with tributyltin hydride generates an alkyl radical which attacks the alkene at the carbon bearing the sulfur substituent. This is followed by elimination of the sulfur substituent to provide the cyclized products 139 in moderate yields. The efficiency of the reaction is dependent on the size of the ring formed and on the sulfur substituent. 

The hydrostannation of carbonyl compounds to give alkoxystannanes (equation 14-5) can follow a homolytic or heterolytic mechanism depending on the structure of the reactants and on the reaction conditions (Section 20.1.3). This existence of alternative mechanisms is elegantly demonstrated in the reduction of cyclopropyl methyl ketone by tributyltin hydride. In methanol, 1-cyclopropylethanol is formed in a polar process, but, with irradiation with UV light, the main product is pentan-2-one, which is formed by ring opening of the cyclopropylmethyl radical by P-scission (Scheme 14-1)14... 

Six-substituted pyrrolizidinones may also be stereoselectively constructed via the radical cyclization of iV-allyliodolactams75. In all cases the reaction with tributyltin hydride gives only the diastereomer with the ring junction fw/s-orientated with respect to the substituent in the newly formed five-membered ring. 

The formation of eight-membered rings by radical cyclization has been found to occur using a-acyl radical species. The reaction occurs at a rate that is faster remarkably even than 5-exo-trig cyclization. Hence, the eight-membered lactone 92 was formed, rather than a five-, six- or seven-membered lactone, on treatment of the bromide 91 with tributyltin hydride (4.72). 

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