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Reactions radical cyclization

Another important radical reaction cyclization of alkyl bromides on to alkenes with BuaSnH reagent. [Pg.348]

Dimethyl iodo(4-pentenyl)malonate (926) undergoes a Pd-catalyzed intramolecular radical-type reaction to form the alkyl iodides 927 and 928. rather than a Heck-type reaction product(775]. The same products are also obtained by a radical reaction promoted by tin hydride(776]. Although yield was low, a similar cyclization of the n-chloro ester 929 to form the seven-membered ring 930 was ob,served(777(. [Pg.263]

R = H) undergoes a variety of enzyme-catalyzed free-radical intramolecular cyclization reactions, followed by late-stage oxidations, eliminations, rearrangements, and O- and N-alkylations. Working from this generalization as an organizing principle, the majority of known AmaryUidaceae alkaloids can be divided into eight stmctural classes (47). [Pg.542]

On the basis of the examples addressed thus far, it is clear that radical reactions can accomplish manifold transformations in organic synthesis. One of the outstanding achievements of synthetic radical chemistry is the development of synthetic strategies based on controlled, tandem radical cyclizations. The efficiency of such strategies is exemplified in the substantial and elegant synthetic work of D. P. Curran and his group.54 The remainder of this chapter will address the concise total syntheses of ( )-hirsutene [( )-1]55 and ( )-A9(12)-capnellene [( )-2]56 by the Curran group. [Pg.407]

Sulphonyl phosphates, reactions of 638 Sulphonyl radicals 215 cyclization of 1099 ESR spectra of 1090-1093 formation of 1094-1098 structure of 1090-1094 thermodynamic data for 1094 Sulphonyl sulphenes 196 Sulphonyl sulphoxides alkylation of 311 synthesis of 262... [Pg.1207]

A small library of highly functionalized pyrrolines 95 was synthesized by reaction of allylic and propargylic isocyanides 94 with thiols followed by radical cyclization (Scheme 33). The radical reaction was carried out using a radical initiator (AIBN) under flash heating microwave irradiation [67]. [Pg.232]

The majority of sequential radical reactions deal with cyclizations as the key steps. The constructions of carbocycles, oxygen, and nitrogen heterocycles using (TMSlsSiH as a mediator are many and represents the expansion and importance of these synthetic approaches. For example, Nicolaou and coworkers found that (TMSlsSiH serves as a superior reagent in the radical-based approach toward the synthesis of azadirachtin, an antifeedant agent currently used as an insecticide, and in other related systems. ° ° Here below we collected a number of reactions mostly from the recent work in the area of intramolecular reactions. [Pg.139]

The (TMS)3Si radical addition to terminal alkenes or alkynes, followed by radical cyclization to oxime ethers, were also studied (Reaction 50). The radical reactions proceeded effectively by the use of triethylborane as a radical initiator to provide the functionalized pyrrolidines via a carbon-carbon bond-forming process. Yields of 79 and 63% are obtained for oxime ethers connected with an olefin or propargyl group, respectively. [Pg.141]

The N,0- and N,S-heterocyclic fused ring products 47 were also synthesized under radical chain conditions (Reaction 53). Ketene acetals 46 readily underwent stereocontrolled aryl radical cyclizations on treatment with (TMSlsSiH under standard conditions to afford the central six-membered rings.The tertiary N,0- and N,S-radicals formed on aryl radical reaction at the ketene-N,X(X = O, S)-acetal double bond appear to have reasonable stability. The stereoselectivity in hydrogen abstractions by these intermediate radicals from (TMSlsSiH was investigated and found to provide higher selectivities than BusSnH. [Pg.142]

Entry 11 involves generation and cyclization of an alkoxymethyl radical from a selenide. The cyclization mode is the anticipated 5-exo with a cis ring juncture. This is a case in which the electronic characteristics of the radical are not particularly favorable (ERG oxygen in the radical), but cyclization nevertheless proceeds readily. The reaction in Entry 12 was used to prepare a precursor of epibatidine. Entry 13 shows a 6-endo cyclization that is favored by steric factors. The 6-endo cyclization is also favored with a tetrahydropyranyloxy substituent in place of the ester, indicating that the electronic effect is not important. Entries 14 to 16 involve acyl radicals generated from selenides. The preferred 6-endo cyclization in Entry 15 is thought to be due to the preference for the less-substituted end of the double bond. Entry 17 is an example of a 5-exo-dig cyclization. [Pg.978]

Clerici and Porta reported that phenyl, acetyl and methyl radicals add to the Ca atom of the iminium ion, PhN+Me=CHMe, formed in situ by the titanium-catalyzed condensation of /V-methylanilinc with acetaldehyde to give PhNMeCHMePh, PhNMeCHMeAc, and PhNMeCHMe2 in 80% overall yield.83 Recently, Miyabe and co-workers studied the addition of various alkyl radicals to imine derivatives. Alkyl radicals generated from alkyl iodide and triethylborane were added to imine derivatives such as oxime ethers, hydrazones, and nitrones in an aqueous medium.84 The reaction also proceeds on solid support.85 A-sulfonylimines are also effective under such reaction conditions.86 Indium is also effective as the mediator (Eq. 11.49).87 A tandem radical addition-cyclization reaction of oxime ether and hydrazone was also developed (Eq. 11.50).88 Li and co-workers reported the synthesis of a-amino acid derivatives and amines via the addition of simple alkyl halides to imines and enamides mediated by zinc in water (Eq. 11.51).89 The zinc-mediated radical reaction of the hydrazone bearing a chiral camphorsultam provided the corresponding alkylated products with good diastereoselectivities that can be converted into enantiomerically pure a-amino acids (Eq. 11.52).90... [Pg.358]

There are also some rare domino sequences where two anionic and two radical reactions are combined (Scheme 2.152) [347]. According to a report of the Wang group, thionyl chloride is able to promote a succession of reactions by an initial formation of a chlorosulfite 2-673 of the tertiary alcohol 2-672, followed by an SN-type reaction to produce the chloroallene 2-674. A Schmittel cyclization reaction [348] then generates... [Pg.151]

Scheme 3.33. Lewis acid-promoted free radical domino cyclization reaction and enantioselective approach. Scheme 3.33. Lewis acid-promoted free radical domino cyclization reaction and enantioselective approach.
Scheme 3.37. Domino radical addition/cyclization-reaction for the asymmetric synthesis of (3-aminobutyrolactones. Scheme 3.37. Domino radical addition/cyclization-reaction for the asymmetric synthesis of (3-aminobutyrolactones.
Scheme 3.81. Domino 2-indolylacyl radical addition/cyclization reaction. Scheme 3.81. Domino 2-indolylacyl radical addition/cyclization reaction.
The parent compound, 69, has been synthesized and characterised <2003ZFA1475>. 4-Chloro-hepta-l,6-diene was reacted with Mg. No Grignard rearrangement was noticed but instead the Grignard reagent was converted into l-allyl-3-butenylphosphonous dichloride by reaction with PC13. Reduction with LiAlH. produced l-allyl-3-butenyl-phosphane. Radical-initiated cyclization led to the product, l-phosphabicyclo[3.3.0]octane. Four derivatives were similarly prepared and characterized (70-73). Compound 74 was similarly prepared via a radical reaction < 1997PS(123)141 >. [Pg.537]

Hintz, S., Heidbreder, A., and Mattay, J. Radical Ion Cyclizations. 177, 77-124 (1996). Hirao, T. Selective Transformations of Small Ring Compounds in Redox Reactions. 178, 99-148 (1996). [Pg.158]

A new approach to piperidines via cyclization of dienes, such as 158, employs a phosphorus hydride mediated radical addition/cyclization reaction <06JOC3656>. This reaction proceeds with complete regioselectivity to create the 6-exo-trig product 159, although as an inseparable mixture of two of the four possible diastereomers. [Pg.335]

In the case of the hematin-catalyzed reaction we have proposed that peroxyl radicals are the epoxidizing agents (40). The mechanism is illustrated in Figure 8. Hematin reduces the hydroperoxide to an alkoxyl radical that cyclizes to the adjacent double bond. [Pg.320]


See other pages where Reactions radical cyclization is mentioned: [Pg.73]    [Pg.323]    [Pg.4986]    [Pg.73]    [Pg.323]    [Pg.4986]    [Pg.147]    [Pg.382]    [Pg.386]    [Pg.386]    [Pg.390]    [Pg.416]    [Pg.6]    [Pg.632]    [Pg.637]    [Pg.689]    [Pg.325]    [Pg.143]    [Pg.145]    [Pg.1040]    [Pg.143]    [Pg.689]    [Pg.961]    [Pg.980]    [Pg.984]    [Pg.227]    [Pg.320]    [Pg.206]    [Pg.348]   
See also in sourсe #XX -- [ Pg.210 ]




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Asymmetric radical cyclization reaction

Atom transfer radical cyclization reactions

Barton reaction radical cyclizations

CYCLIZATION, free radical 2+2] Cycloaddition reactions, with

Copper catalyzed reactions transfer radical cyclization

Cyclization Reactions of Silyl Radicals

Cyclization by radical reactions

Cyclization reactions

Cyclization reactions donor radical cations

Cyclization reactions electrophilic or radical attack

Cyclization reactions free-radical

Cyclization reactions radical anions

Cyclization reactions radical cations

Cyclization, radicals Diels-Alder reaction

Diels-Alder reactions radical cyclizations

Fragmentation reactions radical cyclization

Halogen atom transfer addition reactions radical cyclizations

Halogen atom transfer reactions radical cyclizations

Hydrogen atom transfer reactions radical cyclizations

Intramolecular reactions free radical cyclizations

Intramolecular reactions free-radical cyclization

Iodine atom transfer reactions radical cyclizations

Iron-catalyzed reactions radical cyclization

Kolbe reactions radical cyclizations

Pschorr reaction radical cyclizations

Radical cyclization

Radical cyclizations annulation reactions

Radical reactions/cyclizations

Self-terminating radical reactions cyclizations

Sulfonamides radical cyclization reactions

Tandem radical addition/cyclization reactions

Temporary Tethering Strategies in Radical Cyclization Reactions

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