Addition substitution, sequential reaction

Recently, elegant synthesis of awft -MRS carbapenum has been reported. Sequential reaction of nitromethane via conjugate addition-elimination to a,P-unsaturated esters followed by Pd-catalyzed substitution of the resulting allyl nitro compound with the naphthosultam affords the allylation product which is an anti (Eq. 7.20).22... 

A fused tricyclic ring system based on an indole provides yet another NSAID. Michael addition of the anion from diethyl methylmalonate to cyclohexanone followed by acid hydrolysis of the product gives cyclohexanone (21-3), which incorporates the characteristic profen 2-substituted carboxylic side chain. Sequential reaction with para-chlorophenylhydrazine and a strong acid gives the fused indole... 

Cyclopropen-1-yl sodium derivatives are also readily prepared. Thus reaction of cyclopropene with one equivalent of sodium amide in liquid ammonia leads to 1-sodiocyclopropene which is alkylated by haloalkanes 77,78 reacts with ketones to produce tertiary alcohols and opens epoxides to produce 2-cyclopropenyl-ethanols in moderate to good yields79). Moreover, on reaction with two equivalents of base followed by haloalkane, 1,2-dialkylated species are obtained sequential reactions can also be used to produce unsymmetrically substituted cyclopropenes78). Reaction with a deficiency of sodium amide can also cause addition of the cyclopro-penyl anion to unreacted cyclopropene, leading to products derived from the 2-cyclo-propylcydopropen-l-yl anion and to 1,2-dicyclopropylcyclopropene 77). 

As a consequence of the mild reaction conditions in the sequence to 3-halo furans 55 the palladium catalyst should be still intact to trigger another Pd-catalyzed coupling in the sense of a sequentially Pd-catalyzed process [31]. As a consequence, a sequential Sonogashira-deprotection-addition-cyclocondensation-Suzuki reaction, where the same catalyst system is applied in two consecutive significantly different cross-coupling reactions in the same reaction vessel should be feasible. Therefore, upon consecutive reactions of (hetero)aroyl chlorides 7 and THP-protected propargyl alcohols 54, Nal and PTSA, and finally, addition of 1.05 equiv of boronic acids 60 and sodium carbonate, the substituted 3-aryl furans 61 can be obtained in decent yields (Scheme 35). 

The M—A bond which is formed frequently shows a reactivity toward addition and substitution reactions similar to that of the original bond to the metal sequential combinations of the elementary processes of addition, substitution, and elimination are useful in synthesis, especially for organotin derivatives. The individual reactions, and their most important combinations are ... 

That ends this chapter on elimination reactions. It is apparent from the foregoing discussion that elimination reactions are far less well defined than either the substitution or addition reactions that we had studied previously. However, it was still possible to rationalise the production of the experimentally observed products. We will now look at sequential reactions, in which an addition reaction is followed by an elimination, or vice versa, and so leads to an overall substitution reaction... 

Nucleophilic substitution at an sp carbon usually proceeds via an addition/ elimination sequential pathway. Thus, the reaction of ArS- to, say, 1,1-dichloroethene, in the presence of a catalytic amount ethoxide anion, proceeds via an addition followed by a double elimination, with finally a further addition to yield the 1,2-dithiophenoxy derivative. 

The reaction of 4 with alkylamines has also been studied [14]. The resulting poly(alkylaminocarbophosphazenes) are sensitive to hydrolysis. However, aryl-amino derivatives are moisture stable and, in addition, a novel, regioselectively substituted polymer 6 was successfully prepared via the sequential reaction with NHPh2 and trifluoroethoxide anions ... 

Jean-Baptiste, L. Yemets, S. Legay, R. Lequeux, T. Synthesis of 2,3-trans disubstituted tetrahydrofurans through sequential xanthate radical addition-substitution reactions. J. Org. Chem. 2006, 71, 2352-2359. 

For determination of phenolic derivative of P-lactam analog (cefadroxil) measurement of absorption of formed product in the reaction between it and 4-aminoantipyrine in the presence of alkaline potassium hexacyanoferrate(III) at 510 nm was also proposed (Fig. 16). Potassium hexacyanoferrate(III), being oxidant in this reaction, yielding N-substituted quinine imines and in the result was responsible for formation of red-colored antipyrine dye. Additionally, a sequential injection analysis (SIA) spectrophotometric procedure for the determination was reported [52]. 

Another potentially powerfnl sequence arises by combining one or two intramolecular Heck-type couplings with an intra- or intermolecular Diels-Alder addition (for early examples of inter-intermolecular one-pot domino Heck-Diels-Alder reactions see Refs. [49] and [50]). An all-intramolecular version of such a sequence has been shown to proceed reasonably smoothly for terminally alkoxycarbonyl-substituted 2-bromotrideca-l,ll-dien-6-ynes under palladium catalysis at 130 °C. At 80 °C, the sequential reaction stops after the two consecutive Heck-type cyclizations and subsequent /3-hydride elimination to give a 1,3,6-triene apparently only the ( )-isomer undergoes the intramolecular Diels-Alder reaction, as the (Z)-l,3,6-triene is observed accompanying the tetracyclic system obtained at 130 °C (Scheme 36). 

Grigg and coworkers advocate useful sequential reactions involving a catalytic carbonylation process as the key step (Scheme 11.14) [17] (1) oxidative addition of Ar-I to Pd(0) to form ArPdl (2) insertion of CO and then allene to form 7t-allylpalladium intermediate and (3) nudeophOic substitution. 

Thermoplastic addition polymers - The common addition polymers are those based on a polyethylene backbone. Their synthesis starts with the catalytic activation of monomers such as ethylene, propylene or vinyl chloride to free radicals. These combine sequentially in an addition or chain reaction. The polyethylene backbone consists of a chain of methylene groups. The other common addition polymers, as illustrated in Figmes 1 and 2, are essentially polyethylenes with one or both of the hydrogens on the methylene group substituted. 

The chemistry of the processes occurred in the above system was studied by FTIR and matrix-assisted laser desorption ionization technique with time of flight detection (MALDI-TOF). On the basis of the results obtained, a scheme of the simultaneous and sequential reactions with formation of BP, BPT, and some intermediate and additional products, including possible substituted cyanurate, isocyanurate, and mixed triazine cycles was proposed [63]. 

A triple cascade reaction that includes a sequential Michael addition/aza-Henry reaction/cyclization has been described employing BB catalyst 33 (Scheme 29.16) [39]. The three-component cascade reaction catalyzed by two organocatalysts made possible the synthesis of fully substituted highly enantioenriched piperidines. 

Meyers has demonstrated that chiral oxazolines derived from valine or rert-leucine are also effective auxiliaries for asymmetric additions to naphthalene. These chiral oxazolines (39 and 40) are more readily available than the methoxymethyl substituted compounds (3) described above but provide comparable yields and stereoselectivities in the tandem alkylation reactions. For example, addition of -butyllithium to naphthyl oxazoline 39 followed by treatment of the resulting anion with iodomethane afforded 41 in 99% yield as a 99 1 mixture of diastereomers. The identical transformation of valine derived substrate 40 led to a 97% yield of 42 with 94% de. As described above, sequential treatment of the oxazoline products 41 and 42 with MeOTf, NaBKi and aqueous oxalic acid afforded aldehydes 43 in > 98% ee and 90% ee, respectively. These experiments demonstrate that a chelating (methoxymethyl) group is not necessary for reactions to proceed with high asymmetric induction. 

The chloro groups of 4,7-dichloro-l,2-diazocines (vide supra) can be sequentially substituted by O-, S- or W-nucleophiles.25 27 The reaction most likely proceeds via an elimination-addition mechanism utilizing the valence tautomeric diazabicyclo[4.2.0]octatriene forms. 

A strategy involving sequential 1,3-dipolar cycloadditions has been reported for the synthesis of novel bis-isoxazolo substituted piperidines 192a and 192b (Eqs. 18 and 19) [53]. It consists of the Michael addition of an unsaturated alkox-ide 185 to )3-nitrostyrene 184 followed by an INOC or ISOC reaction to provide isoxazolines 187-189 (Eq. 18 and Table 18). A polymer supported acyl chloride... 

A new three-component approach to the highly substituted 2,5-dihydro-l,2,4-oxadiazoles 359 has been reported from the reaction of nitriles 354 under mild conditions with iV-alkylhydroxylamines 355 in the presence of electron-deficient alkynes 356 (Scheme 60) <20050L1391>. This synthesis is proposed to proceed via the initial formation of the alkyl or arylamidoximes 357, which then undergo a sequential double Michael addition to the electron deficient alkyne. The intermediate alkyl or arylamidoximes 357 can be isolated and then reacted with the alkyne to produce the product. The initial Michael adduct 358 is stable in cases where R2 is H. 

For the synthesis of carbohydrate-substituted block copolymers, it might be expected that the addition of acid to the polymerization reactions would result in a rate increase. Indeed, the ROMP of saccharide-modified monomers, when conducted in the presence of para-toluene sulfonic acid under emulsion conditions, successfully yielded block copolymers [52]. A key to the success of these reactions was the isolation of the initiated species, which resulted in its separation from the dissociated phosphine. The initiated ruthenium complex was isolated by starting the polymerization in acidic organic solution, from which the reactive species precipitated. The solvent was removed, and the reactive species was washed with additional degassed solvent. The polymerization was completed under emulsion conditions (in water and DTAB), and additional blocks were generated by the sequential addition of the different monomers. This method of polymerization was successful for both the mannose/galactose polymer and for the mannose polymer with the intervening diol sequence (Fig. 16A,B). 

Lewis acid SnCLj-assisted reaction between the l,3-thiazole-5-thione 434 and /ra r-2,3-dimethyloxirane led to the m 4,5-dimethyl-l,3-oxathiolane 435 The same Lewis acid enabled a second addition of /ra/ -2,3-dimcthyloxirane onto the C—N bond of the 1,3-thiazole ting of 434, leading to the formation of the tetrahydro-2//-thiazolo[2,3- ]-oxazole adduct 436 (Equation 200) <2000HCA3163>. Condensation of 2,4-dinitroimidazole, 8-bromotheophylline, and 8-bromoadenine with substituted methyloxiranes involved sequential A -alkylation-r/wo-substitution and furnished a series of 2,3-dihydro-imidazo[2,l- ]oxazole derivatives 437, 438, and 439 (Equations 201-203) <2000CCC1126, 2000EJ03489, 2005TL3561, 2004JHC51>. 

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