Tandem reactions synthesis

Neuschuetz K., Velker J., Neier R. Tandem Reactions Combining Diels-Alder Reactions With Sigmatropic Rearrangement Processes and Their Use in Synthesis Synthesis 1998 227-255... 

Dell C. P. Cycloaddition in Synthesis Contemporary Organic Synthesis 1997 4 87 Keywords natural products, metal catalyzed, asymmetric reactions, Ionic reactions, transannular reactions, tethered reactions, tandem reactions, benzo-qulnones, quinodimethanes, hefero-Dlels-Alder reactions... 

NHC-Pd(ll) complexes have also been used in tandem reactions involving a Sonogashira couphng and hydroalkoxylation of the resulting alkyne for the synthesis of benzofurans [131] as well as sequential Heck-Sonogashira couphngs [132] (Scheme 6.44). 

Parsons, P.J., Penkett, C.S., Shell, A.J. (1996) Tandem Reactions in Organic Synthesis Novel Strategies for Natural Product Elaboration and the Development of New Synthetic Methodology. Chemical Reviews, 96, 195-206. 

Rejzek, M., Stockman, R.A., van Maarseveen, J.H., Hughes, D.L. (2005) Combining Two-Directional Synthesis and Tandem Reactions Desymmetrisation by Intramolecular Cycload-dition/Triazoline Fragmentation. Chemical Communications, 4661 662. 

Radical reactions used in synthesis include additions to double bonds, ring closure, and atom transfer reactions. Several sequences of tandem reactions have been developed that can close a series of rings, followed by introduction of a substituent. Allylic stannanes are prominent in reactions of this type. 

For clarification, individual transformations of independent functionalities in one molecule - also forming several bonds under the same reaction conditions -are not classified as domino reactions. The enantioselective total synthesis of (-)-chlorothricolide 0-4, as performed by Roush and coworkers [8], is a good example of tandem and domino processes (Scheme 0.1). I n the reaction of the acyclic substrate 0-1 in the presence of the chiral dienophile 0-2, intra- and intermolecular Diels-Alder reactions take place to give 0-3 as the main product. Unfortunately, the two reaction sites are independent from each other and the transformation cannot therefore be classified as a domino process. Nonetheless, it is a beautiful tandem reaction that allows the establishment of seven asymmetric centers in a single operation. 

Recently, Denmark and coworkers have developed a new strategy for the construction of complex molecules using tandem [4+2]/[3+2]cycloaddition of nitroalkenes.149 In the review by Denmark, the definition of tandem reaction is described and tandem cascade cycloadditions, tandem consecutive cycloadditions, and tandem sequential cycloadditions are also defined. The use of nitroalkenes as heterodienes leads to the development of a general, high-yielding, and stereoselective method for the synthesis of cyclic nitronates (see Section 5.2). These dipoles undergo 1,3-dipolar cycloadditions. However, synthetic applications of this process are rare in contrast to the functionally equivalent cycloadditions of nitrile oxides. This is due to the lack of general methods for the preparation of nitronates and their instability. Thus, as illustrated in Scheme 8.29, the potential for a tandem process is formulated in the combination of [4+2] cycloaddition of a donor dienophile with [3+2]cycload-... 

Raja and Perumal reported the synthesis of novel 2,6-diaryl-3-(arylthio)piperidin-4-ones via a four-component reaction consisting of arylthioacetones, 2-substituted aromatic aldehydes and methylamine or ammonium acetate <06CPB795>. Further elaboration of this four component reaction to a novel five component tandem Mannich-enamine-substitution sequence involving the reaction of ethyl 2-[(2-oxopropyl)sulfanyl]acetate, two equivalents of a substituted aromatic aldehyde, and two equivalents of ammonium acetate is shown below <06T4892>. When this five-component tandem reaction involves para-substituted benzaldehydes, the cis (193) and trans (194) diastereomers of thiazones are obtained. Alternatively, orf/zo-substituted benzaldehydes form only the trans (194) diastereomer along with an air-oxidized product 195. 

A very attractive feature of radical chemistry is the generation of a novel radical after cyclization or any other radical translocation. This feature allows the inclusion of a second carbon—carbon bond-forming event and can, in principle, be extended even further. The resulting tandem reactions [38] can be extremely useful for the construction of complex molecules. Impressive early results have been reported by Stork in applications directed towards the synthesis of prostaglandins [39]. Our catalytic conditions also allow the realization of tandem reactions. An example including a mechanistic proposal is shown in Scheme 12.20. 

Schmidt AM, Eilbracht P (2004) New Synthetic Applications of Tandem Reactions under Eiydroformylation Conditions. In Beller M, Bolm C (eds) Transition Metals for Organic Synthesis Building Blocks and Fine Chemicals. Wiley, Weinheim, p 57... 

DKPs, and 2,6-DKPs can be distinguished on the basis of intramolecular C-N cyclization, tandem reactions, and synthetic methods used. 2,3-DKPs have been used in medicinal chemistry and are found in natural products such as antibiotics (piperacillin), cefoperazone, and bicyclomycin. 2,5-DKPs are common namrally occurring peptide derivatives and are frequently generated as unwanted by-products in the synthesis of oligopeptides. " ... 

The domino cycloaddition-iV-acyliminium ion cyclization cascade has been extensively reviewed. Tandem reactions combining Diels-Alder reactions and sigma-tropic rearrangement reactions in organic synthesis have been extensively reviewed. The tandem Diels-Alder reaction between acetylenedicarboxaldehyde and N,N -dipyrrolylmethane has been extensively studied at the RHT/3-21G and RHF/6-31G levels.The molecular mechanism of the domino Diels-Alder reaction between hexafluorobut-2-yne and A,A -dipyrrolylmethane has been studied using density functional theory. 

Cycloisomerization represents another approach for the construction of cyclic compounds from acyclic substrates, with iridium complexes functioning as efficient catalysts. The reaction of enynes has been widely studied for example, Chatani et al. reported the transformation of 1,6-enynes into 1-vinylcyclopentenes using [lrCl(CO)3]n (Scheme 11.26) [39]. In contrast, when 1,6-enynes were submitted in the presence of [lrCl(cod)]2 and AcOH, cyclopentanes with two exo-olefin moieties were obtained (Scheme 11.27) [39]. Interestingly, however, when the Ir-DPPF complex was used, the geometry of olefinic moiety in the product was opposite (Scheme 11.28) [17]. The Ir-catalyzed cycloisomerization was efficiently utilized in a tandem reaction along with a Cu(l)-catalyzed three-component coupling, Diels-Alder reaction, and dehydrogenation for the synthesis of polycyclic pyrroles [40]. 

The vast majority of the work described in this chapter was reported since 1995. Rho-dium( I)-catalyzed hydroformylation and silylformylation reactions have only very recently been adapted and developed for use in the efficient synthesis of stereochemi-cally complex natural products. In addition, the recent development of tandem reactions that take advantage of the direct production of aldehydes in these carbonylation reactions have only begun to demonstrate the versatility of this chemistry. Rhodium(I)-catalyzed hydroformylation and silylformylation, venerable reactions that have primarily been associated with organometaUic chemistry, must now be considered important tools for natural product synthesis. The continued development of these methodologies for that purpose may be expected. 

Recently, the in vitro synthesis of amylopectin- or glycogen-like structures via a tandem reaction of phosphorylase and branching enzyme was reported [197-201]. 

Neuschiitz, K. Velker, J. Neier, R. (1998) Tandem reactions combining Diels-Alder reactions with sigmatropic rearrangement processes and their use in synthesis. Synthesis, 3, 227-55. 

In classical organic synthesis, the individual bonds in the target molecule are usually formed step by step. Starting from relatively simple starting compounds, the structural complexity in the molecule slowly increases in the course of the synthesis. Domino, or tandem, reactions are... 

For representative reviews of tandem reactions in organic synthesis, see ... 

Fig. 8.11. Tandem reaction consisting of three single reactions mutually transforming heterocumulenes and heteroatom nucleophiles in a one-pot synthesis of an isothiocyanate (1) uncatalyzed addition reaction of heteroatom nucleophile (aniline) + heterocumulene (carbon disulfide) —> carbonic acid derivative (A) (2) heterolysis-initiated /3-elimination of the carbonic acid derivative (D) -> heterocumulene (F = phenylisothiocyanate) + heteroatom nucleophile (thiocar-bonic acid O-ethylester) (3) decomposition of a carbonic acid derivative (D) to a heterocumulene (carbon oxysulfide) and a heteroatom nucleophile (ethanol) via the zwitterion H.

Fig. 13.71. Tandem reaction I, consisting of a Michael addition and an aldol condensation Robinson annulation reaction for the synthesis of six-membered rings that are condensed to an existing ring.

Of special importance was the synthesis of bicyclic tosylenamides in tandem reactions of appropriate tosylamide-containing alkynyl iodonium salts [71] ... 

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