Enantioselective reactions synthesis

C. Rosini, L. Franzini, A. Raffaelli, P. Salvadori, Synthesis and Applications of Binaphthylic ( -Symmetry Derivatives as Chiral Auxiliaries in Enantioselective Reactions, Synthesis 1992, 503-517. 

The target molecule above contains a chiral center. An enantioselective synthesis can therefore be developed We use this opportunity to summarize our knowledge of enantioselective reactions. They are either alkylations of carbanions or addition reactions to C = C or C = 0 double bonds ... 

With the use of chiral reagents a differentiation of enantiotopic faces is possible, leading to an enantioselective reaction. The stereoselective version of the Michael addition reaction can be a useful tool in organic synthesis, for instance in the synthesis of natural products. 

In Ghosh s enantioselective total synthesis of the cytotoxic marine macrolide (+)-amphidinolide T1 (318) [143], the C1-C10 fragment 317 was constructed by CM of subunits 315 and 316 (Scheme 62). The reaction mediated by catalyst C (5 mol%) afforded in the first cycle an inconsequential 1 1 mixture of (E/Z)-isomeric CM products 317 in 60% yield, along with the homodimers of 315 and 316. The self-coupling products were separated by chromatography and exposed to a second metathesis reaction to provide olefins 317 in additional 36% yield [144]. 

As mentioned in Sect. 2.2, phosphine oxides are air-stable compounds, making their use in the field of asymmetric catalysis convenient. Moreover, they present electronic properties very different from the corresponding free phosphines and thus may be employed in different types of enantioselective reactions, m-Chloroperbenzoic acid (m-CPBA) has been showed to be a powerful reagent for the stereospecific oxidation of enantiomerically pure P-chirogenic phos-phine-boranes [98], affording R,R)-97 from Ad-BisP 6 (Scheme 18) [99]. The synthesis of R,R)-98 and (S,S)-99, which possess a f-Bu substituent, differs from the precedent in that deboranation precedes oxidation with hydrogen peroxide to yield the corresponding enantiomerically pure diphosphine oxides (Scheme 18) [99]. 

The methods of organic synthesis have continued to advance rapidly and we have made an effort to reflect those advances in this Fifth Edition. Among the broad areas that have seen major developments are enantioselective reactions and transition metal catalysis. Computational chemistry is having an expanding impact on synthetic chemistry by evaluating the energy profiles of mechanisms and providing structural representation of unobservable intermediates and transition states. 

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. 

The Shibasaki group [27] developed an enantioselective total synthesis of (+)-xes-toquinone (6/1-38) using an asymmetric double Heck reaction with BINAP as chi-... 

Martin and coworkers [93] described a highly efficient enantioselective total synthesis ofmanzamine A (6/1-177) with a concise domino Stille/Diels-Alder reaction to construct the tricyclic ABC ring core in 6/1-177 as the key step. Reaction of 6/1-178 with vinyl tributylstannane in the presence of (Ph3P)4Pd afforded the triene... 

Diastereoselective intramolecular cycloaddition of nitrones is useful for constructing nitrogen- containing cyclic structures. The reaction serves as a key step in a number of natural product syntheses.63 Tufarriello and coworkers have used this strategy for preparing cocaine and other alkaloids.74 As a classical example, enantioselective total synthesis of (+)-luciduline is presented in Scheme 8.13, in which a useful feature of the 1,3-dipolar addition of nitrones is nicely illustrated.75... 

Inomata100 utilized a tandem retro-Diels-Alder-ene reaction for an enantioselective total synthesis of (+)-methyl jasmonate (Scheme 41). The TMS group on the alkene was essential to the efficiency of the reaction, by producing a higher energy level of the HOMO for the ene reaction. 

In 1993, we began to incorporate catalytic RCM into a select number of our programs in reaction development and enantioselective organic synthesis. In... 

In 1993, we reported that various unsaturated heterocycles can be alkylated with Et-, wPr- and nBuMgCl in the presence of optically pure (EBTHI)ZrCl2 (3a) or (EBTHI)Zr-binol (3b) to afford the derived unsaturated products in >90% ee (cf. 5 6, Scheme 2) [4a]. Many of the simpler five- and six-membered starting materials are available commercially or can be prepared by established procedures. In contrast, catalytic enantioselective reactions involving unsaturated medium ring hetero cycles were not a trivial undertaking the synthesis of these olefinic substrates, by the extant methods, was prohibitively cumbersome. 

The BINAP-Ru(II)-catalyzed enantioselective hydrogenation of f>-keto esters is used for the synthesis of a wide range of important natural and man-made compounds [1-4, 48] some examples of these are listed in Figure 32.10, wherein chiral centers created by the enantioselective reaction are labeled with R or S. 

Asymmetric catalysis is a vital and rapidly growing branch of modern organic chemistry. Within this context, Ti- and Zr-based chiral catalysts have played a pivotal role in the emergence of a myriad of efficient and enantioselective protocols for asymmetric synthesis. In this chapter, a critical overview of enantioselective reactions promoted by chiral Zr-based catalysts is provided. Since an account of this type is most valuable when it provides a context for advances made in a particular area of research, when appropriate, a brief discussion of related catalytic asymmetric reactions promoted by non-Zr-based catalysts is presented as well. 

Recently, an enantioselective total synthesis of ( )-18,19-dihydroantirhine has been reported by Kametani s group (140). They started from the chiral cyclopentanone derivative 211, obtained from the previously prepared (/ )-1,2-isopropylideneglyceraldehyde (141). Utilizing a number of reaction steps, 211 was transformed to 215 with the desired stereochemistry at the future C-15 and... 

Takano s group reported the first enantioselective total synthesis of (—)-anti-rhine as well (146). Chiral product 235 was prepared via a number of stereoselective reactions. Reductive condensation of 235 with tryptamine, using sodium cyanoborohydride at pH 6, supplied lactam 236, which was reduced by di-isobutylalminum hydride to hemiacetal 237. The latter could be cyclized to (-)-antirhine by simple acid treatment (146). 

Hoveyda in his essay on asymmetric catalysis in target-oriented synthesis (p 145). The concept of catalysis-based total synthesis, in which a series of catalytic enantioselective reactions are employed in combination with other catalytic reactions, is emerging as the desirable way to make complex natural products and medidnally-important target compounds. 

In other cases, such transformations are employed to construct the main skeleton of the target molecule. In yet another type of total synthesis, referred to as catalysis-based total syntheses, various catalytic enantioselective reactions are employed in combination with a number of other catalytic transformations. 

Jin and Weinreb reported the enantioselective total synthesis of 5,11-methano-morphanthridine Amaryllidaceae alkaloids via ethynylation of a chiral aldehyde followed by allenylsilane cyclization (Scheme 4.6) [10]. Addition of ethynylmagnesium bromide to 27 produced a 2 1 mixture of (S)- and (R)-propargyl alcohols 28. Both of these isomers were separately converted into the desired same acetate 28 by acetylation or Mitsunobu inversion reaction. After the reaction of 28 with a silyl cuprate, the resulting allene 29 was then converted into (-)-coccinine 31 via an allenylsilane cyclization. 

An enantioselective intramolecular Pauson-Khand reaction based on chiral auxiliary-directed 7t-face discrimination in acetylenic 0-alkyl enol ether-dicobalt hexacarbonyl complexes, which proceeds with good yields and high facial diastereoselectivity, has recently been developed by M.A. Pericas, A. Moyano, A.E. Greene and their associates. The method has been applied to an enantioselective formal synthesis of hirsutene. Moreover, the process is stereodivergent and the chiral auxiliary -rran5-2-phenylcyclohexanol- is recovered in a yield as high as 92% [18]. 

Sekine, A. Ohshima, T. Shibasaki, M. (2002) An enantioselective formal synthesis of 4-demethoxydaunomycin using the catalytic asymmetric ring opening reaction of meso-epoxide with p-anisidine.. Tetrahedron, 58 75-82. 

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