Dehydration regioselectivity

Subsequently, Cook disclosed a similar partial synthesis of macrocarpamine (323) by coupling (—)-anhydromacrosalhine-methine (344) with natural pleiocarpamine (342) in anhydrous 0.2 N HCl in THE (Scheme 24) (228-230), providing support for the earlier biogenetic proposal of Hesse (231). The required (—)-anhydromacrosalhine-methine was first partially synthesized from (-l-)-ajmaline (345) to provide an authentic sample (Scheme 25). Degradation to the hemiacetal 346 was carried out following the improved procedure of Sakai (232). This was followed in succession by dehydration, regioselective oxyselenation, selenoxide elimination, and finally 1,4-elimination to yield anhydromacrosalhine-methine (344) in 85% yield. 

In his cephalosporin synthesis methyl levulinate was condensed with cysteine in acidic medium to give a bicyclic thiazolidine. One may rationalize the regioselective formation of this bicycle with the assumption that in the acidic reaction mixture the tMoI group is the only nucleophile present, which can add to the ketone. Intramolecular amide formation from the methyl ester and acid-catalyzed dehydration would then lead to the thiazolidine and y-lactam rings. The stereochemistry at the carboxylic acid a-... 

Dehydration of this alcohol is selective m respect to its direction Elimination occurs m the direction that leads to the double bond between C 2 and C 3 more than between C 2 and C 1 Reactions that can proceed m more than one direction but m which one direction is preferred are said to be regioselective... 

As a second example consider the regioselective dehydration of 2 methylcyclo hexanol to yield a mixture of 1 methylcyclohexene (major) and 3 methylcyclohexene (minor)... 

In addition to being regioselective alcohol dehydrations are stereoselective A stereo selective reaction is one m which a single starting material can yield two or more stereoisomeric products but gives one of them m greater amounts than any other Alcohol dehydrations tend to produce the more stable stereoisomer of an alkene Dehydration of 3 pentanol for example yields a mixture of trans 2 pentene and cis 2 pentene m which the more stable trans stereoisomer predominates... 

Dehydration of alcohols (Sections 5 9-5 13) Dehydra tion requires an acid catalyst the order of reactivity of alcohols IS tertiary > secondary > primary Elimi nation is regioselective and proceeds in the direction that produces the most highly substituted double bond When stereoisomeric alkenes are possible the more stable one is formed in greater amounts An El (elimination unimolecular) mechanism via a carbo cation intermediate is followed with secondary and tertiary alcohols Primary alcohols react by an E2 (elimination bimolecular) mechanism Sometimes elimination is accompanied by rearrangement... 

Conjugation of the newly formed double bond with the carbonyl group stabilizes the a p unsaturated aldehyde provides the driving force for the dehydration and controls Its regioselectivity Dehydration can be effected by heating the aldol with acid or base Normally if the a p unsaturated aldehyde is the desired product all that is done is to carry out the base catalyzed aldol addition reaction at elevated temperature Under these conditions once the aldol addition product is formed it rapidly loses water to form the a p unsaturated aldehyde... 

Hydrogenation of alkynes to alkenes using the Lindlai catalyst is attractive because it sidesteps the regioselectivity and stereoselectivity issues that accompany the dehydration of alcohols and dehydrohalogenation of alkyl halides. In tenns of regioselectivity, the position of the double bond is never in doubt—it appears in the carbon chain at exactly the sane place where the triple bond was. In tenns of stereoselectivity, only the cis alkene forms. Recall that dehydration and dehydrohalogenation normally give a cis-trans mixture in which the cis isomer is the minor product. 

Bischler has suggested that anilines undergo 1,4-addition followed by dehydration which would explain the inherent regioselectivity. Mechanistic studies suggest that the reaction involves the reversible formation of diazetidinium ions 7 and there irreversible cyclization to quinolines. ... 

Scheme 2.10 illustrates intramolecular aldol condensations. Entries 1 and 2 are cases of formation of five-membered rings, with aldehyde groups serving as the electrophilic center. The regioselectivity in Entry 1 is due to the potential for dehydration of only one of the cyclic aldol adducts. 

Dehydration without rearrangement occurs regioselectively with thionyl chloride in pyridine (Eq. 43). The selenium analogues have shown similar behavior (Eq. 44) 87)... 

The intermolecular Heck reaction of 3-bromofuran and tosylallyamine 88 gave adduct 89 under the classical Heck conditions [79], Subsequent Rh-catalyzed hydroformylation with ring closure occurred regioselectively to furnish the hydroxypyrrolidine, which was dehydrated using catalytic HC1 to afford dihydropyrrole 90. 

For example, rhodium catalyzed hydroformylation of 2-formyl-N-allyl-pyrrol gives an approx. 1 1 mixture of iso- and u-aldehydes. The latter cyclizes immediately in an aldol reaction followed by dehydration giving 7-formyl-5,6-indolizine in up to 46% (Scheme 29) [83]. Since here only one of the aldehyde groups can act as the enolate nucleophile this cyclization proceed with high regioselectivity (Scheme 29). 

Figure 4 The biosynthesis of nisin A as a representative example of the posttranslational maturation process of lantibiotics. Following ribosomal synthesis, NisB dehydrates serine and threonine residues in the structural region of the prepeptide NisA. NisC subsequently catalyzes intramolecular addition of cysteine residues onto the dehydro amino acids in a stereo- and regioselective manner. Subsequent transport of the final product across the cell membrane by NisT and proteolytic cleavage of the leader sequence by NisP produces the mature lantibiotic. For the sequence of the leader peptide, see Figure 6. Adapted with permission from J. M. Willey W. A. van der Donk, Annu. Rev. Microbiol. 2007, 61, 477-501.

XLIV) centers about elaboration of hydroxymethylene ketone (574) into the tricyclic diketone (578). Alkylation of keto nitrile 575 proceeds exclusively cis to the angular methyl groups as does the subsequent reductive methylation. These authors were not able to achieve aldol cycUzation of keto aldehyde 576 and consequently proceeded to enol lactone 577 The addition of a methyl group to 578 could be achieved regioselectively. Subsequently dehydration gave 579 and its endocyclic isomer which were separated chromatographically. 

Cyclohydrocarbonylation of 1-allylpyrroles 74a-d catalyzed by Rh4(CO)i2 gave the corresponding 5,6-dihydro-indolizines 77a-d in good yield and excellent regioselectivity (Scheme 12)." This reaction proceeded through a cascade hydroformylation-cyclization-dehydration sequence (Scheme 12). Exclusive introduction of a formyl group... 

Mestres et al. [40] published a regioselective addition of a lithium trienediolate (generated from hexa-2,4-dienoic acid or dihydropyran-2-one) to p-ionone. Dehydration of the hydroxyacid, afforded a mixture of 9E/Z, 13E/Z retinoic acids which, isomerised in the presence of I2, led to all E retinoic acid in 35% and 30% yield, starting from dienic acid and pyranone, respectively, Fig. (16). 

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