Retention of the stereochemistry

Formation of a Tr-allylpalladium complex 29 takes place by the oxidative addition of allylic compounds, typically allylic esters, to Pd(0). The rr-allylpal-ladium complex is a resonance form of ir-allylpalladium and a coordinated tt-bond. TT-Allylpalladium complex formation involves inversion of stereochemistry, and the attack of the soft carbon nucleophile on the 7r-allylpalladium complex is also inversion, resulting in overall retention of the stereochemistry. On the other hand, the attack of hard carbon nucleophiles is retention, and hence Overall inversion takes place by the reaction of the hard carbon nucleophiles. 

It is possible to prepare 1-acetoxy-4-chloro-2-alkenes from conjugated dienes with high selectivity. In the presence of stoichiometric amounts of LiOAc and LiCl, l-acetoxy-4-chloro-2-hutene (358) is obtained from butadiene[307], and cw-l-acetoxy-4-chloro-2-cyclohexene (360) is obtained from 1.3-cyclohexa-diene with 99% selectivity[308]. Neither the 1.4-dichloride nor 1.4-diacetate is formed. Good stereocontrol is also observed with acyclic diene.s[309]. The chloride and acetoxy groups have different reactivities. The Pd-catalyzed selective displacement of the chloride in 358 with diethylamine gives 359 without attacking allylic acetate, and the chloride in 360 is displaced with malonate with retention of the stereochemistry to give 361, while the uncatalyzed reaction affords the inversion product 362. 

The reaction of vinyloxiranes with malonate proceeds regio- and stereose-lectively. The reaction has been utilized for the introduction of a 15-hydroxy group in a steroid related to oogoniol (265)(156]. The oxirane 264 is the J-form and the attack of Pd(0) takes place from the o-side by inversion. Then the nucleophile comes from the /i-side. Thus overall reaction is sT -StM2 type, in the intramolecular reaction, the stereochemical information is transmitted to the newly formed stereogenic center. Thus the formation of the six-membered ring lactone 267 from 266 proceeded with overall retention of the stereochemistry, and was employed to control the stereochemistry of C-15 in the prostaglandin 268[157]. The method has also been employed to create the butenolide... 

It was claimed that the Z-form of the allylic acetate 430 was retained in homoallylic ketone 431 obtained by reaction with the potassium enolate of 3-vinylcyclopentanone (429), after treatment with triethylborane[282]. Usually this is not possible. The reaction of a (Z)-allylic chloride with an alkenylaluminum reagent to give 1,4-dienes proceeds with retention of the stereochemistry to a considerable extent when it is carried out at -70 C[283]. 

Allyl acetate and allyl alcohol can be employed as substrates, too. The reaction using 46 took place with retention of the stereochemistry (Eq. 7.34), indicating that the... 

The stereospecificity of this reaction is thought to arise from retention of the stereochemistry about the alkyl radical center due to hydrogen bonding of the OH group with the ketone,... 

The transformation proceeds with excellent stereoselectivity by kinetic formation of the 2,5-trans-disubstituted pyrrolidine 2-328 [182]. The tertiary amine can now initiate a nucleophilic backside displacement of the vicinal iodide in 2-328, leading to an aziridinium salt 2-329 [183]. This event ensures a net retention of the stereochemistry at C-13 in the following attack of the ester carbonyl in the butyrolactone ring closure to give 2-330. 

Oshima [30] reported a radical alkenylation of a-halo carbonyl compounds under mild conditions by utilizing alkenylindium reagents. Using 0.5 equivalent of triethylborane as a radical initiator at ambient temperature, we demonstrated that this process affords the alkenylation products in high yield (Scheme 10, Eq. 10a). Styrylation reaction showed retention of the stereochemistry from starting alkenylindium (Eq. 10b). 

Although exhaustive efforts have been made in the search for biologically acceptable catalysts, there are only a few examples of low toxicity, which mainly lead to atactic polymers of little practical use. Another route to gain control over the tacticity of PHB is the transformation of cheap building blocks to enantiomericaUy pure p-BL, which can be distilled off from the catalyst and polymerized with retention of the stereochemistry by ecofriendly initiators. This route combines many advantages. At first, even toxic metal centers can be chosen since the product can easily be separated from the catalyst and secondly, any tacticity of the polymer will be available by simply mixing enantiopure p-BL with the racemic mixture in the desired ratio. In this manner a fine-tuning of the mechanical properties becomes possible and easily performable (Fig. 36). 

Scheme 7 BiCl3-mediated chlorination of (S )-1 -phcny Icthanol with retention of the stereochemistry...

The glycosidases act by two different mechanisms which is revealed by the stereochemistry at the anomeiic centre of the product (McCarter and Withers, 1994). In one type of glycosidases the anomeiic centre is directly attacked by a hydroxide to give a product with inverted stereochemistry at the anomeiic centre. In the other mechanism, the anomeric centre is attacked by the carboxylate group of a glutamic acid residue to form an intermediate in which the carbohydrate moiety is covalently bound to the enzyme similar to in epoxide hydrolases (Figure 2.16) and serine hydrolases. Attack on this intermediate by a nucleophile leads to the net result which is retention of the stereochemistry at the anomeric centre. 

Crotyltri-n-butyltin, CH3CH=CHCH2Sn(C4H9-n)3 (1). (n-Bu)3SnLi reacts with (E)-or (Z)-crotyl chloride in THF at — 20 to form (E)- or (Z)-crotyltri-n-butyltin with complete retention of the stereochemistry of the double bond. 

Rearrangement of the acetate of the optically active cyanhydrin 463 proceeds stereoselectively to yield the oc,/ -unsaturated nitrile 464 with 89% ee [197]. Allyl trichloroacetimidate 465 is rearranged from O to N to give 466 at room temperature with retention of the stereochemistry [198]. 

The chiral aldehyde 88 was decarbonylated to give 89 with overall retention of the stereochemistry [45]. The unsaturated aldehyde in the polyfunctionalized molecule 90 was decarbonylated smoothly to afford alkene 91 [46]. The decarbonylation of aldehydes catalysed by a supported Pd or Rh complex is carried out at high... 

Another effect of the coordination is that the benzylic cation is also stabilized [63]. This stabilization is explained by delocalization of the positive charge due to the interaction of the d-orbital of Cr with the 71-orbital of the benzylic carbon, caused by the coordination of Cr(CO)3. Facile stereospecific Friedel- Crafts-type cyclization of the complex of the optically active benzyl alcohol 248 gave the tetrahydrobenzazepine 249 with retention of the stereochemistry, and the free amine 250 with 98% ee was... 

Stereoselectivity in the reaction of acyclic ketone 270 is different from that of the cyclic ketone 256. The acetate in 271, prepared by reduction of the ketone 270 to alcohol with LiAlH and acetylation, was displaced with Me A1 from the exo side to give 272 with retention of the stereochemistry. No racemization of benzyl cation was observed. However, reaction of 270 with MeLi gave 274. The OH group of 274 was removed with hydride from the less hindered side as shown by 275 to give 276 with... 

The following Pd-catalysed stereoselective transformations of 142 and 143 are possible. The Pd-catalysed reaction of the cis product 143 with malonate gives the coproduct 148 with retention of the stereochemistry. However, reaction of 143 without the Pd catalyst affords the trans product 149. The cis product 142 is a mesa form and can be converted to the chiral half ester 150 by enzyme-catalysed partial hydrolysis. 

The alkyl group migrates with the two electrons from its bond to boron and as a result the migration occurs with retention of the stereochemistry of the alkyl group. 

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