Syn-stereochemistry

The regioselectivity and syn stereochemistry of hydroboration-oxidation coupled with a knowledge of the chemical properties of alkenes and boranes contribute to our under standing of the reaction mechanism... 

Hydrogenation of alkynes may be halted at the alkene stage by using special catalysts Lindlar palladium is the metal catalyst employed most often Hydrogenation occurs with syn stereochemistry and yields a cis alkene... 

The syn stereochemistry of dibromocarbene cycloaddition was demonstrated in experiments using as- and trans-2 butene Give the structure of the product obtained from addition of dibromocarbene to each alkene... 

The first objective was the conversion of L-tryptophan into a derivative that could be converted to pyrroloindoline 3, possessing a cis ring fusion and a syn relationship of the carboxyl and hydroxyl groups. This was achieved by the conversions shown in Scheme 1. A critical step was e. Of many variants tried, the use of the trityl group on the NH2 of tryptophan and the t-butyl group on the carboxyl resulted in stereospecific oxidative cyclization to afford 3 of the desired cis-syn stereochemistry in good yield. 

One of the features that makes the hydrobora ( ion reaction so useful is the regiochemistry that results when an unsymmetrical alkene is hydroborated. For example, hydroboration/oxidation of 1-methylcyclopentene yields trans-2-methylcydopentanol. Boron and hydrogen both add to the alkene from the same face of the double bond—that is, with syn stereochemistry, the opposite of anti—with boron attaching to the less highly substituted carbon. During the oxidation step, the boron is replaced by an -OH with the same stereochemistry, resulting in an overall syn non-Markovnikov addition of water. This stereochemical result is particularly useful because it is complementary to the Markovnikov regiochemistry observed for oxymercuration. 

A second hydrogen is transferred from the metal to the second carbon, giving the alkane product and regenerating the catalyst. Because both hydrogens are transferred to the same face of the alkene, the reduction has syn stereochemistry. 

Figure 7.7 MECHANISM Mechanism of alkene hydrogenation. The reaction takes place with syn stereochemistry on the surface of insoluble catalyst particles.

Peroxyacids transfer an oxygen atom to the alkene with syn stereochemistry—both C-0 bonds form on the same face of the double bond-through a one-step mechanism without intermediates. The oxygen atom farthest from the carbonyl group is the one transferred. 

Hydration of an alkene—the addition of water—is carried out by either of two procedures, depending on the product desired. Oxymercuration involves electrophilic addition of Hg2+ to an alkene, followed by trapping of the cation intermediate with water and subsequent treatment with NaBH4. Hydroboration involves addition of borane (BH3) followed by oxidation of the intermediate organoborane with alkaline H202- The two hydration methods are complementary oxymercuration gives the product of Markovnikov addition, whereas hydroboration/oxidation gives the product with non-Markovnikov syn stereochemistry. 

Complete reduction to the alkane occurs when palladium on carbon (Pd/C) is used as catalyst, but hydrogenation can be stopped at the alkene if the less active Lindlar catalyst is used. The Lindlar catalyst is a finely divided palladium metal that has been precipitated onto a calcium carbonate support and then deactivated by treatment with lead acetate and quinoline, an aromatic amine. The hydrogenation occurs with syn stereochemistry (Section 7.5), giving a cis alkene product. 

Diols can be prepared either by direct hydroxylation of an alkene with 0s04 followed by reduction with NaHSOj or by acid-catalyzed hydrolysis of an epoxide (Section 7.8). The 0s04 reaction occurs with syn stereochemistry to give a cis diol, and epoxide opening occurs with anti stereochemistry to give a trans diol. 

Syn stereochemistry (Section 7.5) The opposite of anti. A syn addition reaction is one in which the two ends of the double bond react from the same side. A syn elimination is one in which the two groups leave from the same side of the molecule. 

Treatment of cyclic vinylaziridine 105 with organocuprates of the R2CuLi type proceeds in a highly syn-selective manner (Scheme 2.29) [46], The syn stereochemistry of the reaction reflects the effect of the acetonide group, which directs the nucleophilic attack to the less hindered a-face. The formation of SN2 products 109 from the cyclic (chlorovinyl)aziridine 107 can be explained by assuming a syn-SN2 ... 

Addition of ( )-enolates to ( )-l-nitropropene favors products with the syn stereochemistry while products with the anti stereochemistry are favored from the reaction of ( )-enolates with (Z)-1 -nitropropene. 

To recap, the reaction above is an addition of H and OH, with anti-Markovnikov regiochemistry, and syn stereochemistry. Now we have three important questions to answer ... 

Titanium enolates can be prepared from lithium enolates by reaction withatrialkoxy-titanium(IV)chloride,suchasfra-(isopropoxy)titaniumchloride.21 Titanium enolates are usually prepared directly from ketones by reaction with TiCl4 and a tertiary amine.22 Under these conditions, the Z-enolate is formed and the aldol adducts have syn stereochemistry. The addition step proceeds through a cyclic TS assembled around titanium. 

A 3 -benzyloxy ketone gives preferential 2,2 -syn stereochemistry through a chelated TS for several titanium enolates. The best results were obtained using isopropoxytitanium trichloride.112 The corresponding /(-boron enolate gives the 2,2 -anti-2,3-anti isomer as the main product through a nonchelated TS.110... 

Entries 4 and 5 are cases in which the oxazolidinone substituent is a 3-ketoacyl group. The a-hydrogen (between the carbonyls) does not react as rapidly as the y-hydrogen, evidently owing to steric restrictions to optimal alignment. The all -syn stereochemistry is consistent with a TS in which the exocyclic carbonyl is chelated to titanium. 

Another important family of elimination reactions has as its common mechanistic feature cyclic TSs in which an intramolecular hydrogen transfer accompanies elimination to form a new carbon-carbon double bond. Scheme 6.20 depicts examples of these reaction types. These are thermally activated unimolecular reactions that normally do not involve acidic or basic catalysts. There is, however, a wide variation in the temperature at which elimination proceeds at a convenient rate. The cyclic TS dictates that elimination occurs with syn stereochemistry. At least in a formal sense, all the reactions can proceed by a concerted mechanism. The reactions, as a group, are often referred to as thermal syn eliminations. 

Mechanistically, the nucleophilic addition can occur either by internal ligand transfer or by external attack. Generally, softer more stable nucleophiles (e.g., malonate enolates) are believed to react by the external mechanism and give anti addition, whereas harder nucleophiles (e.g., hydroxide) are delivered by internal ligand transfer with syn stereochemistry.120... 

Allylic silanes with y-alkoxy substituents also give a preference for the syn stereochemistry.179... 

The Tc02Tc ring system is readily detected in the IR spectrum by the presence of a strong asymmetric stretching mode at 710-700 cm-1 and a weaker symmetric mode at 515 — 450 cm-1. These assignments have been confirmed by 180 labelling. All known dimers have the syn stereochemistry in Fig. 6 and show two v(TcN) absorptions as a result of the in-phase (A in C2v symmetry) and out-of-... 

In contrast to the allyltitaniums derived from acrolein cyclic acetals, such as 1,2-dicyclo-hexylethylene acetal shown in Scheme 9.8, those derived from acrolein acyclic acetals react with ketones and imines exclusively at the y-position. As shown in Eq. 9.29, the reaction with chiral imines having an optically active 1-phenylethylamine moiety proceeds with high diastereoselectivity, thus providing a new method for preparing optically active 1-vinyl-2-amino alcohol derivatives with syn stereochemistry [53], The intermediate allyltita-nium species has also found use as a starting material for a carbozincation reaction [54],... 

A crystalline sample of this supramolecular assembly was irradiated with UV light and the formation of the corresponding cyclobutane 91 with syn-anti-syn stereochemistry was observed. In contrast, the photodimerisation of trans-stilbenoid-bis(dialkylammonium) salts does not take place in the absence of the macro cycle, indicating the importance of pre-organizing the stilbenoid units (which requires the presence of the anion) for this solid-state reaction to occur. 

The predominantly syn stereochemistry of the products arising from the bicyclo[3.2.1] octyl cation IV would results from the large ring strain in II, the chair conformation of which, (but not boat) facilitate the Wagner-Meerwein type rearrangement. 

The telluroxide elimination appeared initially to be of little value compared to the popularity of the analogous selenoxide elimination. However, after the previous results which established the syn stereochemistry of the elimination, more detailed investigations clearly demonstrated the synthetic utility of this methodology. ... 

---