Hydrolysis stereospecific

The hydrolysis of sulfonate esters of 2 octanol is stereospecific and proceeds with complete inversion of configuration Write a structural formula that shows the stereochemistry of the 2 octanol formed by hydrolysis of an opti cally pure sample of (S) (+) 1 methylheptyl p toluenesulfonate identify the prod uct as / or S and deduce its specific rotation... 

Certain neutral technetium complexes can be used to image cerebral perfusion (Fig. 4). Those in Figure 4a and 4b have been approved for clinical use. Two other complexes (Fig. 4c and 4d) were tested in early clinical trials, but were not developed further. An effective cerebral perfusion agent must first cross the blood brain barrier and then be retained for the period necessary for image acquisition. Tc-bicisate is retained owing to a stereospecific hydrolysis in brain tissue of one of the ester groups to form the anionic complex TcO(ECD) , which does not cross the barrier. This mechanism of retention is termed metaboHc trapping. 

Chirazymes. These are commercially available enzymes e.g. lipases, esterases, that can be used for the preparation of a variety of optically active carboxylic acids, alcohols and amines. They can cause regio and stereospecific hydrolysis and do not require cofactors. Some can be used also for esterification or transesterification in neat organic solvents. The proteases, amidases and oxidases are obtained from bacteria or fungi, whereas esterases are from pig liver and thermophilic bacteria. For preparative work the enzymes are covalently bound to a carrier and do not therefore contaminate the reaction products. Chirazymes are available form Roche Molecular Biochemicals and are used without further purification. 

A method for achieving net anti hydroxylation of alkenes combines two stereospecific processes epoxidation of the double bond and hydrolysis of the derived epoxide. 

Scheme 27).43b A regiospecific monohydroboration of enyne 107 with disiamylborane furnishes (A)-vinylborane 108, a substance that combines stereospecifically with vinyl iodide 109 under the indicated conditions to give conjugated triene 110 (52% overall yield). Trisporol B benzyl ether (111) is obtained after acid-induced hydrolysis of the dioxolane ketal functions.

Optically active sulphoxides 311 and 312 have been prepared stereospecifically either by hydrolysis of the optically active sulphonium salt 313 or by the reaction of p-tolyl magnesium bromide with optically active sulphinate 314, respectively377 (equations 167 and 168). 

The dilithio derivative of A-methanesulfinyl-p-toluidine (29) adds to aldehydes and ketones to give, after hydrolysis, the hydroxysulfinamides (30), which, upon heating, undergo stereospecifically syn eliminations to give alkenes. ° The reaction is thus a method for achieving the conversion RR CO — RR C=CH2 and represents an alternative to the Wittig reaction. ... 

It has been shown that alkaline hydrolysis of both isomers of (91) gives the same ring-expanded oxide (92) of unknown geometry, presumably because rapid pseudorotation leads to equilibration of the intermediates. Alkaline hydrolysis of the dialkoxyphosphetanium salts (93) proceeds with almost complete lack of stereospecificity. In this case the authors... 

On the other hand, it is found that only partial racemization occurs on alkaline hydrolysis of optical active 198 in aqueous methanol136) and no racemization takes place in the hydrolysis of 199 in dioxane/water137). Moreover, the latter reaction is only ca. 80 times faster at 29 °C than that of the analogous morpholide 200, for which a metaphosphorimidate mechanism is precluded a priori by the absence of an NH function and whose hydrolysis is likewise stereospecific,37). Clearly a free metaphosphorimidothioate of type 191 cannot be involved in this case. The experimental findings are compatible, however, with the hypothesis that the nucleophile water attacks a metaphosphorothioimidate/phenolate associate 201. The question of how free metaphosphates occur in solution is of a general nature it has also been considered in the previous Section. 

Kanegafuchi Chemical Industries produce D-p-hydroxyphenyl glycine, which is a key raw material for the semisynthetic penicillins ampicillin and amoxycillin. Here, an enantioselective hydantoinase is applied to convert the hydantoin to the D-p-hydroxyphenyl glycine. The quantitative conversion of the amide hydrolysis is achieved because of the in situ racemization of the unreacted hydantoins. Under the conditions of enzymatic hydrolysis, the starting material readily racemizes. Therefore, this process enables the stereospecific preparation of various amino acids at a conversion of 100% [38]. 

Figure 11.4 The overall result of epoxidation followed by acid-catalyzed hydrolysis is a stereospecific anti hydroxylation of the double bond. ds-2-Butene yields the enantiomeric 2,3-butanediols tra x-2-butene yields the meso compound.

Epoxidation of the 3,4-dihydrodiol with m-chloroperbenzoic acid afforded stereospecifically the corresponding anti diol epoxide (74). Peracid oxidation of the bay region 1,2-dihydrodiol gave a mixture of the anti and syn diol epoxide diastereomers. Assignment of the major isomer as syn was made through analysis of the NMR spectra of the acetates of the tetraols formed on hydrolysis of the individual diol epoxides (42). Peracid oxidation of the 10,11-dihydrodiol is reported to yield the corresponding anti diol epoxide (12). However, it is likely for steric reasons that the syn isomer is also formed. 

As with several other functional groups considered earlier, epoxides are most commonly found in alkaloid metabolites rather than the original compound. These epoxides may arise via oxidation of alkenes or aromatic hydrocarbons. Epoxide hydrolase catalyzes hydrolysis of epoxides to the more hydrophilic diol. As seen in Scheme 6, this is usually a stereospecific reaction that always yields a... 

Chloromethylphosphonamide 104 has been alkylated with diastereoselectivities up to >95%. The corresponding azido compounds 106 were obtained by nucleophilic displacement, with partial to full stereospecificity <2000HA528>. This two-step process can lead to aminophosphonic acids after reduction of the azido group and hydrolysis of the chiral appendage (Scheme 7). 

Coates cation [51], originally proposed to account for the exceptionally rapid stereospecific hydrolysis of the />-nitrobenzoate [59] (Coates and Kirkpatrick, 1970), joins the ranks of the well-established trishomoaro-matics. Proton and l3C NMR observations on [51] (and a methyl and phenyl derivative) supported the symmetrical delocalized nature of this ion (Coates... 

Trimethylsilylation of enolizable carbonyl compounds and alcohols has also been accomplished by the fluoride ion promoted reaction with hexamethyldisilane and ethyl trimethylsilylacetate [48, 49], with high stereospecificity giving Z-enol ethers from ketones [50]. l-Trimethylsilyl-(l-trimethylsilyloxy)alkanes, produced from the reaction of aldehydes with hexamethyldisilane, undergo acid-catalysed hydrolysis during work up to yield the trimethylsilylcarbinols [51]. In the case of aryl aldehydes, the initially formed trimethylsiloxy carbanion produces the pinacol (Scheme 3.1). 

H. Uzawa, Y. Nisbida, H. Ohrui, H. Meguro, A New Approach to Determine the Stereospecificity in Lipase Catalyzed Hydrolysis Using Circular Dichroism (CD) Lipases Produce Optically Active Diglycerides from Achiral Triglycerides , Biochem. Biophys. Res. Commun. 1990, 168, 506-511. 

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