Diastereomers epimers

Define chiral, enantomer, diastereomer, epimer, anomer (see Chapter 4), prochiral (see Chapter 9). What is meant by the statement that biochemical reactions are stereochemically specific Why is such stereospecificity to be expected in organisms (which are constructed from asymmetric units) See Chapter 9 for further discussion. 

C is correct. Diastereomers - epimers, anomers, and geometric isomers - are stereoisomers that are not mirror images of each other. A meso compound is an achiral molecule, which is identical to its mirror image. 

Determine which of the following sugar pairs are enantiomers, diastereomers, epimers, or an aldose-ketose pair. 

Diastereomers may be either chiral or achiral. For example, the cisjtrans 1,2-dibromoethylenes represent an achiral diastereomer pair, whereas threose/erythrose are chiral diastereomers. Epimers are a subclass of diastereomers in that they are molecules with several asymmetric centers with one being different and all the other centers being exactly the same. 

Several stereochemical labels have been developed for diastereomers. Epimers are diastereomers that differ in configuration at only one of several chiral centers. The chiral center at which the difference in configuration occurs is said to be the epimeric center. Structures 69 and 70 are epimeric at C4. Anomers are epimers in the carbohydrate series that differ only at the... 

Complex 66 is supposed to be present as a mixture of two diastereomers (epimers). Rapid interconversion between them relative to reductive elimination enables the dynamic kinetic resolution to take place. The striking performance of 2-iodo-A,A-diisopropylbenzamides was not mechanistically investigated but coordination of the amide carbonyl group to the Pd centre, forming a five-membered palladacycle, was suggested. 

Epimers (Section 25 21) Diastereomers that differ in configu ration at only one of their stereogenic centers... 

Diastereomers which differ at a single stereocenter are called epimers. 

Ebumamonine was assembled utilizing a Pictet-Spengler cyclization of hydroxy-lactam 52 in the presence of trifluoroacetic acid at low temperature to give a mixture of diastereomers 53 in 95% yield. These compounds were readily separated by chromatography and the a-epimer was further elaborated to give the natural product. 

Dezocine (30) represents a class of bridged aminotetralins possessing morphine-like analgesic properties. It appears to be roughly equivalent in potency and addiction potential to morphine. The molecule combines molecular features of precedent aminotetralins and benzomor-phans and its structure fits the classical Morphine Rule. The 1-enantiomer is the more active and the p-epimer (equatorial NHj) is the active diastereomer. 

In the special case where two diastereomers differ at only one chirality center but are the same at all others, we say that the compounds are epimers. Cholestanol and coprostanol, for instance, are both found in human feces and... 

Some molecules have more than one chirality center. Enantiomers have opposite configuration at all chirality centers, whereas diastereomers have the same configuration in at least one center but opposite configurations at the others. Epimers are diastereomers that differ in configuration at only one chirality center. A compound with n chirality centers can have a maximum of 2n stereoisomers. 

Ueno and coworkers49 have developed a procedure for the synthesis of chiral sulfinic acids. Treatment of (R)-( + )-23 with disulfide 24 and tributylphosphine in THF gave (S)-( — )-25. Compound 25 was oxidized with potassium permanganate to the sulfone, which was then reduced to the sulfinic acid, (S)-( — )-26, by treatment with sodium borohydride. Conversion of 26 or an analog to an ester would lead to diastereomers. If these epimers could be separated, then they would offer a path to homochiral sulfoxides with stereogenic carbon and sulfur atoms. 

Also the novel antifungal antibiotic (-)-PF1163B (211), isolated from Strep-tomyces sp., which features a 13-membered macrocycle incorporating both a lactone and a lactam unit, was synthesized by an RCM route (Scheme 42) [101]. While only poor results were obtained by treatment of diene 210 (containing 8% of an unidentified epimer) with catalyst A, the use of NHC catalyst C led, under the conditions outlined in the scheme, to the corresponding cyclization product in 60% yield along with 10% of a diastereomer resulting from epimer-ization in a previous step. 

Similarly, the oxazoHdine (it,S)-147, obtained as a mixture of epimers at C2 from N,N-dibenzyl (it)-phenylalaninal and hl-benzyl (S)-valinol, reacted with Grignard reagents to form in situ the iminium ion 148, from which the diamino alcohols 149 were produced as a single diastereomer [71 ] (Scheme 23). On the other hand, when the oxazoHdine derived from the (S)-aldehyde was used, the diamino alcohol was obtained as a 70 30 mixture of diastereomers. Alhough the preparation of the primary 1,2-diamines was not explored in that paper, compoimds 149 would be the precursors of the syn 1,2-diamine... 

Arenesulfinate esters are usually prepared from an arenesulfinyl chloride and an alcohol in ether and pyridine. The arenesulfinyl chloride is usually prepared from the sodium arenesulfinate which is made by reduction of the arenesulfonyl chloride, preferably by aqueous sodium sulfite. After the crystalline sulfinate epimer has been removed by filtration, the equilibrium between the epimers remaining in the mother liquor may be reestablished by the addition of hydrogen chloride as shown by Herbrandson and Cusano . In this way the yield of the least soluble diastereomer may be increased beyond that which exists in the original reaction mixture (Scheme 1). Solladie prepared sulfinate ester 19 in 90% yield using this technique and published the details of his procedure. Estep and Tavares also published a convenient recipe for this method, although their yields were somewhat lower than Solladie s. 

As an alternative, Harpp and coworkers reacted benzenesulfinyl chloride with the trimethylsilyl derivative of menthol to form the diastereomeric esters in 91% yield the epimer of configuration R could be isolated by crystallization in unspecified yield. Grossert and coworkers prepared ester 19 in 51% yield as a mixture of diastereomers by treating p-toluenesulfonyl chloride with sodium p-toluenesulfinate in DMF containing menthol. It was postulated that initial nucleophilic attack by the sulfinate oxygen on the sulfonyl sulfur atom gave the mixed sulfonate-sulfinate anhydride 21, which then reacted... 

Although menthyl esters, especially 19, are most often used to prepare sulfoxides, esters derived from optically active alcohols other than menthol have been prepared . Ridley and Smal prepared arenesulfmic esters of 1,2 5,6-di-O-cyclohexylidene-a-D-glucofuranose. Unfortunately, these diastereomers were oils, except for the mesityl derivative, with the major epimer having configuration R at sulfur and so they offered no advantage over the menthyl esters. Separation of the epimers by chromatography failed. 

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