Diastereoisomers diastereomers

Diastereoisomers. Whereas compounds with one chiral center exist as an enantiomorphic pair, molecules with two or more chiral centers also exist as diastereoisomers (diastereomers). These are pairs of isomers with an opposite configuration at one or more of the chiral centers, but which are not complete mirror images of each other. An example is L-threonine which has the 2S, 3R configuration. The diastereoisomer with the 2S, 3S configuration is known as i-a//o-threonine. L-isoleucine, whose side chain is -CH(CH3) CH2CH3, has the 2S, 3R configuration. It can be called 2(S)-amino-3(R)-methyl-valeric acid but the simpler name L-isoleucine implies the correct configuration at both chiral centers. 

Cis-trans isomers Other diastereoisomers (diastereomers) (geometric isomers) (2 or more chiral carbons)... 

Since there are two possible configurations for an asymmetrically substituted carbon atom, a structure containing n such centres will, in theory, possess 2 stereoisomers. The actual number of stereoisomers that exist may be less than this due to steric effects. Compounds that have the same stereochemistry at one chiral centre but different stereochemistry at the others are known as diastereoisomers (diastereomers) a good example is given by the alkaloids ephedrine and pseudoephedrine. Ephedrine (the (1R, 2S) diastereoisomer) is a natural product isolated from Ephedra (the Ma Huang plant) and known to Chinese medicine for over 3000 years. It was used in the last century for the treatment of asthma. Pseudoephedrine (the (IS, 2S) diastereoisomer) is a decongestant and a constituent of several over-the-counter cold and flu remedies (Figure 4.12). 

The validity of the model was demonstrated by reacting 35 under the same reaction conditions as expected, only one diastereoisomer 41 was formed, the structure of which was confirmed by X-ray analysis. When the vinylation was carried out on the isothiazolinone 42 followed by oxidation to 40, the dimeric compound 43 was obtained, showing that the endo-anti transition state is the preferred one. To confirm the result, the vinyl derivative 42 was oxidized and the intermediate 40 trapped in situ with N-phenylmaleimide. The reaction appeared to be completely diastereoselective and a single diastereomer endo-anti 44 was obtained. In addition, calculations modelling the reactivity of the dienes indicated that the stereochemistry of the cycloaddition may be altered by variation of the reaction solvent. 

Reaction of 2-[A -(rra -crotyl)-A -benzylamino]-3-formyl-4/f-pyrido[l,2-n]pyrimidin-4-one (269) with chiral primary amines 270 and 271 gave mixtures of diastereoisomers of tetracyclic compounds 273 and tricyclic 275 (96T131]]). The chiral centers in 272 and 274 did not provide any stereocontrol for the formation of diastereomers 273 and 275, respectively. 

The submitters report obtaining 1.29 (12%) of the c/.v-diastereoisomer and 8.39 g (80%) of the trans-diastereoisomer. The submitters recommend that the purified diastereomers be stored in the freezer (-18°C). Both pure isomers slowly equilibrate to a 21 79 mixture of cis/trans isomers upon standing at ambient temperature for several weeks. 

Diastereoisomer Stereoisomers with two or more chiral centers and where the molecules are not mirror images of one another, for example, d-erythrose and D-threose often contracted to diastereomer. 

It is to be noted that geometrical isomers are now also classified as diastereoisomers. Therefore diastereomers are any stereoisomers which are not enantiomers of each other and the term is not restricted to optical isomers only. 

Hydroxyacyl analogues were prepared as a mixture of two diastereomers. In the case of 3-hydroxyhexanoyl (R=C3H7), the two diastereoisomers were successfully separated by HPLC. The absolute stereochemistry at the 3-hydroxy centre in either of the isomer was not established [15]. 

The other two isomers are the (15,25) and (IR,2R) isomers, and these two also share a mirror image relationship, have the opposite configuration at both chiral centres, and are, therefore, a pair of enantiomers. From a structure with two chiral centres, we thus have four stereoisomers that consist of two pairs of enantiomers. Stereoisomers that are not enantiomers we term diastereoisomers, or sometimes diastereomers. Thus, the (15,25) and (1R,2R) isomers are diastereoisomers of the (l/f,25) isomer. Other enantiomeric or diastere-omeric relationships between the various isomers are indicated in the figure. 

The allylic alkylation products represent useful synthons, as exemplified by the reaction sequence outlined in Scheme 10.4. For example, reductive ozonolysis of the allylic alkylation product 15 afforded the y-lactone 16 as a single diastereoisomer. Sequential alkylation with methyl iodide, and reductive alkylation using lithium naphthalenide with allyl iodide furnished the ternary-quaternary substituted y-lactones 17a/17b in 72% overall yield, as a 10 1 mixture of diastereomers favoring 17a [18]. This method provides a versatile approach to the construction of a variety of a-quaternary-/9-ternary stereogenic centers. 

Figure 1.28 NMR spectra obtained after saturation transfer of the P nucieus trans to amide in the [Rh(dipamp)(enamide)] diastereoisomer 103a. Direct exchange of magnetisation is observed between the atoms trans to amide in the diastereomers 103a and 103b. The arrows pointing upwards indicate the most affected resonance. The proposed mechanism of intramolecular equilibration of 103a and 103b is shown.

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