Deamination-rearrangement

Deaminative Rearrangements Generation of Seven- and Eight-Membered Iso- and... 

Configuration, inversion of -Cope rearrangement Comforth oxazole rearrangements deamination-rearrangement homoallyl -migration... 

Deamination of primary amines to rearranged alcohols (via diazonhjm compounds) with ring contraction or enlargement for alicyclic amines... 

When a cyclic /3-amino alcohol—e.g. 1—is treated with nitrous acid, a deamination reaction can take place, to give a carbenium ion species 2, which in turn can undergo a rearrangement and subsequent loss of a proton to yield a ring-enlarged cyclic ketone 3. This reaction is called the Tiffeneau-Demjanov reactionit is of wider scope than the original Demjanov reaction ... 

The analogons deamination reaction is not observed in l-methyl-2 -deoxy-adenosine nncleosides. ° Rather, in the adenine series, the Dimroth rearrangement occnrs (Scheme 8.4). On the contrary, in styrene adducts of 2 -deoxyadenosine, the hydroxyl residue of the adduct undergoes intramolecular reaction with the base to initiate deamination (Scheme 8.6). ° ° Similarly, cytosine residues bearing styrene adducts at the N3-position undergo rapid deamination (nearly complete deamination is seen within 75h). °°... 

This is clearly demonstrated in the pinacolinic deamination (cf. p. 114) of an optically active form of the amino-alcohol (50). Such reactions proceed from a conformation (antiperiplanar 50a or 50b) in which the migrating (Ph) and leaving (NH2 as N2 cf. p. 114) groups are TRANS to each other. Rearrangement via a bridged carbocation would necessarily lead to 100% inversion at the migration terminus in the product ketone (5lab), whichever initial conformation, (50a) or (50b), was involved ... 

This means that the ionization and rearrangement need not be concerted and that symmetrical protonated ethylene can not be a major intermediate in the reaction. A similar experiment with isobutylamine and nitrous acid in heavy water gave products that contained no carbon-deuterium bonds. Since it is known that the -complex formed from isobutylene and acid is in rapid equilibrium with protons from the solvent, none of this can be formed in the nitrous acid induced deamination. This in turn makes it probable that the transition state for the hydrogen migration is of the sigma rather than the -bonded type.261... 

The aroyl-substituted heterocyclic ketene aminals 482 react with 4-chlorophenyl azide to give polysubstituted 1,2,3-triazoles 483 and imidazo[ 1. Z-r 1.2,4]triazoles 39 (Equation 112) <2000HAC387>. Polysubstituted 1,2,4-triazoles are formed by the nucleophilic attack of the ct-carbon of the azide. Then, through the cyclocondensation and aromatization sequences, the fused heterocycles resulted by a 1,3-dipolar addition at first, and then through a Dimroth rearrangement and deamination of chloroaniline <1992JOC184>. 

There is indirect kinetic evidence that S-nitrosation of a sulphide occurs70, followed by a S to IV rearrangement of the nitroso group, leading finally to deamination (equation 31). The evidence is based on the much higher reaction rate when the sulphur atom is present. 

Eliminating deamination takes place in the degradation of histidine and serine. H2O is first eliminated here, yielding an unsaturated intermediate. In the case of serine, this intermediate is first rearranged into an imine (not shown), which is hydrolyzed in the second step into NH3 and pyruvate, with H2O being taken up. H2O does not therefore appear in the reaction equation. 

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