Elimination-hydrolysis sequence

A possible reaction sequence that explains the formation of benzenecarbaldehyde involves nitrosation, E2 elimination, hydrolysis, and finally nitrosation. Write each of the steps involved in this sequence. Formation of N20 appears to take place by dimerization of the hypothetical substance HNO (2HNO----- N20 + H20). 

The a,p-double bond in amino acid derivatives and peptides represents, in addition to the amino and carboxy groups, the introduction of a third highly reactive function into the molecule. It is therefore pertinent in a discussion of the a,P-dehydroamino acids to devote some attention to their primary addition products, such as derivatives of a-mercapto- and a-hydroxy-a-amino acids. Further topics relevant in this context are their relationship to P-hydroxy- and P-mercapto-a-amino acid derivatives (elimination-addition sequence), as well as syntheses and reactions of pyruvoylamino acids, which result from the hydrolysis of dehydropeptides and can possibly serve as precursors of the latter by condensation with amino acid amides. On the other hand, p,y- and y S-dehydroamino acids will be excluded from the scope of this discussion. The isolated double bonds of these compounds undergo the normal olefin reactions and display no unusual characteristics. 

In E. coli GTP cyclohydrolase catalyzes the conversion of GTP (33) into 7,8-dihydroneoptetin triphosphate (34) via a three-step sequence. Hydrolysis of the triphosphate group of (34) is achieved by a nonspecific pyrophosphatase to afford dihydroneopterin (35) (65). The free alcohol (36) is obtained by the removal of residual phosphate by an unknown phosphomonoesterase. The dihydroneoptetin undergoes a retro-aldol reaction with the elimination of a hydroxy acetaldehyde moiety. Addition of a pyrophosphate group affords hydroxymethyl-7,8-dihydroptetin pyrophosphate (37). Dihydropteroate synthase catalyzes the condensation of hydroxymethyl-7,8-dihydropteroate pyrophosphate with PABA to furnish 7,8-dihydropteroate (38). Finally, L-glutamic acid is condensed with 7,8-dihydropteroate in the presence of dihydrofolate synthetase. 

Provided that the silanolate elimination proceeds with anti selectivity, it must be concluded, that the intermediate homoallylic alcohol has an anti configuration, and thus the reagent has an ( -configuration. Acidic hydrolysis of the enol ether leads to enones the overall sequence consists of a nucleophilic acroylation. This has also been applied in the total synthesis of the marine diterpene ( )-aplysin-2067. 

Hydrolysis of diphenyl phosphorochloridate (DPPC) in 2.0 M aqueous sodium carbonate is also believed to be a two-phase process. DPPC is quite insoluble in water and forms an insoluble second phase at the concentration employed (i.e. 0.10 M). It seems highly significant that the hydrophobic silicon-substituted pyridine 1-oxides (4,6,7) are much more effective catalysts than hydrophilic 8 and 9. In fact, 4 is clearly the most effective catalyst we have examined for this reaction (ti/2 < 10 min). Since derivatives of phosphoric acids are known to undergo substitution reactions via nucleophilic addition-elimination sequences 1201 (Equation 5), we believe that the initial step in hydrolysis of DPPC occurs in the organic phase. Moreover, the... 

Mechanistically, the compounds (162 X = O or S) and (163) represent two extremes in the base hydrolysis of phosphoramidates and phosphoramidothioates the former hydrolyse in an elimination-addition (EA) process whereas for the latter the sequence is one of addition followed by elimination AE). Further exploration of... 

Fig. 8.22. 2-[(Acyloxy)methyl]benzamides (8.187) as double prodrugs of active amines. Activation is by cyclization-elimination in a two-step sequence, namely hydrolase-catalyzed hydrolysis of the carboxylate moiety followed by an intramolecular nucleophilic substitution with...

All proteins and peptides display chemical and physical instability that affects the way they are distributed and cleared in the body and their delivery to the site of action. Physical and chemical instability is affected by primary sequences and secondary and tertiary structures and the degree of glyco-sylation of protein. Chemical degradation of proteins and peptides involves deamidation, racemization, hydrolysis, oxidation, beta elimination, and disulfide exchange. Physical degradation of proteins involves denaturation and aggregation. 

Ring closure of a 2-methoxyphenyl derivative of propanol to a chroman has also been achieved. Treatment of the aryloxazoline (259) with sodium hydride yielded the chroman (260) (81JOC783). The intramolecular nucleophilic displacement of the o-methoxy group is promoted through oxazoline activation and proceeds through an addition-elimination sequence. The initial attack involves coordination of the metal alkoxide to both the oxazoline moiety and the methoxy group, and aromatization follows with displacement of methoxide ion (Scheme 67). Hydrolysis of the oxazoline moiety to a carboxyl group has been accomplished. 

Although these protecting groups may seem bizarre, their value lies in the fact that they can be removed easily by acid-catalyzed hydrolysis under very mild conditions. The sequence of steps is shown in Equation 23-10 and involves proton transfer to the carbonyl oxygen and cleavage of the carbon-oxygen bond by an SN1 process (R = tert-butyl) or SN2 process (R = phenyl-methyl). The product of this step is a carbamic acid. Acids of this type are unstable and readily eliminate carbon dioxide, leaving only the free amine (also see Section 23-12E) ... 

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