Abstract— With respect to literature data, which seemed to be contradictory, we examined the fate of ethylenediaminetetraacetate (EDTA) and nitrilotriacetate (NTA) in flavin‐sensitized photooxidation reactions by quantitation of all possible products, i.e. CO2 by acidimetric titration, CH2O by colometry and glyoxylate enzymatically; N‐methyl groups were quantified by 1H‐NMR. Nitrilotriacetate yields 100% oxidative photodecarboxylation with CH2O formation, while EDTA behaves quite differently, yielding quantitative amounts of CO2 and glyoxylate, but no CH2O. The electron balance in this reaction is found to be maintained by co‐formation of one equivalent >N‐CH3. From these data it is concluded that the photooxidation of the structural element >NCH2C02 containing a tertiary nitrogen atom, occurs by electron transfer, followed by decarboxylation. The neutral radical that is formed is reductant and will give off an electron equivalent to yield the easily hydrolysed structural element >N+= CH2. With EDTA, containing the fragment –O2CCH2 >NCH2CH2N< CH2CO2–, the electron transfer towards flavin is strongly favoured by stabilisation of a cisoid mesomeric radical cation (02cch2 >+ NCH2CH2NCH2CO2 o2cch2 >NCH2CH2N+CH2CO2), which, after loss of CO2 undergoes internal 1,6‐hydrogen shift to yield the more stable radical: CH2>CH2CH2N CH2CO2CH2lt NCH2CH2NHCO2. The latter radical will easily be oxidized to the iminium ion >N*= CH‐C02‐. which in turn hydrolyses to glyoxylate. Chelation of EDTA by metal cations prevents the 1,6‐hydrogen shift, and leads to the product pattern obtained in the NTA photoreaction.
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