NH tautomerism in the dimethyl ester of bonellin, a natural chlorin

The NH protons of the chlorins (17,18-dihydroporphyrins) and fully conjugat ed porphyrins can undergo tautomerization between the four central nitrogen s. We have investigated the NH tautomerization process of bonellin dimethyl ester by NMR spectroscopy and molecular modeling. In this natural chlorin derivative, the tautomerization was observed to occur between the two degen erate N-21-H, N-23-H trans-tautomers. The dynamic H-1 NMR measurements show ed a coalescence temperature of 297 K for the total tautomeric exchange pro cess (N-21-H-a reversible arrow N-23-H-b). The free energy of activation De lta G(297)(double dagger) was calculated to be 14.4 kcal/mol on the basis o f the Eyring equation. The two-dimensional H-1 and N-15 heteronuclear singl e quantum coherence (HSQC) and heteronuclear multiple bond correlation (HMB C) NMR techniques were used to assign the 15N and NH proton resonances at n atural abundance. In addition to the strong N-15-H-1 one-bond correlations, the HSQC spectrum showed weak correlations between the diagonally opposite nitrogen and proton, thus providing clear evidence for the NH tautomeric e xchange. These weak correlations arise from the exchange between the NH pro tons after the refocusing period of the HSQC pulse sequence. The semiempiri cal molecular modeling methods AM1 and PM3 were used to estimate the energi es of the possible tautomers. The AM1 and PM3 methods with an unrestricted Hartree-Fock (UHF) spin-pairing option both favor strongly the chlorin taut omers in which an aromatic 18-atom 18 pi-electron delocalization pathway is possible without delocalizing the lone-pair electrons of N-24 in the reduc ed sub-ring. In the proposed tautomerization pathway, the fully aromatic N- 21-H, N-22-H and N-22-H, N-23-H cis-tautomers were found to be energeticall y more advantageous than the less aromatic N-21-H, N-24-H and N-23-H, N-24- H cis-tautomers. The stepwise tautomerization mechanism is concluded for th e proton transfer.