The arylamine N-acetyltransferases (NAT; EC 2.3.1.5) are xenobiotic-metabolizing enzymes (XME) that catalyze the transfer of an acetyl group from acetylCoA (Ac-CoA) to arylamine, hydrazines and their N-hydroxylated metabolites. Eukaryotes may have up to three NAT isoforms, but Mesorhizobium loti is the only prokaryote with two functional NAT isoforms (MLNAT1 and MLNAT2). The three-dimensional structure of MLNAT1 has been determined (Holton, S.J., Dairou, J., Sandy, J., Rodrigues-Lima, F., Dupret, J.M., Noble, M.E.M. and Sim, E. (2005) Structure of Mesorhizobium loti arylamine N-acetyltransferase 1. Acta Cryst, F61, 14-16). No MLNAT2 crystals have yet been produced, despite the production of sufficient quantities of pure protein. Using purified recombinant MLNAT1 and MLNAT2, we showed here that MLNAT1 was intrinsically more stable than MLNAT2. To test whether different structural features could explain these differences in intrinsic stability, we constructed a high-quality homology model for MLNAT2 based on far UV-CD data. Despite low levels of sequence identity with other prokaryotic NAT enzymes ( approximately 28% identity), this model suggests that MLNAT2 adopts the characteristic three-domain NAT fold. More importantly, molecular dynamics simulations on the structures of MLNAT1 and MLNAT2 suggested that MLNAT2 was less stable than MLNAT1 due to differences in amino-acid sequence/structure features in the alpha/beta lid domain.