The "bridging" aspartate 178 in phthalate dioxygenase facilitates interactions between the Rieske center and the iron(II)--mononuclear center.

Phthalate dioxygenase (PDO) and its reductase are parts of a two-component Rieske dioxygenase system that initiates the aerobic breakdown of phthalate by forming cis-4,5-dihydro-4,5-dihydroxyphthalate (DHD). Aspartate D178 in PDO, located near its ferrous mononuclear center, is highly conserved among Rieske dioxygenases. The analogous aspartate has been implicated in electron transfer between the mononuclear iron and Rieske center in naphthalene dioxygenase [Parales et al. (1999) J. Bacteriol. 181, 1831-1837] and in substrate binding and oxygen reactivity in anthranilate dioxygenase [Beharry et al. (2003) Biochemistry 42, 13625-13636]. The effects of substituting D178 in PDO with alanine or asparagine on the reactivity of the Rieske centers, phthalate hydroxylation, and coupling of Rieske center oxidation to DHD formation were studied previously [Pinto et al. (2006) Biochemistry 45, 9032-9041]. This work describes effects that D178N and D178A substitutions have on the interactions between the Rieske and mononuclear centers in PDO. The mutations affected protonation of the Rieske center histidine and conformation of subunits within the PDO multimer to create a more open structure with more solvent-accessible Rieske centers. When the Rieske centers in PDO were oxidized, D178N and D178A substitutions disrupted communication between the Rieske and Fe-mononuclear centers. This was shown by the lack of perturbations of the UV-vis spectra on phthalate binding to the D178N and D178A variants, as opposed to that observed in WT PDO. However, when the Rieske center was in the reduced state, communication between the centers was not disrupted. Phthalate binding similarly affected the rates of oxidation of the reduced Rieske center in both WT and mutant PDO. Nitric oxide binding at the Fe(II)-mononuclear center, as detected by EPR spectrometry of the Fe(II) nitrosyl complex, was regulated by the redox state of the Rieske center. When the Rieske center was oxidized in either WT or D178N PDO, NO bound to the mononuclear iron in the presence or absence of phthalate. However, when the Rieske center was reduced, NO bound only when phthalate was present. These findings are discussed in terms of the "communication functions" performed by the bridging Asp-178.