The Interstitial Atom of the Nitrogenase FeMo-Cofactor: ENDOR and ESEEM Show It Is Not an Exchangeable Nitrogen

Abstract

A recent high-resolution X-ray crystallographic study (1.16 Å) of the Azotobacter vinelandii nitrogenase MoFe protein revealed a previously undetected electron density associated with the active site FeMo-cofactor. The density is located inside the cluster at the center of the “trigonal prism” of six irons and is assigned to a species “X”. The identity of species X was not resolved, although the electron density is consistent with a single N, O, or C atom. One proposal is that X is an N atom that derives from and exchanges with N from N₂ during catalysis. In the present study, we have examined this possibility by employing ¹⁴N and ¹⁵N isotopes of N₂ along with ENDOR and ESEEM spectroscopies. The WT MoFe protein and α-359^Arg→Lys and α-381^Phe→Leu variants were allowed to turn over in the presence of ¹⁴N₂ or ¹⁵N₂, and then were examined as resting enzymes by ENDOR and ESEEM at X- and Q-bands to look for all ¹⁴N and ¹⁵N signals coupled to the electron spin of the FeMo-cofactor and to determine if any exchanged during turnover. We have found five peaks in Q-band pulsed ENDOR spectra that appear to arise not only from previously reported N1/N2, which give rise to the ESEEM, but also from one or two additional coupled nitrogens. None of the ENDOR and ESEEM signals vanish or are altered by catalytic turnover with ¹⁵N₂, and no new ¹⁵N signal is detected, leading to the conclusion that if species X is a nitrogen atom, it does not exchange during dinitrogen reduction.