Flavine nucleotide nitrate reductase from broad bean leaves

Abstract

Hydrosulfite-reduced FMN served as an electron donor for nitrate reductase purified from broad bean leaves. FMN was successfully replaced with BV. The flavine nucleotide nitrate reductase had its pH optima at about 7.8 with phosphate buffer and at about 7.4 with Tris-HCl buffer. The Km's for nitrate and FMN were 3.7 × 10⁻⁴M and 3.7 × 10⁻⁵M, respectively. NADH₂: nitrate reductase activity was completely inhibited by 0.1 mMp-CMB, whereas FMNH₂: nitrate reductase activity was not. Inhibited activity was restored by the addition of cysteine. A sulfhydryl enzyme is involved in the NADH₂: nitrate reductase system but not in the FMNH₂ : nitrate reductase system. NADH₂ and FMNH₂ probably feed electrons into the electron transport chain at different sites. The nitrate reductase preparation had an NADH₂-specific diaphorase activity which was almost completely inhibited by 0.1 mMp-CMB. The NADH₂-specific diaphorase may form the sulfhydryl enzyme which mediates electron transfer between NADH₂ and nitrate.