Regulation of Mo-cofactor, NADH- and NAD(P)H-specific nitrate reductase activities in the wild type and two nar-mutant lines of barley (Hordeum vulgare L.)

Seedlings of three genotypes of barley, Hordeum vulgare L.,cv. Winer, were grown in nutrient solutions for 12 d: (a) Wt,the wild type; (b) Chlo19 and (c) Chlo29, two nitrate reductase(NR) deficient nar-mutants. Nar-mutant plants grown in nitratedeveloped about 5–24% of NADH-NR (EC 1.6.6.1 EC] .) activitylevel characteristic of the Wt. The NR in vitro assays in whichNADH or NADPH were used as electron donors showed that the twomutant lines contained a mixture of NADH-specific and NAD(P)H-bispecific(EC 1.6.6.2 EC] .) NRs. Chlo19 had a very low level of MoCo activityas compared to Chlo29 and Wt. Chlo19 appeared to be mutatedin a MoCo gene rather than in the genes coding for the nitrateNR apoenzyme. NAD(P)H-NR was found in the shoots and roots of both mutantsbut only in the roots of Wt. Several aspects of the regulationof NADH and NAD(P)H specific NRs in plants of the barley cv.Winer genotypes are discussed. MoCo was a strong limiting factorfor NR biosynthesis in nitrate-fed plants of Chlo19, but lesslimited in N-starved and ammonium-fed plants. Biomass productionby the three genotypes was similar during first 12 d after germination,regardless of the level of NR detected in vitro. Mutant plantsmay be able to supply the nitrogen required for growth withonly 5–24% of the NR level of the WT. Key words: Hordeum vulgare, mutants, nitrate, nitrate reductase, molybdenum cofactor