Construction of a vnfH::lacZ fusion and study of expression from the vnfH promoter of the vanadium-dependent nitrogen fixation pathway in Azotobacter vinelandii

Abstract A lac fusion of the vnfH promoter of Azotobacter vinelandii has been constructed. An upstream sequence seems to be necessary for the activity of the promoter. The repression of expression of this promoter by fixed nitrogen is several-fold lower compared to that of the nifH promoter. Vanadium has no role in the expression of the nifH or the vnfH promoter. Molybdenum is essential for the nifH promoter and represses the vnfH promoter. Tungsten can substitute molybdenum in its regulatory role. ntrA and vnfA are essential for the expression of vnfH , but ntrC has no role.     

The stability of the molybdenum-azotochelin complex and its effect on siderophore production in Azotobacter vinelandii

 Azotobacter vinelandii produces five siderophores with different metal binding properties, depending on the concentrations of Fe(III) and molybdate in the growth medium. The three lower protonation constants of the unusual bis(catecholamide) siderophore azotochelin (L) were determined by a simultaneous spectrophotometric and potentiometric titration as log K ₅=3.65(5), log K ₄=7.41(3) and log K ₃=8.54(4). The metal-ligand equilibrium constant for [MoO₂(L)]^3– was obtained from analysis of the absorbance concentration data: at 20  °C and pH 6.6, log K _eq=4(1). Based on an average log K _a value of 12.1 for the two basic phenolic oxygens of azotochelin, the equilibrium formation constant was converted into the conventional formation constant K _f(MoL) = [MoO₂L^{3 –}]/[MoO₂ ²⁺][L^{5 –}] = 10³⁵ M^–1. To assess the influence of molybdenum-siderophore interactions on metal uptake in A. vinelandii, the dose-response effect of molybdate in the growth medium on siderophore biosynthesis was followed by UV-vis spectroscopy and HPLC. It could be shown that the formation of molybdenum siderophore complexes clearly reduces the concentration of free siderophores available for iron solubilization. Furthermore, in media with initial molybdate concentrations up to 100 μM, the molybdenum azotochelin complex is the predominant molybdenum species, suggesting that azotochelin might also possess sequestering activity towards molybdenum. Even higher molybdate levels result in a complete repression of the synthesis of the tetradentate siderophore azotochelin, while they initiate the alternative release of the more efficient iron chelator, the hexadentate siderophore protochelin. Received: 20 April 1998 / Accepted: 29 June 1998     

Effects of Mannose on the Growth of N2-Fixing Azotobacter vinelandii

Mannose is not a suitable substrate for N₂-fixing Azotobacter vinelandii. However, when H₂ gas is provided, A. vinelandii can grow mixotrophically with H₂ as the energy source and mannose as the carbon source (T.-Y. Wong and R. J. Maier, J. Bacteriol. 163:528-533, 1985). In this report, seven sugars were used to determine whether A. vinelandii could derive energy from these sugars for mannose utilization. Supplementation of fructose- or galactose-limited medium with mannose did not influence the biomass produced by N₂-fixing A. vinelandii. The presence of mannose in glucose- or maltose-limited cultures increased cell yield slightly. The addition of mannose decreased the total biomass in the melibiose-limited culture slightly. Mannose was a potent inhibitor of growth when sucrose or turanose was used as the primary sugar. The inhibitory effect of mannose on utilization of sucrose and turanose seems to be related to the energy requirement of the N₂-fixing processes.     

Role of Putrescine in the Regulation of the Expression of the Oxidative Stress Defense Genes of Escherichia coli

The role of putrescine in the adaptive response of Escherichia coligrown aerobically in synthetic M9 medium with glucose to the H₂O₂-induced oxidative stress was studied. Under oxidative stress, the expression of the single-copy reporter gene fusions oxyR"::lacZand katG"::lacZwas found to undergo biphasic changes, which were most pronounced in glucose-starved E. colicells. The concentration-dependent activating effect of putrescine on the expression of the OxyR regulon genes was maximum when theoxyRgene was inhibited by high concentrations of hydrogen peroxide.     

Ascorbate-2-phosphate inhibition of ascorbate-2-sulfate sulfohydrolase from bovine liver.

The hydrolysis of ascorbate-2-sulfate by the enzyme, ascorbate-2-sulfate sulfohydrolase, purified from bovine liver has been shown to be powerfully inhibited by ascorbate-2-phosphate. The inhibition by ascorbate phosphate is competitive with a K_I of 0.3 μM. Na₂HPO₄ also inhibits by an apparent non-competitive process. The Na₂HPO₄ concentration at 50% inhibition is 7.7 μM. A possible control role for ascorbate phosphate in ascorbate biochemistry is suggested.     

Effect of redox mediators on nitrogenase and hydrogenase activities in Azotobacter vinelandii

In bioelectrochemical studies, redox mediators such as methylene blue, natural red, and thionine are used to studying the redox characteristics of enzymes in the living cell. Here we show that nitrogenase activity in Azotobacter vinelandii is completely inhibited by oxidized methylene blue (MB_o) when the concentration of this mediator in the medium is increased up to 72 M. This activity in A. vinelandii is somewhat inhibited by a coenzyme, ascorbic acid (AA). However, the nitrogenase activity within the A. vinelandii cell is unchanged even for a high concentration of oxidized natural red (NR_o) alone. Interestingly, these mediators and AA do not have the capacity to inhibit the H₂ uptake activity of the hydrogenase in A. vinelandii. Average active rates of 66 nM H₂ evolved/mg cell protein/min from the nitrogenase and 160 nM H₂-uptake/mg cell protein/min from the hydrogenase in A. vinelandii are found in aid of the activities of the enzymes for H₂ evolution and for H₂ uptake are compared. The activities of both enzymes in A. vinelandii are strongly inhibited by thionine having high oxidative potential. Mechanisms of various mediators acting in vivo for both enzymes in A. vinelandii are discussed.     

Glucose transport in membrane vesicles from Azotobacter vinelandii,: Properties of the glucose carrierin situ

The active transport of d-glucose by membrane vesicles prepared from Azotobactervinelandii strain O is coupled to the oxidation of l-malate. The glucose carrier, but not the energy coupling system of the vesicles, is induced by growth of the cells on d-glucose medium. Vesicles isolated from A. vinelandii grown in the presence of sucrose or acetate accumulate glucose at less than 7% of the rate observed for vesicles from glucose-grown cells. Nevertheless, vesicles from sucrose- or acetate-grown cells transport sucrose or calcium, respectively, in the presence of malate.The transport system expressed in vesicles from glucose-cultured cells is highly specific for d-glucose. Studies of glucose analog uptake and of the competitive effect of analogs reveal that: (i) The glucose carrier is stereospecific. (ii) The affinity of hexoses for the transport system is inversely related to the bulk of substituents on the pyranose ring, especially at the C-1 and C-2 positions, (iii) The most effective competitors, 6-deoxyglucose and 2-deoxyglucose, exhibit affinities only 10–20% that of d-glucose for the transport system, (iv) Phloretin, but not phlorizin, is a competitive inhibitor of glucose transport, having an apparent K_i of 9 μm at pH 7.0. These latter findings suggest a similarity of the glucose transport system of fxA. vinelandii and those of eukaryotes with regard to the glucose carrier.     

A note on the apparent absence of azotobacter in soils

Summary It is shown that soils which fail to give Azotobacter growth when inoculated in the original elective medium may still contain viable Azotobacter cells. These develop into normal cultures when 0.00005% Na₂MoO₄ is added to the liquid medium.This phenomenon is explained as a result of the low molybdenum content of the soils used.In view of the possible influence of molybdenum on soil fertility the soil plaque method was tried successfully for the demonstration of a molybdenum deficiency. of soil samples.     

Molybdate toxicity in Chinese cabbage is not the direct consequence of changes in sulphur metabolism

• In polluted areas, plants may be exposed to supra‐optimal levels of the micronutrient molybdenum. The physiological basis of molybdenum phytotoxicity is poorly understood. Plants take up molybdenum as molybdate, which is a structural analogue of sulphate. Therefore, it is presumed that elevated molybdate concentrations may hamper the uptake and subsequent metabolism of sulphate, which may induce sulphur deficiency.
• In the current research, Chinese cabbage (Brassica pekinensis) seedlings were exposed to 50, 100, 150 and 200 μm Na₂MoO₄ for 9 days.
• Leaf chlorosis and a decreased plant growth occurred at concentrations ≥100 μm . Root growth was more affected than shoot growth. At ≥100 μm Na₂MoO₄, the sulphate uptake rate and capacity were increased, although only when expressed on a root fresh weight basis. When expressed on a whole plant fresh weight basis, which corrects for the impact of molybdate on the shoot‐to‐root ratio, the sulphate uptake rate and capacity remained unaffected. Molybdate concentrations ≥100 μm altered the mineral nutrient composition of plant tissues, although the levels of sulphur metabolites (sulphate, water‐soluble non‐protein thiols and total sulphur) were not altered. Moreover, the levels of nitrogen metabolites (nitrate, amino acids, proteins and total nitrogen), which are generally strongly affected by sulphate deprivation, were not affected. The root water‐soluble non‐protein thiol content was increased, and the tissue nitrate levels decreased, only at 200 μm Na₂MoO₄.
• Evidently, molybdenum toxicity in Chinese cabbage was not due to the direct interference of molybdate with the uptake and subsequent metabolism of sulphate.

     

Synthesis, structure, and redox behaviour of a novel cis-dioxomolybdenum(VI) dinuclear complex with a quadradentate dithiocarbamate

A novel dinuclear cis-dioxomolybdenum(VI) complex [{MoO₂(Bz₂endtc)}₂] coordinated with a quadradentate dithiocarbamate (Bz₂endtc²⁻: ((2-(dithiocarboxybenzylamino)ethyl)benzylamino)-methanedithioate(2−)) has been synthesised. The structural features of [{MoO₂(Bz₂endtc)}₂] have been elucidated by X-ray crystal analysis, elemental analysis and ¹³C NMR, IR and FAB⁺ mass spectroscopy: two almost identical cis-dioxomolybdenum(VI) centres are bridged by the two Bz₂endtc²⁻ ligands and each molybdenum(VI) centre has a distorted octahedral geometry with four sulphur atoms and two terminal oxo ligands lying in a cis position to each other. There is unlikely to be electronic interaction between the two cis-dioxomolybdenum(VI) centres in [{MoO₂(Bz₂endtc)}₂] because the MoMo distance is long (=7.337 Å). In the [{MoO₂(Bz₂endtc)}₂]/PPh₃ system, the oxygen atom transfer reaction (Eq. (A)) occurs to give a tetranuclear oxomolybdenum(VI,V) complex formulated as [MoO₂(Bz₂endtc)₂Mo₂O₃(Bz₂endtc)₂MoO₂] which has one μ-oxomolybdenum(V) moiety.

(A)     

Improved System for Construction and Analysis of Single-Copy β-Galactosidase Operon Fusions in Yersinia enterocolitica

We report a significantly improved system for studying single-copy lacZ operon fusions in Yersinia enterocolitica: a simple procedure for the stable integration of lacZ operon fusions into the ara locus and a strain with a deletion mutation that abolishes the low level of endogenous β-galactosidase activity.     

The Azotobacter vinelandii nifL-like gene: nucleotide sequence analysis and regulation of expression

Summary The nucleotide sequence of the Azotobacter vinelandii nifL-like gene (Av-nifL) was determined. The 1.9 kb sequence shows an open reading frame (ORF) of 1557 by which encodes a polypeptide of 519 amino acids, with a calculated molecular weight of 57 793. Av-nifL has about 50 % homology with the Klebsiella pneumoniae nifL gene (Kp-nifL) at the nucleotide level and a little more than 52% homology at the amino acid level. The N-terminal regions show more homology than the C-terminal regions. As is the case in K. pneumoniae, Av-nifL is located just upstream of the A. vinelandii nifA gene (Av-nifA) and both genes constitute an operon. The expression of Av-nifL, however, seems to be independent of NtrA and NtrC. Furthermore, Av-nifL expression is not autogenously regulated by NifA, unlike the case in K. pneumoniae. The expression of an Av-nifL: lacZ fusion in A. vinelandii is inhibited by novobiocin and coumermycin A, which are inhibitors of DNA gyrase.     

Two nifA-like genes required for expression of alternative nitrogenases by Azotobacter vinelandii.

Two nifA-like genes, designated anfA and vnfA, have been identified in Azotobacter vinelandii. The anfA gene is located upstream from the nitrogenase-3 structural gene cluster (anfHDGK) and is preceded by a sequence that is potentially part of a ntrA-dependent promoter. The product of anfA appears to be required for expression of nitrogenase-3, since cells of the anfA deletion strain CA66 were unable to synthesize this nitrogenase when derepressed in N-free, Mo- and V-deficient medium. The vnfA gene was identified after determination of the nucleotide sequence of DNA flanking the Tn5 insertion in mutant strain CA46. Two open reading frames (ORF1 and ORF2) were found located upstream from the vnfA gene, and a nifE-like ORF, preceded by a possible ntrA-dependent promoter, was found downstream from this gene. It is not known whether vnfA is expressed only under N2-fixing conditions. However, potential ntrA-dependent promoters were found immediately upstream from vnfA (within the 3' end of ORF2) and immediately downstream from ORF1. The region spanning ORF1 and ORF2 contained an A + T-rich sequence that was also found immediately upstream from the potential ntrA-dependent promoter of anfA. The product of vnfA appears to be required for the synthesis of nitrogenase-2, since cells of strain CA46 synthesized only nitrogenase-1 and -3 but not nitrogenase-2 when grown in the presence of vanadium. The product of nifA, which is required for synthesis of nitrogenase-1, is not required for synthesis of either nitrogenase-2 or nitrogenase-3. However, growth data indicate that nifA is required for a factor (or factors) necessary for maximal diazotrophic growth under Mo- and V-deficient conditions.     

L-Carnitine transport in mouse renal and intestinal brush-border and basolateral membrane vesicles

We characterized the uptake of carnitine in brush-border membrane (BBM) and basolateral membrane (BLM) vesicles, isolated from mouse kidney and intestine. In kidney, carnitine uptake was Na⁺-dependent, showed a definite overshoot and was saturable for both membranes, but for intestine, it was Na⁺-dependent only in BLM. The uptake was temperature-dependent in BLM of both kidney and intestine. The BBM transporter in kidney had a high affinity for carnitine: apparent K_m=18.7 μM; V_max=7.85 pmol/mg protein/s. In kidney BLM, similar characteristics were obtained: apparent K_m=11.5 μM and V_max=3.76 pmol/mg protein/s. The carnitine uptake by both membranes was not affected within the physiological pH 6.5-8.5. Tetraethylammonium, verapamil, valproate and pyrilamine significantly inhibited the carnitine uptake by BBM but not by BLM. By Western blot analysis, the OCTN2 (a Na⁺-dependent high-affinity carnitine transporter) was localized in the kidney BBM, and not in BLM. Strong OCTN2 expression was observed in kidney and skeletal muscle, with no expression in intestine in accordance with our functional study. We conclude that different polarized carnitine transporters exist in kidney BBM and BLM. L-Carnitine uptake by mouse renal BBM vesicles involves a carrier-mediated system that is Na⁺-dependent and is inhibited significantly by specific drugs. The BBM transporter is likely to be OCTN2 as indicated by a strong reactivity with the anti-OCTN2 polyclonal antibody.     

Temperature-Dependent Regulation by Molybdenum and Vanadium of Expression of the Structural Genes Encoding Three Nitrogenases in Azotobacter vinelandii

Temperature affects the expression of the three different nitrogenases in Azotobacter vinelandii. Molybdenum repressed the vnfH and anfH operons relatively more at 30°C than at 20°C; at 14°C molybdenum did not repress these genes at all. Similarly, V repressed the anf operon at 30°C but not at 20 or 14°C. Mo was poorly transported into cells grown at the lower temperatures. A. vinelandii thus has the potential to synthesize any of the three nitrogenases at 14 to 20°C regardless of the presence of Mo or V.     

Thealdox-2 locus ofDrosophila melanogaster also affects sulfite oxidase and molybdenum metabolism

Mutation at thealdox-2 locus inDrosophila melanogaster affects the specific activities of four molybdoenzymes differentially during development. Sulfite oxidase activity is normal during late larval and pupal stages but is reduced during early adult stages inaldox-2 organisms. There was complete concordance among the effects ofaldox-2 on sulfite oxidase, aldehyde oxidase, xanthine dehydrogenase, and pyridoxal oxidase, when 38 stocks were analyzed which were derived from single recombination events betweenc andpx, markers which flankaldox-2. Several different biochemical analyses indicate that the active molybdoenzymes present in thealdox-2 strain are normal with respect to size, shape,pH-activity profile,K _m , and molecular weight. Significant differences were found between thealdox-2 strain and the OR control strain in their responses to dietary Na₂MoO₄ and Na₂WO₄. The mutant strain is much more resistant to the effects of dietary Na₂WO₄ and much more responsive to the administration of Na₂MoO₄ than the OR control strain when these effects are quantitated by measurements of molybdoenzyme specific activities. This evidence suggests that thealdox-2 ⁺ gene product has a molybdenum binding site which can also bind tungsten and that this site is altered in the mutant strain. The hypothesis presented explains the observed effects of thealdox-2 mutation and relates them to the other mutations reported in this gene-enzyme system.This work was supported by an Operating Grant from the Natural Sciences and Engineering Research Council to M.M.B.