Expression of uptake hydrogenase and hydrogen oxidation during heterotrophic growth of Bradyrhizobium japonicum.

Strains I-110 ARS, SR, USDA 136, USDA 137, and AK13 1c of Bradyrhizobium japonicum induced Hup activity when growing heterotrophically in medium with carbon substrate and NH4Cl in the presence of 2% H2 and 2% O2. Hup activity was induced during heterotrophic growth in the presence of carbon substrates, which were assimilated during the time of H2 oxidation. Strains I-110 ARS and SR grown heterotrophically or chemoautotrophically for 3 days had similar rates of H2 oxidation. Similar rates of Hup activity were also observed when cell suspensions were induced for 24 h in heterotrophic or chemoautotrophic growth medium with 1% O2, 10% H2, and 5% CO2 in N2. These results are contrary to the reported repression of Hup activity by carbon substrates in B. japonicum. Bradyrhizobial Hup activity during heterotrophic growth was limited by H2 and O2 and repressed by aerobic conditions, and CO2 addition had no effect. Nitrogenase and ribulosebisphosphate carboxylase activities were not detected in H2-oxidizing cultures of B. japonicum during heterotrophic growth. Immunoblot analysis of cell extracts with antibodies prepared against the 65-kilodalton subunit of uptake hydrogenase indicated that Hup protein synthesis was induced by H2 and repressed under aerobic conditions.     

Sodium stimulation of uptake hydrogenase activity in symbiotic Rhizobium

Initial observations showed a 100% increase in H₂-uptake (Hup) activity of Rhizobium leguminosarum strain 3855 in pea root nodules (Pisum sativum L. cv Alaska) on plants growing in a baked clay substrate relative to those growing in vermiculite, and an investigation of nutrient factors responsible for the phenomenon was initiated. Significantly greater Hup activity was first measured in the clay-grown plants 24 days after germination, and higher activity was maintained relative to the vermiculite treatment until experiments were terminated at day 32. The increase in Hup activity was associated with a decrease in H₂ evolution for plants with comparable rates of acetylene reduction. Analyses of the clay showed that it contained more Na⁺ (29 versus 9 milligrams per kilogram) and less K⁺ (6 versus 74 milligrams per kilogram) than the vermiculite. Analyses of plants, however, showed a large increase in Na⁺ concentration of clay-grown plants with a much smaller reduction in K⁺ concentration. In tests with the same organisms in a hydroponic system with controlled pH, 40 millimolar NaCl increased Hup activity more than 100% over plants grown in solutions lacking NaCl. Plants with increased Hup activity, however, did not have greater net carbon or total nitrogen assimilation. KCl treatments from 5 to 80 millimolar produced slight increased in Hup activity at 10 millimolar KCl, and tests with other salts in the hydroponic system indicated that only Na⁺ strongly promoted Hup activity. Treating vermiculite with 50 millimolar NaCl increased Na⁺ concentration in pea plant tissue and greatly promoted Hup activity of root nodules in a manner analogous to the original observation with the clay rooting medium. A wider generality of the phenomenon was suggested by demonstrating that exogenous Na⁺ increased Hup activity of other R. leguminosarum strains and promoted Hup activity of R. meliloti strain B300 in alfalfa (Medicago sativa L.).     

Capacitation- and fertilization-related alterations in mouse sperm oxygen consumption

On the basis of experiments performed some years ago, it has been generally accepted that mammalian sperm metabolic activity, as determined by manometric measurement of O2 uptake, increases during capacitation. However, when mouse sperm suspensions were incubated for a total of 120 min in glucose-containing medium which promotes both capacitation and fertilization, O2 consumption, measured with an O2 electrode at 30 and 120 min, consistently declined with time. This same pattern was also observed when pyruvate was the sole exogenous energy substrate, despite the fact that these cells, although capacitated, cannot fertilize eggs until supplied with glucose. Since mouse spermatozoa require a suitable glycolysable substrate to express full functional ability, these results suggest that a shift in metabolic activity from oxidative phosphorylation to glycolysis normally accompanies the onset of fertilizing ability in this species. It was further demonstrated that this pattern, in the presence of glucose, can be markedly modified by alterations in the medium composition which have been shown to modulate fertilizing ability. All conditions chosen inhibit fertilization while retarding (Ca2+-free), accelerating (hyperosmotic high Na+) or nor affecting (iso-osmotic high K+) the rate of capacitation. When suspensions were assessed in these media, O2 consumption increased rather than decreased over the 120 min, despite the continuous presence of glucose. When these same suspensions were assessed at 30 and 120 min in media altered to permit expression of fertilizing ability, the pattern observed was one of declining O2 consumption.(ABSTRACT TRUNCATED AT 250 WORDS)     

Transposon Tn5-Generated Bradyrhizobium japonicum Mutants Unable To Grow Chemoautotrophically with H(2)

Twelve Tn5-induced mutants of Bradyrhizobium japonicum unable to grow chemoautotrophically with CO(2) and H(2) (Aut) were isolated. Five Aut mutants lacked hydrogen uptake activity (Hup). The other seven Aut mutants possessed wild-type levels of hydrogen uptake activity (Hup), both in free-living culture and symbiotically. Three of the Hup mutants lacked hydrogenase activity both in free-living culture and as nodule bacteroids. The other two mutants were Hup only in free-living culture. The latter two mutants appeared to be hypersensitive to repression by oxygen, since Hup activity could be derepressed under 0.4% O(2). All five Hup mutants expressed both ex planta and symbiotic nitrogenase activities. Two of the seven Aut Hup mutants expressed no free-living nitrogenase activity, but they did express it symbiotically. These two strains, plus one other Aut Hup mutant, had CO(2) fixation activities 20 to 32% of the wild-type level. The cosmid pSH22, which was shown previously to contain hydrogenase-related genes of B. japonicum, was conjugated into each Aut mutant. The Aut Hup mutants that were Hup both in free-living culture and symbiotically were complemented by the cosmid. None of the other mutants was complemented by pSH22. Individual subcloned fragments of pSH22 were used to complement two of the Hup mutants.     

Revertible hydrogen uptake-deficient mutants of Rhizobium japonicum.

We have developed mutants of Rhizobium japonicum which are deficient in H2 uptake capacity (Hup-) and which spontaneously revert to the parent type at a frequency consistent with that of a single-point mutation (ca. 1.0 x 10(-09)). The mutagenesis by nitrous acid and the selection of the Hup- phenotype by using penicillin and chemolithotrophy as enrichment for chemolithotrophy-deficient strains are described. Two mutants retain low but reproducible levels of ribulose bisphosphate-dependent CO2 fixation when grown on a low-carbon medium under an atmosphere of 1% O2, 4% H2, 5% CO2, and 90% N2. Neither O2 nor the artificial electron acceptors phenazine methosulfate or methylene blue supported detectable H2 uptake by the free-living Hup- mutants or by their bacteroids. Plant growth experiments under bacteriologically controlled conditions were conducted to assess the mutants' performance as inocula for soybean plants. Plants inoculated with Hup- strains had lower dry weights and contained less total N than did plants inoculated with the parent Hup+ strain. Use of either the Hup- mutants or the Hup+ parent strain as inocula, however, did not significantly affect the acetylene-reducing activity or the fresh weight of nodules. These results, obtained with apparently isogenic lines of H2 uptake-deficient R. japonicum, provide strong support for a beneficial role of the H2 uptake phenotype in legume symbiosis.     

Nitric oxide synthase induction,cGMP elevation,and biopterin synthesis in vascular smooth muscle cells stimulated with interleukin-1beta in hypoxia

In cultured rat vascular smooth muscle cells (VSMC), inducible nitric oxide synthase (iNOS) expression evoked by interleukin-1beta (IL-1beta) or tumor necrosis factor-alpha was greatly enhanced in hypoxia (2% O(2)), compared to in normoxia. In contrast, iNOS induction by interferon-gamma, lipopolysaccharide or their combination was barely influenced by hypoxia. These results indicate that iNOS induction is regulated by hypoxia in different manners, depending on the stimuli in VSMC. Nitric oxide (NO) production in response to stimulation with interferon-gamma plus lipopolysaccharide was significantly decreased in hypoxia, due to a decrease in the concentration of O(2) as a substrate. In contrast, the level of NO production in hypoxia was almost the same as that in normoxia when the cells were stimulated by IL-1beta. In addition, cGMP increased in response to IL-1beta in hypoxia to a level comparable to that in normoxia. Thus, it seems that the IL-1beta-induced expression of iNOS is up-regulated in hypoxia to compensate for a decrease in the enzyme activity due to the lower availability of O(2) as a substrate, and consequently a sufficient amount of NO is produced to elevate cGMP to an adequate level. In addition, the IL-1beta-induced synthesis of tetrahydrobiopterin, a cofactor for iNOS, was also greatly stimulated by hypoxia in VSMC.     

The use of N-methylprotoporphyrin dimethyl ester to inhibit ferrochelatase in Rhodopseudomonas sphaeroides and its effect in promoting biosynthesis of magnesium tetrapyrroles.

N-Methylprotoporphyrin dimethyl ester inhibits ferrochelatase in isolated membranes of Rhodopseudomonas sphaeroides at low concentrations (around 10 nm). Full inhibition developed after a short lag phase. The inhibition was non-competitive with porphyrin substrate. Addition of inhibitor to growing cultures of Rps. sphaeroides caused a decrease (near 40%) in cytochrome content and a severe inhibition of ferrochelatase; the excretion of haem into the medium by cell suspensions was also severely inhibited. The addition of N-methylprotoporphyrin dimethyl ester to suspensions of photosynthetically competent Rps. sphaeroides Ga caused excretion of Mg-protoporphyrin monomethyl ester. When added to mutants V3 and O1, magnesium divinylphaeoporphyrin a5 monomethyl ester and 2-devinyl-2-hydroxyethylphaeophorbide a were excreted, with maximum effect at around 3 microM-inhibitor in the medium. The results are interpreted to suggest that the inhibitor decreases concentration of intracellular haem, which normally controls the activity of 5-aminolaevulinate synthetase. Unregulated activity of this enzyme leads to overproduction of protoporphyrin, which is diverted to the bacteriochlorophyll pathway. Further control operates at magnesium protoporphyrin ester conversion in normal cells.     

Uptake hydrogenase activity and ATP formation in Rhizobium leguminosarum bacteroids.

The role of uptake hydrogenase was studied in Rhizobium leguminosarum bacteroids from the nodules of Pisum sativum L. cv. Homesteader. Uptake hydrogenase activity, measured by the 3H2 uptake method, was dependent on O-consumption and was similar to H2 uptake measured by gas chromatography. Km for O2 of 0.0007 atm (0.0709 kPa) and a Km for H2 of 0.0074 atm (0.7498, kPa) were determined. H2 increased the rate of endogenous respiration by isolates with uptake hydrogenase (Hup+) but had no effect on an isolate lacking uptake hydrogenase (Hup-). A survey of 14 Hup+ isolates indicated a wide range of H2 uptake activities. Four of the isolates tested had activities similar to or higher than those found in two Hup+ Rhizobium japonicum strains. H2 uptake was strongly coupled to ATP formation in only 5 of the 14 isolates. H2 increased the optimal O2 level of C2H2 reduction by 0.01 atm and permitted enhanced C2H2 reduction at O2 levels above the optimum in both a coupled and an uncoupled isolate. At suboptimal O2 concentrations a small enhancement of C2H2 reduction by H2 was seen in two out of three isolates in which H2 oxidation was coupled to ATP formation. Thus, the main function of uptake hydrogenase in R. leguminosarum appears to be in the protection of nitrogenase from O2 damage.     

Nutrient-limited continuous culture in the phauxostat

Stable steady-state growth of Escherichia coli B limited by succinate, phosphate, or sulfate ion over the range of specific growth rates of 0.025-0.51 h(-1) was achieved using pH-controlled auxostasis in the phauxostat. The concentration of the growth-limiting substrate in the growth vessel could be varied at will in the region of the Monod half-maximal saturation constants by adjusting the concentration of that substrate in the reservior (at constant buffering capacity) or by varying the population density of the culture through changing the buffering capacity of the medium in the reservoir.     

Two-carbon assimilative capacity and the induction of isocitrate lyase in Saccharomyces cerevisiae.

The yeast Saccharomyces cerevisiae was grown on 10% glucose medium and subsequently transferred to fresh medium containing 2- and 3-carbon substrates. Under these conditions, the yeast rapidly acquired an oxidative capacity, as evidenced by oxygen uptake rates and 14CO2 evolution rates during respiration on ethanol or (14C)acetate. The assimilative capacity for 2-carbon substrates developed more slowly and followed the induction of isocitrate lyase. Washed yeast transferred to the basic medium containing no added carbon substrate possessed only low levels of isocitrate lyase after a 6-h adaptation. After 6 h, isocitrate lyase was present at high levels in cells transferred to a range of ethanol concentrations but was present in only low amounts in cells transferred to acetate. The role of ethanol as an inducer of isocitrate lyase is discussed.     

Increased Nitrogenase-Dependent H(2) Photoproduction by hup Mutants of Rhodospirillum rubrum

Transposon Tn5 mutagenesis was used to isolate mutants of Rhodospirillum rubrum which lack uptake hydrogenase (Hup) activity. Three Tn5 insertions mapped at different positions within the same 13-kb EcoRI fragment (fragment E1). Hybridization experiments revealed homology to the structural hydrogenase genes hupSLM from Rhodobacter capsulatus and hupSL from Bradyrhizobium japonicum in a 3.8-kb EcoRI-ClaI subfragment of fragment E1. It is suggested that this region contains at least some of the structural genes encoding the nickel-dependent uptake hydrogenase of R. rubrum. At a distance of about 4.5 kb from the fragment homologous to hupSLM, a region with homology to a DNA fragment carrying hypDE and hoxXA from B. japonicum was identified. Stable insertion and deletion mutations were generated in vitro and introduced into R. rubrum by homogenotization. In comparison with the wild type, the resulting hup mutants showed increased nitrogenase-dependent H(2) photoproduction. However, a mutation in a structural hup gene did not result in maximum H(2) production rates, indicating that the capacity to recycle H(2) was not completely lost. Highest H(2) production rates were obtained with a mutant carrying an insertion in a nonstructural hup-specific sequence and with a deletion mutant affected in both structural and nonstructural hup genes. Thus, besides the known Hup activity, a second, previously unknown Hup activity seems to be involved in H(2) recycling. A single regulatory or accessory gene might be responsible for both enzymes. In contrast to the nickel-dependent uptake hydrogenase, the second Hup activity seems to be resistant to the metal chelator EDTA.     

Effect of Plasmid pIJ1008 from Rhizobium leguminosarum on Symbiotic Function of Rhizobium meliloti

Plasmid pIJ1008, which carries determinants for uptake hydrogenase (Hup) activity, was transferred from Rhizobium leguminosarum to Rhizobium meliloti without impairing the capacity of the latter species to form root nodules on alfalfa. The plasmid was still present in rhizobia reisolated from the root nodules of 12 different alfalfa cultivars, but only low levels of Hup activity were detected in alfalfa.     

Continuous monitoring, by mass spectrometry, of H2 production and recycling in Rhodopseudomonas capsulata.

Hydrogen evolution and consumption by cell and chromatophore suspensions of the photosynthetic bacterium Rhodopseudomonas capsulata was measured with a sensitive and specific mass spectrometric technique which directly monitors dissolved gases. H2 production by nitrogenase was inhibited by acetylene and restored by carbon monoxide. An H2 evolution activity coupled with HD formation and D2 uptake (H-D exchange) was unaffected by C2H2 and CO. Cultures lacking nitrogenase activity also exhibited H-D exchange activity, which was catalyzed by a membrane-bound hydrogenase present in the chromatophores of R. capsulata. A net hydrogen uptake, mediated by hydrogenase, was observed when electron acceptors such as CO2, O2, or ferricyanide were present in the medium.     

Stimulation of the Na+/K+ Pump Activity During Electrogenic Uptake of Acidic Amino Acid Transmitters by Rat Brain Synaptosomes

Addition of D-aspartate, a substrate for the high-affinity transport of acidic amino acid transmitters, to suspensions of rat brain synaptosomes increased the rate of O2 consumption, uptake of 86Rb, and transport of 2-[3H]deoxyglucose. Stimulation of all three processes was abolished in the presence of ouabain. D-Aspartate had no effect on respiration in the medium in which NaCl was replaced by choline chloride. The ratio of the ouabain-sensitive increase in 86Rb uptake to that in O2 consumption was 12 to 1, which gives a calculated 86Rb(K+)/ATP of 2. It is concluded that electrogenic, high-affinity transport of sodium-D-aspartate into synaptosomes stimulates the activity of the Na+/K+ pump through an increase in [Na+]i.     

pH changes in the rhizosphere in relation to the pH-buffering of soils

Summary pH values in the rhizosphere of peanut seedlings were measured with Sb micro electrodes in soils with a bulk pH between 3.9 and 7.7. Within 2–2.5 days the roots decreased soil pH to a minimum value which was linearly correlated with short term buffering capacity of the soils as determined by addition of HCl to soil suspensions. The greatest distance from the root surface where pH dropped significantly was found in soils with pH near 6. This maximum distance was also correlated with pH-buffering. The low buffering capacity for soils of pH near 6 seems to be valid for a large number of soils with different properties.     

Screening method for the detection of uptake hydrogenase activity of Rhizobium leguminosarum bacteroids

Abstract A method has been developed for screening Rhizobium leguminosarum wild-type strains and mutants for uptake hydrogenase (Hup) activity, using H₂-dependent methylene blue reduction. For this purpose, a simple device has been constructed which allows the simultaneous screening of 6 strains and 6 controls. Bacteroids of R. leguminosarum isolated from pea root nodules were suspended in buffer containing methylene blue and inhibitors of dehydrogenases. The suspensions were first sparged with argon (to remove oxygen) and then with hydrogen.     

Arylsulfatase activity of Mycobacterium avium, M. intracellulare, and M. scrofulaceum

A rapid (3-h) arylsulfatase assay for cell suspensions of mycobacteria, in which p-nitrophenyl sulfate is used as the substrate, was developed. Arylsulfatase activity was found in cell suspensions of representative strains of Mycobacterium avium, Mycobacterium intracellulare, and Mycobacterium scrofulaceum grown without the substrate in either Middlebrook 7H9 medium containing 0.2% (wt/vol) glucose and 0.05% (vol/vol) Tween 80 or Dubos broth medium, but was absent in cells grown in a low-pH, minimal medium containing 1% (vol/vol) Tween 80 as the sole carbon source. The levels of arylsulfatase activity of representatives of all three species were equal whether the activity was measured at pH 5.5, 6.5, or 7.5 and whether the cells were suspended in phosphate or Tris buffer. The addition of high levels of sulfate (present in the low-pH, Tween 80-containing medium) to Middlebrook 7H9 medium resulted in significantly lower levels of arylsulfatase activity in strains of M. scrofulaceum, but did not affect the levels in either M. avium or M. intracellulare. The levels of arylsulfatase activity were highest in M. avium, intermediate in M. intracellulare, and lowest in M. scrofulaceum strains. Polyacrylamide gel electrophoresis of crude extracts from late-log-phase cells of representatives of each species produced activity bands of unique mobility (one in M. avium, three in M. intracellulare [82, 5, and 13%], and two in M. scrofulaceum [60 and 40%]).     

Uptake Hydrogenase (Hup) in Common Bean (Phaseolus vulgaris) Symbioses

Strains of Rhizobium forming nitrogen-fixing symbioses with common bean were systematically examined for the presence of the uptake hydrogenase (hup) structural genes and expression of uptake hydrogenase (Hup) activity. DNA with homology to the hup structural genes of Bradyrhizobium japonicum was present in 100 of 248 strains examined. EcoRI fragments with molecular sizes of approximately 20.0 and 2.2 kb hybridized with an internal SacI fragment, which contains part of both bradyrhizobial hup structural genes. The DNA with homology to the hup genes was located on pSym of one of the bean rhizobia. Hup activity was observed in bean symbioses with 13 of 30 strains containing DNA homologous with the hup structural genes. However, the Hup activity was not sufficient to eliminate hydrogen evolution from the nodules. Varying the host plant with two of the Hup⁺ strains indicated that expression of Hup activity was host regulated, as has been reported with soybean, pea, and cowpea strains.