A comparison by means of antisera and lectins of surface structures ofNitrobacter winogradskyi andN. agilis

Nitrobacter winogradskyi was grown autotrophically on carbon dioxide and nitrite, mixotrophically on pyruvate and nitrite, and heterotrophically on acetate and pyruvate.N. agilis was grown autotrophically on carbon dioxide and nitrite and heterotrophically on pyruvate, acetate, and yeast extract-peptone. Antisera were then prepared against these cells. Strong cross-reactions occurred between all antisera raised againstNitrobacter agilis cells in the homologous and heterologous reactions with the differently grownNitrobacter agilis cells. Similar results were obtained withN. winogradskyi; but there were differences between the heterotrophically grown cells and the autotrophically and mixotrophically grown cells. The autotrophically grown cells ofN. winogradskyi andN. agilis had nearly no immunological differences, while the cross-reactions of the heterotrophically grown cells differed strongly. So, growth conditions are of considerable influence on the serological behavior of the two bacteria tested. Of twelve lectins tested, five (fromAaptos papillata, Axinella polypoides, Cerianthus sp.,Ulex europeus, and Anti-H specific agglutinin of eel serum) agglutinated cells ofN. agilis andN. winogradskyi, indicating thatN-acetyl-glucosamine, galactose, and fucose may be present in the bacterial cell wall. Immunodiffusion showed that cells of both nitrifying organisms grown under different conditions had at least one antigenic surface structure in common.     

Competition for limiting amounts of oxygen between Nitrosomonas europaea and Nitrobacter winogradskyi grown in mixed continuous cultures

Chemolithotrophic nitrifying bacteria are dependent on the presence of oxygen for the oxidation of ammonium via nitrite to nitrate. The success of nitrification in oxygen-limited environments such as waterlogged soils, will largely depend on the oxygen sequestering abilities of both ammonium- and nitrite-oxidizing bacteria. In this paper the oxygen consumption kinetics of Nitrosomonas europaea and Nitrobacter winogradskyi serotype agilis were determined with cells grown in mixed culture in chemostats at different growth rates and oxygen tensions.Reduction of oxygen tension in the culture repressed the oxidation of nitrite before the oxidation of ammonium was affected and hence nitrite accumulated. K _m values found were within the range of 1–15 and 22–166 M O₂ for the ammonium- and nitrite-oxidizing cells, respectively, always with the lowest values for the N. europaea cells. Reduction of the oxygen tension in the culture lowered the half saturation constant K _m for oxygen of both species. On the other hand, the maximal oxygen consumption rates were reduced at lower oxygen levels especially at 0 kPa. The specific affinity for oxygen indicated by the V _max/K _m ratio, was higher for cells of N. europaea than for N. winogradskyi under all conditions studied. Possible consequences of the observed differences in specific affinities for oxygen of ammonium-and nitrite-oxidizing bacteria are discussed with respect to the behaviour of these organisms in oxygen-limited environments.     

Growth of Nitrobacter in the presence of organic matter

1. Culture filtrates of heterotrophic bacteria were tested for their stimulatory effect on nitrification of three strains of Nitrobacter.
2. Yeast extract-peptone solution, in which Pseudomonas fluorescens had grown, after removal of the cells was added to autotrophically growing cultures of Nitrobacter agilis; it caused a stimulated nitrite oxidation and growth of Nitrobacter agilis.
3. The degree of stimulation depended on: a) the proportion of the culture filtrate to the autotrophic medium; b) the composition of the complex medium in which Pseudomonas fluorescens had been grown; c) the time the heterotrophic bacterium had been grown in the complex medium.
4. The stimulatory effect was highest with Nitrobacter agilis, less with Nitrobacter winogradskyi and negligible with Nitrobacter K ₄.
5. It was possible to adapt nitrifying cells of Nitrobacter agilis to higher concentrations of yeast extract and peptone. After the nitrite had been completely oxidized the cell-N still increased up to 30% before growth stopped.

     

The close phylogenetic relationship of Nitrobacter and Rhodopseudomonas palustris

The phylogenetic position of Nitrobacter winogradskyi and two other nitrite-oxidizing bacteria was elucidated comparing oligonucleotides of the 16S ribosomal RNA. Nitrobacter winogradskyi and the Nitrobacter isolate Yukatan are genetically nearly identical; Nitrobacter isolate X14 is more distantly related. Phylogenetically, Nitrobacter is a member of a group of purple non-sulfur bacteria that is defined by various species of Rhodopseudomonas, Rhodomicrobium vannielii, Rhodospirillum rubum and their non-phototrophic relatives. Nitrobacter shares a high sequence similarity to Rhodopseudomonas palustris. These findings are in accord with several common taxonomic characteristics, and in addition support the conversion hypothesis for the origin of this group of chemolithotrophic bacteria.     

Morphologische und physiologische Untersuchungen an Zellen von Nitrobacter winogradskyi Buch

Zusammenfassung Wir untersuchten elektronenmikroskopisch das periphere Membransystem und die Polyphosphatgranula in Schnitten von Nitrobacter winogradskyi und verglichen beide mit physiologischen Daten. Die Nitrit-Oxydationsaktivität ist abhängig von der Konzentration des Cytochroms c. Ganz allgemein haben Zellen mit einer hohen Aktivität eine große, solche mit einer niedrigen eine kleine Cytochrommenge. Entsprechend ändert sich der Membrangehalt. Aktive Zellen mit hohem Cytochromgehalt enthalten viele Membranen, inaktive mit geringem Gehalt nur wenige. Außerdem ist die Aktivität pro Cytochrommolekül nicht konstant. Zellen, die lange Zeit ohne Nitrit gestanden haben, besitzen eine niedrige, solche aus der logarithmischen Wachstumsphase eine hohe Umsatzrate. Die Ursache ist nicht bekannt. Die Zahl der Polyphosphatgranula steigt mit zunehmendem Gehalt an Polyphosphaten in der Bakterienzelle.

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Morphological and physiological investigations in Nitrobacter winogradskyi Buch

Summary The peripheral membrane system and polyphosphate granules of Nitrobacter winogradskyi as they are revealed by sections studied in the electron microscope are regarded in relation to physiological data. The activity of nitrite oxydation depends on the concentration of cytochrome c. Cells being highly active generally show a relatively high amount of cytochrome c, whereas this is not the case in less active cells. The number of membrane pairs is affected simultaneously: active cells of high cytochrome concentration contain a high number of membrane pairs; those which are less active and have a lower cytochrome concentration, possess only a few membrane pairs. In addition the activity per mol cytochrome varies. Cells having been short of nitrite for a long time show a low turnover rate, whereas in the logarithmic phase of growth the turnover rate is considerably higher. The reason of this is not yet known. The number of polyphosphate granules increases in relation to the amount of polyphosphate found in the bacterial cell.

     

Kinetics of nitrite oxidation in two Nitrobacter species grown in nitrite-limited chemostats

The influence of growth rate, the presence of acetate and variation in the dissolved oxygen concentration on the kinetics of nitrite oxidation was studied in suspensions of intact cells of Nitrobacter winogradskyi and Nitrobacter hamburgensis. The cells were grown in nitrite-limited chemostats at different dilution rates under chemolithotrophic and mixotrophic conditions. Growth of N. hamburgensis in continuous culture was dependent on the presence of acetate. Acetate hardly affected the maximal nitrite oxidation rate per cell (V _max), but displayed a distinctly negative effect on the saturation constants for nitrite oxidation (K _m ) of both Nitrobacter species. This effect was reversible; when acetate was removed from the suspensions the K _m -values for nitrite oxidation returned to their original values. A reduction of the dissolved oxygen concentration from 100% to 18% air saturation slightly decreased the V _max of chemolithotrophically grown N. winogradskyi cells, whereas a 2.3 fold increase was observed with mixotrophically grown cells of N. hamburgensis. It is suggested that the large variation in K _m encountered in field samples could be due to this observed phenotypic variability. The V _max per cell is not a constant, but apparently is dependent on growth rate and environmental conditions. This implies that potential nitrite oxidation activity and numbers of cells are not necessarily related. Considering their kinetic characteristics, it is unlikely that N. hamburgensis is able to compete succesfully with N. winogradskyi for limiting amounts of nitrite under mixotrophic conditions. However, at reduced partial oxygen tensions, N. hamburgensis may become the better competitor.     

Nitrobacter winogradskyi cytochrome c oxidase genes are organized in a repeated gene cluster

Cytochrome c oxidase (EC 1.9.3.1) is one of the components of the electron transport chain by which Nitrobacter, a facultative lithoautotrophic bacterium, recovers energy from nitrite oxidation. The genes encoding the two catalytic core subunits of the enzyme were isolated from a Nitrobacter winogradskyi gene library. Sequencing of one of the 14 cloned DNA segments revealed that the subunit genes are side by side in an operon-like cluster. Remarkably the cluster appears to be present in at least two copies per genome. It extends over a 5–6 kb length including, besides the catalytic core subunit genes, other cytochrome oxidase related genes, especially a heme O synthase gene. Noteworthy is the new kind of gene order identified within the cluster. Deduced sequences for the cytochrome oxidase subunits and for the heme O synthase look closest to their counterparts in other -subdivision Proteobacteria, particularly the Rhizobiaceae. This confirms the phylogenetic relationships established only upon 16S rRNA data. Furthermore, interesting similarities exist between N. winogradskyi and mitochondrial cytochrome oxidase subunits while the heme O synthase sequence gives some new insights about the other similar published -subdivision proteobacterial sequences.Abbreviations COI cytochrome oxidase subunit I - COII cytochrome oxidase subunit II - COIII cytochrome oxidase subunit III - HOS Heme O synthase - ORF open reading frame - SDS sodium dodecyl sulfate     

Adenine nucleotide pool variations in intact Nitrobacter winogradskyi cells

1. The ATP pool in Nitrobacter winogradskyi cells was determined by means of the luciferin-luciferase enzyme system and the ADP and AMP pools were measured after enzymatic conversion into ATP.
2. In the fist 10 min after addition of nitrite to endogenously respiring cells, which had stood for 5–16 days after completion of the nitrite oxidation, the ATP pool dropped about 60%.
3. During the log phase the ATP pool was approx. 20–40 pmoles/5 μg cell-N. During growth it increased exponentially by 3–4 times the amount until the nitrite had been used up. Subsequently the ATP pool decreased at first rapidly and then more slowly without sinking to 0 in the first 2 months after nitrification.
4. Nitrite oxidizing cells had an energy charge of 0.37 during the log-phase. After approx. 90% of the substrate had been used up the energy charge had reached 0.57.
5. If the CO₂ assimilation was inhibited in growing cultures by increased oxygen partial pressure, nitrite oxidation continued but the ATP pool increased.
6. The ATP pool and the activity of the endogenous respiration decreased by more than 50% during the first hours after the substrate had been used up.

     

Genome Sequence of the Chemolithoautotrophic Nitrite-Oxidizing Bacterium Nitrobacter winogradskyi Nb-255

The alphaproteobacterium Nitrobacter winogradskyi (ATCC 25391) is a gram-negative facultative chemolithoautotroph capable of extracting energy from the oxidation of nitrite to nitrate. Sequencing and analysis of its genome revealed a single circular chromosome of 3,402,093 bp encoding 3,143 predicted proteins. There were extensive similarities to genes in two alphaproteobacteria, Bradyrhizobium japonicum USDA110 (1,300 genes) and Rhodopseudomonas palustris CGA009 CG (815 genes). Genes encoding pathways for known modes of chemolithotrophic and chemoorganotrophic growth were identified. Genes encoding multiple enzymes involved in anapleurotic reactions centered on C₂ to C₄ metabolism, including a glyoxylate bypass, were annotated. The inability of N. winogradskyi to grow on C₆ molecules is consistent with the genome sequence, which lacks genes for complete Embden-Meyerhof and Entner-Doudoroff pathways, and active uptake of sugars. Two gene copies of the nitrite oxidoreductase, type I ribulose-1,5-bisphosphate carboxylase/oxygenase, cytochrome c oxidase, and gene homologs encoding an aerobic-type carbon monoxide dehydrogenase were present. Similarity of nitrite oxidoreductases to respiratory nitrate reductases was confirmed. Approximately 10% of the N. winogradskyi genome codes for genes involved in transport and secretion, including the presence of transporters for various organic-nitrogen molecules. The N. winogradskyi genome provides new insight into the phylogenetic identity and physiological capabilities of nitrite-oxidizing bacteria. The genome will serve as a model to study the cellular and molecular processes that control nitrite oxidation and its interaction with other nitrogen-cycling processes.     

Study of the regulation of oxidation and CO2 assimilation in intact Nitrobacter winogradskyi cells

1. Changes of the adenine nucleotides in resting and growing Nitrobacter winogradskyi cells were measured in connection with regulating processes during nitrite oxidation and endogenous respiration.
2. After the addition of nitrite to endogenously respiring cells the ATP pool increased strongly during the first 60 sec at the expense of the ADP pool. At this point the energy charge was approx. 0.55. After the first 90 sec the ATP pool dropped, oscillating, to a lower level. The CO₂ assimilation began at this point.
3. Under a nitrogen atmosphere the AMP pool increased and the ATP pool decreased. With a value of approx. 0.17 the energy charge was extremely low. When oxygen was added the Nitrobacter cells began to oxidize stored NADH. The ATP pool increased in a few seconds whereas the AMP pool decreased. The P/O ratio of endogenously respiring cells equaled 0.6 under these conditions.
4. During the changeover from anaerobic to aerobic conditions and in the presence of nitrite the nitrite oxidation and CO₂ assimilation, opposed to aerobic conditions, were inhibited at first after the nitrite addition. The changeover of the respiratory chain enzymes from a reduced to an oxidized charge and the ATP increase were delayed in comparison with experiments without nitrite. According to these findings the endogenous respiration must be almost nil while nitrite oxidizing cells are growing.

     

Isolation from soils ofNitrobacter and evidence for novel serotypes using immunofluorescence

To study the ecology of chemoautotrophic nitrifying bacteria (Nitrobacter), the immunofluorescence technique has been used. Fluorescent antibodies againstNitrobacter winogradskyi andNitrobacter agilis, the two known serotypes, have not labeled strains isolated from soils of the Lyon region (pH 8.1 and pH 4.7). The pure-culture isolates appeared to belong to the same genus, but to be serologically different from the reference strains. These results led us to question the diversity of strains ofNitrobacter in soils.     

Rapid detection of ammonia-oxidizing bacteria in activated sludge based on 16S-rRNA gene by using PCR and fluorometry

To detect whole ammonia-oxidizing bacteria in the activated sludge, group-specific primers targeting the 16S-rRNA gene of ammonia-oxidizing bacteria were used. The electrophoresis pattern of the PCR products seemed to produce a single band of approximately 1.0 k bp for the bacteria in activated sludge andNitrosomonas europaea. No band was observed for nitrite-oxidizerNitrobacter winogradskyi and heterotrophs such asPseudomonas putida. Then direct measurement of the PCR product was made by fluorometry using the reagent Hoechist 33258, so that the fluorescent intensity was in proportional to the cell number of the sample up to 240. Total time required for the test was about 4 h including DNA extraction. The DNA fragments produced were cloned and their sequences showed high similarity to those ofNitrosomonas spp. This study showed the feasibility to detect ammonia-oxidizing bacteria and to estimate their population rapidly for the control of the nitrogen elimination process.     

Cloning of the ugp region containing the structural genes for the pho regulon-dependent sn-glycerol-3-phosphate transport system of Escherichia coli

Summary Using a novel positive selection method for G3P transport activity, phages that carry either all or part of ugp, the genes of the pho regulon-dependent G3P transport system of Escherichia coli were isolated from a library of EcoRI fragments of Escherichia coli established in gt7. By subcloning EcoRI fragments carried by the different phages into the multicopy plasmids pACYC184 and pUR222, it was shown that two chromosomal fragments of 6.0 and 6.6 kb are required for the expression of ugp, whereas all the structural information is located on the 6.6 kb EcoRI fragment. A restriction map of the cloned DNA was established and the extent of ugp genes determined by Tn5 insertions. Using ugp-lacZ fusions, it could be shown that the ugp region consists of at least two different operons that are transcribed in the same direction (counterclockwise) on the E. coli chromosome.Abbreviations DHBP 3,4-dihydroxibutyl-1-phosphonate - G3P sn-glycerol-3-phosphate - G3PBP glycerol-3-phosphate binding protein - IPTG isopropyl--d-thiogalactopyranoside - XG 5-bromo-4-chloro-3-indolyl--d-galactopyranoside     

The effect of 2-chloro, 6-(trichloromethyl) pyridine on the chemoautotrophic metabolism of nitrifying bacteria

Studies were conducted to elucidate the mechanism of action of 2-chloro-6-(trichloromethyl)pyridine or Technical N-SERVE on the nitrification process brought about byNitrosomonas europaea. The growth ofNitrosomonas was completely inhibited in the presence of 0.2 ppm N-SERVE while 1.0 ppm of the chemical was effective in the complete inhibition of ammonia oxidation by fresh cell suspensions. Cells stored at 4 C for a period of three days required somewhat higher concentrations (1.5 ppm) of N-SERVE for the complete inhibition of their ammonia oxidizing ability while the cytochrome oxidase of these cells was inhibited to the extent of 65 to 70 percent in the presence of a corresponding amount of N-SERVE. A 45 – 70 percent reversal of the inhibition of ammonia oxidation caused by N-SERVE was obtained by the addition of 6×10^–4 M Cu⁺⁺. An equivalent concentration of Cu⁺⁺ was also effective for the complete reversal of the inhibition of cytochrome oxidase present in whole cells.Hydroxylamine oxidation by intactNitrosomonas cells was not affected by levels of N-SERVE ranging from 1 – 3 ppm. The cytochrome oxidase effective in hydroxylamine oxidation and present in cell-free extracts was not inhibited by even 100 ppm N-SERVE. Likewise, the hydroxylamine activating enzyme hydroxylamine cytochromec reductase was also not inhibited by such levels of the chemical. Raising the concentration to 170 ppm N-SERVE, however, caused a 90 percent inhibition of the enzyme.Although a 5×10^–6 M concentration of allylthiourea completely inhibited ammonia oxidation byNitrosomonas cells, concentrations up to 10^–3 M of this compound did not affect the cytochrome oxidase activity of whole cells or cell-free extracts. The inhibition of ammonia oxidation caused by 5×10^–6 M allythiourea, unlike the inhibition by N-SERVE, could not be reversed by the addition of 6×10^–4 M Cu⁺⁺.Evidence is presented that the action of N-SERVE is on that component of cytochrome oxidase which is involved in ammonia oxidation.     

The photoproduction of superoxide radicals and the superoxide dismutase activity of Photosystem II. The possible involvement of cytochrome b559

In the present study the light induced formation of superoxide and intrinsic superoxide dismutase (SOD) activity in PS II membrane fragments and D1/D2/Cytb559-complexes from spinach have been analyzed by the use of ferricytochrome c (cyt c(III)) reduction and xanthine/xanthine oxidase as assay systems. The following results were obtained: 1.) Photoreduction of Cyt c (III) by PS II membrane fragments is induced by addition of sodium azide, tetracyane ethylene (TCNE) or carbonylcyanide-p-trifluoromethoxy-phenylhydrazone (FCCP) and after removal of the extrinsic polypeptides by a 1M CaCl₂-treatment. This activity which is absent in control samples becomes completely inhibited by the addition of exogenous SOD. 2.) The TCNE induced cyt c(III) photoreduction by PS II membrane fragments was found to be characterized by a half maximal concentration of c_1/2=10 M TCNE. Simultaneously, TCNE inhibits the oxygen evolution rate of PS II membrane fragments with c_1/2 3 M. 3.) The photoproduction of O₂ ^– is coupled with H⁺-uptake. This effect is diminished by the addition of the O₂ ^–-trap cyt c(III). 4.) D1/D2/Cytb559-complexes and PS II membrane fragments deprived of the extrinsic proteins and manganese exhibit no SOD-activity but are capable of producing O₂ ^– in the light if a PS II electron donor is added.Based on these results the site(s) of light induced superoxide formation in PS II is (are) inferred to be located at the acceptor side. A part of the PS II donor side and Cyt b559 in its HP-form are proposed to provide an intrinsic superoxide dismutase (SOD) activity.Abbreviations ADRY acceleration of the deactivation reactions of the water-splitting system Y - ANT-2p 2-(3-chloro-4-trifluoromethyl)anilino-3,5-dinitrothiophene - BCP bromocresol purple - cyt cytochrome - Cyt c cytochrome c - DCIP 2,6-dichlorophenol-indophenol - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - DEDTC Diethyldithiocarbamate - DMBQ 2,5-dimethyl-p-benzoquinone - DPC 1,5-diphenylcarbazide - FCCP carbonylcyanide-p-trifluoro/methoxy-phenylhydrazone - HP high potential - LP low potential - MES 2-(N-morpholino)ethanesulfonic acid - NADP nicotinamide adenine dinucleotide phosphate - SOD superoxide dismutase - TCNE tetracyane ethylene - TEMED N,N,N,N-tetramethylethylenediamine     

Mechanisms of Oxidation of Inorganic Electron Donors in Autotrophic Bacteria

The enzymatic reactions involved in the oxidation of sulfide,sulfite, thiosulfate, ferrous ions, ammonia, and nitrite arereviewed for Chlorobium limicola f. thiosulfato philum, Thiobacillusnovellus, Thiobacillus ferrooxidans, Nitrosomonas europaea,and Nitrobacter winogradskyi. The properties of the purifiedredox enzymes and of proteins that participate in the oxidationof the inorganic compounds in these autotrophic bacteria aresummarized, and the mechanisms of the oxidation of the inorganiccompounds are discussed on the basis of the interactions betweenthe redox enzymes and carriers. (Received December 21, 1995; Accepted May 29, 1996)     

Ammonium photoproduction by free and immobilized cells of Chlamydomonas reinhardtii

Summary Free-living or immobilized Chlamydomonas reinhardtii cells photoproduce ammonium from nitrite in a medium containing 1 mM of l-methionine-d,l-sulphoximine (MSX). Ammonium is accumulated in the medium to 8 mM final concentration, which inhibits nitrite uptake by the MSX-treated cells and consequently the excretion of ammonium is blocked. However, if ammonium was removed from the medium and nitrite and MSX periodically restored, the photoproduction process could be maintained over 96 h, with a final ammonium concentration of about 18 mM for free-living cells and 28 mM for immobilized ones. The MSX-treated cells showed a photoproduction productivity of 1300 mol NH ₄ ⁺ · mg chlorophyll (Chl)^-1, with an average production rate of 14 mol NH ₄ ⁺ · mg Chl^-1 per hour, for calcium alginate-entrapped cells, while the corresponding data for free-living ones was 650 mol NH ₄ ⁺ · mg Chl^-1 and 6.7 mol NH ₄ ⁺ · mg Chl^-1 per hour, respectively. Immobilized cells showed a significant increase in the nitrite uptake rate, probably due to a change in membrane permeability as a consequence of cell-matrix interactions.     

Deoxyribonucleic acid relatedness among strains of the moderately halophilic speciesDeleya halophila

The genomic relatedness among 16 strains assigned to the moderately halophilic speciesDeleya halophila and other 20 representative strains of halophilic and nonhalophilic species was estimated by determination of deoxyribonucleic acid (DNA) base composition and by DNA-DNA hybridization studies. The guanine-plus-cytosine (G + C) base contents, determined from the melting temperature of DNAs ofD. halophila strains, were 66.0–68.8 mol %. DNA-DNA homology studies, determined by membrane filter technique, indicate that the 16 strains ofD. halophila comprise a genetically homogeneous group. High homology (70–100%) was obtained between the type strainD. halophila CCM 3662 and the otherD. halophila strains studied; however, very low DNA relatedness was found between the representative strains ofD. halophila and otherDeleya species (13-0%), as well as other moderately halophilic, marine, or nonhalophilic bacteria investigated.     

Growth yields and energy generation by Campylobacter sputorum subspecies bubulus during growth in continuous culture with different hydrogen acceptors

Campylobacter sputorum subspecies bubulus was grown in continuous culture with excess of l-lactate or formate, and growth-limiting amounts of oxygen, fumarate, nitrate or nitrite. l-Lactate was oxidized to acetate, fumarate was reduced to succinate, and nitrate and nitrite were reduced to ammonia. The Y _lactate values (g dry weight bacteria/g mol lactate) for the respective hydrogen acceptors were much higher than the Y _formate values. Steady state cultures on formate and nitrite could only be obtained at a low dilution rate and low nitrite concentrations in the growth medium. In H⁺/2e measurements with lactate-grown cells proton ejections were observed with lactate or pyruvate as a hydrogen donor, and oxygen or hydrogen peroxide as a hydrogen acceptor. Proton ejection was also observed with pyruvate and nitrate. Proton ejection did not occur with lactate and nitrate, neither with lactate or pyruvate and fumarate or nitrite. With formate as a hydrogen donor acidification occurred with all hydrogen acceptors mentioned. It has been concluded that during growth on lactate and fumarate or nitrite substrate level phosphorylation at acetate formation is the sole ATP-generating system. Growth on formate and fumarate or nitrite is explained by a proton gradient generated as a result of oxidation of formate at the periplasmic side of the cytoplasmic membrane. With oxygen and nitrate additional ATP is formed by electron transport-linked phosphorylation. The low molar growth yields with formate are explained by the observation that formate-grown cells had a great permeability to protons.Abbreviations H⁺/2e value number of protons ejected per electron pair transported in the respiratory system - P/2e value mol of ATP formed per electron pair transported in the respiratory system - CCCP carbonyl cyanide m-chlorophenyl-hydrazone     

The effect of nitrate concentration in a flowing solution system on growth and nitrate uptake of twoPlantago species

Summary Juvenile plants ofPlantago lanceolata andP. major ssp.major were grown in a flowing solution system at 7.5 mM or 9.5 M NO₃. The parameters investigated were: RGR, shoot weight percentage, leaf length, length of main root axis, shoot concentrations of major ions and organic N, and the specific uptake rate for NO₃. At 9.5 M NO₃ growth ofP. major was not hampered, whereas shoot growth and leaf length ofP. lanceolata were reduced. The NO₃ concentration ofP. lanceolata decreased more than that ofP. major. The different performances of the species at 9.5 M NO₃ were associated with different specific uptake rates. In both treatments the root system ofP. major was shorter than that ofP. lanceolata. P. lanceolata accumulated more NO₃ in the leaves. The performance of thePlantago species is discussed in relation to the availability of nutrients in their habitats.Grassland Species Research Group. Publication no. 37.