The cytochrome composition of the meat spoilage bacterium Brochothrix thermosphacta: identification of cytochrome a 3- and d-type terminal oxidases under various conditions

Brochothrix thermosphacta, grown in batch culture in a yeast-dextrose broth, at temperatures from 30 °C to 10 °C, contained diverse membrane-bound respiratory cytochromes. Under conditions of moderate aeration, cytochromes of the a-, b- and d-type were detected at all growth temperatures, but the proportions changed as a function of temperature, with the spectra of cells grown at 10 or 15 °C being dominated by a-type cytochrome(s). Cytochrome a ₃ was detected by its reactions with CO and cyanide in cells from all growth conditions. An additional cytochrome a, which was not cyanide-reactive, was also detected, suggesting the presence of an aa ₃ oxidase complex. Cytochrome d was cyanide- and CO-reactive, but not detectable in photodissociation spectra, presumably because of the very rapid recombination of CO at the sub-zero temperatures used. Decreasing the oxygen transfer rates to batch cultures resulted in enhanced expression of cytochrome d and changed the proportion of the aa ₃-type oxidase that could be attributed to ligand-binding cytochrome a ₃; at the lowest oxygen transfer rates, no cytochrome a was detected, suggesting the presence of a cytochrome ba ₃ terminal oxidase complex. Intact cells showed no evidence of a c-type cytochrome and no haem C was detected in membrane preparations. After growth at 10°C, the cytochrome composition of B. campestris was essentially identical to that of B. thermosphacta. The multiplicity of putative terminal oxidases in B. thermosphacta is discussed.     

The glucose dehydrogenase-mediated energization of Acinetobacter calcoaceticus as a tool for evaluating its susceptibility to,and defence against,hazardous chemicals

Cells of Acinetobacter calcoaceticus 69-V could be energized by glucose oxidation after the growth on acetate, ethanol, hexanol and benzoate. The velocities of glucose oxidation-driven ATP syntheses were relatively constant in the range from pH 5.4 to 7.5. With decreasing pH values (7.0, 6.0, 5.4) ATP synthesis was inhibited more strongly by the action of 2,4-dinitrophenol and at the same pH value glucose oxidation was nearly unimpaired or inhibited more weakly. This finding is expressed by a decrease of the P/O ratios, indicating the uncoupling of the electron-transport phosphorylation by 2,4-dinitrophenol. The sensitivity towards this uncoupling effect was higher in ethanol-grown cells of Acinetobacter calcoaceticus 69-V than in hexanol- or acetate-grown cells. This increase in sensitivity was accompanied by a decrease of the ratio of saturated (mainly C16:0) to unsaturated (C16:1, C18:1) fatty acids in ethanol-grown cells compared with hexanol-grown ones. The knowledge of such differences in the susceptibility and its molecular background, e.g. possible substrate-induced changes of the fatty acid composition of the cytoplasmic membranes, should help elucidate mechanisms of poisoning by membrane-active hazardous chemicals and develop defence strategies.     

Role of Copper Ions in the Regulation of L-Glutamate Biosynthesis

Cell-free extracts of Brevibacterium thiogenitalis culture grown in the presence of copper catalyzed the oxidation of NADH₂ and succinate through an electron transport chain which contained menaquinones and cytochromes a, b and c. On the other hand, extracts of cells grown in the absence of copper lacked cytochromes a and c, and contained cytochrome d.

These findings, as well as the results obtained in inhibition experiments, suggest that in copper-deficient cells the major part of NADH₂ was oxidized via a bypass in which the electrons were transferred directly from flavoprotein or cytochrome b to molecular oxygen.

Electron transport from these substrates to molecular oxygen resulted in ATP synthesis. The average P/O ratios in extracts of the copper-sufficient cells were 0.33 for generated NADH₂, 0.20 for added NADH₂, and 0.34 for succinate, and those in extracts of the copper-deficient cells were 0.15, 0.13 and 0.21, respectively. In addition, a linear relationship was found between the yield of L-glutamate from acetate and the P/Ο ratios with both NADH₂ and succinate as substrates.

From these results, it is reasonable to consider that the poor yield of L-glutamate from acetate in copper-deficient cells was due to a reduction in energy supply, which was caused by the low efficiency of oxidative phosphorylation.     

Effects of Different Substrates on Glucose Uptake and Hexokinase Activity in Euglena gracilis*

SYNOPSIS. Hexokinase levels and glucose uptake rates were measured in cells of Euglena gracilis adapted for growth on glucose, acetate, and ethanol. Glucose-grown cells had 3 times the hexokinase levels found in acetate- and ethanol-grown cells. However, glucose- and ethanol-grown cells had the same rates of glucose uptake, while acetate-grown cells accumulated only 1/8 as much glucose in the same interval.     

Inhibition of Respiration in Prototheca zopfii by Light

Irradiation of cells of Prototheca zopfii with blue light inhibited the respiratory capacity of the cells. The inhibition of respiration was correlated with a photodestruction of cytochrome c(551), cytochrome b(559), and cytochrome a₃. Cytochrome c(549), cytochrome b(555), and cytochrome b(564) were unaffected by the irradiation treatment. The α-band of reduced cytochrome a was shifted from 599 to 603 nm by irradiation, an effect similar to that observed when methanol was added to nonirradiated cells. The presence of oxygen was required during irradiation for both photoinhibition of respiration and photodestruction of the cytochromes. Cytochrome a₃ was protected against photodestruction by cyanide. Photodestruction of these same cytochromes also occurred when washed mitochondria of P. zopfii were irradiated.     

Changes in cytochrome contents and respiratory activity of Bacillus cereus Strain T during germination, vegetative growth and sporulation

Vegetative cells of Bacillus cereus Strain T contain cytochromeb-562, a minor b-type component, in addition to known components,cytochrome a+a₃, cytochrome b-557 and cytochrome c-551. Also,the spores contain low but definite amounts of cytochromes b-562and c-551, which were oxidized when the spores were shaken withair. Contents of cytochromes a, b and c per cell and per cellnitrogen, and the activity of glucose oxidation increased duringspore germination and elongation. During the stage precedingfirst cell division, cytochrome contents per cell increasedin parallel with the increase of cell nitrogen, while the activityof glucose oxidation decreased. During early exponential growth,the content of cytochrome b per cell nitrogen and respiratoryactivity with glucose again increased. When cells entered thesporulation stage, characterized by structural changes insidethe cells, the activity of glucose oxidation began to decrease,while that of acetate or succinate oxidation started to increase.During the sporulation process, the contents of the three cytochromecomponents continued to increase and reached the highest levelin cells containing completed spores, but the activity of respirationwith endogenous or added substrates was negligible in thesecells. (Received November 10, 1975; )     

Glucose as an energy donor in acetate growing Acinetobacter calcoaceticus

Since glucose can be oxidized but not assimilated by Acinetobacter calcoaceticus 69-V the question arose whether energy generated by glucose oxidation can help incorporate carbon from heterotrophic substrates and, if so, what the efficiency of ATP production is like. For this reason this species was grown in the chemostat on acetate. After having reached steady state conditions an increasing concentration of glucose was added. This led to an increase in the biomass level from about 0.4 g/g for growth on acetate alone to 0.6–0.65 g/g in the presence of glucose, independently of either the growth rate or the steepness of the glucose gradient used. This upper value approximates about the limit of the carbon conversion efficiency calculated for non-glycolytic substrates. Glucose was almost exclusively oxidized to gluconic acid, 2- and 5-ketogluconates, and pentose 5-phosphates were found only in traces. These results demonstrate that glucose functions as an additional energy source in Acinetobacter calcoaceticus 69-V. From the transient behaviour of biomass increase and the mixing proportion at which the maximum growth yield on acetate in the presence of glucose was obtained it followed that two mol of ATP must have been generated per mol of glucose oxidized. This property is discussed in terms of coupling glucose dehydrogenase with the respiratory chain.Abbreviations G _ox glucose oxidized to gluconic acid - G _t amount of glucose necessary for complete substitution of S _d - S _o inlet concentration of the limiting carbon substrate - S _a and S _d assimilated and dissimilated part respectively of the carbon substrate - PQQ pyrrolo-quinoline-quinone - V _ATP ^Ac ATP gain from complete oxidation to CO₂ of acetate (P/O=2) - V _ATP ^Glc ATP gain from oxidation of glucose to gluconic acid     

Succinate oxidation by coupled potato tuber mitochondria followed by rapid scan spectrometry

Oxidation of succinate by potato tuber mitochondria has been investigated from aerobiosis to complete anuerobiosis. Difference spectra of the various steps were recorded by a rapid scan spectrometer delivering averaged spectra every 3 s in the range 380 to 630 mm. The transitions between state 3 and 4 resulted in large redox changes, essentially for the b cytochromes, and in significant changes in the spectral baseline (light scattering). At anaerobiosis the cytochromes c, c₁ and a were reduced while cytochrome a, remained oxidized. – Addition of uncouplers in aerobiosis induced oxidation of the b cytochromes, and when anaerobiosis occurred cytochromes c, c₁a and a₃ were reduced simultaneously. When uncouplers were added in anaerobiosis a partial oxidation of the b cytochromes and the reduction of cytochrome a₃ were observed. These results are interpreted as the building up of a membrane potential, maximal in state 4 and stable after anaerobiosis. The cytochromes buried in the membrane equilibrate with the membrane potential, and their redox states are sensitive to the changes. Variations of membrane potential also induce changes in the light scattering by the mitochondrial membrane.     

Energy dependent changes in the cytochromes of the mitochondrial respiratory chain

In intact mitochondria a stoichiometric coupling exists between cytochrome a₃ and the hydrolysis of adenosine triphosphate (ATP). In each case the modification of one cytochrome a₃ (measured as a spectral change) is coupled to the hydrolysis of one ATP molecule. When both cytochromes a₃ and a are reduced the measured equilibrium constant is 0.06 m^?1 but this constant is 10³ M^?1 when both cytochromes are oxidized. When the sixth ligand for cytochrome a₃ is an externally added ligand (HCN, H₂S, CO, NO) the equilibrium constant is different for each ligand, suggesting that the ATP induced modification is of the fifth ligand but that it is energetically dependent on the chemical nature of the sixth ligand. The measured half-reduction potentials for cytochromes a₃ and b_T are dependent on the concentrations of added ATP, adenosine diphosphate (ADP), and orthophosphate. The relationship is consistent with a ligand exchange mechanism in which the ligand on the cytochrome is dependent on the phosphate potential ($\text{ATP}\text{ADP}$ × P_i). The equilibrium constants obtained by the ligand exchange treatment of the E_m values for cytochrome a₃ are consistent with those obtained by direct measurement of the equilibrium constants for the spectrally measured changes.     

The respiratory chain of the facultative thermophile,Bacillus coagulans

Two oxidases were found to be present in membranes from the facultative thermophile Bacillus coagulans grown at 55°C, compared to one in cells grown at 37°C. Cytochrome spectra and inhibitors of the respiratory chain identified them as cytochrome oxidases aa ₃ and d. Both were present in membranes from 55°C grown cells, but only cytochrome oxidase aa ₃ was found in membranes from 37°C grown cells. The presence of cytochrome d in 55°C grown cultures was found to be due to decreased oxygen tension and not to the high growth temperature. This was confirmed by (a) induction of cytochrome d at 37°C under conditions of oxygen limitation and (b) its repression at 55°C under conditions of high aeration and its subsequent induction on lowering the dissolved oxygen concentration in chemostat cultures. Two cytochromes b (_max 558 and _max 562) were present in both 37°C and 55°C grown cells. Results from the inhibition of substrate oxidation by membranes suggested different pathways of electron transport by the respiratory chain.     

Cytochrome d expression and regulation pattern in free-living Rhizobium phaseoli

The respiratory system of Rhizobium phaseoli CFN42 in free-living cultures was studied. Cytochromes b, c, o and aa ₃ were found in fast growing cells cultured under forced aeration. Stationary aerobic cells, and semianaerobically grown cells showed decreased levels of cytochromes c, aa ₃ and o, concomitant with a significant increase of b type cytochromes and the synthesis of a new cytochrome, tentatively identified as cytochrome d. Cell membranes with the highest content of cytochrome d (semianaerobically grown cells) showed the highest respiratory activities with NADH, succinate, malate or ascorbate-TMPD (N,N,N,N-tetramethyl p-phenylendiamine). In the presence of either of the above electron donors, cytochrome d was clearly reduced. NADH dependent respiration in membranes of fast growing cells (no cytochrome d detected) was abolished by 25 M KCN. This inhibitor concentration caused only 15–20% inhibition in membranes of semianaerobically grown cells (cyt d present). Moreover, in the presence of 1–5 mM KCN, the oxidation of cyt d and a b type cytochromes was spectrally detected. It is suggested that cyt d is a functional cytochrome in the respiratory system of free-living Rhizobia, probably acting as terminal oxidase.     

A -glucuronidase deficiency mucopolysaccharidosis: studies in cultured fibroblasts

Cytochrome P-450 cannot be detected spectrophotometrically in testis mitochondria of untreated rats because of the high cytochrome a₃ to Cytochrome P-450 ratio. Injection of human chorionic gonadotrophin (HCG) causes a large increase in mitochondrial cytochrome P-450. After 14 days injection, mitochondrial cytochrome P-450 levels are increased 15- to 30-fold (from 0.007 to 0.134 nmoles/mg protein) over control levels. Levels of cytochrome a + a₃ are not altered by this treatment. Mitochondrial cytochrome P-450 can also be demonstrated by injection of HCG into rats which were hypophysectomized 24 days previously. During hypophysectorny the mitochondrial cytochromes c + c_i, a + a₃ and mitochondrial protein decay with halflives of 14, 16, and 15.5 days, respectively. HCG treatment for 8 days increases mitochondrial cytochrome P-450 (from < 0.003 to 0.24 nmoles/mg protein) without altering the levels of the other mitochondrial cytochromes. The control of cytochrome P-450 levels in the mitochondria by HCG suggests that the level of this key component of cholesterol side-chain cleavage enzyme may be of importance in the regulation of steroidogenesis in the testis.     

Peculiarities of Ethanol Metabolism in an Acinetobacter sp. Mutant Strain Defective in Exopolysaccharide Synthesis

Activities of the key enzymes of ethanol metabolism were assayed in ethanol-grown cells of an Acinetobacter sp. mutant strain unable to synthesize exopolysaccharides (EPS). The original EPS-producing strain could not be used for enzyme analysis because its cells could not to be separated from the extremely viscous EPS with a high molecular weight. In Acinetobacter sp., ethanol oxidation to acetaldehyde proved to be catalyzed by the NAD⁺-dependent alcohol dehydrogenase (EC 1.1.1.1.). Both NAD⁺ and NADP⁺ could be electron accepters in the acetaldehyde dehydrogenase reaction. Acetate is implicated in the Acinetobacter sp. metabolism via the reaction catalyzed by acetyl-CoA-synthetase (EC 6.2.1.1.). Isocitrate lyase (EC 4.1.3.1.) activity was also detected, indicating that the glyoxylate cycle is the anaplerotic mechanism that replenishes the pool of C₄-dicarboxylic acids in Acinetobacter sp. cells. In ethanol metabolism by Acinetobacter sp., the reactions involving acetate are the bottleneck, as evidenced by the inhibitory effect of sodium ions on both acetate oxidation in the intact cells and on acetyl-CoA-synthetase activity in the cell-free extracts, as well as by the limitation of the C₂-metabolism by coenzyme A. The results obtained may be helpful in developing a new biotechnological procedure for obtaining ethanol-derived exopolysaccharide ethapolan.     

Mitochondrial polymorphism. III. Heterosis,complementation, and spectral properties of purified cytochrome oxidase of wheat

Cytochrome oxidase was purified twentyfold from mitochondria of seedlings of wheat genotypes 28, 31 MS, and 31 MS/28. The enzyme of the hybrid exceeded in activity the parental enzymes. Mixtures of cytochrome oxidase of the parents exhibited complementation in that they approached the activity of the hybrid cytochrome oxidase. Hybrid mitochondria also exhibited heterosis in NADH: cytochrome c reductase activity. Complementation by parent mitochondria was observed for this enzyme also. The Michaelis constant of cytochrome oxidase and NADH: cytochrome reductase was markedly less in the hybrid and the mixture than in the parents. Difference spectra revealed the following: strain 28 had cytochromes a and b but was deficient in cytochrome c; strain 31 MS had cytochromes b and c but no a; the hybrid had all three cytochromes, as did the mixture. The relationship of cytochromes to heterosis and complementation is considered.This work was supported by DeKalb AgResearch, Inc.     

Protoheme,a dispensable growth factor forBacteroides fragilis grown by batch and continuous culture in a basal medium

The growth yields of 10 strains ofBacteroides fragilis isolated from a variety of clinical sites were determined in (a) basal medium, (b) basal medium plus heme, and (c) basal medium plus heme and menadione. The molar growth yield values, expressed as a function of glucose (Y_G) and ATP produced (Y_ATP) for 24 h and 48 h were used for a comparison of different strains. Considerable variation occurred among strains, but in general only the results from 24-h grown cells were reproducible. After this period, the microscopic appearance of cells changed dramatically from well-formed, intact cells to large collections of extracellular vesicles and lysed cells. All strains were stimulated by heme, but marked differences occurred among strains. The addition of heme and menadione to the basal medium increased the Y_G values of some strains, whereas others were unaffected. Heme-cultured cells produced acetate, propionate, and succinate as major metabolic end products and possessed cytochrome b, menaquinone-10, and fumarate reductase activity. Strain NCTC 9343 grown without added heme by continuous culture or batch culture produced cells that were morphologically and biochemically similar. Under both conditions these cells lacked cytochromes, menaquinones, and fumarate reductase activity, but produced high levels of lactate and fumarate together with lower levels of acetate, propionate, and succinate.     

The participation of cytochromes in the process of nitrate respiration in Klebsiella (Aerobacter) aerogenes

1. The participation of cytochromes in the membrane-bound, nitrate and oxygen respiratory systems of Klebsiella (Aerobacter) aerogenes has been investigated. The membrane preparations contained the NADH, succinate, lactate and formate oxidase systems, and in addition a high respiratory nitrate reductase activity.2. Difference spectra indicated the presence of cytochromes b, a₁, d, and o. Cytochromes of the c-type could not be detected in these membranes. Both cytochrome b content and respiratory nitrate reductase activity were the highest in bacteria grown anaerobically in the presence of nitrate.3. Cytochrome b was the only cytochrome which, after being reduced by NADH, could be partially reoxidized anaerobically in the presence of nitrate. Furthermore, nitrate caused a lower aerobic steady state reduction only of cytochrome b.4. NADH oxidase and NADH-linked respiratory nitrate reductase activities were both inhibited by antimycin A, 2-n-heptyl-4-hydroxyquinoline-N-oxide and KCN. NADH oxidase activity was selectively inhibited by CO, while azide was found to inhibit only the respiratory nitrate reductase. In the presence of azide, nitrate did not affect the level of reduction of cytochrome b.5. The evidence presented suggests that cytochrome b is a carrier in the electron transport systems to both nitrate and oxygen; from cytochrome b branching occurs, with one branch linked to the respiratory nitrate reductase and one branch linked to oxidase systems, containing the cytochromes a₁, d and o.     

Thermobacteroides acetoethylicus gen. nov. and spec. nov., a new chemoorganotrophic,anaerobic, thermophilic bacterium

The taxonomic and metabolic characteristics of a new caldoactive bacterium, Thermobacteroides acetoethylicus, that is prevalent in volcanic features where organic matter is vigorously being decomposed is described. T. acetoethylicus is a nonsporing, obligately anaerobic rod that stains gram-negative and exists singly or in pairs. Electron micrographs revealed peritrichous flagellation and a distinctive outer wall envelope structure without an outer wall membrane layer. The temperature range for growth was >40°C and <80°C; the pH range was between 5.5 and 8.5. The DNA base composition was 31±1 mol% guanosine plus cytosine. Fermentable carbohydrates included glucose, mannose, cellobiose, lactose, maltose, sucrose and starch. Growth on glucose in complex medium was associated with a 30 min doubling time; and ethanol, acetate, H₂/CO₂, butyrate and isobutyrate accounted for a balanced fermentation. Lactic acid was not formed. Growth was inhibited by O₂, 2% NaCl, penicillin, streptomycin, vankomycin and neomycin, but not by chloramphenicol or hydrogen (2 atm). Glucose was metabolized via the Embden-Meyerhoff Pathway. A molar growth yield of 18.3 g cell per mol glucose and an ATP yield of 8 g cell per mol ATP produced was obtained. These results support the absence of detectable cytochromes and suggest that energy conservation is via substrate level phosphorylation alone.Abbreviations DNA deoxyribonucleic acid - ATP adenosine triphosphate - LPBB low phosphate buffered basal - TYEG tryptone yeast extract glucose - O.D. optical density - Y _ATP molar ATP yield - G+C guanosine plus cytosine     

Evidence for a dual role of cytochrome c-553 and plastocyanin in photosynthesis and respiration of the cyanobacterium,Anabaena variabilis

The cytochrome oxidase activity (oxygen uptake in the dark) of a membrane preparation from Anabaena variabilis was found to be stimulated by cytochrome c-553 and plastocyanin obtained from this alga. Cytochrome c from horse heart was as active as cytochrome c-553, whereas little or no stimulation of oxygen uptake was obtained with cytochromes c ₂ from two Rhodospirillaceae, the plastidic cytochrome c-552 from Euglena, and plastocyanin from spinach. Cytochrome c-553 (A. variabilis) stimulated photosystem 1 activity in the same preparation much more than cytochrome c (horse heart). The results indicate that cytochrome c-553 and plastocyanin, besides their established function as electron donors of photosystem 1, participate in respiratory electron transport as reductants of a terminal oxidase. Photooxidation and dark oxidation show a different donor specificity.Abbreviations Chl chlorophyll a - TMPD N,N,N,N-tetramethyl-p-phenylenediamine     

The Respiratory Chain of Plant Mitochondria: XII. Some Aspects of the Energy-linked Reverse Electron Transport from the Cytochromes c to the Cytochromes b in Mung Bean Mitochondria

The cytochromes c of mung bean (Phaseolus aureus) mitochondria become reduced when sulfide, a cytochrome oxidase inhibitor free from uncoupling side effects, is added to the aerobic mitochondrial suspension in the absence of added substrate. The cytochromes b remain largely oxidized. Subsequent addition of ATP results in partial oxidation of the cytochromes c and partial reduction of the cytochromes b due to ATP-driven reverse electron transport through the second site of energy conservation, or coupling site, of the respiratory chain. Cytochrome a is also oxidized under these conditions, but there is no concomitant reduction of the flavoprotein components, of ubiquinone, or of endogenous pyridine nucleotide. The reaction is abolished by oligomycin. The reducing equivalents transported from the cytochromes c and a in ATP-driven reverse electron transport are about 2-fold greater than those which appear in the cytochromes b. It is suggested that the equivalents not accounted for are present in a coupling site enzyme at the second site of energy conservation which interacts with the respiratory chain carriers by means of the dithiol-disulfide couple; this couple would not show absorbance changes with redox state over the wavelength range examined. With succinate present, reverse electron transport can be demonstrated at both coupling sites in both the aerobic steady state and in anaerobiosis. ATP-driven reverse electron transport in anaerobiosis maintains cytochrome a 30% oxidized while endogenous pyridine nucleotide is 50% reduced.     

Energetics of glucose uptake in Salmonella typhimurium

We have studied the energetics of glucose uptake in Salmonella typhimurium. Strain PP418 transprots glucose via the phosphoenolpyruvate: glucose phosphotransferase system, while strain PP1705 lacks this system and can only use the galactose permease for glucose uptake. These two strains were cultured anaerobically in glucose-limited chemostats. Both strains produced ethanol and acetate in equimolar amounts but a significant difference was observed in the molar growth yield on glucose (Y _Glc). It is suggested that this difference is due to a difference in the energetics of the glucose uptake systems in the two strains.Assuming an equal Y _ATP for both strains, we could calculate that uptake of 1 mole of glucose via the galactose permease consumes the equivalent of 0.5 mole of ATP. With the additional assumption that one proton is transported in symport with one glucose molecule, these results imply a stoichiometry of two protons per ATP hydrolysed.Abbreviations PTS Phosphoenolpyruvate: carbohydrate phosphotransferase system - D dilution rate (h^-1 - DW dry weight - GalP galactose permease - EtOH ethanol - HAc acetate - Lact lactate - Suc succinate - HFo formate - Glc Glucose - Y _Glc, Y _ATP yield of cells per glucose or ATP - q specific production rate