The oxidation of extracellular NADH by sugarcane cells: Coupling to ferricyanide reduction,oxygen uptake and pH change

Suspension-cultured cells of sugarcane (Saccharum sp. hybrids) did not oxidize exogenously supplied NADH in the absence of ferricyanide (potassium hexacyanoferrate [III]), whereas they did at a low rate in the presence of ferricyanide. Concomitantly, ferricyanide was reduced at a slow rate. Neither a pH change nor a change in respiration was caused by the addition of NADH and-or ferricyanide, but ferricyanide was a strong inhibitor of sugar transport. In contrast to cells, protoplasts rapidly oxidized exogenous NADH. This oxidation was accompanied by an increase in oxygen consumption and a net proton disappearance from the medium. Exogenous ferricyanide was reduced only slowly by protoplasts. Simultaneous presence of NADH and ferricyanide produced two effects: 1) a very rapid stoichiometric oxidation of NADH and reduction of ferricyanide until one of the reaction compounds was exhausted, and 2) a nearly instantaneous inhibition of the slower phase of NADH oxidation, which was observed in the presence of NADH but absence of ferricyanide. The extra oxygen consumption and the alkalinization of the medium, as observed with NADH, were also immediately stopped by ferric ions and ferrous ions. The presence of NADH and ferricyanide caused a fast stoichiometric acidification of the medium. These results were taken as evidence that the oxidation of NADH in the absence of ferricyanide is not related to the NADH-ferricyanide-coupled redox reaction. Furthermore, addition of NADH caused some uncoupling of the protoplasts, an effect which would explain the strong acidification of the cell cytoplasm and the inhibition of various transport systems. The NADH-oxidizing systems oxidized both the -configurated pyridine nucleotide and the -configurated form. Since NADH-linked dehydrogenases usually do not work with -NADH (with the exception of the endoplasmic-reticulum-bound electron-transport system), the observed activities could have been derived from contaminating membranes and dying protoplasts in the suspension. All reported reactions partly or predominantly occurred in the supernatant of the protoplast suspension and increased considerably during incubation of the protoplasts. The rates and quantities of oxygen consumption, pH change, and ferricyanide reduction fitted with NADH oxidation in a stoichiometric ratio, which implied that all these reactions occurred in the extracellular space, without involving transmembrane steps. No evidence for a physiological role in energization of the plasmalemma was found.Abbreviation NADH -nicotinamide adenine dinucleotide reduced form     

Rate of free-radical oxidation of C18 diene and triene fatty acids in aqueous micellar solutions and effectiveness of beta-carotene as an inhibitor of their oxidation

The rate of accumulation of conjugated dienes of polyunsaturated fatty acids was measured during free-radical oxidation of linoleic acid (18:2n-6, LA), -linolenic acid (18:3n-3, -LNA), and -linolenic acid (18:3n-6, -LNA) initiated by 2,2"-azo-bis-(2-amidinopropane) hydrochloride in aqueous micellar solutions of sodium dodecyl sulfate and sodium cholate. It was shown that, unlike homogeneous solutions, the oxidative stability of PUFAs in aqueous dispersions increased with an increase in the extent of unsaturation. The rate of LA oxidation was more than tenfold greater than that of - and -LNA. The antioxidant activity of -carotene, in contrast to homogeneous solutions, in both micellar systems studied depended on the degree of PUFA unsaturation. We found that 5 M -carotene effectively inhibited the LA oxidation (almost by 90%), whereas the oxidation of -LNA and -LNA was not inhibited by -carotene even at much greater concentration (30 M). The paradoxical discrepancy between the extent of unsaturation and the PUFA oxidation rate, as well as a decrease in the efficiency of -carotene-dependent inhibition of oxidation of more polyunsaturated fatty acids in reactions conducted in aqueous dispersions is consistent with the model according to which the peroxyl radicals of LA and fatty acids with the doublebond number greater than two exhibit different polarity.     

Purification and immunocytochemical localization of kafirins inSorghum bicolor (L. Moench) endosperm

Summary Kafirins are the storage proteins of sorghum and are found in protein bodies in the seed endosperm. They have been classified as -, -, and -kafirins according to differences in molecular weight, solubility, and structure. The kafirins were purified, amino acid composition was determined, and immunolocalization methods were used to determine the organization of the protein bodies and distribution of kafirins throughout the endosperm. All three groups of kafirins were low in lysine. -Kafirins and -kafirins were relatively high in cysteine, and -kafirins were relatively high in methionine. Transmission electron microscopy showed that protein bodies in the peripheral endosperm were spheroid with concentric rings and few darkly stained inclusions. In contrast, protein bodies of the central endosperm were irregularly shaped with a higher proportion of darkly stained material. The light staining regions of the protein bodies are composed primarily of -kafirins with minor portions of - and -kafirins. The dark staining regions, however, are composed primarily of - and -kafirins. Immunoelectron microscopy showed that protein bodies in the peripheral endosperm contain predominantly a-kafirin with minor amounts of - and -kafirin. Central endosperm protein bodies are also predominantly -kafirin, but have a higher proportion of -kafirin and -kafirin than the peripheral endosperm protein bodies.Abbreviations GAR-HRP Goat anti-rabbit horseradish peroxidase - IgG immunoglobulin G - 2-ME 2-mercaptoethanol - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - TBS Tris buffer saline - TBS-T Tris buffer saline with Tween - TBS-T-B Tris buffer saline with Tween and bovine serum albumin - TCA trichloroacetic acid - UV ultraviolet     

Properties of an enzymatic complex active in sulfite and thiosulfate oxidation by Rhodotorula sp.

An enzymatic complex from Rhodotorula was characterized and it was indicated that it possessed thiosulfate-oxidizing activity, forming tetrathionate as well as sulfite oxidase activity. Both activities coupled with ferricyanide and native cytochrome c but no with mammalian cytochrome c. Activities of these enzymes were inhibited by thiol inhibitors. Chelating agents did not affect thiosulfate oxidizing activity and only moderately inhibited sulfite oxidase. Both activities disappeared after treatment with proteolytic enzymes or sodium deoxycholate which indicates an essential role played not only by protein but also by phospholipids in the enzymatic activity of the complex. Thiosulfate oxidizing enzyme had a K _m for thiosulfate of 0.16 mM with ferricyanide as electron acceptor and of 14 M with native cytochrome c and of 0.34 mM for ferricyanide. Optimum pH for this activity was 7.8. Other properties of this enzyme were similar to those of thiobacilli and heterotrophic bacteria. The activity of sulfite oxidase was inhibited by 50% with 10 M AMP. The K _m values of this enzyme were 1 mM with ferricyanide as electron acceptor and 60 M with native cytochrome c for sulfite and 0.42 mM for ferricyanide. The enzyme did not show a specific optimum pH value with ferricyanide as electron acceptor. However, with native cytochrome c optimum pH was 7.8 for its activity. In many properties the sulfite oxidase from Rhodotorula was similar to the enzyme from Thiobacillus ferrooxidans, T. concretivorus, T. thioparus and T. novellus.Abbreviations CSH reduced glutathion - APS reductase, adenosine-S-phosphosulfate reductase - pHMB p-hydroxymercuribenzoate - NEM N-ethylmalcimide - TCA trichloroacetic acid - PPO 2,5-diphenyloxazole - POPOP 2,2-p-phenylen-bis 5-phenyloxazol     

Effects of cysteine modification on the activity of the cGMP-gated channel from retinal rods

The effect of sulfhydryl reagents on the activity of the cGMP-gated channel from bovine retinal rods was studied by measurements of 8-Br-cGMP-(cGMP)-induced calcium efflux from rod membrane vesicles and records of 8-Br-cGMP-dependent sodium currents through channels incorporated into planar lipid bilayers. N-ethylmaleimide and mersalyl (thiol blockers) as well as diamide (dithiol-disulfide conversion agent) have a dual effect on the channels activity: at low concentration, they increase the apparent affinity for cyclic nucleotide (activation) at the same time inducing a loss of cooperativity for nucleotide binding; at higher concentration, N-ethylmaleimide and diamide produce a reduction of the amplitude and initial rate of the calcium release at saturating nucleotide concentration, while mersalyl is shown to reduce the activity of the channels in bilayer experiments (inhibition). Nitric oxide precursors have no effect. The results suggest that blocking at least 1 of the 3 cytoplasmic cysteine residues situated close to the cGMP-binding site in each channel subunit by N-ethylmaleimide, mersalyl, or diamide (forming a dimer between 2 subunits) increases the affinity for the nucleotide. Inhibition is produced by blocking at least one of the 2 other cytoplasmic sulfhydryl groups (N-ethylmaleimide, mersalyl, oxidized glutathione) or the 2 others (diamide, intrasubunit bridge), and may concern a process of channel inactivation. The 3 cytoplasmic sulfhydryl groups are accessible when the channels are in the open state, but not (or much less) accessible when the channels are in the closed state.We thank F. Picaretta for technical assistance, Dr. Laurie Molday for the gift of antibody PMc 1F6, and Dr. Isabelle Marty for help with Western blots.     

The ultrastructural localization of the enzymes related to steroid hormone metabolism in the guinea-pig testis

Synopsis A study of the ultrastructural localization of 3-hydroxysteroid dehydrogenase (3-HSD), 11-hydroxysteroid dehydrogenase (11-HSD), glucose-6-phosphate dehydrogenase (G-6-PD), -hydroxybutyrate dehydrogenase (-HBD), NADH diaphorase (NADH-D) and NADPH diaphorase (NADPH-D) in the guinea-pig testis is reported.The procedures employed included short immersion or perfusion fixation with aldehydes followed by incubation of small blocks in a tetrazolium salt or a ferricyanide medium. The effects of incubation conditions were investigated, and a reaction medium for the ultracytochemical demonstration of 11-HSD is described. Using suitable controls, evidence for the specificity of the cytochemical reactions is presented.It was found that all the enzymes studied were present in both the Leydig and Sertoli cells of the guinea-pig testis and that the intracellular distribution pattern for each enzyme was independent of the cell type. Using tetrazolium salt techniques, both 3-HSD and 11-HSD activities were localized on or in membranes of smooth endoplasmic reticulum and within the mitochondria. With the ferricyanide techniques, G-6-PD activity was found to be associated mainly with the smooth endoplasmic reticulum membranes, while -HBD activity was limited to mitochondria. With both the tetrazolium salt and ferricyanide techniques, the reaction products for NADH-D and NADPH-D activities showed localizations which were similar to those observed for the steroid dehydrogenases.     

The induction and repression of benzene and catechol oxidizing capacity of Pseudomonas putida ML2 studied in perturbed chemostat culture

The oxidation of catechol, an intermediate in benzene catabolism, was studied using transient variations in dissolved oxygen tension (DOT) when a succinate limited steady state culture of Pseudomonas putida ML2 was perturbed with a pulse of another substrate. A model was developed and tested for the effect of fluctuations in oxidizing enzyme activity on DOT. It was found that the rate of induction of catechol oxidizing enzymes was independent of dilution rate up to a relative growth rate /_max of 0.75. Only at higher dilution rates was catabolite repression observed.Abbreviations DOT dissolved oxygen tension - K _L a gas transfer coefficient - specific growth rate - _max maximum specific growth rate - K_s substrate saturation constant     

The tetranuclear manganese complex of Photosystem II

A polynuclear manganese complex functions in Photosystem II both to accumulate oxidizing equivalents and to bind water and catalyze its four-electron oxidation. Recent electron paramagnetic resonance (EPR) spectroscopic studies of the manganese complex show that four manganese ions are required to account for its magnetic properties. The exchange couplings between manganese ions in the S₂ state are characteristic of a Mn₄O₄ cubane-like structure. Based on this structure for the manganese complex in the S₂ state, as well as a consideration of the known properties of the manganese complex in Photosystem II and the coordination chemistry of manganese, structures are proposed for the five intermediate oxidation states of the manganese complex. A molecular mechanism for the formation of an O-O bond and the displacement of O₂ from the S₄ state is suggested.     

Sulfur metabolism in bacteria associated with cheese

Metabolism of sulfur in bacteria associated with cheese has long been a topic of interest. Volatile sulfur compounds, specifically methanethiol, are correlated to desirable flavor in Cheddar cheese, but their definitive role remains elusive. Only recently have enzymes been found that produce this compound in bacteria associated with cheese making. Cystathionine - and -lyase are found in lactic acid bacteria and are capable of producing methanethiol from methionine. Their primary function is in the metabolism of cysteine. Methionine -lyase produces methanethiol from methionine at a higher efficiency than the cystathionine enzymes. This enzyme is found in brevibacteria, bacilli, and pseudomonads. Addition of brevibacteria containing this enzyme improves Cheddar cheese flavor. Despite recent progress in sulfur metabolism more information is needed before cheese flavor associated with sulfur can be predicted or controlled.     

Metabolic adaptation of renal carbohydrate metabolism. V.In vivo response of rat renal-tubule gluconeogenesis to different diuretics

We have studied the effects of the diuretics mersalyl, furosemide and ethacrynic acid on renal gluconeogenesis in isolated rat-kidney tubules and on the activities of the most important gluconeogenic and glycolytic enzymes in both fed and fasted rats. Mersalyl (15 mg.kg^–1 animal weight) significantly decreased the rate of gluconeogenesis in well-fed rats (68%) as well as in 24 and 48-h fasted ones (33 and 37% respectively). This inhibition occurred when lactate, pyruvate, glycerol or fructose were used as substrates. Ethacrynic acid at a dose of 50 mg.kg^–1 animal weight provoked a transient inhibition of renal glucose production by almost 20% but only in fed rats with lactate as substrate, whereas the same dose of furosemide did not affect this metabolic pathway.Parallel to these changes, mersalyl caused a significant inhibition in the maximum activity of the most important gluconeogenic enzymes, phosphoenolpyruvate carboxykinase, fructose 1,6-bisphosphatase and glucose 6-phosphatase, in both fed and fasted rats. Neither ethacrynic acid nor furosemide produced any variations in the activities of these enzymes. The activity of the glycolytic enzymes phosphofructokinase and pyruvate kinase was not modified by these diuretics. Nevertheless, the activity of the thiol-enzyme glyceraldehyde 3-phosphate dehydrogenase was severely inhibited by mersalyl and to a lesser extent by the other diuretics. This inhibition was higher in fasted than fed rats. Hence, we conclude that the inhibitory effect of mersalyl on renal gluconeogenesis is due, at least partly, to a decrease in the flux through the gluconeogenic enzymes. Blood glucose was not modified after diuretic treatment in fed animals whereas mersalyl decreased the levels of blood glucose in 24-h fasted rats. Thein vivo effects of diuretics on gluconeogenesis correlate well with the previously observedin vitro effects, although ethacrynic acid was less potent as an inhibitorin vivo, probably because of its rapid clearance.Abbreviations EDTA ethylenediaminetetraacetic acid - EGTA ethyleneglycolbis (-aminoethylether) N,N,N,N-tetraacetic acid - DTT dithiothreitol - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulfonic acid - TRIS 2-amino-2-hydroxymethyl-1,3-propanediol Publication No. 166 from Drogas, Tóxicos Ambientales y Metabolismo Celular Research Group, Department of Biochemistry and Molecular Biology, University of Granada, Granada, Spain     

Effect of alpha-isopropylmalate on the synthesis of RNA and protein in Neurospora

Summary The leu-3/-IPM (-isopropylmalate) regulatory system, previously shown to control several genes of leucine, isoleucine, valine, and histidine biosynthesis, appears likely to be involved also in the regulation of overall RNA and protein synthesis in Neurospora. Upon addition of -IPM the synthesis of all major species of stable RNA was found to be transiently inhibited by approximately 50%. A similar reduction was observed in overall protein synthesis. The inhibition was dependent in both cases on a functional leu-3 gene product, in conformance with previously established patterns of -IPM dependent gene regulation. The overt resemblance of the phenomenon described here to the stringent response of bacteria is noted but neither the mechanism of inhibition nor the precise role of -IPM in the process has been established.     

Spin-labelling studies of fragmented sarcoplasmic reticulum

Vesicular fragments of sarcoplasmic reticulum (SR) were spin labelled with 2,2,6,6-tetramethyl, 4-isothiocyanate piperidine-1-oxyl (probe A) and 2,2,6,6-tetramethyl, 4-amino (N-iodoacetamide) piperidine-1-oxyl (probe B). Two to five moles of probe A or B were covalently bound to 10⁶g of membrane protein, with minimal loss of activity (ATPase, Ca²⁺, uptake). The EPR spectra of labelled SR were then studied in various experimental conditions.Strongly acid or alkaline pH, protein denaturation with ura, and membrane solubilization with deoxycholate produced marked alterations of the EPR spectra of spin-labelled SR, indicating changes in the local environment surrounding the probes, and the occurrence of conformational changes.A reversible modification of the EPR spectra of probe A and an accelerated efflux of accumulated Ca²⁺ were produced by increasing the temperature of SR suspensions from 30° to 40° C. Such a parallel behavior indicates that reversible structural transitions may control membrane permeability and Ca²⁺ efflux.ATP modifies the EPR spectra of probe B, suggesting that ATP binding to the membrane induces a structural change involving the local environment of certain sulfhydryl groups. The ATP concentration required for this effect is comparable to that requied for activation of ATPase. ADP and ITP are also effective, while pyrophosphate, AMP, and cyclic AMP are not. The effect of ATP is reversible.In other experiments, 2,2,6,6-tetramethylpiperidine-1-oxyl (probeC) was equilibrated with concentrated suspensions of SR. The EPR spectra obtained thereafter indicate that probe C binds to the membrane fragments, still maintaining a high degree of motional freedom. These spectra were markedly changed by deoxycholate solubilization of the membrane fragments, while they were little affected by protein denaturation with guanidine. These results confirm the hypothesis that the region of distribution of probe C into SR, is prevalently constituted by low-viscosity lipids.Supported by research grants from USPHS (HE 09878), the American Heart Association (66742), and the Muscular Distrophy Association of America.     

An airlift-recycle fermenter for microbial desulfurization of coal

Summary An airlift-external recycle fermenter has been constructed and used for the removal of pyritic sulfur from coal samples (4% initial total sulfur) by the thermophilic, sulfur oxidizing organism Sulfolobus acidocaldarius. The airlift fermenter behaved as a well mixed reactor. Approximately, 30% of initial pyritic sulfur has been removed from a 5% coal slurry of ~125 particle size, at a maximum rate of 1.8 mg S/l.h.     

Multiple calmodulin genes in fish

In mammals, identical calmodulin (CaM) proteins are encoded by three nonallelic genes that differ in their promoter regions and untranslated regions (UTRs). The UTRs of each of these three genes are specific for each gene and are highly conserved. In this study, sequences obtained from the GenBank and EST databases and sequencing were examined for several species of fish to ascertain whether this multi-gene one protein system exhibited in mammals extends to other vertebrates. Three genes in zebrafish (Danio rerio) designated , , and were identified. As in mammals, these genes differ in the 3-UTR region but encode completely identical CaMs. PCR primers spanning the coding and the 3-UTR regions were designed based on the assembled sequences and used to confirm the presence of each gene in the cDNA library. Other species of fish were also found to contain homologous genes that were closely related as indicated by phylogenetic analysis. The 3-UTR of the , and particularly the CaM gene of fish were not found to be as conserved as the corresponding genes of mammalian species possibly due to the span of evolutionary time. Only a few short elements in the 3-UTR were observed to be similar in fish and mammals. These short regions of identity are shared primarily between the mammalian CaM II and CaM I and the gene and gene of fish, respectively. Thus, the multi-gene one protein system occurs among fish as well as among mammals.     

“Petite-like” mutants of the petite-negative yeastCandida utilis after treatment with ethidium bromide

Petite-like colonies of the petite-negative yeastCandida utilis were obtained after the cells were treated with the mutagenic agent ethidium bromide (Eth-Br) (25 g/ml). The lack of ability to grow on nonfermentable substrates like glycerol, lactate, and ethanol and the tetrazolium assay revealed the respiratory deficiency of two isolated colonies. The mutation frequency was 30 times higher than spontaneous mutation (3×10^–5). Doubling time (td) and specific growth rate () of petite-like respiration-deficient mutants were studied in complete medium. A td increase of 1.8 times over that of respiration-sufficient parental cells was attributable to the slower division rate of the petite-like cells. Assimilation and fermentation properties showed the absence of respiratory capacity. Petite-like colonies did not grow on nonfermentable carbon sources that parentalC. utilis readily utilize for growing.     

Exclusive-OR function of single arborized neuron

We designed four arborized neurons which are able to evaluate the exclusive-or (XOR) function from two inputs. The input neurons form exclusively excitatory synapses on a dendritic tree which is a patchwork of passive (ohmic) and active cable segments. The active segments are described by the Hodgkin-Huxley model. The dynamics of the neurons and their output are obtained by numerical integration of the cable equation. In neurons 1 and 2 the XOR function is based on the annihilation of colliding action potentials. In neuron No. 3 the design takes advantage of the refractory period of action potentials. In neuron No. 4 voltage inversion is used as it occurs for inactivated sodium conductance in the Hodgkin-Huxley model. In all cases the XOR function depends critically on an appropriate timing of the input signals and on delays of the voltage transients in different branches of the dendrite.     

Inhibition of aggregation by light in the cellular slime mold Dictyostelium discoideum

Aggregation of Dictyostelium amoebae is inhibited by light. White light intensities 10² W · cm^-2 cause an inhibition which reaches a saturation at 2 · 10³ W · cm^-2. The action spectrum, based on photon fluence-response curves, shows a major peak around 405 nm and extends through most of the visible spectrum with a secondary maximum at about 530 nm. The action spectrum of the inhibition of aggregation resembles the action spectrum of accumulations of amoebae in light traps and the action spectrum of photodispersal from light traps; it does not resemble the action spectrum of phototaxis in pseudoplasmodia.     

Concentrations of heavy metals and related trace elements in some Ethiopian rift-valley lakes and their in-flows

Concentrations of heavy metals commonly known to impact the environment and other related trace elements were quantified in the water bodies of nine Ethiopian rift-valley lakes and six rivers (their inflows) as well as in effluents from two factories. In about half of the samples the concentrations of As was 10–700 g l^–1 and Se, ranged from 10 to 28 g l^–1, were much higher than the maximum permissible level (MPL) according to international standards for drinking water. Mercury (Hg) was detected in four lakes and one river with high values ranging from 2 to 165 g l^–1. Concentrations of Mo in three soda lakes were as high as 544–2590 g l^–1. Iron (Fe) was found in high concentrations (567–4969 g l^–1) in three lakes, which are known to be discolored from inorganic colloids. Levels of Cd, Pb, and Cr ranged between 5 and 9, 12 and 20 and 104 and 121 g l^–1, respectively. The rest of the heavy metals analyzed, Ba, Cu, Mn, Ni and Zn, were either not detected in the samples or were found in much lower concentrations than the MPL for drinking water. Effluent from a tannery contained about 15, 141, 523, and 19 g l^–1 of As, Cr, Fe, and Se, respectively, and effluent from a textile factory contained high concentrations of As (10.6), Hg (3.8) and Se (20) g l^–1. Compared to more industrialized regions and other African lakes the concentrations of heavy metals in Ethiopian rift-valley lakes (with the exception of the soda lakes) and their inflows were low.     

Utilization of sulfide and elemental sulfur by Ectothiorhodospira halochloris

Ectothiorhodospira halochloris grows photoheterotrophically with a variety of sulfur sources. During sulfide oxidation to elemental sulfur considerable amounts of polysulfides may be accumulated transiently. When grown on elemental sulfur no sulfate was produced by oxidation, but sulfide and polysulfide were formed by reduction. Only one soluble cytochrome c-551 was isolated and purified. It was a small acidic hemeprotein with a molecular weight of 6,300, an isoelectric point of 3.1 and a redox potential of-11 mV at pH 7.0. It showed three absorption maxima in the reduced state (=551 nm; =523 nm; =417 nm). The addition of various c-type cytochromes to a suspension of spheroplasts stimulated the velocity of sulfide oxidation. This stimulation was best with the small acidic cytochromes from E. halochloris or Ectothiorhodospira abdelmalekii. Sulfide oxidation was stopped by several uncoupling agents, ionophores and electron transport inhibitors. Antimycin A, rotenone and cyanide had no effect on sulfide oxidation.Dedicated to Prof. Dr. H. G. Schlegel on the occasion of his 60th birthday     

Respiratory oxidation of reduced sulfur compounds by intact cells of Thiobacillus tepidarius (type strain)

Thiobacillus tepidarius (type strain) was grown in microaerophilic conditions, on tetrathionate, thiosulfate or crystalline S^o. The rates of tetrathionate, thiosulfate, elemental sulfur (S^o) and sulfite oxidation of the different cultures were measured respirometrically, using exponentially growing cells, with an oxygen electrode. Cells growing on the three different sulfur compounds retain thiosulfate-, tetrathionate, and S^o-oxidizing activities (SOA), but lack respiratory sulfite-oxidizing activity. The SOA for all the cultures was almost totally inhibited by 50 M myxothiazol, an inhibitor of the quinone-cytochrome b region, and by 10 M of the uncoupler carbonyl cyanide m-chlorophenylhydrazone (CCCP). Tetrathionate- and thiosulfate-oxidizing activities were moderately and weakly inhibited by 50 M totally inhibited (>95%) all respiratory activities. This study suggests that electrons released by S^o oxidation enter the respiratory chain in the quinone-cytochrome b region.Abbreviation SOA sulfur-oxidizing activity