Sporomusa,a new genus of gram-negative anaerobic bacteria including Sporomusa sphaeroides spec. nov. and Sporomusa ovata spec. nov.

A new genus of strictly anaerobic, gram-negative, banana-shaped bacteria is described. Cells formed spores and were motile by means of up to 15 laterally inserted flagella. Nitrate or sulfate were not used as electron acceptor. Organic substrates that were fermented included N-methyl compounds, such as betaine, N,N-dimethylglycine and sarcosine, primary alcohols, hydroxy fatty acids, and 2,3-butanediol. In addition, molecular hydrogen and carbon dioxide were fermented to acetate. The latter was the characteristic fermentation product in general. During growth on betaine, trimethylamine was formed in addition. The degradation of N,N-dimethylglycine yielded acetate, monomethylamine, and trimethylamine. The presence of cytochrome b and of ubiquinone in the cells was shown. The deoxyribonuleic acid base composition of the strains was between 41.3 and 47.4 mol% guanine plus cytosine. The name Sporomusa is proposed for this new genus. On the basis of the DNA-DNA homology values obtained, the shape of the spores and some other properties, the isolated strains were assigned to two species. Names proposed: Sporomusa sphaeroides and Sporomusa ovata. The type species is S. sphaeroides and the type strains are strain E, DSM 2875 (S. sphaeroides) and strain H1, DSM 2662 (S. ovata).Dedicated to Prof. H. G. Schlegel on the occasion of his 60th birthday     

Spectral and functional characterization of membrane fragments from the facultative photosynthetic bacterium Rhodopseudomonas blastica

The cytochromes of photosynthetically grown Rhodopseudomonas blastica have been thermodynamically characterized using the technique of redox titrations. Six cytochromes were present; two cytochromes c, E _m7= +295mV, E _m7=+345mV; and four cytochromes b, E _m7=+290mV, E _m7=+130mV, E _m7=+60mV, E _m7=-4mV. These cytochromes were tightly bound except for cytochrome c with E _m7 of+345mV which was mostly present in the soluble cell extracts.The effects of cyanide on both the cytochrome c oxidase activity and the NADH-dependent respiration, revealed the presence of a branched respiratory chain, one branch leading to a cyanide-resistant oxidase containing pathway and the other including the cyanide-sensitive cytochrome c-oxidase.The effects of antimycin A, myxothiazol and 5-undecyl-6-hydroxy-4,7-dioxobenzothiazole (UHDBT) on the steadystate NADH-dependent respiration were also studied. Antimycin A and myxothiazol appeared to act at the level of the ubiquinol-cytochrome c oxidoreductase while UHDBT drastically affected both respiratory branches.Absorption spectra of chromatophore photopigments resulted to be similar to those reported in many species of facultative photosynthetic bacteria although carotenoid absorption maxima were blue-shifted by 5 nm.The light-induced oxygen reduction performed by chromatophores from R. blastica suggested a strict interaction between photosynthetic and respiratory apparatuses.     

The electron transport system of Alcaligenes eutrophus H16

The electron transport system of autotrophically grown Alcaligenes eutrophus H16 has been investigated by spectroscopic and thermodynamic approaches. The results have been interpreted as evidence that isolated membranes contain a branched respiratory chain composed of three c-type haems (E _m,7=+160 mV, + 170 mV, and + 335 mV), five b-type haems (E _m,7=+ 5 mV, + 75 mV, + 205 mV, + 300 mV, and + 405 mV), two (possibly three) a-type haems [E _m,7= + 255 mV, + 350 mV, (+ 420 mV)], and nne d-type haem. EPR-analysis of the signals at g=1.93, g=2.02, and g=1.90 revealed the presence of iron-sulphur centres diagnostic of complexes I (NADH dehydrogenase), II (succinate dehydrogenase), and III (ubiquinol/cytochrome c oxidoreductase). The low potential b haems (+ 5 mV and + 75 mV) plus the Rieske protein (g=1.90, E _m,7=+ 280 mV), thought to be part of an orthodox bc ₁ complex, were present in low amounts as compared to their counterparts in membranes from Paracoccus denitrificans.CO-difference spectra in the presence of either succinate, NADH, hydrogen, ascorbate/TMPD, and/or dithionite as reductants, suggested the existance of four different oxidases composed by bo-, cb-, a-, and d-type haems.It is concluded that in contrast to other chemolithotrophes, e.g. P. denitrificans, autotrophic growth of Alcaligenes eutrophus utilizes a respiratory system in which the bc ₁ complex containing pathway is only partially involved in electron transport.Abbreviations Cytochrome c-551, number wavelength in nm - Cytochrome c ₂₇₀, number mid-point potential in mV - E _m,7 mid-point potential of an oxidation-reduction couple at pH 7.0 - KP buffer, potassium phosphate-buffer - OD optical density at 436 nm, 1 cm light path - TMPD N,N,N,N-tetramethyl-p-phenylenediamine     

Cytochromes in Thiobacillus tepidarius and the respiratory chain involved in the oxidation of thiosulphate and tetrathionate

Thiobacillus tepidarius was shown to contain cytochrome(s) c with absorption maxima at 421, 522 and 552 nm in room temperature reduced minus oxidized difference spectra, present at 1.1–1.2 nmol per mg dry wt and present in both membrane and soluble fractions of the cell. The membrane-bound cytochrome c (1.75 nmol per mg membrane protein) had a midpoint potential (E_m, pH 7.0) of 337 mV, while the soluble fractions appeared to contain cytochrome(s) c with E_m (pH 7.0) values of about 270 and 360 mV. The organism also contained three distinct membrane-bound b-type cytochromes (totalling 0.33 nmol per mg membrane protein), each with absorption maxima in reduced minus oxidized difference spectra at about 428, 532 and 561 nm. The E_m (pH 7.0) values for the three cytochromes b were 8 mV (47.8% of total), 182 mV (13.7%) and 322 mV (38.5%). No a- or d-type cytochromes were detectable spectrophotometrically in the intact organism or its membrane and soluble fractions. Evidence is presented for both CO-binding and CO-unreactive cytochromes b or o, and CO-binding cytochrome(s) c. From redox effects observed with CO it is proposed that a cytochrome c donates electrons to a cytochrome b, and that a high potential cytochrome b or o may be acting as the terminal oxidase in substrate oxidation. This may be the 445 nm pigment, a photodissociable CO-binding membrane haemoprotein. Substrate oxidation was relatively insensitive to CO-inhibition, but strongly inhibited by cyanide and azide. Thiosulphate oxidation couples directly to cytochrome c reduction, but tetrathionate oxidation is linked (probably via ubiquinone Q-8) to reduction of a cytochrome b of lower potential than the cytochrome c. The nature of possible electron transport pathways in Thiobacillus tepidarius is discussed. One speculative sequence is: c^– b₈ b₁₈₂ c₂₇₀ c₃₃₇ b₃₂₂/c₃₆₀ O₂ Abbreviations E_m midpoint electrode potential - E _inf0 ^sup pH 7, standard electrode potential at pH 7.0 - Q-8 coenzyme Q-8 (ubiquinone-40)     

Sporomusa termitida sp. nov., an H2/CO2-utilizing acetogen isolated from termites

H₂-oxidizing CO₂-reducing acetogenic bacteria were isolated from gut contents of Nasutitermes nigriceps termites. Isolates were strictly anaerobic, Gram negative, endospore-forming, straight to slightly curved rods (0.5–0.8×2–8 m) that were motile by means of lateral flagella. Cells were oxidase negative, but catalase positive and possessed a b-type cytochrome(s) associated with the cell membrane. Cells grew anaerobically with H₂+CO₂ as energy source and catalyzed a total synthesis of acetate from this gas mixture. H₂ uptake by a representative isolate (strain JSN-2) displayed a K _m=6 M and V _max=380 nmol x min^-1 x mg protein^-1. Other substrates used as energy sources for growth and acetogenesis included CO, methanol, betaine, trimethoxybenzoate, and various other organic acids. Succinate was also fermented, but propionate was formed from this substrate instead of acetate. Of a variety of sugars and sugar alcohols tested, only mannitol supported growth. Cells grew optimally at 30° C and pH 7.2 and required yeast extract or a source of amino acids (e.g. Casamino acids) for good growth. During initial enrichment and isolation, cells appeared sensitive to various reducing agents commonly employed in media for anaerobes. The DNA base composition of strain JSN-2 was 48.6 mol% G+C. On the bases of cell morphology, substrate utilization spectrum, and DNA base composition, strain JSN-2 is here-with proposed as the type strain of the new species Sporomusa termitida.Journal article no. 12513 from the Michigan Agricultural Experiment Station     

The role of the membrane bound cytochromes of b- and c-type in the electron transport chain of Rhodobacter capsulatus

(1) The electron transport system of heterotrophically dark-grown Rhodobacter capsulatus was investigated using the wild-type strain MT1131 and the phototrophic non-competent (Ps^-) mutant MT-GS18 carrying deletions of the genes for cytochrome c ₁ and b of the bc ₁ complex and for cytochrome c ₂. (2) Spectroscopic and thermodynamic data demonstrate that deletion of both bc ₁ complex and cyt. c ₂ still leaves several haems of c- and b-type with Em_7.0 of +265 mV and +354 mV at 551–542 nm, and +415 mV and +275 mV at 561–575 nm, respectively. (3) Analysis of the oxidoreduction kinetic patterns of cytochromes indicated that cyt. b ₄₁₅ and cyt. b ₂₇₅ are reduced by either ascorbate-diaminodurene or NADH, respectively. (4) Growth on different carbon and nitrogen sources revealed that the membrane-bound electron transport chain of both MT1131 and MT-GS18 strains undergoes functional modifications in response to the composition of the growth medium used. (5) Excitation of membrane fragments from cells grown in malate minimal medium by a train of single turnover flashes of light led to a rapid oxidation of 32% of the membrane-bound c-type haem complement. Conversely, membranes prepared from peptone/yeast extract grown cells did not show cyt. c photooxidation. These results are discussed within the framework of an electron transport chain in which alternative pathways bypassing both the cyt. c ₂ and bc ₁ complex might involve high-potential membrane bound haems of b- and c-type.Abbreviations AA antimycin A - CCCP carbonylcyanide m-chlorophenyl hydrazone - CN^- cyanide - DAD diaminodurene - Q₂H₂ ubiquinol-2 - Q-pool ubiquinone-10 pool - RC photochemical reaction center     

The electron transport system of the halophilic purple nonsulfur bacterium Rhodospirillum salinarum. 1. A functional and thermodynamic analysis of the respiratory chain in aerobically and photosynthetically grown cells

Plasma membranes isolated from cells of the halophilic purple nonsulfur bacterium Rhodospirillum salinarum grown in light or in the dark were examined. Membranes isolated from cells grown aerobically in the dark contained three b-type and two c-type membrane-bound cytochromes with E _m,7 of +180, +72 and –5 mV (561–575 nm), and +244 and +27 mV (551–540 nm), respectively. Conversely, membranes isolated from cells grown anaerobically in the light contained two b-type and five c-type haems with E _m,7 of +60 and –45 mV and +290, +250, +135, –20 and –105 mV, respectively. In addition to haems of the b- and c-type, two haems of the a-type (E _m,7 of +325 and +175 mV) were present only in cells grown in the dark. Four soluble cytochromes of the c type, but not cytochrome c ₂, along with two high-potential iron-sulfur proteins (HiPIP iso-1 and iso-2) were also identified in cells grown aerobically. Inhibitory studies showed that 85–90% of the respiratory activity was blocked by very low concentrations of cyanide, antimycin A and myxothiazol (50, 0.1 and 0.2 mM, respectively). These results taken together were interpreted to show that the oxidative electron transport chain of Rsp. salinarum is linear, leading to a membrane-bound oxidase of the aa ₃ type in cells grown in the dark, while no significant cytochrome oxidase activity is catalyzed by photosynthetic membranes. These features suggest that this halophilic species is unique among the genus Rhodospirillum and that it also differs from other facultative phototrophs (e.g., Rhodobacter species) in that it does not contain either cytochrome c ₂ or a branched respiratory chain. Received: 25 February 1997 / Accepted: 20 May 1997     

The branched respiratory chain of heterotrophically dark-grown Chloroflexus aurantiacus

The respiratory electron-transport chain of heterotrophically dark-grown Chloroflexus aurantiacus has been investigated. Membranes isolated from these cells have been shown to contain at least three c-type cytochromes (E_{m, 7.0} 255,180, and 10 mV), three b-type cytochromes (E_{m, 7.0} of 210, 60 and −65 mV) and two cytochromes of the a type with E_{m, 7.0} of 330 and 190 mV. Spectroscopic evidence from CO-difference spectra, CN⁻-duference spectra and spectra at fixed oxidation-reduction potentials suggests that the two a-type components may be analogous to cytochromes a and a₃ of mitochondria. The analyses of the effects induced by CN⁻, myxothiazol and antimycin A on both steady-state respiratory activities and semi-rapid oxidation-reduction kinetic patterns of c- and a-type cytochromes indicate the presence of a branched respiratory chain. Growth of Chloroflexus in medium lacking added copper diminished the concentration of the a-type cytochromes but not those of cytochromes of the b and c type.     

Photochemical activities and photosynthetic ATP formation in membrane preparation from a facultative methylotroph,Protaminobacter ruber strain NR-1

Membrane preparation from the bacteriochlorophyll-containing cells of a facultative methylotroph, Protaminobacter ruber strain NR-1, contained reaction center bacteriochlorophyll similar to those in many species of purple bacteria and contained a few cytochrome species. -Peak of the reduced-minus-oxidized difference spectrum of one of the cytochromes was at 554 nm. The midpoint potential of the cytochrome at pH 7 (E_m7) was 350 mV. Two other cytochromes had the same reduced-minus-oxidized difference spectra with a split -band at 557 and 566 nm, but had two different E_m7s' of 130 mV and 0 mV.On flash or continuous light the reaction center bacteriochlorophyll and the cytochrome with -peak at 554 nm were reversibly oxidized. Redox titration of the light-induced cytochrome oxidation gave an E_m7 value of 356 mV. Under continuous illumination the membrane preparation reversibly took up protons, and formed ATP in the presence of ADP and inorganic phosphate. The ATP formation activity on the bacteriochlorophyll basis was one-third to one-fifth that in chromatophores from Rhodospirillum rubrum under similar experimental conditions. These results clearly indicated that the membrane preparation from P. ruber which contained bacteriochlorophyll had a cyclic photosynthetic electron transfer system and coupled ATP formation activity.Abbreviations Bchl (only in figure legends) bacteriochlorophyll - CCCP carbonylcyanide-m-chlorophenylhydrazone - E_h the ambient redox potential - E_m7 the midpoint potential at pH 7 - PMS N-methylphenazonium methosulfate - MES morpholinoethanesulfonic acid - MOPS morpholinopropanesulfonic acid     

Identification of the polypeptides in the cytochromeb 6/f complex from spinach chloroplasts with redox-center-carrying subunits

An improved procedure for the isolation of the cytochromeb ₆/f complex from spinach chloroplasts is reported. With this preparation up to tenfold higher plastoquinol-plastocyanin oxidoreductase activities were observed. Like the complex obtained by our previous procedure, the complex prepared by the modified way consisted of five polypeptides with apparent molecular masses of 34, 33, 23, 20, and 17 kD, which we call Ia, Ib, II, III, and IV, respectively. In addition, one to three small components with molecular masses below 6 kD were now found to be present. These polypeptides can be extracted with acidic acetone. Cytochromef, cytochromeb ₆, and the Rieske Fe-S protein could be purified from the isolated complex and were shown to be represented by subunits Ia + Ib, II, and III, respectively. The heterogeneity of cytochromef is not understood at present. Estimations of the stoichiometry derived from relative staining intensities with Coomassie blue and amido black gave 1:1:1:1 for the subunits Ia + Ib/II/III/IV, which is interesting in of the presence of two cytochromesb ₆ per cytochromef. Cytochromef titrated as a single-electron acceptor with a pH-independent midpoint potential of +339 mV between pH 6.5 and 8.3, while cytochromeb ₆ was heterogeneous. With the assumption of two components present in equal amounts, two one-electron transitions withE _m(1)=–40 mV andE _m(2)=–172 at pH 6.5 were derived. Both midpoint potentials were pH-dependent.Abbreviation Tris tris(hydroxymethyl)aminomethane - SDS sodium dodecylsulfate - SDS-PAGE SDS polyacrylamide gel electrophoresis - MES 2-(N-morpholino)ethanesulfonic acid     

b-Type cytochromes in plasma membranes ofPhaseolus vulgaris hypocotyls,Arabidopsis thaliana leaves, andZea mays roots

Summary The plasma membrane of higher plants contains more than one kind ofb-type cytochromes. One of these has a high redox potential and can be fully reduced by ascorbate. This component, the cytochromeb ₅₆₁ (cytb ₅₆₁), has its characteristic -band absorbance close to 561 nm wavelength at room temperature. Cytb ₅₆₁ was first isolated from etiolated bean hook plasma membranes by two consecutive anion exchange chromatography steps. During the first step performed at pH 8, cytb ₅₆₁ did not bind to the anion exchange column, but otherb-type cytochromes did. In the second step performed at pH 9.9, cytb ₅₆₁ was bound to the column and was eluted from the column at an ionic strength of about 100 mM KCl. However, when the same protocol was applied to the solubilized plasma membrane proteins fromArabidopsis thaliana leaves and maize roots, the ascorbate-reducible cytb ₅₆₁ bound already to the first anion exchange column at pH 8 and was eluted also at an ionic strength of about 100 mM KCl. Otherb-type cytochromes than the ascorbate-reducible cytb ₅₆₁ from the plasma membranes of Arabidopsis leaves and maize roots showed similar Chromatographic characteristics to that of bean hypocotyls. These results demonstrate particular differences in the Chromatographic behavior of cytb ₅₆₁ from different sources.Abbreviations cyt b ₅₆₁ cytochromeb ₅₆₁ - PM plasma membrane - PAGE polyacrylamide gel electrophoresis     

Photosynthetic electrogenic events in native membranes ofChloroflexus aurantiacus. Flash-induced charge displacements within the reaction center-cytochromec 554 complex

The thermophilic phototrophChloroflexus aurantiacus possesses a photosynthetic reaction center (RC) containing a pair of menaquinones as primary (Q_A) and secondary (Q_B) electron acceptors and a bacteriochlorophyll dimer (P) as a primary donor. A tetraheme cytochromec ₅₅₄ with two high(H)- and two low(L)-potential hemes operates as an immediate electron donor for P. The following equilibrium E_m,7 values were determined by ESR for the hemes in whole membrane preparations: 280 mV (H1), 150 mV (H2), 95 mV (L1) and 0 mV (L2) (Van Vliet et al. (1991) Eur. J. Biochem. 199: 317–323). Partial electrogenic reactions induced by a laser flash inChl. aurantiacus chromatophores adsorbed to a phospholipid-impregnated collodion film were studied electrometrically at pH 8.3. The photoelectric response included a fast phase of generation ( < 10 ns, phase A). It was ascribed to the charge separation between P⁺ and Q_A ^– as its amplitude decreased both at high and low E_h values (E_m,high=360±10 mV, estimated E_m,low\s-160 mV) in good agreement with E_m values for P/P⁺ and Q_A/Q_A ^– redox couples. A slower kinetic component appeared upon reduction of the cytochromec ₅₅₄ hemes (phase C). With H1 reduced before the flash the amplitude of phase C was equal to 15–20% of that of phase A and its rise time was 1.2–1.3 s: we attribute this phase to the electrogenic electron transfer from H1 to P⁺. Pre-reduction of H2 decreased the value to about 700–800 ns and increased the amplitude of phase C to 30–35% of that of phase A. Pre-reduction of L1 further accelerated phase C (up to of 500 ns) and induced a reverse electrogenic phase with of 12 s and amplitude equal to 10% of phase A. Upon pre-reduction of L2 the rise time of phase C was decreased to about 300 ns and its amplitude decreased by 30%. The acceleration in the onset of phase C is explained by the acceleration of the rate-limiting H1 P electrogenic reaction after reduction of the other hemes due to their electrostatic influence; a P-H1-(L1-L2)-H2 alignment of redox centers with an approximately rhombic arrangement of the cytochromec ₅₅₄ hemes is proposed. The observed reverse phase is ascribed to the post-flash charge redistribution between the hemes. Redox titration of the amplitude of phase C yielded the E_m,8.3 values of H1, H2 and L2 hemes: 340±10 mV for H1, 160±20 mV for H2 and –40±40 mV for L2.     

Characteristics of b-type cytochromes in brain microsomes: Comparison with liver microsomes

Biochemical aspects of b-type cytochromes in swine cerebral microsomes were different from those of cytochrome b₅ in liver microsomes, as well as the difference in absorption spectra. First, the kinetic constants, K_m and V_max, in rotenone-insensitive NADH-cytochrome c reductase activity were different from those of liver microsomes, and the activity of cerebral microsomes was higher than that of liver microsomes. Second, midpoint potentials (E_m) of b-type cytochromes in cerebral microsomes were measured and compared with liver microsomal cytochrome b₅. In cerebral microsomes two components of b-type cytochromes were resolved, and showed E_m's of ?30 and +50 mV, respectively, in the presence of 2 mm KCN. On the other hand, the E_m of liver microsomal cytochrome b₅ was ?6 mV. The high-potential component of cerebral microsomal b-type cytochromes was identified as brain-b′₅ [S. Yoshida, T. Yubisui, and M. Takeshita (1983)Biochem. Int. 7, 291–298] and the low-potential component as brain-b₅. The significance of the difference between cerebral and liver microsomal b-type cytochromes was discussed.     

Diversity of K+ channels in the basolateral membrane of restingnecturus oxyntic cells

Summary Patch-clamp techniques have been applied to characterize the channels in the basolateral membrane of resting (cimetidine-treated, nonacid secreting) oxyntic cells isolated from the gastric mucosa ofNecturus maculosa. In cell-attached patches with pipette solution containing 100mm KCl, four major classes of K⁺ channels can be distinguished on the basis of their kinetic behavior and conductance: (1) 40% of the patches contained either voltage-independent (a) or hyperpolarization-activated (b), inward-rectifying channels with short mean open times (16 msec fora, and 8 msec forb). Some channels showed subconductance levels. The maximal inward conductanceg _max was 31±5 pS (n=13) and the reversal potentialE _rev was atV _p=–34±6 mV (n=9). (2) 10% of the patches contained depolarization-activated and inward-rectifying channels withg _max=40 ±18 pS (n=3) andE _rev was atV _p=–31±5 mV (n=3). With hyperpolarization, the channels open in bursts with rapid flickerings within bursts. Addition of carbachol (1mm) to the bath solution in cell-attached patches increased the open probabilityP _o of these channels. (3) 10% of the patches contained voltage-independent inward-rectifying channels withg _max=21±3 pS (n=4) andE _rev was atV _p=–24±9 mV (n=4). These channels exhibited very high open probability (P _o=0.9) and long mean open time (1.6 sec) at the resting potential. (4) 20% of the patches contained voltage-independent channels with limiting inward conductance of 26±2 pS (n=3) andE _rev atV _p=–33±3 mV (n=3). The channels opened in bursts consisting of sequential activation of multiple channels with very brief mean open times (10 msec). In addition, channels with conductances less than 6 pS were observed in 20% of the patches. In all nine experiments with K⁺ in the pipette solution replaced by Na⁺, unitary currents were outward, and inward currents were observed only for large hyperpolarizing potentials. This indicates that the channels are more selective for K⁺ over Na⁺ and Cl^–. A variety of K⁺ channels contributes to the basolateral K⁺ conductance of resting oxyntic cells.     

Cytochrome b type oxidases in the respiratory chains of the phytopathogenic fluorescent bacteria Pseudomonas cichorii and Pseudomonas aptata

Membrane fragments from the phytopathogenic bacteria Pseudomonas cichorii and Pseudomonas aptata have been examined. A branched respiratory chain is operative in P. cichorii whereas a linear electron transport system characterizes the related bacterium P. aptata. Both species contain several b type cytochromes resolved by redox titration analysis, but no a type components may be detected. In contrast, only P. cichorii is endowed with c type cytochromes and hence with cytochrome c oxidase activity. Among the b type cytochromes, two high-potential components, with Em_7.0 at +250 mV and +380 mV, have been kinetically characterized and tentatively associated with cyanideresistant and cytochrome c oxidase activities, respectively. Cytochrome b-250 should correspond to the spectrally detectable cytochrome o whereas cytochrome b-380 is functionally similar to cytochrome b-410 described in Rhodopseudomonas capsulata. This conclusion seems to blur previous reported data on other obligate aerobes in which cytochrome o has been generally associated with cytochrome c oxidase and also suggests that a more accurate reconsideration of the actual physiological role of cyt. o in bacterial respiration is necessary. Furthermore the question arises whether cyt. b-410 like oxidases, i. e. high-potential b's similar to cyt. b-410 of R. capsulata, may be widely distributed among aerobes rather than restricted to facultative photosynthetic prokaryotes.     

Functional and spectral characterization of the respiratory chain of Chloroflexus aurantiacus grown in the dark under oxygen-saturated conditions

In this paper we attempt a functional and spectral characterization of the membrane-bound cytochromes involved in respiratory electron transport by membranes from cells of Chloroflexus aurantiacus grown in the dark under oxygen saturated conditions. We conclude that the NADH-dependent respiration is carried out by a branched respiratory chain leading to two oxidases which differ in sensitivity to CN^- and CO. The two routes also show a different sensitivity to the ubiquinone analogue, HQNO, the pathway through the cytochrome c oxidase being fully blocked by 5 M HQNO, whereas the alternative one is insensitive to this inhibitor. The cytochrome c oxidase containing branch is composed by at least two c-type haems with E _m 7.0 of +130 and +270 mV ( bands at 550/553 nm and 549 nm, respectively), plus a b-type cytochrome with E _m 7.0 of +50 mV ( band at 561 nm). From this, and previous work, we conclude that respiratory and photosynthetic electron transport components are assembled together and function on a single undifferentiated plasma membrane.Abbreviations HQNO heptylhydroxy-quinoline-N-oxide - UHDBT undecyl-hydroxydioxobenthiazole - Q/b-c ubiquinol/cytochrome c oxidoreductase complex - BChl bacteriochlorophyll     

Redox-state of intactNitella cells: dependency on intracellular pH and photosynthesis

Summary The present paper describes the construction and properties of a Pt/Ir-semi-microelectrode and its application as a redoxsensitive electrode in intact cells of the giant algaNitella. For compartmental analysis of the stationary redox-state voltage (E_RED), a value reflecting the interaction of the dominant redox couples with a Pt/Ir-electrode, the redox-sensitive electrode was inserted into the vacuole of leaf cells or cytoplasm enriched fragments (CEF) fromNitella internodal cells. After correction for the membrane voltage, measured with a second, conventional voltage electrode, E_RED values of+237±93mVand+419±51 mV with respect to a normal H⁺-electrode were obtained for cytoplasm and vacuole, respectively. The redox-state of the cell culture medium was+604 mV. The steady state E_RED in the cytoplasm can be perturbed by experimental treatments: indirect acidification of the cytoplasm by an external pH jump from 7.5 to 5.8 and direct acidification, by acid loading with 5 mM butyrate, both resulted in a positive shift of E_RED, i.e., to an increase in cytoplasmic oxidation. At the same time the membrane depolarized electrically following the external pH jump, but hyperpolarized in response to acid loading. The data demonstrate the direct dependence of cytoplasmic redox state on intracellular pH, probably due to enhanced oxidation of protonated redox couples favoured by mass action. The electrical membrane voltage changes were not correlated with the shift in cytoplasmic E_RED. This demonstrated that redox energy does not determine the electrical membrane voltage. Cytoplasmic E_RED was also affected by photosynthesis. When CEFs were transferred from light to dark, or exposed to 10M 3-(3,4-dichlorophenyl)-1,l-dimethylurea (DCMU), E_RED shifted negatively (more reduced) by 6.4±4.5mV or 4.2±2mV, respectively. These data compare favourably with biochemical estimates of cytoplasmic pyridin nucleotides which also show an increase in cytoplasmic reduction in the dark. Therefore, it is unlikely that diffusable reducing equivalents are supplied to the cytoplasm from photosynthetically-active chloroplasts to act as secondary messengers.Abbreviations E_M transmembrane voltage - E_RED redox-state voltage - E₀ midpoint-redox-voltage - APW artificial pond water - CEF cytoplasm enriched fragment     

Differential effects of sodium ions on motility in the homoacetogenic bacteriaAcetobacterium woodii andSporomusa sphaeroides

The strictly anaerobic homoacetogenic bacteria Acetobacterium woodii and Sporomusa sphaeroides differ with respect to their energy metabolism. Since growth as well as acetate and ATP formation of A. woodii is strictly dependent on Na⁺, but that of S. sphaeroides is not, the question arose whether these organisms also use different coupling ions for mechanical work, i.e. flagellar rotation. During growth on fructose in the presence of Na⁺ (50 mM), cells of A. woodii were vigorously motile, as judged by light microscopy. At low Na⁺ concentrations (0.3 mM), the growth rate decreased by only 15%, but the cells were completely non-motile. Addition of Na⁺ to such cultures restored motility instantaneously. Motility, as determined in swarm agar tubes, was strictly dependent on Na⁺; Li⁺, but not K⁺ partly substituted for Na⁺. Of the amilorides tested, phenamil proved to be a specific inhibitor of the flagellar motor of A. woodii. Growth and motility of S. sphaeroides was neither dependent on Na⁺ nor inhibited by amiloride derivatives. These results indicate that flagellar rotation is driven by Δμ_Na ⁺ in A. woodii, but by Δμ_H ⁺ in S. sphaeroides. Received: 30 May 1995 / Accepted: 31 August 1995     

The redox potentials of the b-type cytochromes of higher plant chloroplasts

1. In fresh chloroplasts, three b-type cytochromes exist. These are b-559_HP (λ_max, 559 nm; E_m at pH 7, +370 mV; pH-independent E_m), b-559_LP (λ_max, 559 nm; E_m at pH 7, +20 mV; pH-independent E_m) and b-563 (λ_max, 563 nm; E_m at pH 7, ?110 mV; pH-independent E_m). b-559_HP may be converted to a lower potential form (λ_max, 559 nm; E_m at pH 7, +110 mV; pH-independent E_m).2. In catalytically active b-f particle preparations, three cytochromes exist. These are cytochrome f (λ_max, 554 nm; E_m at pH 7, +375 mV, pK on oxidised cytochrome at pH 9), b-563 (λ_max, 563 nm; E_m at pH 7, ?90 mV, small pH-dependence of E_m) and a b-559 species (λ_max, 559 nm, E_m at pH 7, +85 mV; pH-independent E_m).3. A positive method of demonstration and estimation of b-559_LP in fresh chloroplasts is described which involves the use of menadiol as a selective reductant of b-559_LP.     

Electron transport and respiration in Beggiatoa and Vitreoscilla

Seven strains of bacteria belonging to the Beggiatoa-Vitreoscilla group were studied for their respiratory activity and for the presence of electron transport conponents. All strains tested oxidized [1-¹⁴C] and [2-¹⁴C] acetate to ¹⁴CO₂ at relatively high rates. All strains tested were N,N,N,N-tetramethylphenylenediamine (TMPD)-oxidase positive and contained spectra representing a-type and carbon monoxide-binding cytochromes. Most of the strains also contained spectra representing c-type and b-type cytochromes. Beggiatoa alba B18LD contained b-type, a-type, c-type and CO-binding cytochromes, the latter two being located in the 144,000 x g soluble fraction. B. alba also contained ubiquinone-8 as its only detectable quinone.Non-standard abbreviations BSS basal salts solution - BH Beggiatoa heterotrophic medium - BSO Beggiatoa sulfide oxidation medium - TMPD N,N,N,N-tetramethylphenylenediamine - Q8 ubiquinone-8