Circular dichroism of cytochrome oxidase, cytochrome b566, and cytochrome c in beef heart mitochondrial membrane fragments

1. Circular dichroism spectra of the cytochromes in membrane fragments derived from sonicated beef heart mitochondria have been obtained in the wavelength region 400–480 nm in which the major absorbance maxima of the heme prosthetic groups are found.

2. 2. Cytochrome oxidase in the mitochondrial membrane fragments has a band of positive ellipticity at 426 nm in the oxidized form and a pronounced band of positive ellipticity at 445 nm in the reduced form. The reduced-minus-oxidized difference molar ellipticity at 445 nm, Δ[θ]₄₄₅ is 3.0·10⁵ degree·cm⁻²·dmole⁻¹ heme a for membrane-bound oxidase compared to 1.6·10⁵ degree·cm⁻²·dmole⁻¹ heme a for the purified oxidase. The membrane-bound oxidase in the reduced form also appears to have a band of negative ellipticity at 426 nm not found in the purified oxidase.

3. 3. When reduced with succinate in the presence of cyanide and oxygen, cytochrome oxidase in the membrane fragments has a positive band at 442 nm very similar to that observed with the purified oxidase.

4. 4. Cytochrome c, which has a positive band at 426 nm in the purified form when reduced, appears to have a negative band at this wavelength in the mito-chondrial membrane fragments which contributes to the pronounced negative band at 426 nm observed in the membrane fragments reduced with succinate in anaerobiosis. There is no evidence for a contribution to the CD spectra of the membrane fragments from cytochrome c₁ or from cytochrome b₅₆₁ in either the oxidized or the reduced form.

5. 5. Cytochrome b₅₆₆ in the mitochondrial membrane fragments has no detectable CD spectrum in the oxidized form, but has a small positive band at 427 nm and a small negative band at 436 nm in the reduced form. The same CD spectrum is observed with cytochrome b₅₆₆ reduced with succinate in the presence of antimycin A or 2-heptyl-4-hydroxyquinoline-N-oxide. The same increase in positive ellipticity is observed at 427 nm in the mitochondrial membrane fragments, treated with oligomycin to restore energy coupling, when cytochrome b₅₆₆ is reduced with succinate in the energized membrane, as is observed in the inhibitor-treated membrane fragments. The absence of a pronounced conformational change in cytochrome b₅₆₆ on energization, as revealed by its CD spectrum, favors the concept that its reduction by succinate in the energized state is due to reversed electron transport rather than an intrinsic shift in the cytochrome's midpoint redox potential.

Etude des mutants chlorate-resistants d'escherichia coli K12. IV. Isolement, purification et etude de la nitrate-reductase reconstituee In vitro par complementation

Study on chlorate-resistants mutants of Escherichia coli K12. IV. Isolation, purification and study of nitrate-reductase restored in vitro by complementation

By mixing the cell-free extracts of the two mutants chl A⁻ and chl B⁻ of Escherichia coli K12, previously freed from particle membranes, we achieved restoration of nitrate reductase activity. The activity is restored first in a soluble form, then in a particulate form. This mechanism is called “complementation”. In the soluble state, the purified enzyme reduces NO₃⁻ and ClO₃⁻, using reduced benzyl viologen or FMNH₂ as electron donors. It is sensitive to KCN, NaN₃, p-hydroxymercuribenzoate (1 mM) and N-ethylmaleimide (0.1 mM)

The soluble form is sensitive neither to phospholipase C, nor to 2-n-heptyl-4-hydroxyquinoline-N-oxide; it associates with phospholipids and cytochrome b₁ to form particles in which nitrate reductase activity is no longer sensitive to ethyl N-maleimide and p-hydroxymercuribenzoate, but, conversely, becomes sensitive to 2-n-heptyl-4-hydroxyquinoline-N-oxide.

These results clearly demonstrate that it is possible to study the mechanism of integration of the enzyme leading to active membranes particles without any previous solubilisation of the original material.     

The b-type cytochromes of bovine heart mitochondria: Absorption spectra, enzymatic properties, and distribution in the electron transfer complexes

1. 1. Three b-type cytochromes (b_557.5, b₅₆₀, and b_562.5), plus a chromophore with an absorption peak at 558 nm at 77 °K, have been found to be associated with the electron transport system of bovine heart mitochondria. The reduced minus oxidized spectra of these components at 77 °K, as well as that of cytochrome c₁, have been recorded with a wavelength accuracy of ± 0.1 nm and presented to the nearest 0.5 nm. All the major and β absorption peaks of cytochromes b_557.5, b₅₆₀, b_562.5, c₁ and c have been shown by fourth derivative analysis to be present in the dithionite-reduced minus oxidized spectra of mitochondria and submitochondrial particles.

2. 2. The distribution of the above components has been studied in the four electron transfer complexes of the respiratory chain. Cytochromes b₅₆₀, b_562.5 and c₁, as well as chromophore-558, were found to fractionate into Complex III (reduced ubiquinone-cytochrome c reductase), whereas cytochrome b_557.5 was found in Complex II (succinate-ubiquinone reductase).

3. 3. Cytochrome b₅₆₀ was readily reduced by NADH or succinate, but b_562.5 was not reduced by substrates unless the preparation was treated with antimycin A. In antimycin-treated preparations pre-reduction of c₁ with ascorbate inhibited the subsequent reduction of b_562.5 by substrates. These results indicate that b₅₆₀ and b_562.5 correspond, respectively, to b_K and b_T previously described by Chance et al.¹⁴ (1970, Proc. Natl. Acad. Sci. U.S. 66, 1175–1182).

4. 4. Similar to b₅₆₀, chromophore-558 can be reduced by substrates in the absence or presence of antimycin A. However, in antimycin-treated preparations, pre-reduction of c₁ inhibits its subsequent reduction by substrates. This property is similar to that of b_562.5.

5. 5. Cytochrome b_557.5, which occurs in Complex II, appears to have a low mid-point potential. It can be reduced with dithionite and oxidized by fumarate or ubiquinone. CO treatment of dithionite-reduced b_557.5 neither modified the spectrum of this cytochrome nor diminished the extent of b_557.5 reoxidation by fumarate.

6. 6. Antimycin A treatment does not appear to alter the spectra of the above cytochromes. However, small amounts (< 4%) of ethanol or methanol, which are usually added to particles as solvent for antimycin A, have a pronounced effect on the peaks of cytochrome c₁. The spectrum of cytochrome c₁ at 77 °K as modified by 3% (v/v) ethanol is shown.

Analysis of light-induced proton uptake in isolated chloroplasts

1. 1. A simple kinetic analysis of light-induced proton uptake into chloroplasts is presented. It is derived from a model of the reaction in which the incoming proton is obligatorily bound by an intra-chloroplast component, and allows quantitative analysis of the effect into parameters of light and dark rate constants and the availability of the chloroplast component.

2. 2. The effect of the following agents on the derived parameters has been measured: electron and energy transfer inhibitors, uncouplers, NaCl concentration, light intensity and pH.

3. 3. A maximal ratio of 4 protons taken up per electron transported has been observed, using ferricyanide as an electron acceptor.

4. 4. A stimulation of light-induced proton uptake by phosphate or arsenate, ADP and Mg has been observed. It was not sensitive to concentrations of Dio-9, which eliminated ATP synthesis.

5. 5. The results are seen as inconsistent with the chemiosmotic theory of energy coupling as presently presented. It is suggested that they may be interpreted in terms of a model in which the function of the proton pump is to enable co-transport into the chloroplasts of the negatively charged complex of phosphate, ADP and Mg.

The respiratory chain of plant mitochondria. XV. Equilibration of cytochromes c549, b553, b557 and ubiquinone in mung bean mitochondria: Placement of cytochrome b557 and estimation of the midpoint potential of ubiquinone

1. 1. Cycles of oxidation followed by reduction at pH 7.2 have been induced in uncoupled anaerobic mung bean mitochondria treated with succinate and malonate by addition of oxygen-saturated medium. Under the conditions used, cytochromes b₅₅₇, b₅₅₃, c₅₄₉ (corresponding to c₁ in mammalian mitochondria) and ubiquinone are completely oxidized in the aerobic state, but become completely reduced in anaerobiosis.

2. 2. The time course of the transition from fully oxidized to fully reduced in anaerobiosis was measured for cytochromes c₅₄₉, b₅₅₇, and b₅₅₃. The intramitochondrial redox potential (IMP_h) was calculated as a function of time for each of the three cytochromes from the time course of the oxidized-to-reduced transition and the known midpoint potentials of the cytochromes at pH 7.2. The three curves so obtained are superimposable, showing that the three cytochromes are in redox equilibrium under these conditions during the oxidized-to-reduced transition.

3. 3. This result shows that the slow reduction of cytochrome b₅₅₇ under these conditions, heretofore considered anomalous, is merely a consequence of its more negative midpoint potential of +42 mV at pH 7.2, compared to +75 mV for cytochrome b₅₅₃ and +235 mV for cytochrome c₅₄₉. Cytochrome b₅₅₇ is placed on the low potential side of coupling site II and transfers electrons to cytochrome c₅₄₉ via the coupling site.

4. 4. The time course of the transition from fully oxidized to fully reduced was also measured for ubiquinone. Using the change in intramitochondrial potential IMP_h with time obtained from the three cytochromes, the change in redox state of ubiquinone with IMP_h was calculated. When replotted as IMP_h versus the logarithm of the ratio (fraction oxidized)/(fraction reduced), two redox components with n = 2 were found. The major component is ubiquinone with a midpoint potential E_m7.2 = + 70 mV. The minor component has a midpoint potential E_m7.2 = − 12 mV; its nature is unknown.

Further studies on the NADH oxidase of the cytoplasmic membrane of Mycobacterium tuberculosis

The cytoplasmic membrane of the H₃₇Ra strain of Mycobacterium tuberculosis has been isolated free of cell wall.

These membrane preparations contain very small quantities of cytochromes c, b and cytochrome oxidase. The cytochrome c is not extracted by any method attempted. The cytochrome b is reducible only by dithionite and is believed not to be involved in the direct transfer of electrons during the oxidation of NADH by these preparations. The NADH oxidase activity of the membrane is inhibited by high concentrations of cyanide and also by 2-(n-heptyl)-4-hydroxyquinoline-N-oxide (HQNO). The cytochrome oxidase of the membrane contains both cytochromes a and a₃ and is present in low concentrations relative to cytochrome c. The cytochrome a₃ component was identified by characteristic complexes with both CO and cyanide and shows a γ-band absorption maximum at a slightly lower wavelength than the cytochrome oxidase of mammalian mitochondria (442 nm vs. 445 nm). The functional activity of the cytochrome oxidase is indicated by the inhibition of reoxidation of reduced cytochromes c and a in the presence of cyanide.     

Respiratory cytochromes of Euglena gracilis

1. 1. Difference spectra of whole cells and of a particulate fraction of a streptomycin-bleached strain of Euglena gracilis showed the presence of a b-type cytochrome, cytochrome b (561 Euglena), and an a-type cytochrome, cytochrome a-type (609 Euglena). The cytochromes were characterized by pyridine hemochromogen formation and were found associated with a particulate fraction enriched with mitochondria.

2. 2. Both b-type and a-type cytochromes were reduced by succinate, oxidized by oxygen and reacted with a soluble c-type cytochrome, cytochrome c-type (556 Euglena), in reversible oxidation-reduction reactions. The steady-state level of reduction for each cytochrome was 92, 22 and 5% of the anaerobic level for the b-type, c-type and a-type cytochrome, respectively.

3. 3. Oxidation of c-type and a-type cytochromes was completely inhibited by cyanide, although respiration of a particulate fraction was only 60% inhibited by the same concentration of cyanide. Antimycin A inhibited respiration by up to 70% but completely inhibited reduction of the c-type cytochrome.

4. 4. The data suggest that electron transfer in the respiratory pathway of Euglena involves the b-, c- and a-type cytochrome in a direct sequence. The cyanide and antimycin A-insensitive oxidation pathway is considered to involve a more direct oxidation of the b-type cytochrome.

Cytochrome b and photosynthetic sulfur bacteria

Chromatophores isolated from the purple sulfur bacterium Chromatium and the green sulfur bacterium Chlorobium exhibit absorbance changes in the cytochrome -band region consistent with the presence of a b-type cytochrome. Cytochrome content determined by reduced minus oxidized difference spectra and by heme analysis suggests that each bacterium contains one cytochrome b per molecule of photochemically active bacteriochlorophyll (reaction-center bacteriochlorophyll).

The b-type cytochrome in Chromatium has an -band maximum at 560 nm and a midpoint oxidation-reduction potential of −5 mV at pH 8.0. The b-type cytochrome in Chlorobium has an -band maximum at 564 nm and an apparent midpoint oxidation-reduction potential near −90 mV.

Chromatophores isolated from both Chromatium and Chlorobium cells catalyze a photoreduction of cytochrome b that is enhanced in the presence of antimycin A. Antimycin A and 2-n-heptyl-4-hydroxyquinoline-N-oxide inhibit endogenous (but not phenazine methosulfate-mediated) cyclic photophosphorylation in Chromatium chromatophores and non-cyclic electron flow from Na₂S to NADP in Chlorobium chromatophores. These observations suggest that b-type cytochromes may function in electron transport reactions in photosynthetic sulfur bacteria.     

Reactions of b-cytochromes in the red alga Porphyridium aerugineum

1. 1. The kinetics of light-induced absorbance changes due to oxidation and reduction of cytochromes were measured in a suspension of intact cells of the unicellular red alga Porphyridium aerugineum. Absorbance changes in the region 540–570 nm upon alternating far-red light and darkness indicated the oxidation of cytochrome ƒ and reduction of cytochrome b₅₆₃ upon illumination. The relative efficiencies of far-red and orange light indicated that both reactions were driven by Photosystem I.

2. 2. Experiments with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU), with anaerobic cells and in alternating far-red and orange light indicated that cytochrome b₅₆₃ reacts in a cyclic chain around Photosystem I, and that the reduced cytochrome does not react with oxygen or with another oxidized product of Photosystem II. The quantum requirement for the photoreduction was about 6 quanta/equiv at 700 nm. A low concentration of N-methylphenazonium methosulphate (PMS) enhanced the rate of reoxidation of cytochrome b₅₆₃ in the dark. In the presence of higher concentrations of PMS a photooxidation, driven by Photosystem I, instead of reduction was observed. These observations suggest that PMS enhances the rate of reactions between reduced cytochrome b₅₆₃ and oxidized products of Photosystem I.

3. 3. In the presence of carbonylcyanide m-chlorophenylhydrazone (CCCP) a light-induced decrease of absorption at 560 nm occurred. Spectral evidence suggested the photooxidation of cytochrome b₅₅₉ under these conditions. Inhibition by DCMU and a relatively efficient action of orange light suggested that this photooxidation is driven by Photosystem II.

Variations in the activity of fatty ACYL-CoA desaturases and electron-transport components in Tetrahymena microsomes with temperature and age of culture

1. 1.|Alterations in the fatty acid composition of microsomes were most marked in the exponential phase of both 39.5- or 15°C- grown Tetrahymena pyriformis NT-1.

2. 2.|Activities of palmitoyl-CoA and stearoyl-CoA desaturases were lower in 15°C cells than in 39.5°C cells, while the activity of oleoyl-CoA desaturase was higher in 15°C cells.

3. 3.|Activities of the terminal component of the desaturation system as well as all three desaturases (palmitoyl-CoA, stearoyl-CoA, oleoyl-CoA) were higher in the exponential phase than in the stationary phase for cells grown at both temperatures.

4. 4.|NAD(P)H-cytochrome c reductase activity and cytochrome b₅ content were reduced whereas NADH-ferricyanide reductase activity was increased in the stationary phase at both 39.5 and 15°C.

Oxidative phosphorylation coupled to oxygen uptake and nitrate reduction in Micrococcus denitrificans

A procedure is described for preparing particles from cells of Micrococcus denitrificans which were broken osmotically after treatment with lysozyme.

1. 1. The preparations catalysed ATP synthesis coupled to O₂ uptake or NO₃⁻ reduction. With NADH or succinate as the electron donors the P:O ratios were about 1.5 and 0.5, respectively; and the P:NO₃⁻ ratios were about 0.9 and 0.06, respectively.

2. 2. Addition of ADP or P_i to the reaction mixture increased the rates of NADH-dependent O₂ uptake and NO₃⁻ reduction. Addition of 1 mM 2,4-dinitrophenol, which inhibited phosphorylation by 50–60%, increased the basal rates of electron transport.

3. 3. Evidence derived from spectrophotometry and from the differential inhibition by antimycin A of O₂ and NO₃⁻ reduction leads to the conclusion that the nitrate reductase interacted with the respiratory chain in the region of the b-type cytochrome, and that the c-type cytochrome present was not involved in the reduction of NO₃⁻ to NO₂⁻.

The phosphorylation potential generated by respiring mitochondria

1. 1. The phosphorylation potential, ΔG_P = ΔG₀′ + 1.36 log ([ATP]/[ADP][P_i]), where ΔG_O′ is the standard free energy of hydrolysis of ATP at a given pH, and [ATP], [ADP] and [P_i] refer to concentrations in the suspending medium, has been determined in rat-liver mitochondria under various conditions.

2. 2. The ATP/ADP ratio is relatively constant, over a 10-fold range of phosphate concentration. Thus, the phosphate potential is higher at low phosphate concentration. State-4 rat-liver mitochondria in the presence of succinate, oxygen and low concentrations of phosphate in State 4 maintain a phosphorylation potential of 16.1 kcal (67.3 kJ) per mole ATP.

3. 3. High concentrations of ATP inhibit ADP uptake, and it is suggested that this is the reason for the independence of the ATP/ADP ratio on the phosphate concentration. A steady-state ratio is set up dependent upon two processes that are relatively slow compared with State-3 respiration, namely ADP transport and ATP hydrolysis.

4. 4. The phosphorylation potential calculated from the concentrations of total ADP, ATP and P_i within State-4 mitochondria is 4.5 kcal/mole less than that in the suspending medium.

5. 5. It was shown experimentally that the phosphorylation potential cannot be calculated from the ΔG of the redox couple, the respiratory-control ratio and the P:O ratio, as has been suggested in the literature.

6. 6. The measured phosphorylation potential is 83% of that calculated from the span succinate to oxygen, assuming thermodynamic equilibrium, and 95% of that calculated from the span NADH to oxygen.

7. 7. Based on the measurements of the phosphorylation potential and of the redox potentials and redox states of redox components in mitochondria, ubiquinone and cytochrome b are found at their expected position at the junction of the phosphorylations at Sites 1 and 2. The iron-sulphur centres 2 and 5 and the iron-sulphur centre of succinate dehydrogenase also probably lie at this junction. Cytochrome a₃ lies at its expected junction between phosphorylation Sites 2 and 3. A number of electron carriers (cytochromes c, c₁, and a, the iron-sulphur centre of Complex III and the EPR-detectable copper), however, lie in the ‘no-man's land’ within Site 2.

8. 8. A phosphorylation potential of 16.1 kcal/mole corresponds to a membrane potential of 350 mV in State 4, on the basis of the chemiosmotic hypothesis.

ATPase complex and oxidative phosphorylation in chloramphenicol-induced megamitochondria from mouse liver

1. 1. Functional properties of the ATPase complex are investigated in megamitochondria isolated from livers of weanling mice fed a diet containing 2% chloramphenicol, as an inhibitor of mitochondrial protein synthesis.

2. 2. Whereas the specific activity of ATPase remains unchanged in chloramphenicol-induced megamitochondria, about 40% of the enzyme activity is resistant to inhibition by oligomycin, triethyltin or venturicidin. It is concluded that the ATPase complex lacks one or more components whose synthesis or accumulation is dependent on mitochondrial translation. The inhibitor-resistant ATPase portion appears tightly bound to the mitochondrial membrane.

3. 3. Respiratory chain phosphorylation is tightly coupled in isolated megamitochondria. ATP synthesis and ATP-P_i exchange are diminished by 40%, as compared to control mitochondria, but both processes are sensitive to oligomycin, triethyltin or venturicidin.

4. 4. The decrease in ATP synthesis and ATP-P_i exchange in megamitochondria correlates quite well with the emergence of inhibitor-resistant ATPase.

5. 5. The following electron transport activities in the megamitochondria are reduced: NADH-cytochrome c reductase, by 60%, cytochrome oxidase, by 80%; the amount of antimycin required to gain complete inhibition of the bc₁-segment is diminished by more than 50%. On the other hand succinate dehydrogenase activity is increased by 50%.

6. 6. Chloramphenicol-induced megamitochondria appear to be a useful system for studying the role of mitochondrial translation in the assembly of mammalian mitochondria.

Mechanism of respiration-driven proton translocation in the inner mitochondrial membrane. Analysis of proton translocation associated with oxidation of endogenous ubiquinol

A study is presented of the kinetics and stoichiometry of fast proton translocation associated to aerobic oxidation of components of the mitochondrial respiratory chain.

1. 1. Aerobic oxidation of ubiquinol and b cytochromes is accompanied in EDTA particles, obtained by sonication of beef-heart mitochondria, by synchronous proton uptake.

2. 2. The rapid proton uptake associated to oxidation of ubiquinol and b cytochromes is greatly stimulated by valinomycin plus K⁺, but is unaffected by carbonyl cyanide p-trifluoromethoxyphenylhydrazone.

3. 3. 4 gion H⁺ are taken up per mol ubiquinol oxidized by oxygen. This H⁺/2e− ratio, measured in the rapid anaerobic-aerobic transition of the particles is unaffected by carbonyl cyanide p-trifluoromethoxyphenylhydrazone.

4. 4. In intact mitochondria aerobic oxidation of oxygen-terminal electron carriers is accompanied by antimycin-insensitive synchronous proton release, oxidation of ubiquinol and reduction of b cytochromes. The amount of protons released is in excess with respect to the amount of ubiquinol oxidized.

5. 5. It is concluded that electron flow along complex III, from ubiquinol to cytochrome c, is directly coupled to vectorial proton translocation. The present data suggest that there exist(s) between ubiquinol and cytochrome c one (or two) respiratory carrier(s), whose oxido-reduction is directly linked to effective transmembrane proton translocation.

How are neuronal thermosensitivity and lack of thermoreception related in the duck's hypothalamus? A tentative answer

1. 1.|In 15 conscious Pekin ducks, 40 “warm sensitive” hypothalamic neurons were identified according to their discharge rates at 40°C T_hy (F₄₀), local temperature coefficients (Δ/ΔT) and Q₁₀.

2. 2.|Q₁₀ and either F₄₀ or ΔF/ΔT were little or not related.

3. 3.|A positive correlation between F₄₀ and ΔF/ΔT was observed which was particularly close (r = 0.94 and 0.96) when the neurons were classified according to their Q₁₀ of <2 and >2.

4. 4.|The results suggest that neurons with positive temperature coefficients in the duck's hypothalamus mostly exhibit linear to exponential temperature-discharge relationships.

5. 5.|This is an contrast to observations on mammalian hypothalamic thermosensitive neurons and may relate to the absence of the thermosensory function in the duck's rostral brainstem.

Biochemical and biophysical studies on cytochrome aa3 VIII. Effect of cyanide on the catalytic activity

1. 1. Cyanide inhibits the catalytic activity of cytochrome aa₃ in both polarographic and spectrophotometric assay systems with an apparent velocity constant of 4·10³ M⁻¹·s⁻¹ and a K_i that varies from 0.1 to 1.0 μM at 22 °C, pH 7·3.

2. 2. When cyanide is added to the ascorbate-cytochrome c-cytochromeaa₃−O₂ system a biphasic reduction of cytochrome c occurs corresponding to an initial K_i of 0.8 μM and a final K_i of about 0.1 μM for the cytochrome aa₃−cyanide reaction.

3. 3. The inhibited species (a²+a₃³⁺HCN) is formed when a²⁺a₃³⁺ reacts with HCN, when a²⁺a₃²⁺HCN reacts with oxygen, or when a³⁺a₃³⁺HCN (cyano-cytochrome aa₃) is reduced. Cyanide dissociates from a²⁺a₃³⁺HCN at a rate of 2·10⁻³ s⁻¹ at 22 °C, pH 7.3.

4. 4. The results are interpreted in terms of a scheme in which one mole of cyanide binds more tightly and more rapidly to a²⁺a₃³⁺ than to a³⁺a₃³⁺.

Skin temperatures, thermosensory and pleasantness estimates in case of heterogeneity in the thermal environment

1. 1. Seven thermal conditions were imposed on male sitting subjects (slightly clothed: 0.6 clo).

2. 2. A thermal mannikin was also used to determine the exact operative temperature, T₀.

3. 3. Conditions were: uniform (UN: all parameters at 24.5°C, air velocity at 0.15 ms⁻¹), heated ceiling (HC at 45°C), heated floor (HF at 34°C), cold floor (CF at 14°C), two conditions of one cold wall at 6°C (CW1 and CW2 respectively with and without air temperature compensation) and increased air velocity (AV at 0.4 ms⁻¹).

4. 4. Local skin temperatures and answers to questionnaires were obtained.

5. 5. Skin temperature variations were affected by conditions and slight T₀ changes.

6. 6. Comfort judgments were fairly well related to T₀, especially when expressed as differences between actual non-uniform environment and the uniform one.

7. 7. It is concluded that, in case of non-uniform environments close to thermoneutral zone, thermal comfort or discomfort reflects the climate alterations better than the thermal sensation does.

Acetylene reduction with physiological electron donors by extracts and particulate fractions from nitrogen-fixing Azotobacter chroococcum

1. 1. Preparations were obtained from Azotobacter chroococcum which reduced acetylene to ethylene using physiological electron donors instead of sodium dithionite. These preparations fell into two categories: those which required catalytic amounts of benzyl viologen for acetylene reduction and those that did not.

2. 2. Acetylene reduction without benzyl viologen or sodium dithionite was observed only with particles that sedimented at 40 000 × g after disrupting bacteria in the French press or with preparations obtained by disrupting bacteria protected by a mixture of defatted bovine serum albumin-Ficoll-MgCl₂ with liquid N₂; supernatant fractions required benzyl viologen for acetylene reduction.

3. 3. Added ATP inhibited acetylene reduction by large particles; ATP and MgCl₂ were necessary for maximum acetylene reduction with bovine serum albumin-protected preparations.

4. 4. NADH and carbon substrates acted as electron donors but H₂ did not; NAD⁺ was necessary for maximum acetylene reduction with carbon substrates.

5. 5. Anaerobic conditions were necessary for maximum acetylene reduction in all cases.

The effect of 4-methyl-histamine on temperature regulation in the rat

1. 1. The histamine H₂-antagonist, 4-methyl-histamine causes a fall in body temperature when injected into the third ventricle of the rat.

2. 2. The hypothermia is prevented by prior intraventricular injection of an H₂-antagonist, metiamide, but not by an H₁-antagonist, pyrilamine.

3. 3. The fall in temperature is accompanied by increased cutaneous heat loss.

4. 4. These data support the concept that there are H₂-receptors in the central thermoregulatory pathways of the rat.

Electron transport between plastoquinone and chlorophyll aI in chloroplasts

After preillumination with System I light spinach chloroplasts were excited by one flash or a group of saturating flashes. During the following dark period the time courses of the oxidation of plastohydroquinone and of the simultaneous reduction of oxidized cytochrome f and chlorophyll a_I (P700) have been measured.

1. 1. From a correlation of these kinetics it can be concluded that at least 85% of the electrons from plastohydroquinone are transferred to chlorophyll a_I.

2. 2. After one flash 93% of the oxidized chlorophyll a_I is reduced. This suggests a high equilibrium constant between chlorophyll a_I and its donor as well as an equilibration between different chlorophyll a_I molecules.

3. 3. Cytochrome f is also reduced by plastohydroquinone. A ratio of active cytochrome f to chlorophyll a_I of 0.4:1 is observed. The half-life time of the reduction of cytochrome f is 17 ms. The time course indicates that in the dark cytochrome f does not transfer electrons to chlorophyll a_I and that no more than 15% of the electron transport passes cytochrome f. Therefore cytochrome f should be situated in a side path of the linear electron transport.

4. 4. The electrons which are released from plastohydroquinone and are not accepted by oxidized cytochrome f and chlorophyll a_I have been calculated. From this difference properties of an electron carrier, as yet not identified, between plastoquinone and chlorophyll a_I are predicted.