首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Steady-state oxygen kinetics of Trypanosoma mega reveal the presence of 3 oxidases. These include an oxidase which is sensitive to salicylhydroxamic acid (SHAM) but insensitive to sodium azide. This oxidase could be the L-alpha glycerophosphate oxidase present in bloodstream trypanosomes. In addition, and oxidase is present wthich is azide-sensitive but SHAM-insensitive. This oxidase is inhibited by CO and is probably cytochrome aa3. A 3rd oxidase is insensitive to both azide and SHAM but is inhibited by CO and is possibly cytochrome o. Reciprocal plots of T. mega reveal the presence of 2 oxidases that are inhibited by CO. These results are discussed in the light of previous evidence suggesting the presence of several oxidases and a branched electron transport system in T. mega.  相似文献   

2.
Import of the synthetic precursor of the alternative oxidase from soybean was shown to be dependent on a membrane potential and ATP. The membrane potential in soybean mitochondria may be formed either by respiration through the cytochrome pathway, or through the alternative oxidase pathway with NAD+-linked substrates. Import of the alternative oxidase precursor in the presence of succinate as respiratory substrate was inhibited by KCN. Import in the presence of malate was insensitive to KCN and SHAM added separately, but was inhibited by KCN and SHAM added together (inhibitors of the cytochrome and alternative oxidases respectively). Import of the alternative oxidase was accompanied by processing of the precursor to a single 32 kDa product in both cotyledon and root mitochondria. This product had a different mobility than the two alternative oxidase bands detected by immunological means (34 and 36 kDa), suggesting that the enzyme had been modified in situ. When the cDNA clone of the alternative oxidase was modified by a single mutation (–2 Arg changed to –2 Gly), the processing of the precursor was inhibited.  相似文献   

3.
The effects of sodium azide, potassium cyanide (cytochrome oxidaseinhibitors), and salicylhydroxamic acid (SHAM; an alternativerespiration inhibitor) on germination and respiration of Avenafatua L. seeds were studied. Azide and cyanide released seeddormancy at similar concentrations and treatment durations.Cyanide, however, stimulated germination of seeds with littleafter-ripening, whereas azide had no effect under similar conditionsunless the seeds were after-ripened for several months; theduration of after-ripening required for seeds to respond toazide varied with seed batch. There was also a greater lag priorto germination in the case of azide, compared to cyanide treatedseeds. SHAM inhibited the stimulation of germination and respirationby azide, but not by cyanide. Furthermore, respiration induced by azide or cyanide could notbe inhibited by the subsequent application of SHAM. These findingssuggest that the respiration stimulated by azide and cyanideis not alternative (SHAM-sensitive) and, therefore, this respiratorypathway cannot be involved in the stimulation of germinationby cytochrome oxidase inhibitors. While embryos excised fromcontrol, azide or cyanide pretreated seeds had the capacityto perform alternative respiration, the actual contributionof this pathway was negligible. A large proportion of respirationof embryos excised from azide or cyanide pretreated seeds wasresidual, i.e. insensitive to both SHAM and cyanide. Alternative respiration, azide, cyanide, dormancy, salicylhydroxamic acid, wild oats  相似文献   

4.
R.H. Tiesjema  B.F. Van Gelder 《BBA》1974,347(2):202-214
1. CD spectra of cytochrome c oxidase have been determined both in the absence and presence of the extrinsic ligands CO, NO, cyanide and azide.2. CO and NO affect the CD spectrum of cytochrome c oxidase in a similar way.3. Cyanide and azide also affect the CD spectrum of cytochrome c oxidase in a similar way, but distinctly different from CO and NO.4. From the CD spectra of the oxidized and reduced enzyme, in the presence and absence of extrinsic ligands, CD difference spectra (reduced minus oxidized) are calculated for the so-called cytochrome a and cytochrome a3 moieties of the enzyme.5. These spectra are largely dependent on the extrinsic ligand used. It is therefore concluded that these spectra do not represent independent cytochrome a and cytochrome a3 difference spectra, but that heme-heme interactions occur within the cytochrome c oxidase molecule, in such a way that binding of a ligand to one of the heme a groups of cytochrome c oxidase affects the spectral properties of the other heme a group.6. As a consequence, ligand-binding studies cannot give information as to the pre-existence of separate cytochrome a and cytochrome a3 moieties in the absence of extrinsic ligands.  相似文献   

5.
Sulfite ion (HSO3 -) is one of the products when elemental sulfur is oxidized by the hydrogen sulfide:ferric ion oxidoreductase of Thiobacillus ferrooxidans AP19-3. Under the conditions in which HSO3 - is accumulated in the cells, the iron oxidase of this bacterium was strongly inhibited by HSO3 -. Since cytochrome c oxidase is one of the most important components of the iron oxidase enzyme system in T. ferrooxidans, effects of HSO3 - on cytochrome c oxidase activity were studied with the plasma membranes of HSO3 --resistant and -sensitive strains of T. ferrooxidans, OK1-50 and AP19-3. The enzyme activity of AP19-3 compared with OK1-50 was strongly inhibited by HSO3 -. To investigate the inhibition mechanism of HSO3 - in T. ferrooxidans, cytochrome c oxidases were purified from both strains to an electrophoretically homogeneous state. Cytochrome c oxidase activity of a purified OK1-50 enzyme was not inhibited by 5 mM HSO3 -. In contrast, the same concentration of HSO3 - inhibited the enzyme activity of AP19-3 50%, indicating that the cytochrome c oxidase of OK1-50 was more resistant to HSO3 - than that of AP19-3. Cytochrome c oxidases purified from both strains were composed of three subunits. However, the molecular weight of the largest subunit differed between OK1-50 and AP19-3. Apparent molecular weights of the three subunits of cytochrome c oxidases were 53,000, 24,000, and 19,000 for strain AP19-3 and 55,000, 24,000, and 19,000 for strain OK1-50, respectively.  相似文献   

6.
Abstract Washed cell suspensions of Crithidia oncopelti oxidizing a variety of substrates gave complex plots for the inhibition of respiration by potassium cyanide or azide. The data indicated the presence of at least two and possibly three terminal oxidases on the basis of their differential sensitivity to these inhibitors. The oxidase most sensitive to cyanide, azide and CO accounted for approx. 65–70% of whole cell respiration and is probably cytochrome oxidase a/a3. A second oxidase exhibiting low affinity for CO required high concentrations of KCN or azide for inhibition. This haemoprotein had the spectral characteristics of cytochrome o and accounted for 15–20% of cell respiration. Incomplete inhibition of respiration by high concentrations of KCN or azide suggested the presence of a third oxidase which was CO-unreactive.  相似文献   

7.
Measurements of respiration were made on leaf discs from glasshouse-grown soybean (Glycine max [L.] Merr. cv `Corsoy') plants in the presence and absence of cyanide (KCN) and salicylhydroxamic acid (SHAM). O2 uptake by mature leaves measured at 25°C was stimulated by 1 millimolar KCN (63%) and also by 5 millimolar azide (79%). SHAM, an inhibitor of the alternative oxidase and a selection of other enzymes, also stimulated O2 uptake by itself at concentration of 10 millimolar. However, in combination, KCN and SHAM were inhibitory. The rate of O2 uptake declined consistently with leaf age. The stimulation of O2 uptake by KCN and by SHAM occurred only after a certain stage of leaf development had been reached and was more pronounced in fully expanded leaves. In young leaves, O2 uptake was inhibited by both KCN and SHAM individually. The uncoupler, p-trifluoromethoxy carbonylcyanide phenylhydrazone, stimulated leaf respiration at all ages studied, the stimulation being more pronounced in fully expanded leaves. The uncoupled rate was inhibited by KCN and SHAM individually. The capacity of the cytochrome path declined with leaf age, paralleling the decline in total respiration. However, the capacity of the alternative path peaked at about full leaf expansion, exceeding the cytochrome capacity and remaining relatively constant. These results are consistent with the presence in soybean leaves of an alternative path capacity that seems to increase with age, and they suggest that the stimulation of O2 uptake by KCN and NaN3 in mature leaves was mainly by the SHAM-sensitive alternative path. The stimulation of O2 uptake by SHAM was not expected, and the reason for it is not clear.  相似文献   

8.
1. Cell-free extracts of the marine bacterium Beneckea natriegens, derived by sonication, were separated into particulate and supernatant fractions by centrifugation at 150 000 × g.2. NADH, succinate, d(?)- and l(+)-lactate oxidase and dehydrogenase activities were located in the particles, with 2- to 3-fold increases in specific activity over the cell free extract. The d(?)- and l(+)-lactate dehydrogenases were NAD+ and NADP+ independent. Ascorbate-N,N,N′,N′-tetramethylphenylenediamine (TMPD) oxidase was also present in the particulate fraction; it was 7–12 times more active than the physiological substrate oxidases.3. Ascorbate-TMPD oxidase was completely inhibited by 10 μM cyanide. Succinate, NADH, d(?)-lactate and l(+)-lactate oxidases were inhibited in a biphasic manner, with 10 μM cyanide causing only 10–50 % inhibition; further inhibition required more than 0.5 mM cyanide, and 10 mM cyanide caused over 90 % inhibition. Low sulphide (5 μM) and azide (2 mM) concentrations also totally inhibited ascorbate-TMPD oxidase, but only partially inhibited the other oxidases. High concentrations of sulphide but not azide caused a second phase inhibition of NADH, succinate, d(?)-lactate and l(+)-lactate oxidases.4. Low oxidase activities of the physiological substrates, obtained by using non-saturating substrate concentrations, were more inhibited by 10 μM cyanide and 2 mM azide than high oxidase rates, yet ascorbate-TMPD oxidase was completely inhibited by 10 μM cyanide over a wide range of rates of oxidation.5. These results indicate terminal branching of the respiratory system. Ascorbate-TMPD is oxidised by one pathway only, whilst NADH, succinate, d(?)-lactate and l(+)-lactate are oxidised via both pathways. Respiration of the latter substrates occurs preferentially by the pathway associated with ascorbate-TMPD oxidase and which is sensitive to low concentrations of cyanide, azide and sulphide.6. The apparent Km for O2 for each of the two pathways was detected using ascorbate-TMPD and NADH or succinate plus 10 μM cyanide respectively. The former pathway had an apparent Km of 8–17 (average 10.6) μM and the latter 2.2–4.0 (average 3.0) μM O2.  相似文献   

9.
Rhodospirillum rubrum CAF10, a spontaneous cytochrome oxidase defective mutant, was isolated from strain S1 and used to analyze the aerobic respiratory system of this bacterium. In spite of its lack of cytochrome oxidase activity, strain CAF10 grew aerobically in the dark although at a decreased rate and with a reduced final yield. Furthermore, aerobically grown mutant cells took up O2 at high rates and membranes isolated from those cells exhibited levels of NADH and succinate oxidase activities which were similar to those of wild type membranes. It was observed also that whereas in both strains O2 uptake (intact cells) and NADH and succinate oxidase activities (isolated membranes) were not affected by 0.2 mM KCN, the cytochrome oxidase activity of the wild type strain was inhibited about 90% by 0.2 mM KCN. These data indicate the simultaneous presence of two terminal oxidases in the respiratory system of R. rubrum, a cytochrome oxidase and an alternate oxidase, and suggest that the rate of respiratory electron transfer is not limited at the level of the terminal oxidases. It was also found that the aerobic oxidation of cellular cytochrome c 2 required the presence of a functional cytochrome oxidase activity. Therefore it seems that this electron carrier, which only had been shown to participate in photosynthetic electron transfer, is also a constituent of the respiratory cytochrome oxidase pathway.Abbreviations DCIP 2,6-dichlorophenolindophenol - DMPD N,N-dimethyl-p-phenylenediamine - TMPD N,N,N,N-tetramethyl-p-phenylenediamine - Tricine N-[2-hydroxy-1,1-bis(hydroxymethyl)-ethyl]-glycine  相似文献   

10.
1. Respiration of growing cultures of Acanthamoeba castellanii is inhibited less than 60% by azide (35 mM); the respiration of early-exponential-phase cultures differs from that of late-exponential-phase cultures in being stimulated by up to 120% by low concentrations (less than 1 mM) of this inhibitor. Azide (0.5 mM) plus 1 mM-salicylhydroxamic acid gives 80% inhibition of respiration in early- or late-exponential-phase cultures. 2. Lineweaver-Burk plots of 1/v against 1/[O2] for growing and stationary-phase cultures give values of less than 1 muM for the apparent Km for oxygen. 3. These values are not significantly altered when determined in the presence of 1 mM-salicylhydroxamic acid. 4. Higher values (greater than 7 muM) for apparent Km values for oxygen were obtained in the presence of azide, which gives non-linear Lineweaver-Burk plots. 5. Competitive inhibition of respiration by CO occurs with Ki 2.4 muM. 6. The results are discussed in terms of the presence of three terminal oxidases in this organism, namely two oxidases with high affinities for oxygen (cytochrome c oxidase of the main phosphorylating electron-transport chain and the salicylhydroxamic acid-sensitive oxidase) and a third oxidase with a low affinity for oxygen, sensitive to inhibition by cyanide but not by azide or salicylhydroxamic acid. The relative contributions to oxygen utilization by these oxidases change during the growth of a batch culture.  相似文献   

11.
The nature of the carbon monoxide- and oxygen-reacting haemoproteins in the respiratory chain of the filamentous antibiotic-producing bacterium Streptomyces clavuligerus has been investigated. CO-difference (i.e. CO+ reduced minus reduced) spectra of intact cells showed the presence of cytochrome aa 3, a CO binding b-type cytochrome, and a pigment resembling cytochrome d. In addition, cells that were approaching the end of the growth phase showed the presence of cytochrome P450: this pigment was undetectable in cells harvested early in the growth cycle. High speed centrifugation of cell-free extracts prepared from cells broken by sonication showed that cytochrome aa 3 was tightly membrane-bound and that cytochrome P450 was soluble. Inhibition of oxygen uptake rates of cells by cyanide indicated that one component, which showed 50% inhibition at 2–4 mM CN, was acting as major terminal oxidase: this was observed in cells harvested from all stages of growth. Photodissociation (i. e. photolysed, CO reduced minus CO reduced) spectra at-118°C, in the absence of oxygen, showed cytochrome aa 3 to be the sole photolysable CO-reacting haemoprotein. At higher temperature (-87°C), in the presence of oxygen, cytochrome aa 3 formed a complex with oxygen that could not be photolysed by similar intensities of light. By raising the temperature to-43°C, the oxidation of c-type cytochromes was observed. It is concluded that cytochrome aa 3 is the predominant terminal oxidase in S. clavuligerus and that the other CO reacting haemoproteins, of unknown function, are unlikely to be oxidases.  相似文献   

12.
Differential response in the leaves of tall and dwarf wheat to CO, an inhibitor of cytochrome oxidase and to SHAM, an inhibitor of alternative oxidase appears to be correlated with presence of Rht dwarfing genes. This was detected by in vivo nitrate reductase assay after CO treatment and direct O2 uptake in presence of SHAM. Pretreatment of the leaves with Triton X-100 at a concentration which specifically inhibits the accessibility of exogenous NAD(P)H to alternative oxidase, Significantly enhanced the CO response as assessed by in vivo NR assay. This supports the hypothesis that the competition for NADH between NR and mitochondrial respiration is regulated by NADH-dehydrogenase located on the outer surface of inner mitochondrial membrane.  相似文献   

13.
Strain inl-89601 of Neurospora crassa respires exclusively by means of the mitochondrial cytochrome chain. The respiration of this strain is entirely inhibited by cyanide or antimycin A, the classical inhibitors of cytochrome chain respiration. When this strain was grown in the presence of chloramphenicol, however, two additional terminal oxidases were detected. One of these oxidases is inhibited by substituted hydroxamic acids and has been described previously. The second oxidase was not inhibited by cyanide or hydroxamic acid but was inhibited by azide in the presence of both cyanide and hydroxamic acid. This azide-sensitive respiration was due to a single respiratory pathway with a Ki for azide of 200 micrometer. A small amount of azide-sensitive respiration was detected in mitochondrial fractions obtained from chloramphenicol-treated cells, and it is likely that the azide-sensitive oxidase is localized in the mitochondrion. The determinants for the azide-sensitive and hydroxamate-sensitive oxidases segregate in a Mendelian manner in crosses and are either unlinked or not closely linked to each other.  相似文献   

14.
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.  相似文献   

15.
The cytochromes of Acanthamoeba castellanii.   总被引:4,自引:4,他引:0       下载免费PDF全文
1. Low-temperature difference spectra of gradient-purified mitochondria of Acanthamoeba castellanii reveal the presence of cytochromes b-555, b-562 and c-549, with a-type cytochromes having a broad asymmetrical maximum at 602 nm; these components were also observed in specta of whole cells. 2. The a-type cytochromes are unusual in that they have split Soret absorption maxima (at 442 and 449 nm) and an uncharacteristic CO difference spectrum. 3. CO difference spectra of whole cells and 'microsomal' membranes show large amounts of cytochrome P-420 compared with cytochrome P-450. 4. Difference spectra in the presence of cyanide indicate the presence of an a-type cytochrome and two cyanide-reacting components, one of which may be cytochrome a3. 5. Whole-cell respiration in a N2/O2 (19:1) atmosphere was decreased by 50%, suggesting the presence of a low-affinity oxidase. This lowered respiration is inhibited by 50% by CO, and the inhibition is partially light-reversible; photochemical action spectra suggest that cytochrome a3 contributes to this release of inhibition. Other CO-reacting oxidases are also present. 6. The results are discussed with the view that cytochrome a3 is present in A. castellanii, but its identification in CO difference spectra is obscured by other component(s).  相似文献   

16.
Isolated fibrovascular bundles from source leaf petioles of sugar beet (Beta vulgaris L.) and hog-weed (Heracleum sosnovskyi L.) were used to study the influence of long-term drought on the oxygen uptake rate and activities of mitochondrial oxidases, i.e., cytochrome oxidase and salicylhydroxamic acid-sensitive alternative oxidase (AO). Under normal soil moisture content (70% of full water-retaining capacity, WRC), the oxygen uptake by sugar beet conducting bundles was characterized by a high rate (> 700 μl O2/(g fr wt h)) and by distinct cytochrome oxidase-dependent manner of terminal oxidation (up to 80% inhibition of respiration in the presence of 0.5 mM KCN). After long-term water deficit (40% of WRC), the bundle respiration proceeded at nearly the same rate but featured an elevated resistance to cyanide. At early drought stage (10 days), a decrease in the activity of cytochrome-mediated oxidation pathway was largely counterbalanced by activation of mitochondrial AO, whereas long-term dehydration of plants was accompanied by activation of additional oxidative systems insensitive to both KCN and SHAM. Similar but even more pronounced changes in activities of terminal oxidases were discovered in conducting bundles of wild-grown hogweed plants exposed to long-term natural drought. It is supposed that the suppression of cytochrome-mediated oxidation coupled with ATP synthesis in the cells of sugar beet source leaves impedes the translocation of assimilates and their accumulation in the taproot, which represents an important factor of drastic decrease in the yield of this agricultural crop under conditions of water deficit.  相似文献   

17.
18.
Two kinds of cytochrome c oxidase were partially purified from iron-grown T. ferrooxidans. The first type (cytochrome c oxidase I) was easily solubilized without a detergent and had a pH-optimum at 3.0. The other (cytochrome c oxidase II) which was bound tightly to the cell membrane and solubilized with sodium dodecyl sulfate had a pH-optimum at 5.2. Each type was heat-sensitive and inhibited by cyanide and azide. Since the pH level of the bacterial iron oxidizing activity corresponded closely with the pH of cytochrome c oxidase I but not cytochrome c oxidase II, it was proposed that the former may play an important role in the iron oxidizing system.  相似文献   

19.
The contribution of the alternative pathway in root respiration of Pisum sativum L. cv Rondo, Plantago lanceolata L., and Plantago major L. ssp major was determined by titration with salicylhydroxamate (SHAM) in the absence and presence of cyanide. SHAM completely inhibited the cyanide-resistant component of root respiration at 5 to 10 millimolar with an apparent Ki of 600 micromolar. In contrast, SHAM enhanced pea root respiration by 30% at most, at concentrations below 15 millimolar. An unknown oxidase appeared to be responsible for this stimulation. Its maximum activity in the presence of low SHAM concentrations (1-5 millimolar) was 40% of control respiration rate in pea roots, since 25 millimolar SHAM resulted in 10% inhibition. In plantain roots, the maximum activity was found to be 15%. This hydroxamate-activated oxidase was distinct from the cytochrome path by its resistance to antimycin. The results of titrations with cyanide and antimycin indicated that high SHAM concentrations (up to 25 millimolar) block the hydroxamate-activated oxidase, but do not affect the cytochrome path and, therefore, are a reliable tool for estimating the activity of the alternative path in vivo. A considerable fraction of root respiration was mediated by the alternative path in plantain (45%) and pea (15%), in the latter because of the saturation of the cytochrome path.  相似文献   

20.
D.L. Knook  J.Van&#x;t Riet  R.J. Planta 《BBA》1973,292(1):237-245
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.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号