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1.
1. Purified mitochondria have been prepared from wild type Paramecium tetraurelia and from the mutant Cl1 which lacks cytochrome aa3. Both mitochondrial preparations are characterized by cyanide insensitivity. Their spectral properties and their redox potentials have been studied.2. Difference spectra (dithionite reduced minus oxidized) of mitochondria from wild type P. tetraurelia at 77 K revealed the α peaks of b-type cytochrome(s) at 553 and 557 nm, of c-type cytochrome at 549 nm and a-type cytochrome at 608 nm. Two α peaks at 549 and 545 nm could be distinguished in the isolated cytochrome c at 77 K. After cytochrome c extraction from wild type mitochondria, a new peak at 551 nm was unmasked, probably belonging to cytochrome c1. The a-type cytochrome was characterized by a split Soret band with maxima at 441 and 450 nm. The mitochondria of the mutant Cl1 in exponential phase of growth differed from the wild type mitochondria in that cytochrome aa3 was absent while twice the quantity of cytochrome b was present. In stationary phase, mitochondria of the mutant were characterized by a new absorption peak at 590 nm.3. Cytochrome aa3 was present at a concentration of 0.3 nmol/mg protein in wild type mitochondria and ubiquinone at a concentration of 8 nmol/mg protein both in mitochondria of the wild type and the mutant Cl1. Cytochrome aa3 was more susceptible to heat than cytochromes b and c,c1.4. CO difference spectra at 77 K revealed two different Co-cytochrome complexes. The first, found only in wild type mitochondria, was a typical CO-cytochrome a3 complex characterized by peaks at 596 and 435 nm and troughs at 613 and 450 nm. The second, found both in mitochondria of the wild type and the mutant, was a CO-cytochrome b complex with peaks at 567, 539 and 420 nm and a trough at 558-549 nm. Both complexes are photo-dissociable.5. Spectral evidence was obtained for interaction of cyanide with the a-type cytochrome (shift of the α peak at 77 K from 608 to 605 nm), but not with the b-type cytochrome.6. The mid-point potentials of the different cytochromes at neutral pH are as follows: cytochrome aa3 235 and 395 mV, cytochrome c,c1 233 mV, cytochromes b 120 mV.  相似文献   

2.
The electron transport systems of Fasciola hepatica mitochondria were investigated spectrophotometrically at room temperature and at −196°. The mitochondria were found to contain substrate reducible a-, b- and c-type cytochromes. All of the cytochrome components of the classical mammalian type of respiratory chain were present, although the concentration of cytochromes aa3 was low. In addition to the mammalian type of respiratory chain, the Fasciola mitochondria contained a substrate reducible b-type cytochrome component (557 nm) which included a CO reactive o-type cytochrome. The results suggest that F. hepatica mitochondria contain a branched electron transport system including a mammalian type of chain and involving two terminal oxidases and at least two b-type cytochromes.  相似文献   

3.
Respiratory particles containing an aa3-type cytochrome oxidase were prepared from Anacystis nidulans, Synechocystis 6714, Synechococcus lividus, Anabaena variabilis, Nostoc sp. strain MAC, Nostoc muscorum, and Mastigocladus laminosus. Oxidation of c-type cytochromes by membrane preparations of the different blue-green algae was observed using purified cytochromes from horse heart, Candida krusei, tuna, Saccharomyces oviformis, Rhodospirillum rubrum, Rhodospirillum molischianum, Rhodopseudomonas palustris, Rhodocyclus purpureus, Paracoccus denitrificans, Anacystis nidulans, Anabaena variabilis, Euglena gracilis, and Scenedesmus obliquus. Rapid oxidations were consistently observed with the mitochondrial c-type cytochromes (horse heart cytochrome c reacts most rapidly) and with cytochromes c2 from Rhodopseudomonas palustris and Rhodocyclus purpureus; in contrast, the cytochrome c2 from Rhodospirillum rubrum and the plastidic cytochromes from E. gracilis and Scendesmus obliquus were inactive with all membrane preparations. All reactions were inhibited by low concentrations of KCN, NaN3, and CO, and they were activated by Tween 80, thus indicating participation of the terminal oxidase. The results are discussed in view of the spectral similarities between the terminal oxidase of blue-green algae and the mitochondrial aa3-type cytochrome oxidase of plants and other eukaryotes.  相似文献   

4.
The rate of incorporation of [14C]aminolevulinic acid (ALA) into cytochrome hemes was used to measure mitochondrial cytochrome synthesis in the fat body of adult male Blaberus discoidalis cockroaches. The hemes of cytochromes aa3+b and c+c1, were chemically separated to observe differential rates in their synthesis and regulation. [14C]ALA was linearly incorporated into cytochrome hemes for at least 8 h. No significant pool of endogenous ALA was detected relative to the amount of administered [14C]ALA. Peak cytochrome synthesis occurred 4 to 6 days after adult emergence. Endocrine disruption by corpora cardiaca-corpora allata extirpation or cervical ligation eliminated the 4-day developmentally related increase in the rate of cytochrome aa3+b synthesis but had no effect on the production of cytochromes c+c1. Injections of corpora cardiaca extracts into cervically ligated animals stimulated the rate of production of cytochromes aa3+b by 2.5 times but did not affect cytochromes c+c1. By comparison, juvenile hormone injections did not affect the rate of synthesis of either cytochrome fraction. These findings indicate that a neurohormone regulates the rate of synthesis of cytochromes a+b in insect fat body mitochondria.  相似文献   

5.
Derepression of mitochondria and their enzymes in yeast: regulatory aspects   总被引:27,自引:0,他引:27  
We have performed a detailed analysis of the properties of glucose-repressed cells of a commercial strain of Saccharomyces cerevisiae. They contain measurable amounts of the respiratory enzymes NADH oxidase, cytochrome c oxidase, succinate dehydrogenase, succinate:cytochrome c reductase and NADH:cytochrome c reductase (antimycin A-sensitive) as well as the dehydrogenases for l-malate, l-glutamate, and l8-isocitrate. Cytochromes b, c1, and aa3 are present in amounts that may be in excess of those required for cytochrome-linked enzyme activities. Enzymes and cytochromes are localized in large, presumably mitochondrial organelles among which no compositional or functional heterogeneity could be detected.We have also analyzed the kinetics of synthesis of respiratory enzymes and cytochromes during the release from catabolite(glucose) repression. All activities assayed except for cytochrome c oxidase begin their derepression before the external glucose concentration falls below 0.4%; derepression of cytochrome oxidase occurs only after the glucose concentration falls below 0.1%. The earlier events comprise the “fermentative” phase of derepression while the later events comprise the “oxidative” phase. The two phases can be distinguished operationally by their sensitivity to antimycin A. Only the oxidative phase is blocked by the inhibitor. Respiratory enzymes and cytochromes appear to fall into two classes distinguishable by their increase during derepression. An apparently constitutive one consists of cytochrome c oxidase, ATPase, and cytochromes aa3, b, and c1; these entities increase in amount per cell but not in amount per unit of mitochondrial mass and are of the order of 5-fold or less. The second class consists of those activities that increase by more than 6-fold and may be considered derepressible in the strict sense. Thus, proliferation and differentiation of mitochondria both contribute to the cellular changes associated with derepression.The fermentative phase of derepression does not require mitochondrial function, mitochondrial protein, or RNA synthesis, or the gradual accumulation of regulatory elements for either its initiation or persistence. This phase of derepression also occurs in cytoplasmic petites. In contrast, the oxidative phase of derepression requires mitochondrial function. Mitochondrial gene expression is required for the biogenesis of fully functional mitochondria but, except for cytochrome c, it plays little or no role in regulating the expression of nuclear genes the products of which are localized in mitochondria.  相似文献   

6.
Rice seeds were germinated for up to 5 days under water (submerged)and some for another day in air (air-adapted). Control seedswere germinated for 6 days throughout in air. Low-temperaturedifference spectra of shoot mitochondria were compared amongthese three types of seedlings. All cytochromes found in theaerobic seedlings were present in the submerged seedlings. However,there were some differences in the cytochromes b553 and c ofthese two types of seedlings. The cytochrome aa3 peak heightand cytochrome oxidase activity per mitochondrial protein increased1.6- and 2.8-fold, respectively, during air adaptation. Slightlyhigher concentrations of the b-type cytochromes than found inair-adapted mitochondria were already present in submerged mitochondria.The computed difference between the dithionite-reduced differencespectra of mitochondria from submerged seedlings before andafter air adaptation, showed that cytochromes aa3 and c hadincreased more than cytochrome b557 during air adaptation. (Received November 16, 1987; Accepted March 16, 1988)  相似文献   

7.
The effects of streptozotocin-induced diabetes mellitus upon mitochondria from rat skeletal muscle and kidney were examined. The rate of amino acid incorporation in vitro by isolated skeletal muscle mitochondria from diabetic animals was decreased by 50–60% from control values. Treatment of diabetic animals with insulin lowered blood glucose levels to control values and restored the rate of muscle mitochondrial protein synthesis in vitro to control levels. The rates of skeletal muscle mitochondrial protein synthesis were also decreased 23–27% by a 2-day fast. Comparison of the translation products synthesized by isolated muscle mitochondria from control and diabetic rats by dodecyl sulfate polyacrylamide-gel electrophoresis revealed a uniform decrease in the synthesis of all polypeptides. Aurintricarboxylic acid and pactamycin, inhibitors of chain initiation, blocked protein synthesis to a greater extent in muscle mitochondria from control as compared to diabetic animals suggesting that mitochondria from diabetics are unable to initiate protein synthesis at a rate comparable to control. Phenotypic changes observed in diabetic muscle mitochondria included a 36% decrease in the content of cytochromes aa3 and a 27% decrease in cytochrome b, both established as containing mitochondrial translation products in lower eucaryotes. State 3 respiration with glutamate as substrate decreased by 27% and uncoupler-stimulated respiration decreased by 23% in the diabetic mitochondria. By contrast, the specific activities of NADH and succinate dehydrogenases, established as products of cytoplasmic protein synthesis in lower eucaryotes, were not decreased in skeletal muscle mitochondria from the diabetic animals. These results suggest that the considerable muscular atrophy observed in diabetics may involve decreases in both cytoplasmic and mitochondrial protein synthesis, the latter reflected in profound changes in the respiratory chain. By contrast, comparison of kidney mitochondria from control and diabetic rats revealed no differences in the rates of protein synthesis in vitro, nor in the mitochondrial translation products, which corresponded closely to liver and skeletal muscle translation products. Similarly, the mitochondrial content of cytochromes b, c + c1, and aa3, the specific activity of succinate dehydrogenase, the rate of state 3 respiration, and the recovery of mitochondria from kidney homogenates did not differ in control and diabetic animals. Kidney mitochondria are thus like liver mitochondria in being relatively unaffected by insulin deprivation.  相似文献   

8.
The respiratory chain components of higher plant mitochondria   总被引:5,自引:25,他引:5       下载免费PDF全文
Tightly coupled mitochondria have been prepared from a variety of plant sources: white potato (Solanum tuberosum), Jerusalem artichoke (Heliantus tuberosus), cauliflower buds (Brassica oleracea), and mung bean hypocotyls (Phaseolus aureus). Mitochondria with no appreciable coupling were also prepared from skunk cabbage spadices (Symplocarpus foetidus).

Room temperature difference spectra show that these mitochondria are very similar in the qualitative and quantitative composition of their electron carriers. The different cytochromes are present in the amounts of 0.1 to 0.3 mμmole per mg of mitochondrial protein. The molar ratios of the different electron carriers are, on the average: 0.7:0.7:1.0:3 to 4:10 to 15 respectively for cytochrome aa3, cytochromes b, cytochromes c, flavoproteins, and pyridine nucleotides.

From low temperature difference spectra carried out under particular experimental conditions, it can be deduced that these mitochondria contain 3 b cytochromes whose α bands are located at 552, 557, and 561 mμ, and 2 c cytochromes, one of which, a c1-like cytochrome, is firmly bound to the mitochondrial membrane. Cytochrome oxidase can be optically resolved into its 2 components a and a3.

For all kinds of mitochondria, the rates of oxidation of succinate are similar as well as the turnover of cytochrome oxidase (50-70 sec−1), regardless of the metabolic activities of the tissues. The number of mitochondria per cell appears to be the controlling factor of the intensity of tissue respiration.

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9.
Peter Nicholls 《BBA》1976,430(1):30-45
1. Beef heart mitochondria have a cytochrome c1 : c : aa3 ratio of 0.65 : 1.0 : 1.0 as isolated; Keilin-Hartree submitochondrial particles have a ratio of 0.65 : 0.4 : 1.0. More than 50% of the submitochondrial particle membrane is in the ‘inverted’ configuration, shielding the catalytically active cytochrome c. The ‘endogenous’ cytochrome c of particles turns over at a maximal rate between 450 and 550 s?1 during the oxidation of succinate or ascorbate plus TMPD; the maximal turnover rate for cytochrome c in mitochondria is 300–400 s?1, at 28° – 30°C, pH 7.4.2. Ascorbate plus N,N,N′,N′-tetramethyl-p-phenylene diamine added to antimycin-treated particles induces anomalous absorption increases between 555 and 565 nm during the aerobic steady state, which disappear upon anaerobiosis; succinate addition abolishes this cycle and permits the partial resolution of cytochrome c1 and cytochrome c steady states at 552.5–547 nm and 550–556.5 nm, respectively.3. Cytochrome c1 is rather more reduced than cytochrome c during the oxidation of succinate and of ascorbate+N,N,N′,N′-tetramethyl-p-phenylene diamine in both mitochondria and submitochondrial particles; a near equilibrium condition exists between cytochromes c1 and c in the aerobic steady state, with a rate constant for the c1c reduction step greater than 103 s?1.4. The greater apparent response of the caa3 electron transfer step to salts, the hyperbolic inhibition of succinate oxidation by azide and cyanide, and the kinetic behaviour of the succinate-cytochrome c reductase system, are all explicable in terms of a near-equilibrium condition prevailing at the c1c step. Endogenous cytochrome c of mitochondria and submitochondrial particles is apparently largely bound to cytochrome aa3 units in situ. Cytochrome c1 can either reduce the cytochrome c-cytochrome aa3 complex directly, or requires only a small extra amount of cytochrome c to carry the full electron transfer flux.  相似文献   

10.
The activity of a key enzyme of the cytochrome component of the respiratory chain (cytochrome oxidase), the quantitative redistribution of mitochondrial cytochromes b, c 1, c, and aa 3, as well as the activities of the key enzymes of cytochrome heme metabolism (δ-aminolevulinate synthase and heme oxygenase) under conditions of acetaminophen-induced liver injury were studied on the background of dietary protein deprivation. Under conditions of acetaminophen-induced hepatitis that developed on the background of alimentary protein deprivation, an inhibition of cytochrome oxidase activity and a decrease in the contents of mitochondrial cytochromes on the background of an increase in the δ-aminolevulinate synthase and heme oxygenase activity were observed. In animals with a toxic liver injury that were kept under conditions of dietary protein deprivation, the contents of mitochondrial cytochromes b, c 1, c, and aa 3 progressively decreased, which was accompanied by an increase in heme oxygenase activity, whereas δ-aminolevulinate synthase activity remained at the control level. It was concluded that dietary protein deprivation is a critical factor for the development of disturbances in the structural-functional integrity of the cytochrome component of the respiratory chain. The identified changes can be considered as a possible mechanism that underlies the disturbance in the function of the energy biotransformation system under conditions of dietary protein deprivation.  相似文献   

11.
The cytochrome system in eggs and embryos of the sea urchin, Hemicentrotus pulcherrimus, was investigated. Difference spectra of the mitochondrial fraction demonstrated the presence of a complete cytochrome system in unfertilized eggs. Cytochrome levels and the activities of respiratory enzymes were measured in crude extracts of eggs both before and after fertilization. Unfertilized eggs contained cytochromes aa3, b, and c + c1 in a ratio of 1.0:1.8:0.7. Gastrulae contained almost the same amount of cytochromes aa3and b as unfertilized eggs. However, the amount of cytochrome c + c1 in gastrulae was 1.5 times greater than that in unfertilized eggs. The activity of cytochrome oxidase remained unchanged during development. No cytochrome oxidase inhibitor was found in unfertilized eggs. Both antimycin A-sensitive and insensitive NADH-cytochrome c reductase activities increased during development. The activity of succinate-cytochrome c reductase increased during early development, reached a temporary plateau, and then declined at the pluteus stage. These results are discussed in relation to the increase of respiration during early development.  相似文献   

12.
Differential spectrometry revealed two species for the b-type, as well as for the c-type, cytochromes in mitochondria from Agaricus bisporus Lge. The two b-type components are denoted according to their peak position in the α region at room temperature, i.e. b560 and b566. The b556 component present in all the studied higher plant mitochondria was not detected in the system. At 293 K, the c-type cytochromes exhibit a common α band with a maximum at 550 nanometers. This band is split at 77 K, with peak positions at 547 nanometers (cytochrome c) and 552 nanometers (cytochrome c1).  相似文献   

13.
14.
Orientations of the active site chromophores of the mitochondrial redox carriers have been investigated in hydrated, oriented multilayers of mitochondrial membranes using optical and EPR spectroscopy. The hemes of cytochrome c oxidase, cytochrome c1, and cytochromes b were found to be oriented in a similar manner, with the normal to their heme planes lying approximately in the plane of the mitochondrial membrane. The heme of cytochrome c was either less oriented in general or was oriented at an angle closer to the plane of the mitochondrial membrane than were the hemes of the “tightly bound” mitochondrial cytochromes. EPR spectra of the azide, sulfide and formate complexes of cytochrome c oxidase in mitochondria in situ obtained as a function of the orientation of the applied magnetic field relative to the planes of the membrane multilayers showed that both hemes of the oxidase were oriented in such a way that the angle between the heme normal and the membrane normal was approx. 90°.  相似文献   

15.
Summary We have isolated twenty-six nuclear, singlegene cytochrome-deficient mutants of Neurospora crassa as an initial step toward the study of the structural components and regulatory mechanisms involved in the biogenesis of the mitochondrial cytochrome system. These mutants, together with two previously described mutants, cyt-1 and cyt-2, have been classified into six distinct groups on the basis of cytochrome phenotype: a) cytochrome aa 3 deficiency (due to mutations affecting loci designated cya); b) cytochrome b deficiency (cyb-1 locus); c) cytochrome b deficiency with a partial deficiency of cytochrome aa 3 (cyb-2 locus); d) deficiency of both cytochromes aa 3 and b (cyt loci); e) deficiency of both cytochromes aa 3 and c (cyt-2 locus); and f) partial deficiency of cytochromes aa 3 and c (cyt-12 locus).Four of seven mutations affecting cya loci have been mapped and are located on linkage groups I, II, V, and VI. It is not yet known whether these genes code for structural components of cytochrome oxidase or have a regulatory function that affects synthesis or assembly of the enzyme. The cyb-1 and cyb-2 genes are located on linkage groups V and VI, respectively, and appear to code for regulatory elements that control the biogenesis of cytochromes b and aa 3 . The positions of the cyt mutations that cause a simultaneous deficiency of cytochromes aa 3 and b are dispersed throughout the genome, except for two gene clusters on the left arm of linkage group I. Some of these mutants may be deficient in mitochondrial protein synthesis. Two mutations, cyt-2 and cyt-12, are located on linkage groups VI and II, respectively, and appear to affect genes that code for components of a regulatory system that controls the biogenesis of cytochromes aa 3 and c.  相似文献   

16.
We have assayed absorbance changes generated by blue light in plasma membranes, endoplasmic reticulum, and mitochondrial membranes from Neurospora crassa. Light minus dark difference spectra, obtained anaerobically in the presence of ethylenediaminetetraacetate, indicated that b-type cytochromes could be photoreduced in all three membranes. In plasma membranes, a b-type cytochrome with a distinct difference spectrum was photoreducible without addition of exogenous flavin. Addition of riboflavin greatly stimulated the photoreduction of cytochromes in endoplasmic reticulum and mitochondrial membranes. In its spectral characteristics the cytochrome on the endoplasmic reticulum resembled cytochrome b5 or nitrate reductase, while the cytochrome in mitochondrial membranes had the same spectrum as cytochrome b of the mitochondrial respiratory chain.

Cytochromes in the three membrane fractions reacted differently to blue light in the presence of various inhibitors. Potassium azide inhibited reduction of plasma membrane cytochrome b, with 50% inhibition at 1.0 millimolar. The same concentration of azide stimulated photoreduction of cytochromes in both endoplasmic reticulum and mitochondria. Although photoreduction of cytochromes in all three membranes was inhibited by salicylhydroxamic acid, cytochromes in plasma membranes were more sensitive to this inhibitor than those in endoplasmic reticulum and mitochondria. Cells grown to induce nitrate reductase activity showed an elevated amount of blue light-reducible cytochrome b in the endoplasmic reticulum.

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17.
The cytochromes of the bacteriumStreptomyces erythreus have been investigated. Membrane-bounda-, b-, andc-type cytochromes were found together with a green pigment, which was found in both a soluble and membrane-bound form. Cells containing the green pigment exhibited cyanide-insensitive oxygen uptake. The CO-binding pigments included cytochromea 3, ab-type cytochrome, cytochrome P450, and the green pigment. Photodissociation spectra at various low temperatures, in the presence or absence of oxygen, revealed cytochromeaa 3 to be the predominant cytochrome terminal oxidase. The green pigment was capable of electron transport; the relationship of the pigment to the remainder of the electron transport chain remains to be ascertained.  相似文献   

18.
The Cytochromes of Prototheca zopfii   总被引:2,自引:2,他引:0       下载免费PDF全文
The respiratory pigments of Prototheca zopfii include seven cytochromes: two c-type cytochromes, a soluble c(549) and a membrane bound c(551); three b-type cytochromes, b(555), b(559) and b(564); and cytochromes a and a3. Cytochromes a and a3 could be resolved spectrally in the α-band region by reducing the cells in the presence of methanol and cyanide. Methanol shifted the absorption maximum of cytochrome a from 598 to 603 nanometers and permitted dithionite (or substrate) to reduce the cyanide-cytochrome a3 complex to give a well defined 595-nanometer absorption band. Methanol did not interfere with CO binding by cytochrome a3, and CO did not alter the methanol effect on cytochrome a. Azide and cyanide, which partially inhibited exogenous respiration, stimulated endogenous respiration. Frozen steady states of the electron transport chain in the presence of cyanide and azide indicated that the stimulation by these inhibitors was due to an increased autooxidation of one of the b-type cytochromes, possibly b(564).  相似文献   

19.
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   

20.
Lysine residues of horse heart cytochrome c have been modified with N-5-azido-2-nitrobenzoyloxysuccinimide (ANB-NOS) and ethyl N-5-azido-2-nitrobenzoylaminoacetimidate (ANB-AI), reagents that attach nitroaryl azides onto the surface of proteins by amide and amidine linkages, respectively. When acting as an electron acceptor for yeast cytochrome b2, modification of cytochrome c with ANB-NOS increases the Km for the reaction by 2-fold, while modification with ANB-AI has little effect on the Km. The Vmax for the reduction of cytochrome c by cytochrome b2 is reduced by the attachment of both compounds to cytochrome c. When the modified cytochromes c were illuminated with phosvitin, cytochrome b5, and cytochrome c peroxidase, cross-linked species were formed which could be resolved by electrophoresis on polyacrylamide gels in the presence of sodium dodecyl sulfate. In each case the amidine derivatives of cytochrome c modified with ANB-AI showed more cross-linking than the amide derivatives of cytochrome c modified with ANB-NOS. When the modified cytochromes c were present in a 3-fold excess of phosvitin, cross-linked products containing 1, 2, and 3 molecules of cytochrome c covalently attached to phosvitin were observed. Photolysis of the modified cytochromes c in the presence of cytochrome b5, resulted in the formation of a cross-linked 1:1 complex between the two cytochromes as well as higher order aggregates containing up to 5 molecules of cytochrome c plus cytochrome b2. When cytochrome c peroxidase was illuminated with the modified cytochromes c, the predominant cross-linked product was a 1:1 complex between the two heme proteins. However, a cross-linked species was detected in small amounts with the apparent composition of 2 molecules of cytochrome c and 1 of the peroxidase. Also, a procedure is described for the synthesis of ANB-AI with 14C in the imidocarbon which is ultimately derived from 14CN.  相似文献   

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