Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A basic cytochrome was isolated from the phytomastigophorean protozoan Euglena gracilis and a similar protein from the zoomastigophorean protozoan Crithidia oncopelti. In both cases chromatography on CM-cellulose in first the reduced and then the oxidized form proved to be an efficient means of purification. The two cytochromes can be classed in the cytochrome c family but they have certain atypical features. The alpha peak of the absorption spectrum is shifted towards the red and is asymmetrical. The pyridine ferrohaemochrome has an alpha-peak maximum intermediate between that of c-type cytochromes and proteins containing protohaem IX. The test for free vinyl groups was positive. The amino acid sequences of the two cytochromes were determined. Attention is drawn in the text to those parts of the evidence that are less satisfactory. Both sequences are homologous with the family of cytochrome c, but are unusual in having only one cysteine residue so that the haem is attached through only one thioether bond. Detailed evidence for the amino acid dequences of the two proteins has been deposited as Supplementary Publication SUP 50042 (70 pages) at the British Library (Lending Division) (formerly the National Lending Library for Science and Technology), Boston Spa, Wetherby, Yorks. LS23 7BQ, U.K., from whom copies can be obtained on the terms indicated in Biochem. J. (1975) 145, 5.
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PMID:Purification, properties and amino acid sequence of atypical cytochrome c from two protozoa, Euglena gracilis and Crithidia oncopelti. 17 Sep 10

A membrane-bound cytochrome resembling higher plant cytochrome f in many respects has been extracted from the algae Chlamydomonas. Euglena and Anacystis, and partially purified. The spectra of the cytochromes from Chlamydomonas and Euglena are virtually identical to that of parsley cytochrome f, with alpha-band maxima near 554 nm, very asymmetrical beta-bands, and gamma-band maxima at 421 nm. The cytochrome from Anacystis had alpha and gamma-bands both shifted to slightly longer wavelengths. The redox potential of the cytochrome from Chlamydomonas was determined as +350 mV, and its minimum molecular weight in sodium dodecyl sulphate as 31 000. The cytochrome from Euglena showed a rate of reaction with higher plant plastocyanin at least 100 times that of the soluble Euglena cytochrome c-552, and was unaffected by Euglena cytochrome c-552 antiserum. A very fast rate of electron transfer occurred between this cytochrome purified from Euglena and cytochrome c-552. The roles of the membrane-bound and soluble c-type cytochromes in algal photosynthesis are discussed, and it is recommended that the name cytochrome f should be reserved for the membrane-bound cytochrome (to emphasize its affinity with higher plant cytochrome f), while the soluble one should be named by its alpha-band (c-552, c-553, etc.) to make clear its distinctness from higher plant cytochrome f and homology with mitochondrial cytochrome c.
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PMID:The roles of c-type cytochromes in algal photosynthesis. Extraction from algae of a cytochrome similar to higher plant cytochrome f. 19 6

A cytochrome-enriched fraction obtained from chloroplasts after treatment with the detergent digitonin contained cytochromes f, b-559LP and b-563 in the approximate proportions 1:1:2, close to those observed in unfractionated chloroplasts. The spectrum of cytochrome b-563 at temperature of liquid N2 showed a single asymmetrical alpha-band with a maximum at 561 nm.
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PMID:Composition and spectral properties of a cytochrome-enriched fraction obtained from chloroplasts by digitonin treatment. 50 3

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).
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PMID:The cytochromes of Acanthamoeba castellanii. 59 58

Carbon monoxide binding to Chromatium vinosum ferrocytochrome c' has been studied by high-precision equilibrium methods. In contrast to the CO binding properties of Rhodospirillum molischianum cytochrome c' [Doyle, M. L., Weber, P. C., & Gill, S. J. (1985) Biochemistry 24, 1987-1991], CO binding to C. vinosum cytochrome c' is found to be unusual in the following ways. The binding curve is found to be cooperative with typical Hill coefficients equal to 1.25. The shape of the binding curve is asymmetrical. The heat of CO ligation is measured by two independent methods, both of which yield large endothermic values of approximately 10 kcal [mol of CO(aq)]-1. The overall affinity for CO increases as the concentration of cytochrome c' decreases. These observations suggest the CO binding properties of C. vinosum cytochrome c' are complicated by CO-linked association-dissociation processes. Further investigation by gel filtration chromatography shows that at micromolar concentrations the dimeric state is tightly associated in both the reduced and oxidized forms of the cytochrome but addition of saturating concentrations of CO causes the reduced ligated dimer to dissociate largely into monomers. A model is presented that quantitatively fits the data, involving a ligand-linked dimer-monomer dissociation reaction. In this model, CO binds to the dimer form noncooperatively with an intrinsic affinity constant equal to 5600 +/- 1200 M-1 at 25 degrees C. The unligated dimer form is tightly associated, but addition of CO causes dissociation of the dimer into the monomer with a monomer-dimer association constant equal to 450 +/- 200 M-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ligand-controlled dissociation of Chromatium vinosum cytochrome c'. 301 6

Bacillus subtilis cytoplasmic membranes contain several cytochromes which are linked to the respiratory chain. At least six different cytochromes have been separated and identified by ammonium sulphate fractionation and ion-exchange chromatography. They include two terminal oxidases with CO-binding properties and cyanide sensitivity. One of these is an aa3-type cytochrome c oxidase which has characteristic absorption maxima in the reduced-oxidized difference spectrum at 601 nm in the alpha-band and at 443 nm in the Soret band regions. In the alpha-band two separate electron transitions with Em = +205 mV and Em = +335 mV can be discriminated by redox potentiometric titration. The other CO-binding cytochrome c oxidase contains two cytochrome b components with alpha-band maxima at 556 nm and 559 nm. Cytochrome b556 can be reduced by ascorbate and has an Em + +215 mV, whereas cytochrome b559 has an Em = +140 mV. Furthermore a complex consisting of a cytochrome b564 (Em = +140 mV) associated with a cytochrome c554 (Em = +250 mV) was found. This cytochrome c554, which can be reduced by ascorbate, appears to have an asymmetrical alpha-peak and stains for heme-catalyzed peroxidase activity on SDS-containing polyacrylamide gels. A protein with a molecular mass of about 30 kDa is responsible for this activity. A cytochrome b559 (Em = +65 mV) appears to be an essential part of succinate dehydrogenase. Finally a cytochrome c550 component with an apparent mid-point potential of Em = +195 mV has been detected.
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PMID:Spectral and potentiometric analysis of cytochromes from Bacillus subtilis. 311 50

Soluble cytochrome c-553 and membrane-bound cytochrome f-553 from the alga Scenedesmus acutus were purified to apparent homogeneity. The properties of cytochrome c-553 are comparable to preparations obtained from other eukaryotic algae, whereas the thylakoid-bound species resembles higher plant cytochrome f. Common characteristics are: 1. An asymmetrical alpha-band at 553 nm. 2. A midpoint redox potential of +38 MV (pH 7.0), with a pH dependency above pH 8.0 of -60mV/pH unit. 3. Formation of a pyridine hemochromogen with a maximum at 550 nm; no adducts with CN- or CO are observed. Distinguishing features are: 1. Cytochrome f-553 has a more complicated beta-band, with maxima at 531.5 and 524 nm, and hence a more complex low-temperature spectrum. Also the positions of the gamma- and delta-bank at 421.5 and 331 nm, respectively, distinguish cytochrome f-553 from cytochrome c-553, with gamma- and delta-bands at 416 and 318 nm. 2. The ferricytochrome c-553 spectrum exhibits a weak band at 692 nm, which is not observed with cytochrome f.
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PMID:Isolation and characterization of soluble cytochrome c-553 and membrane-bound cytochrome f-553 from thylakoids of the green alga Scenedesmus acutus. 624 85

The membrane-bound cytochrome f-556.5 from the blue-green alga Spirulina platensis was purified to apparent homogeneity. Most of its properties are comparable to cytochrome f isolated from higher plants and green algae. It is clearly distinguishable from soluble cytochrome c-554, also present in Spirulina, which probably replaces the function of plastocyanin in photosynthetic electron transport. 1. The reduced form of cytochrome f exhibits an asymmetrical alpha-band with a maximum at 556.5 nm, and a pronounced shoulder at 550 nm. The beta-, gamma and delta-bands coincide with those described for Scenedesmus cytochrome f-553, with maxima at 524 (532), 422, 331 and a protein peak at 276 nm. The maximum of ferricytochrome f is at 410.5 nm; there is no indication of a weak 695 nm band, described for soluble c-type cytochromes. The purest preparations had a delta/protein-peak ratio of 0.8; the gamma/alpha ratio was 7.3. Formation of a pyridine hemochromogen with a maximum at 550 nm indicated a c-type cytochrome. The molar extinction coefficient at 556.5 nm is 30200, the differential extinction coefficient 21 500. 2. The molecular weight determined by gel filtration or SDS-polyacrylamide gel electrophoresis is 33 000 and 34 000, respectively. 3. The redox properties differ from those described for other cytochromes f isolated from green algae and higher plants: the midpoint redox potential is significantly more negative (+318 mV, pH 7.0) and from pH 6 to 10 no pH dependence is observed. 4. The isoelectric point was determined at pH 3.95, which is more acidic as compared to other cytochromes f. 5. Comparison of the amino acid composition indicated a distant relationship to higher plant cytochrome f and a closer relationship to cytochrome f from green algae.
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PMID:Purification and characterization of cytochrome f-556.5 from the blue-green alga Spirulina platensis. 625 70

Cytochrome P450scc can be reconstituted successfully into large unilamellar phospholipid vesicles by a combined octylglucoside dialysis/adsorption method. Freeze-fracture electron microscopy was used to analyze the morphology, distribution, and protein topology of the cytochrome P450scc vesicles in dependence on lipid composition. Particles were observed only in close contact to the vesicle surface, probably representing tightly associated cytochrome P450scc at the outer vesicle surface. In cytochrome P450scc vesicles similar in lipid composition to the inner membrane of bovine mitochondria direct evidence by freeze-fracturing was found for a specific cytochrome P450scc-induced aggregation of the vesicles. The vesicle aggregation critically depends on the content of the specific mitochondrial membrane constituent cardiolipin. The aggregation and thus the intervesicular contacts were observed to be inhibited by both addition of anti-cytochrome P450scc IgG and adrenodoxin. Enzymatic reduction of cytochrome P450scc in the liposomal membrane by its electron transfer partners completely indicates an asymmetrical localization in/at the outer side of the bilayer membrane. It is suggested that vesiculation of the inner mitochondrial membrane may be a consequence of the characteristic cardiolipin-dependent cytochrome P450scc membrane topology: the cardiolipin binding, peripheral, non-bilayer-spanning integration as an oligomer in the outer leaflet of the membrane may play a role in the dynamics of formation and dissociation of intramitochondrial vesicles with a functional importance for steroidogenesis.
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PMID:Direct visualization of a cardiolipin-dependent cytochrome P450scc-induced vesicle aggregation. 773 45

Two brothers, 25 and 19 years old, were affected by asymmetrical hypertrophic cardiomyopathy. The older brother had waddling gait and weakness of the proximal girdle muscles, while the younger had a broad-based gait and weakness of selected limb girdle muscles. EMG exam was myopathic. Serum enzyme, CPK and aldolase were elevated. Histochemical reactions in muscle revealed "core-like" areas, subsarcolemmal rims of mitochondria and lipid accumulation. Succinate-dehydrogenase stain showed a lack of activity in both biopsies, with the exception of intrafusal fibers. Microphotometric quantitative measurements confirmed the defect in both biopsies. Biochemical measurements of several mitochondrial enzymes in muscle showed a reduced activity of succinate-dehydrogenase (33%) and succinate-cytochrome C reductase (36-47%) which are both components of complex II. On myocardial biopsy lipid and mitochondrial abnormalities were found. This mitochondriopathy represents a new phenotype of partial complex II defect.
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PMID:Hypertrophic cardiomyopathy with mitochondrial myopathy. A new phenotype of complex II defect. 851 73


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