UMLS:C0031511 - FACTA Search

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Query: UMLS:C0031511 (pheochromocytoma)
14,622 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ferredoxin-NADP+ reductase and ferredoxin from the cyanobacterium Anabaena PCC 7119 have been covalently cross-linked by incubation with 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide. The covalent adduct, which shows a molecular mass consistent with a 1:1 stoichiometry of the two proteins, maintains nearly 60% of the NADPH-cytochrome c reductase activity of the enzyme saturated with ferredoxin and this value is considerably higher than when equimolar amounts of both proteins are assayed. No ternary complexes with Anabaena flavodoxin or horse heart cytochrome c were formed, suggesting that the binding site on the enzyme is the same for ferredoxin and flavodoxin and that ferredoxin-NADP+ reductase and cytochrome c bind at a common site on ferredoxin. In the noncovalent complex, titrated at pH 7, the oxidation-reduction potential of ferredoxin becomes 15 mV more negative and that of ferredoxin-NADP+ reductase 27 mV more positive compared to the proteins alone. When covalently linked, the midpoint potential of the enzyme has a value similar to that in the noncovalent complex, while the ferredoxin potential is 20 mV more positive compared to ferredoxin alone. The changes in redox potentials have been used to estimate the dissociation constants for the interaction of the different redox forms of the proteins, based on the value of 1.21 microM calculated for the oxidized noncovalent complex.
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PMID:Complex formation between ferredoxin and ferredoxin-NADP+ reductase from Anabaena PCC 7119: cross-linking studies. 131 39

In cyanobacteria, the water-soluble cytochrome c-553 functions as a mobile carrier of electrons between the membrane-bound cytochrome b6-f complex and P-700 reaction centers of Photosystem I. The structural gene for cytochrome c-553 (designated cytA) of the cyanobacterium Synechococcus sp. PCC 7942 was cloned, and the deduced amino acid sequence was shown to be similar to known cyanobacterial cytochrome c-553 proteins. A deletion mutant was constructed that had no detectable cytochrome c-553 based on spectral analyses and tetramethylbenzidine-hydrogen peroxide staining of proteins resolved by polyacrylamide gel electrophoresis. The mutant strain was not impaired in overall photosynthetic activity. However, this mutant exhibited a decreased efficiency of cytochrome f oxidation. These results indicate that cytochrome c-553 is not an absolute requirement for reducing Photosystem I reaction centers in Synechococcus sp. PCC 7942.
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PMID:Cytochrome c-553 is not required for photosynthetic activity in the cyanobacterium Synechococcus. 196 57

Structural and chemical properties of a flavodoxin from Anabaena PCC 7119 are described. The first 36 residues of the amino-terminal amino acid sequence have been determined and show extensive homology with flavodoxins isolated from other sources. Anabaena flavodoxin exhibits a net negative change (-3) in the helix-1 segment as found with other cyanobacterial flavodoxins Synechococcus 6301 (Anacystis nidulans) and Nostoc MAC, but in contrast to the net positive charge found in this region in the case of flavodoxins isolated from nitrogen-fixing bacteria (Azotobacter and Klebsiella). The FMN cofactor can be reversibly resolved from the apoprotein by trichloroacetic acid treatment. Apoflavodoxin, thus prepared, binds FMN with a Kd value of 0.1 nM and binds riboflavin with a decreased affinity (Kd = 5 microM) at pH 7.2. The apoprotein is stable in dilute solutions at pH values around 7 but readily denatures at pH 8 as judged from loss in flavin-binding ability and by ultraviolet circular dichroism spectroscopy. Oxidation-reduction potential studies at pH values of 7 and 8 show OX/SQ couples of -195 mV and -255 mV, respectively, and show SQ/HQ couples of -390 mV and -418 mV, respectively. From these data, the binding constant for the FMN semiquinone is calculated to be approx. 5-fold tighter and the binding of the FMN hydroquinone is approx. 10(5)-fold weaker than that of the oxidized FMN to the apoprotein. Anabaena flavodoxin functions as an effective mediator of electron transfer from ferredoxin-NADP(+)-reductase to cytochrome c with a turnover number [4.5-5) x 10(3) min-1); a values similar to that determined for Anabaena ferredoxin. The flavodoxin binds tightly to the reductase with Kd values of 6.4 and 8.5 microM at pH values of 7.0 and 8.0, respectively.
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PMID:Structural and chemical properties of a flavodoxin from Anabaena PCC 7119. 211 31

Photoautotrophically grown cyanobacterium Nostoc sp. strain Mac (PCC 8009) released up to about 10 nmol of a c-type cytochrome per ml packed cells after treatment with EDTA under conditions that left the plasma membrane absolutely intact as judged from the absence of cytosolic proteins in the supernatant. Spectra of the ascorbate reduced cytochrome revealed peaks at 553, 522 and 416 nm. The protein was purified to an A-553/A-275 ratio of 0.8. Midpoint potential (at pH 7), isoelectric point and apparent molecular weight of the cytochrome were +0.35 V, 8.6, and around 10,500, respectively. The cytochrome proved to be an excellent electron donor to the aa3-type cytochrome oxidase in both plasma and thylakoid membranes isolated and purified from Nostoc Mac. Chemoheterotrophic growth of the cells increased the level of periplasmic cytochrome c up to 10-fold and cytochrome oxidase activity of plasma membranes up to 90-fold. The periplasmic cytochrome also transferred electrons to photosystem I in illuminated thylakoid membranes. We conclude that cyanobacteria contain a periplasmic c-type cytochrome presumably identical to so-called cytochrome c6 or c-553 which has long been known as a photosynthetic (i.e. thylakoid-associated) redox protein in these organisms, and which is capable of donating electrons (from the periplasmic space) to the cytochrome oxidase in the plasma membrane and (from the thylakoid lumen) to both P700 and cytochrome oxidase in the thylakoid membrane.
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PMID:Identification of a periplasmic C-type cytochrome as electron donor to the plasma membrane-bound cytochrome oxidase of the cyanobacterium Nostoc Mac. 216 67

Photosystem I (PSI) complexes have been isolated from two cyanobacterial strains, Synechococcus sp. PCC 7002 and 6301. These complexes contain six to seven low molecular mass subunits in addition to the two high molecular mass subunits previously shown to bind the primary reaction center components. Chemical cross-linking of ferredoxin to the complex identified a 17.5-kDa subunit as the ferredoxin-binding protein in the Synechococcus sp. PCC 6301-PSI complex. The amino acid sequence of this subunit, deduced from the DNA sequence of the gene, confirmed its identity as the psaD gene product. A 17-kDa subunit cross-links to the electron donor, cytochrome c-553, in a manner analogous to the cross-linking of plastocyanin to the higher plant PSI complex. Using antibodies raised against the spinach psaC gene product (a 9-kDa subunit which binds Fe-S centers A and B), we identified an analogous protein in the cyanobacterial PSI complex.
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PMID:Structural and functional properties of the cyanobacterial photosystem I complex. 250 37

beta-nerve growth factor (NGF) was modified by biotinylation via carboxyl group substitution (C-bio-NGF) using biotin hydrazide and the coupling reagent 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide, under reaction conditions that yielded an average of 3 biotin additions per NGF subunit. NGF was also biotinylated through amino group substitution, using N-hydroxysuccinimidyl biotin, to produce derivatives with ratios of one, two, and four biotin moieties per NGF subunit (N-bio-NGF). The various biotinylated NGF derivatives were compared with native NGF for their capacity to compete with 125I-NGF for binding to NGF receptors on rat pheochromocytoma (PC12) cells at 4 degrees C. On the basis of such radioreceptor assays, C-bio-NGF was as effective as native NGF in binding to NGF receptors. C-bio-NGF was also as effective as native NGF in promoting neurite outgrowth from PC12 cells. In contrast, N-bio-NGF containing one biotin per NGF subunit was only 28% as active in binding as native NGF. Increasing the biotin:NGF ratio to 2 to 4 further decreased receptor binding to 13% and 6%, respectively, as compared to native NGF. Once bound to cells, C-bio-NGF had the capacity to mediate the specific binding of 125I-streptavidin to PC12 cells. This binding of streptavidin was prevented by excess native NGF and by antiserum to NGF, but not by RNase A, insulin, cytochrome c, or nonimmune serum. In addition, a variant PC12 line lacking functional NGF receptors was not labeled by 125I-streptavidin after prior incubation with C-bio-NGF.
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PMID:Receptor binding activities of biotinylated derivatives of beta-nerve growth factor. 300 Dec 30

Scanning and transmission electron microscope studies were carried out on the rapid cell surface responses of cultured newborn rat sympathetic neurons to nerve growth factor (NGF), a substance that promotes their survival and differentiation. The somas of sympathetic neurons continuously exposed to NGF or deprived of the factor for 4-5 h have a very smooth surface. After readdition of NGF to the latter type of cultures, there is rapidly initiated a transient, sequential change in the cell surface. Microvilli and small ruffles appear within 30 s and are most prominent by 1 min. By 3 min of exposure, the microvilli and ruffles decrease in prominence, and by 7 min the somal surface is again smooth. By 30 s after NGF readdition, as increase in the number of 60- tp 130-nm coated pits is also detectable. This increase reaches a maximum of about threefold from 0.5 to 3 min and then gradually decreases. Alterations in the surface did not occur on the nonneuronal cell types present in the cultures and were not observed in response to another basic protein (cytochrome c) or to physical manipulation. Changes in cell surface architecture induced by NGF in normal sympathetic neurons and, as previously described, in PC12 pheochromocytoma cells indicate that such responses may present or reflect primary events in the mechanism of the factor's action.
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PMID:Pit formation and rapid changes in surface morphology of sympathetic neurons in response to nerve growth factor. 725 73

Treatment of PC12 pheochromocytoma cells with nerve growth factor (NGF) resulted in increased levels of neuron-specific enolase (NSE). Neither insulin, growth hormone, cytochrome c, nor sodium butyrate increased NSE levels. Epidermal growth factor (EGF) did increase NSE levels, although not to the same extent as NGF. As little as 1 ng/ml NGF induced the maximal increase in NSE. As PC12 cells increased in density, the NSE levels increased even in untreated cells.
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PMID:Increased levels of neuron-specific enolase in PC12 pheochromocytoma cells as a result of nerve growth factor treatment. 727 41

Incubation of obligately photoautotrophic and aerobic cyanobacterium Anacystis nidulans (Synechococcus sp. PCC 6301) in the light in the presence of the photo-system II inhibitor 3-(3,4-dichlorophenyl)-1,1-dimethylurea and equilibrated with approximately 1% (v/v) O2 in N2 (10 microM O2 in solution) led to a decrease of the heme A content of isolated cytoplasmic membranes and to the appearance of heme O. The latter was not seen in membranes from fully aerated cells (> 210 microM dissolved O2). Non-covalently bound hemes extracted from the membranes were identified by reversed phase high performance liquid chromatography. Heme A and O contents of the membranes changed in a reversible fashion solely depending on the ambient oxygen regime. Both hemes A and O combine with the same apoprotein as suggested by immunoblotting. CO/reduced-minus-reduced optical difference spectra, photoaction spectra of CO-inhibited O2 uptake by the membranes, and pyridine hemochrome spectra pointed to either heme belonging to a functional form of the terminal oxidase. The NADH:O2 oxidoreductase reaction catalyzed by membranes from both high O2 and low O2 cells was strictly dependent on the addition of catalytic amounts of cytochrome c, fully inhibited by 1.2 microM KCN, and insensitive to 5 microM 2-n-heptyl-4-hydroxyquinoline-N-oxide. O2 uptake by the membranes was effectively catalyzed by N,N,N',N'-tetramethyl-p-phenylenediamine but not 2-methylnaphthoquinol or plastoquinol-1 as artificial substrates. Therefore we conclude that the cyanobacterial respiratory oxidase, irrespective of the type of heme in its O2-reducing center, is a cytochrome c rather than a quinol oxidase.
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PMID:Transient accumulation of heme O (cytochrome o) in the cytoplasmic membrane of semi-anaerobic Anacystis nidulans. Evidence for oxygenase-catalyzed heme O/A transformation. 749 69

The gene coding for cytochrome c-550 in Synechocystis sp. PCC 6803 was cloned based on the N-terminal sequence of the mature polypeptide. Using the most probable translation start codon, the gene is expected to code for 160 amino acid residues. This includes a cleavable N-terminal leader sequence of 25 residues. This leader sequence has an Arg-Asn-Arg sequence immediately before the cleavage site; this is characteristic for transit peptides in prokaryotes. Comparison of this sequence with the leader sequence of the photosystem II-associated extrinsic 33-kDa protein from the same cyanobacterium showed an identity of 13 out of 25 residues. These results suggest that after synthesis of the apoprotein, cytochrome c-550 is transported into the thylakoid lumen. Using the cloned gene, insertion and deletion mutants of Synechocystis sp. PCC 6803 were constructed. In the absence of cytochrome c-550, both mutants were capable of photoautotrophic growth but at a significantly reduced rate. Atrazine bindng and Western blot analysis showed that these mutants on a per-chlorophyll basis contained 53-67% of the amount of photosystem II as compared with wild type. The photosystem II-specific oxygen-evolving activity at saturating light intensity was reduced to about 40% of that in the wild type strain. Taken together, these results indicate that the cytochrome c-550 is transported into the thylakoid lumen and contributes to optimal functional stability of photosystem II in cyanobacteria. This supports our biochemical evidence that cytochrome c-550 is associated with the lumenal side of photosystem II as one of the extrinsic proteins enhancing oxygen evolution (Shen, J.-R., Ikeuchi, M., and Inoue, Y. (1992) FEBS Lett. 301, 145-149; Shen, J.-R., and Inoue, Y. (1993) Biochemistry 32, 1825-1832). Based on these results, the gene for cytochrome c-550 was named psbV. The possible evolutionary relationship among extrinsic proteins of the photosystem II donor side is discussed.
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PMID:The role of cytochrome c-550 as studied through reverse genetics and mutant characterization in Synechocystis sp. PCC 6803. 789 39

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