Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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Measurement of the effect of drugs on the in vivo rates of synthesis of rabbit liver organelle bound proteins were measured following individual treatments with the inducers phenobarbital, 3-methylcholanthrene and PCB (a mixture of polychlorinated biphenyls) and the inhibitors, cycloheximide, aflatoxin B1, chloramphenicol and actinomycin D. Following their isolation from a homogenate containing the combined livers of 14C-leucine injected experimental animals and 3H-leucine injected control animals, purified fractions of the following proteins were prepared: microsomal cytochrome b5, cytochrome P-450, NADH-cytochrome b5 reductase, NADPH-cytochrome P-450 reductase and proteolipids, outer mitochondrial membrane cytochrome b5, NADH-cytochrome b5 reductase and proteolipids, inner mitochondrial membrane cytochrome c, NADH dehydrogenase and proteolipids, intermitochondrial membrane cytochrome b5 and circulating serum albumin. The effect of a drug was examined by measuring the 14C/3H ratio of leucine incorporation of each fraction; ratios which differed markedly from a control value of 1 represented actual changes in the relative rates of protein synthesis. Increased rates of synthesis of cytochrome P-450 and its reductase, intermitochondrial membrane cytochrome b5 and all three proteolipid fractions resulted from each inducer treatment. Treatments with 3-methylcholanthrene and PCB also increased the rate of synthesis of cytochrome b5 and its reductase in both the microsome and outer mitochondrial membrane. In addition, the PCB treatment increased the rates of synthesis of cytochrome c and NADH-dehydrogenase. The rates of synthesis of cytochromes, reductases and of circulating serum albumin were inhibited following treatments with cycloheximide, aflatoxin B1 and actinomycin D. Actinomycin D appeared to inhibit the release of newly synthesized albumin into the bloodstream while chloramphenicol treatment appeared to inhibit the incorporation of cytochrome c into the mitochondria. After 20 hours of treatment with inhibitors, the inhibitory effect of actinomycin D and cycloheximide were still apparent while the rates of protein synt;esis in chloramphenicol and aflatoxin B1 treated animals increased to levels above the controls. The incorporation of radioactively labeled leucine into the proteolipids of the microsomal, and the outer and inner mitochondrial membranes were inhibited following the treatment with actinomycin D and stimulated following the treatment with cycloheximide.
Mol Cell Biochem 1979 Dec 14
PMID:Effect of a single dose of inducers and inhibitors on the rate of synthesis of cytochromes and reductases in liver organelles. 11 59

The phospholipid requirement of membrane-bound enzymes may depend on several reasons. In our laboratory we have investigated lipids (1) as a bidimensional medium required for the movement of Coenzyme Q, a lipid-soluble cofactor of the mitochondrial respiratory chain, and (2) as a hydrophobic environment necessary to impose the proper conformation to membrane-bound enzymic proteins. We have found that Coenzyme Q, once reduced by NADH dehydrogenase, must cross the inner mitochondrial membrane; only quinones having long isoprenoid side chains can easily cross phospholipid bilayers, and this is the reason why a short chain quinone such as CoQ-3 inhibits NADH oxidation. The incapability of short quinones to cross lipid bilayers is due to their disposition in the lipid bilayer, stacked within the phospholipids. The conformational role of lipids has been investigated indirectly observing the kinetics of membrane-bound enzymes, e.g. the mitochondrial ATPase, and directly by circular dichroism. Lipid removal or lipid perturbation with organic solvents induce a decrease of alpha-helical content in mitochondrial proteins, and give rise to a series of kinetic changes in ATPase, including uncompetitive inhibition, increased activation energy, and loss of cooperativity in oligomycin inhibition. The recognition of a conformational role of lipids has allowed us to postulate a working hypothesis for the mechanism of action of general anesthetics. Such drugs have been found by us, by means of spin labels and fluorescent probes, to disrupt lipid protein interactions in several membranes, including synaptic membranes. The loosening of such interactions is believed to induce conformational changes, which will alter ion transport systems necessary to the propagation of neural impulses. Conformational changes induced by anesthetics have been found by us both directly by circular dichroism and indirectly by enzyme kinetics. The conformational effect of anesthetics is not directly exerted on the proteins but is mediated through the lipids. In agreement with this hypothesis we have found that membrane-bound acetylcholinesterase is inhibited by anesthetics, whereas the solubilized enzyme is not inhibited. However, binding of the solubilized enzyme to phospholipids restores anesthetic inhibition.
Mol Cell Biochem 1978 Nov 30
PMID:Biophysical studies on agents affecting the state of membrane lipids: biochemical and pharmacological implications. 15 58

By the use of a mutation, hxB-20, that eliminates purine hydroxylase II activity but retains cross-reacting material and an ancillary NADH dehydrogenase activity, it has been established that 6-hydroxynicotinic acid rather than nicotinic acid, is the true inducer of purine hydroxylase II.
Mol Gen Genet 1979 Jul 02
PMID:Product induction of purine hydroxylase II in Asperigillus nidulans. 38 57

One of the mechanisms underlying the regulation of the bacteriophage f2 RNA translation is the repression of the phage RNA-replicase formation by coat protein. This repression is due to the formation of a complex between f2 RNA and coat protein (complex I). In this work the mechanism of complex I formation as well as the effect of this complex on the f2 RNA-replicase formation was followed by inhibition of alanine incorporation into RNA-replicase polypeptide which was separated by polyacrylamide gel electrophoresis. The molar ratios of protein to f2 RNA in complex I were analyzed by sucrose gradient sedimentation. It was been found that complex I consists of six molecules of coat protein bound per one molecule of RNA. Ribonuclease digestion of the glutaraldehyde-fixed complex resulted in a mixture of products in which the hexamers of coat protein molecules were predominant. This indicates that the six molecules of coat protein bound to f2 RNA are neighbouring. It has been also shown that under conditions required for phage protein synthesis, coat protein occurs in solution is dimer. The results show that the translational repression of the RNA-replicase cistron is due to the cooperative attachment of three dimers of coat protein to phage template, forming a hexameric cluster on the RNA strand. The proposed mechanism of the complex I formation seems to be in good agreement with the sequence of events in the phage F2 life cycle. It is known that shortly after infection of the host cell the coat protein and phage RNA-replicase begin to be synthesised. According to our findings, the first portions of coat protein do not affect the translation of the RNA-replicase gene since at low concentration the coat protein occure in the form of monomers. At a later period of phage development, when the concentration of coat protein is sufficiently high to promote the formation of protein dimers, the translational repressor complex is formed and the RNA-replicase gene becomes inoperative.
Mol Biol (Mosk)
PMID:[The ratio of coat protein to bacteriophage f2 RNA in the translational repressor complex]. 121 75

RNA editing of several mitochondrial transcripts in Trypanosoma brucei is developmentally regulated. The cytochrome b and cytochrome oxidase II mRNAs are edited in procyclic-form parasites but are primarily unedited in bloodstream forms. The latter forms lack the mitochondrial respiratory system present in procyclic forms. Editing of the NADH dehydrogenase 7 (ND7) and ND8 transcripts is also developmentally regulated but occurs preferentially in bloodstream forms. Other transcripts, cytochrome oxidase III and ATPase 6, are edited in both life forms. We have identified many minicircle-encoded guide RNAs (gRNAs) for ATPase 6, ND7, and ND8. The characteristics of these gRNAs reveal how extensively edited RNA can be edited in the 3'-to-5' direction. Northern (RNA) blot and primer extension analyses indicate that gRNAs for transcripts whose editing is developmentally regulated are present in both procyclic and bloodstream form parasites. These results suggest that the developmental regulation of editing in these transcripts is not controlled by the presence or absence of gRNAs.
Mol Cell Biol 1992 May
PMID:Guide RNAs for transcripts with developmentally regulated RNA editing are present in both life cycle stages of Trypanosoma brucei. 137 4

The maxicircle of Trypanosoma brucei encodes components of the mitochondrial oxidative phosphorylation system, as do other mitochondrial DNAs, but maxicircle gene identification is complicated by extensive editing of some transcripts. We found that transcripts from the CR1 region were extensively edited, as are other transcripts from maxicircle regions which exhibit strong G versus C strand bias. Editing added 259 uridines and removed 46 uridines to produce an approximately 574-nucleotide mature mRNA. Partially edited cDNAs and potential guide RNAs were also characterized. Initiation and termination codons were created, and they defined an open reading frame encoding a predicted protein of 145 amino acids. This protein contains two iron-sulfur cysteine motifs and is homologous to a subunit of NADH dehydrogenase and to other electron-carrier proteins. Higher levels of both edited and unedited CR1 transcripts accumulated in bloodstream forms of the parasite than in procyclic forms, suggesting developmental regulation of CR1 gene expression.
Mol Cell Biol 1992 May
PMID:Maxicircle CR1 transcripts of Trypanosoma brucei are edited and developmentally regulated and encode a putative iron-sulfur protein homologous to an NADH dehydrogenase subunit. 137 7

Nuclear factor kappa B (NF-kappa B) modulates the expression of numerous genes via interaction with a specific DNA sequence termed the kappa B site. Its activity is modulated by a cytosolic inhibitor protein termed I kappa B, and its activation occurs in response to a variety of agents in a variety of cell types, most notably B and T lymphocytes. Data presented here show that an activity (designated complex I) that binds specifically to the kappa B site is induced in density-arrested Balb/c-3T3 mouse fibroblasts by platelet-derived growth factor (PDGF), a potent mitogen for these cells. Increased levels of complex I, as evaluated by electrophoretic mobility shift assays of nuclear extracts, were observed in cells treated for 1-4 h (but not 15 min) with the BB isoform of PDGF. 12-O-tetradecanoylphorbol 13-acetate (TPA) and the AA isoform of PDGF also stimulated this response and both isoforms, but not TPA, were effective in cells depleted of protein kinase C. Complex I most likely is authentic NF-kappa B, a p50-p65 heterodimer, or a closely related factor because it exhibited properties characteristic of those previously described for NF-kappa B including inducibility by deoxycholate and cycloheximide and sensitivity to I kappa B. A second kappa B binding activity (complex II), which apparently contained p50 homodimers, displayed limited induction by PDGF, whereas a third complex (complex III) migrated faster than but behaved similarly to complex I. These studies suggest that NF-kappa B or an NF-kappa B-like factor may participate in the expression of PDGF-inducible genes.
Mol Biol Cell 1992 Oct
PMID:Induction of NF-kappa B-like activity by platelet-derived growth factor in mouse fibroblasts. 142 70

NADH:ubiquinone oxidoreductase, the respiratory chain complex I of mitochondria, is an assembly of some 25 nuclear-encoded and 7 mitochondrially encoded subunits. The complex has an overall L-shaped structure formed by a peripheral arm and an elongated membrane arm. The peripheral arm containing one FMN and at least three iron-sulphur clusters constitutes the NADH dehydrogenase segment of the electron pathway. The membrane arm with at least one iron-sulphur cluster constitutes the ubiquinone reducing segment. We are studying the assembly of the complex in Neurospora crassa. By disrupting the gene of a nuclear-encoded subunit of the membrane arm a mutant was generated that cannot form complex I. The mutant rather pre-assembles the peripheral arm with all redox groups and the ability to catalyse NADH oxidation by artificial electron acceptors. The final assembly of the membrane arm is blocked in the mutant leading to accumulation of complementary assembly intermediates. One intermediate is associated with a protein that is not present in the fully assembled complex I. The results demonstrate that the two arms of complex I are assembled independently on separate pathways, and gave a first insight into the assembly pathway of the membrane arm. It is also shown for the first time that the obligate aerobic fungus N. crassa can grow and respire without an intact complex I. Gene replacement in this fungus is therefore a tool for investigation of this complex.
J Mol Biol 1992 Oct 20
PMID:Characterization of assembly intermediates of NADH:ubiquinone oxidoreductase (complex I) accumulated in Neurospora mitochondria by gene disruption. 143 84

A soybean shoot cDNA expression library was screened with polyclonal antibodies raised against red beet complex I and several clones were identified. One clone, consisting of a 1 kb insert, was fully sequenced. The sequence of 1025 bp was found to contain two extended open reading frames and the proteins encoded were identified as the ndhK and ndhJ products of the chloroplast genome. Nuclear, mitochondrial and chloroplast DNA was isolated and probed with a ndhK-specific probe. The chloroplast DNA contained a single copy of the cloned insert. With nuclear DNA, positively hybridising bands of 1.2, 2.7 and 3.2 kb were observed indicating that at least one gene homologous to ndhK of the chloroplast genome, is also present in the nucleus. The mitochondrial DNA did not hybridise with the ndhK probe. Western analysis of thylakoid proteins with the mitochondrial complex I antibodies revealed several bands. It is suggested that soybean contains two copies of the ndhK gene, one, on the plastid genome, coding for a subunit of a chloroplast NAD(P)H dehydrogenase, and the other, in the nucleus, coding for a subunit of mitochondrial complex I.
Plant Mol Biol 1992 Dec
PMID:Cloning of ndhK from soybean chloroplasts using antibodies raised to mitochondrial complex I. 146 27

The plastid DNA of higher plants contains eleven reading frames that are homologous to subunits of the mitochondrial NADH-ubiquinone oxidoreductase (complex I). The genes are expressed, but a plastid NAD(P)H dehydrogenase has not yet been isolated and the function of the enzyme in plastid metabolism is unknown. Cyanobacteria also contain a NADH dehydrogenase that is homologous to the mitochondrial complex I. The enzyme is sensitive to rotenone and is located on the cytoplasmic and the thylakoid membrane. We report here the sequence of five subunits (ndhA, -I, G, -E and -D) of the NADH dehydrogenase from the unicellular cyanobacterium Synechocystis sp. PCC6803. As in plastid DNA, the genes ndh(A-I-G-E) are clustered and probably constitute an operon. The ndhD gene is associated with a gene encoding an iron-sulphur protein of photosystem I (psaC) as in plastid DNA. In contrast to the situation in plastids, psaC and ndhD are not cotranscribed but transcribed from opposite strands. The deduced amino acid sequence of the cyanobacterial polypeptides is more similar to the corresponding plastid (40-68% identity) than to the corresponding mitochondrial subunits (17-39% identity). Thus, the cyanobacterial NADH-dehydrogenase provides a prokaryotic model system which is more suitable to genetic analysis than the enzyme of plastids.
Plant Mol Biol 1992 Dec
PMID:Cloning and transcription analysis of the ndh(A-I-G-E) gene cluster and the ndhD gene of the cyanobacterium Synechocystis sp. PCC6803. 146 44


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