• BMB Reports
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• 제29권4호
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• pp.300-307
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• 1996

ATP and ADP are potential regulators of mitochondtial respiration and at physiological concentrations they affect the rate of electron transfer between cytochrome c and cytochrome c oxidase. The electron transfer, however, depends on the electrostatic interaction between the two proteins. In order to exclude any nonspecific ionic effects by these polyvalent nucleotides, we used 2'-O-(2,4,6)trinitro(TNP)-derivatives of ATP and ADP which have three orders of magnitude higher affinity for cytochrome c oxidase. A simple titration of the fluorescence intensity of TNP by cytochrome c oxidase showed a binding stoichiometry of 2:1 cytochrome c:cytochrome c oxidase. Higher ionic strength was required for TNP-ATP than for TNP-ADP to be dissociated from cytochrome c oxidase, indicating that the negative charges on the phosphate group are at least partially responsible for the binding. In both spectrophotometric and polarographic assays, addition of ATP (and ADP to a less extent) showed an enhanced cytochrome c oxidase activity. Both electron paramagnetic resonance and fluorescence spectra indicate that there is no Significant change in the cytochrome c-cytochrome c oxidase interaction. Instead, reduction levels of the cytochromes at steadystate suggest that the increased activity of nucleotide-bound cytochrome c oxidase is due to faster electron transfer from cytochrome ${\alpha}$ to cytochrome ${\alpha}_3$, which is known to be the fate limiting step in the oxygen reduction by cytochrome c oxidase.

• 미생물학회지
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• 제30권2호
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• pp.101-107
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• 1992

화학 영양성으로 배양한 Rps. gelatinosa 에서 2회의 시토크롬 c 친화성 크로마토그래피와 DEAE-Sephacel 이온 교환 크로마토그래피 등 3 단계의 크로마토그래피를 수행하여 시토로콤 c 산화효소를 정제하였다. 정제된 시토크롬 c 산화효소는 Sephacryl S-300 에 의한 분자걍이 약 110,000 Da 이고 SDS-gel 전기영동에 의한 분자량이 약 52.000 Da 으로써 이량체일 것으로 보인다. 전제된 시토크롬 c 산화효소는 온도데 매우 불안정하고 말 심장 시토크롬 c 를 기질로 사용했을때 Km 값은 $20\mu$M, Vmax 값은 44unit/mg prot. 이며 pH 6.4 의 효소방응 최적 pH 와 25.deg.C 의 최적 온도를 보였다. 환원된 시토크롬 c 산화효소는 554, 523, 421 nm 에서 .alpha., .betha. soret 흡수대를 보였고 chromatophore 에서와 마찬가지로 KCN 과 $NaN_{3}$ 에 의해서는 효소 활성도가 저해를 받았지만 CO 와 antimycin A, myxothiazol 에 의해서는 효소 활성도가 저해를 받지 않았다. 빛을 에너지원으로 배양하거나 또는 화학영양성으로 배양하든지 모두 시토크롬 c-551 이 생성되었고 환원된 시토크롬 c-551 은 시토크롬 c 산화효소에 의해 산화되었다. 시토크롬 c-551 을 기질고 이용하였을 때 시토크롬 c 산화효소의 Km 값은 $26\mu$M 이었고 Vmax 값은 31.unit./mg prot. 로써 말심장의 시토크롬 c 를 기질로 이용할때 보다 오히려 낮았다. 이와 같은 결과로 보아 화학 영양성은 배양한 Rhodopseudomonas gelatinosa 에서 호흡에 의한 전자전달은 시토크롬 c-551 이 시토크롬 $bc_{1}$ 복합체로 부터 전자를 받아 b-형 시토크롬 c 산화효소에 전자를 전달해 주고 최정적으로 산소를 환원시킬 것으로 생각된다.

• 미생물학회지
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• 제29권4호
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• pp.243-249
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• 1991

The chromatophore from the chemotrophically grown facultative anaerobic photosynthetic bacterium, Rhodopseudomonas gelatinosa ATCC 17013 was isolated through stepwise sucrose gradient centrifugation. The isolated chromatophore showed high activities of the cytochrome $bc_{1}$ complex and cytochrome c oxidase. The activity of cytochrome $bc_{1}$ complex was completely inhibited by .5$\mu$M antimycin A,10$\mu$M myxothiazol, and that of cytochrome c oxidase was completely inhibited by .$50\mu$M KCM and $100\mu$M $NaN_{3}$but not inhibited by carbon monoxie. The activity of cytochrome c oxidase of th chromatophore was increased by addition of ionophores or protonophores. The reduced-oxidised difference sspectrum of cytochrome $bc_{1}$ complex isolated by affivity chromatography showed the absorption maxima at 553 nm(shoulder at 547 nm), 520 nm, and 418.5 nm, on the other hand, that of cytochrome c oxidase showed .alpha., .betha. and soret peaks at 554 nm, 523 nm, and 421 nm, respectively. The cytochrome c oxidase from chemotrophically grown Rhodopseudomonas gelatinosa seems to be a b-type cytochrome c oxidase.

• BMB Reports
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• 제46권2호
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• pp.119-123
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• 2013

Methyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline (salsolinol), an endogenous neurotoxin, is known to perform a role in the pathogenesis of Parkinson's disease (PD). In this study, we evaluated oxidative modification of cytochrome c occurring after incubation with salsolinol. When cytochrome c was incubated with salsolinol, protein aggregation increased in a dose-dependent manner. The formation of carbonyl compounds and the release of iron were obtained in salsolinol-treated cytochrome c. Salsolinol also led to the release of iron from cytochrome c. Reactive oxygen species (ROS) scavengers and iron specific chelator inhibited the salsolinol-mediated cytochrome c modification and carbonyl compound formation. It is suggested that oxidative damage of cytochrome c by salsolinol might induce the increase of iron content in cells, subsequently leading to the deleterious condition which was observed. This mechanism may, in part, provide an explanation for the deterioration of organs under neurodegenerative disorders such as PD.

• BMB Reports
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• 제28권5호
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• pp.433-436
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• 1995

In order to assign NMR signals, conditions for the specific labeling of cytochrome $c_3$ of D. vulgaris Miyazaki F through the culture in a minimal medium were established. Phenylalanine residue was specifically deuterated at more than 85% efficiency. Cytochrome $c_3$ has two phenylalanine residues. The signals of one phenylalane were missing and this was tentatively assigned to Phe20.

• Archives of Pharmacal Research
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• 제24권2호
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• pp.126-135
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• 2001

Quinacrine (QU), a phospholipase-A2 (PLA-2) inhibitor has been used clinically as a chemotherapeutic adjuvant. To understand the mechanisms leading to its chemotherapeutic effect, we have investigated QU-induced apoptotic signaling pathways in human cervical squamous carcinoma HeLa cells. In this study, we found that QU induced cytochrome c-dependent apoptotic signaling. The release of pro-apoptotic cytochrome c was QU concentration- and time-dependent, and preceded activation of caspase-9 and -3. Flow cytometric FACScan analysis using fluorescence intensities of $DiOC_6$/ demonstrated that QU-induced cytochrome c release was independent of mitochondrial permeability transition (MPT), since the concentrations of QU that induced cytochrome c release did not alter mitochondrial membrane potential (${\blacktriangle}{\Psi}_m$). Moreover, kinetic analysis of caspase activities showed that cytochrome c release led to the activation of caspase-9 and downstream death effector caspase-3, Caspase-3 inhibitor (Ac-DEVD-CHO) partially blocked QU-induced apoptosis, suggesting the importance of caspase-3 in this apoptotic signaling mechanism. Supplementation with arachidonic acid (AA) sustained caspase-3 activation induced by QU. Using inhibitors against cellular arachidonate metabolism of lipooxygenase (Nordihydroxyguaiaretic Acid, NDGA) and cyclooxygenase (5,8,11,14-Eicosatetraynoic Acid, ETYA) demonstrated that QU-induced apoptotic signaling may be dependent on its role as a PLA-2 inhibitor. Interestingly, NDCA attenuated QU-induced cytochrome c release, caspase activity as well as apoptotic cell death. The blockade of cytochrome c release by NDCA was much more effective than that attained with cyclosporin A (CsA), a MPT inhibitor. ETYA was not effective in blocking cytochrome c release, except under very high concentrations. Caspase inhibitor z-VAD blocked the release of cytochrome c suggesting that this signaling event is caspase dependent, and caspase-8 activation may be upstream of the mitochondrial events. In summary, we report that QU induced cytochrome c-dependent apoptotic signaling cascade, which may be dependent on its role as a PLA-2 inhibitor. This apoptotic mechanism induced by QU may contribute to its known chemotherapeutic effects.

• 약학회지
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• 제32권6호
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• pp.420-427
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• 1988

Post-translational modification of protein amino acid residues is a well known metabolic phenomenon. One such side chain modification, protein methylation, occur ubiquitously in nature, in organism ranging from prokaryotic to eukaryotic and the biological significance of protein methylation has begun to emerge. The observation that cytochrome C methylation facilitates the binding of this hemoprotein to mitochondria could be placed as the one of the examples along this line. However, the detail biological meaning of cytochrome C methylation is remained to be clarified. In the aspect of such reason this research was done. The results of this experiment were; 1) pure Euglena gracilis cytochrome C552 was isolated, 2) methylarginine and methylmethionine were not found in cytochrome C552 sequence, 3) however, Unknown Peak at 20.78min of retention time was found, and 4) this Unknown Peak was found only from Euglena cytochrome C552, so far.

• 미생물학회지
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• 제29권6호
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• pp.380-386
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• 1991

Three types of soluble cytochrome c were purified to homogeneity from Methylobacillus sp. strain SK1 which grows only on methanol. Cytochrome c-I was purified 58.5-fold in seven steps. Cytochrome c-II and c-III were purified 57.3- and 122.1-fold in eight steps, respectively. The molecular weights of the cytochrome c-I was determined to be 12,500, while those of the cytochrome c-II and c-III were 16,000. The isoelectric points of the c-I, c-II and c-III were found to be 8.8, 6.6, and 6.6 respectively. The spectrum of reduced cytochrome c-I showed .alpha.-, .betha.-, .gamma.-peaks at 551.4, 522.2, and 416.6nm. The peaks for c-II were found at 551.0, 521.6, and 416.5nm, while those for c-III were shown at 551.2, 521.8, and 416.0 nm. The spectra of oxidized cytochrome c-I, c-II, and c-III showed .gamma.-peak at 411.8, 409.0, and 410.2 nm, respectively. The absorption coefficients of .alpha.- and .gamma.-peak for c-I in the reduced state were determined as 47 and 197 $mM^{-1}$ $cm^{-1}$ , respectively. The coefficients of .alpha.- and .gamma.-peak for c-II were determined to be 43 and 137 $mM^{-1}$ $cm^{-1}$ , while those for c-III were 41 and 172 $mM^{-1}$ $cm^{-1}$ , respectively. The c-I and c-III were found to bind carbon monoxide.

• BMB Reports
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• 제33권3호
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• pp.285-288
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• 2000

Ferricytochrome c was artificially made to receive the aqueous electrons evolved through the influence of illuminated chloroplast. This ferricytochrome c, which was bombarded by electrons, was reduced to ferrocytochrome c by making sure that a certain cytochrome is reduced. This may require an electronic attack that is created by the chloroplast inside the plant cell. The possibility of reversing the oxidation of ferrocytochrome c by cytochrome oxidase was examined using a contrived redox system composed of cytochrome oxidase, ferricytochrome c and chloroplast with illumination. We recognized that the oxidase is unserviceable for the reversibleness in spite of the existence of chloroplast.

• 한국자기공명학회논문지
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• 제3권1호
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• pp.12-26
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• 1999

The 1H NMR signals of the heme methyl, propionate and related chemical groups of cytochrome C3 from Desulfovibrio vulgaris Miyazaki F (D.v. MF) were assigned by means of 1D NOE, 2D DQFCOSY and 2D TOCSY spectra. They were consistent with the assignments of the hemes with the highest and second-lowest redox potentials reported by Gayda et al. [Reference: 15]. The heme assignments were also supported by NOE between the methyl groups of these hemes and the side chain of Val-18, All the results contradicted the heme assignments for D.v. MF cytochrome C3 made on the basis of NMR [Reference: 11]. Based on these assignments, the interaction of cytochrome C3 with ferredoxin I was investigated by NMR. The major interaction site of cytochrome C3 was identified as the heme with the highest redox potential, which is surrounded by the highest density of positive charges. The stoichiometry and association constant were two cytochrome C3 molecules per monomer of ferredoxin I and 108 M-2 (at 53 mM ionic strength and $25^{\circ}C$), respectively.