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31	FixI and FixI2: Homologous proteins with unique functions in Sinorhizobium meliloti Collins, Jessica M. 19 March 2014 (has links) Cu+-ATPases are transmembrane enzymes that couple the efflux of cytoplasmic Cu+ to the hydrolysis of ATP. It is well established that Cu+-ATPases control cytoplasmic Cu+ levels. However, bacterial genomes, particularly those of symbiotic/pathogenic organisms, contain multiple copies of genes encoding Cu+-ATPases, challenging the idea of a singular role for these enzymes. Our lab has demonstrated that one of the two Cu+-ATPases in Pseudomonas aeruginosa, a FixI-type ATPase, has an alternative role, most likely Cu+ loading of cytochrome c oxidase (Cox). To further study alternative roles of Cu+-ATPases, we study the symbiont Sinorhizobium meliloti. Rhizobia are soil-dwelling bacteria that interact with legumes, forming plant root nodules that actively fix N2. The S. meliloti genome contains five Cu+-ATPases, two of which are FixI-type. Both of these enzymes, termed FixI1 and FixI2, are downstream of Cox operons. We hypothesized that the presence of multiple FixI-type ATPases was not an example of redundancy, but rather is an evolutionary adaptation that allows rhizobia to survive under the wide variety of adverse conditions faced during early infection and establishment of symbiosis. Towards this goal, this work focused on examining the effects of mutation of each ATPase on both free-living bacteria and on the ability of rhizobia to establish an effective symbiosis with its host legume. Each of these mutants presents a different phenotype at varying points of the nodulation process, and only the fixI2 mutation produces a respiratory-deficient phenotype during aerobic growth. These results are consistent with our hypothesis that the two proteins have non-redundant physiological functions. Understanding the factors that contribute to an effective symbiosis is beneficial, since N2 fixation in legumes is important to both agriculture and industry. copper Cu-ATPases cytochrome c oxidase rhizobium
32	Xenobiotic monooxygenase activity and the response to inducers of cytochrome P-450 during embryonic and larval development in fish / Binder, Robert L. January 1982 (has links) Thesis (Ph. D.)--Massachusetts Institute of Technology and Woods Hole Oceanographic Institution, 1981. / Vita. Includes bibliographical references (p. 239-262).
33	Xenobiotic monooxygenase activity and the response to inducers of cytochrome P-450 during embryonic and larval development in fish / Binder, Robert L. January 1981 (has links) Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 1981. / Supervised by John J. Stegeman. Vita. Includes bibliographical references (leaves 239-262).
34	CRYSTALLOGRAPHIC STRUCTURES OF THE CYTOCHROMES C' FROM RHODOPSEUDOMONAS CAPSULATA AND RHODOSPIRILLUM MOLISCHIANUM Weber, Patricia Carol January 1979 (has links) No description available. Hemoproteins. Cytochrome c. X-ray crystallography.
35	Pathway analysis on electron transfer in ruthenium modified cytochromeC 曾俊傑, Tsang, Chun-kit. January 2000 (has links) published_or_final_version / Chemistry / Master / Master of Philosophy Charge exchange - Mathematical models. Cytochrome c. Ruthenium.
36	Studies on structure function relationships in eucaryotic cytochromes c Earl, Robert Alan January 1981 (has links) No description available. Cytochrome c. Electron transport. Biological transport.
37	THE STRUCTURE OF CYTOCHROME C555 OF CHLOROBIUM THIOSULFATOPHILUM TO 2.44 ANGSTROM RESOLUTION Korszun, Zbigniew Richard January 1979 (has links) No description available. Plant cytochemistry. Cytochrome c. Chlorobium thiosulfatophilum.
38	Mitochondria: A Crossroads for Oxidative Stress and Apoptosis Resistance in Lymphoma Wilkinson, Sarah Thomas January 2008 (has links) Non-Hodgkin lymphoma is commonly associated with chronic infection and inflammation. Such conditions are characterized by chronic oxidative stress. Because apoptosis signaling is often mediated by reactive oxygen species, lymphoma arising in the context of oxidative stress may become resistant to these apoptosis signals. Resistance to oxidative stress could contribute to tumorigenesis and limit response to chemotherapy, as apoptosis induced by many drugs involves reactive oxygen species. We used a cell culture model to understand how changes in the ability to handle oxidative stress contribute to apoptosis resistance. WEHI7.2 murine thymic lymphoma cells transfected with catalase or selected for resistance to hydrogen peroxide acquire a concomitant resistance to apoptosis induced by glucocorticoids. Cytochrome c release is delayed in these variants, demonstrating that apoptosis resistance lies upstream, in the signaling phase, or in the mitochondria themselves. By comparing the apoptosis-sensitive WEHI7.2 parental cells with the oxidative stress- and apoptosis-resistant variant cells, we investigated the contribution of cytosolic and mitochondrial changes to glucocorticoid-induced apoptosis. We showed that neither JNK kinase signaling, nor GSTπ, a redox sensor protein which regulates JNK, is activated during glucocorticoid-induced apoptosis. Our work using isolated mitochondria and recombinant tBid protein in cell-free apoptosis assays showed that the apoptosisresistant variants are intrinsically resistant to the release of cytochrome c and other intermembrane space proteins. The resistance was mediated upstream and within the mitochondria, and occurred at both steps controlling cytochrome c release. Given that the resistant variants demonstrated alterations in mitochondrial apoptotic function, we investigated mitochondrial protein changes that could explain these differences. An increased expression of cytochrome c was observed in the resistant variants, but selective reduction of cytochrome c expression showed that this change alone was not sufficient to affect sensitivity. The balance of pro- and anti-apoptotic Bcl-2 family members in untreated cells also did not explain intrinsic resistance. Alterations in Bcl-2 protein levels following treatment could contribute to glucocorticoid resistance, but additional work to test Bcl-2 family interactions will be required. We have identified points of resistance that are important in glucocorticoid-induced apoptosis and may also contribute to resistance to novel mitochondrial-targeting drugs. Mitochondria Apoptosis Oxidative stress Cytochrome c Lymphoma
39	Control of Cytochrome c Oxidase Biosynthesis in the Thermal Remodeling of White Muscle of Two Cyprinid Minnows Duggan, Ana 17 August 2010 (has links) Many fish species respond to cold temperatures by inducing mitochondrial biogenesis, reflected in an increase in the activity of the mitochondrial enzyme cytochrome c oxidase (COX). COX is composed of 13 subunits, 3 encoded by mtDNA and 10 encoded by nuclear genes. I used thermal acclimation/winter acclimatization to explore how fish muscle controls the synthesis of COX. In this study, I used real-time PCR to measure mRNA levels for the 10 nuclear-encoded COX genes and several transcriptional regulators. I compared the thermal response of two cyprinid species, the tropical zebrafish (Danio rerio, acclimated to 11 and 30°C) and the temperate redbelly dace (Phoxinus eos, winter and summer acclimatized). I hypothesized that (i) there would be an increase in COX activity in the cold- versus warm-acclimated fish and (ii) changes in COX activity would be paralleled in the transcript levels of the nuclear-encoded COX subunits as well as the master-regulators and transcription factors of mitochondrial biogenesis. Zebrafish COX activity did not change in the cold but the transcript levels of some subunits decreased up to 70%. Redbelly dace COX activity was 2.9-fold higher in winter fish and though nuclear-encoded subunits had higher transcript levels the increases did not parallel enzyme activity, ranging from 1.7- to 21-fold higher in winter. There also did not appear to be parallel patterns in mRNA for the transcriptional regulators. In zebrafish, when COX activity did not change, there was no significant change in PGC-1α mRNA. In redbelly dace, when COX activity was 2.9-fold higher, PGC-1α mRNA was 6.3-fold higher. These observations suggest that coordination of COX subunit expression is imperfect, implying that subsets of these genes are more important in determining the COX activity. I assert that those genes that are most likely the candidates for regulating COX activity are COX4 and COX5A as they are the first regulatory subunits incorporated into the holoenzyme. Though arguments can also be made for COX5B, 6A and 7B based on the parallels between changes in enzyme activity and transcript abundance as well as the position in which they are assembled into the enzyme complex. / Thesis (Master, Biology) -- Queen's University, 2010-08-10 11:35:35.352 Cytochrome c oxidase thermal remodeling mitochondria
40	Modulation of cytochrome c release by mitochondrial redox status and caspase-2 / Enoksson, Mari, January 2005 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2005. / Härtill 6 uppsatser.

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