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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

An evaluation of mitochondrial DNA replication and transcription as well as the transcription of selected nuclear genes in in vitro models for OXPHOS deficiencies / Fimmie Reinecke

Reinecke, Fimmie January 2010 (has links)
Deficiencies of the oxidative phosphorylation system (OXPHOS) that consists of five enzyme complexes (I-IV) lead to a diversity of cellular consequences. This includes altered Ca2+ homeostasis, reduced ATP production and increased ROS (reactive oxygen species) production. One of the secondary consequences of such deficiencies is the adaptive transcriptional responses of several mitochondrial- and nuclear-encoded genes involved in OXPHOS biogenesis. Additionally, several other genes that are involved in several other functions, such as metallothioneins (MTs), are differentially expressed. In this study we investigated two hypotheses: firstly, that in complex I deficient cells the increased expression of MTs, specifically MT1B and MT2A, has a protective effect against ROS-related consequences of a complex I deficiency. The second hypothesis stated that genes involved in mitochondrial replication and transcription are differentially expressed in OXPHOS deficient cell lines. Firstly, the expression and role of metallothioneins (MTs) in an in vitro complex I deficient model was investigated. The increased expression of different MT isoforms in the presence of the complex I inhibitor rotenone in HeLa cells was confirmed. In this complex I deficient model overexpression of MT1B and especially MT2A isoforms also protected against ROS, mtPTP opening, apoptosis and ROS-induced necrosis. This data supports the hypothesis that increased expression of MT2A has a protective effect against the death-causing cellular consequences of rotenonetreated HeLa cells. Secondly, we investigated the differential expression of selected mitochondrial- and nuclear genes involved in OXPHOS function and regulation. Two experimental in vitro models were developed and utilized in the study. Firstly, a transient siRNA knockdown model of the NDUFS3 subunit of complex I in 143B cells was developed, characterized and introduced. Then the effect of the knockdown on several biochemical parameters (ROS and ATP levels), mtDNA copy number, total mtRNA levels, and RNA levels of several nuclear- and mitochondrial-encoded transcripts encoding structural as well as functional proteins was determined. Additionally, to investigate the effect of stable OXPHOS deficiency, stable shRNA knockdown models of the NDUFS3 subunit of complex I, as well as the Rieske subunit of complex III were introduced and characterized. The second hypothesis about the effect of OXPHOS deficiencies on mtDNA replication and transcription could not, without a doubt, be supported or contradicted by the data. It was determined from the data that an OXPHOS deficiency, which does not result in increased ROS levels, does not significantly affect the regulation of mtDNA replication/transcription or nuclear OXPHOS gene transcription. However, when OXPHOS deficiency was accompanied by increased ROS levels, some structural mitochondrial-encoded transcripts and regulatory nuclear-encoded transcripts were up-regulated, specifically ND6, D-loop, DNApol and TFB2M. Nonetheless, increased ROS production in the presence of OXPHOS deficiency is probably not exclusively responsible for responses of all regulatory proteins involved in mtDNA replication/transcription in vitro. Additionally, this compensatory regulation might be more dependent on mtDNA transcription than mtDNA copy number, and the data showed that TFB2M might be a key regulatory protein involved early in this mechanism before any other regulatory proteins are affected. / Thesis (Ph.D. (Biochemistry))--North-West University, Potchefstroom Campus, 2010.
2

An evaluation of mitochondrial DNA replication and transcription as well as the transcription of selected nuclear genes in in vitro models for OXPHOS deficiencies / Fimmie Reinecke

Reinecke, Fimmie January 2010 (has links)
Deficiencies of the oxidative phosphorylation system (OXPHOS) that consists of five enzyme complexes (I-IV) lead to a diversity of cellular consequences. This includes altered Ca2+ homeostasis, reduced ATP production and increased ROS (reactive oxygen species) production. One of the secondary consequences of such deficiencies is the adaptive transcriptional responses of several mitochondrial- and nuclear-encoded genes involved in OXPHOS biogenesis. Additionally, several other genes that are involved in several other functions, such as metallothioneins (MTs), are differentially expressed. In this study we investigated two hypotheses: firstly, that in complex I deficient cells the increased expression of MTs, specifically MT1B and MT2A, has a protective effect against ROS-related consequences of a complex I deficiency. The second hypothesis stated that genes involved in mitochondrial replication and transcription are differentially expressed in OXPHOS deficient cell lines. Firstly, the expression and role of metallothioneins (MTs) in an in vitro complex I deficient model was investigated. The increased expression of different MT isoforms in the presence of the complex I inhibitor rotenone in HeLa cells was confirmed. In this complex I deficient model overexpression of MT1B and especially MT2A isoforms also protected against ROS, mtPTP opening, apoptosis and ROS-induced necrosis. This data supports the hypothesis that increased expression of MT2A has a protective effect against the death-causing cellular consequences of rotenonetreated HeLa cells. Secondly, we investigated the differential expression of selected mitochondrial- and nuclear genes involved in OXPHOS function and regulation. Two experimental in vitro models were developed and utilized in the study. Firstly, a transient siRNA knockdown model of the NDUFS3 subunit of complex I in 143B cells was developed, characterized and introduced. Then the effect of the knockdown on several biochemical parameters (ROS and ATP levels), mtDNA copy number, total mtRNA levels, and RNA levels of several nuclear- and mitochondrial-encoded transcripts encoding structural as well as functional proteins was determined. Additionally, to investigate the effect of stable OXPHOS deficiency, stable shRNA knockdown models of the NDUFS3 subunit of complex I, as well as the Rieske subunit of complex III were introduced and characterized. The second hypothesis about the effect of OXPHOS deficiencies on mtDNA replication and transcription could not, without a doubt, be supported or contradicted by the data. It was determined from the data that an OXPHOS deficiency, which does not result in increased ROS levels, does not significantly affect the regulation of mtDNA replication/transcription or nuclear OXPHOS gene transcription. However, when OXPHOS deficiency was accompanied by increased ROS levels, some structural mitochondrial-encoded transcripts and regulatory nuclear-encoded transcripts were up-regulated, specifically ND6, D-loop, DNApol and TFB2M. Nonetheless, increased ROS production in the presence of OXPHOS deficiency is probably not exclusively responsible for responses of all regulatory proteins involved in mtDNA replication/transcription in vitro. Additionally, this compensatory regulation might be more dependent on mtDNA transcription than mtDNA copy number, and the data showed that TFB2M might be a key regulatory protein involved early in this mechanism before any other regulatory proteins are affected. / Thesis (Ph.D. (Biochemistry))--North-West University, Potchefstroom Campus, 2010.
3

SUSTAINED PUBLIC PARTICIPATION AND NUCLEAR WEAPONS CLEANUP: THE EVOLUTION OF STAKEHOLDER PERSPECTIVES AT THE FERNALD NUCLEAR WEAPONS SITE

HAMILTON, JENNIFER DUFFIELD January 2003 (has links)
No description available.

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