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The Role of Mitochondrial Alternative Oxidase in Plant-pathogen InteractionsCvetkovska, Marina 11 December 2012 (has links)
Alternative oxidase (AOX) is a non-energy conserving branch of the mitochondrial electron
transport chain (ETC) which has been hypothesized to modulate the level of reactive oxygen
species (ROS) and reactive nitrogen species (RNS) in plant mitochondria. The aim of the
research presented herein is to provide direct evidence in support of this hypothesis and to
explore the implications of this during plant-pathogen interactions in Nicotiana tabacum. We
observed leaf levels of ROS and RNS in wild-type (Wt) tobacco and transgenic tobacco with
altered AOX levels and we found that plants lacking AOX have increased levels of both NO and
mitochondrial O2
- compared Wt plants. Based on the results we suggest that AOX respiration
acts to reduce the generation of ROS and RNS in plant mitochondria by dampening the leak of
electrons from the ETC to O2 or nitrite.
We characterized multiple responses of tobacco to different pathovars of the bacterial pathogen
Pseudomonas syringae. These included a compatible response associated with necrosis (pv
tabaci), an incompatible response that included the hypersensitive response (HR) (pv
maculicola) and an incompatible response that induced defenses (pv phaseolicola). We show that
the HR is accompanied by an early mitochondrial O2
- burst prior to cell death. Also, we found
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that the appearance of HR and the appearance of the mitochondrial O2
- burst are delayed in
transgenic plants lacking AOX. A similar delay is seen in transgenic plants treated with the
complex III inhibitor antimycin A. In Wt plants, expression of Aox1a is suppressed during the
HR response to pv maculicola despite the accumulation of signaling molecules known to induce
Aox1a transcription. Also, MnSOD activity declined during the HR. We suggest that the
mitochondrial ROS burst controlled by AOX and MnSOD is an important component for the
induction and coordination of the HR during plant-pathogen interactions.
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The Mitochondrial S7 Ribosomal Protein Gene: Impact of DNA Rearrangements on RNA Expression in GrassesByers, Evan 10 January 2012 (has links)
Frequent rearrangements, typically through homologous recombination in plant mitochondrial genomes often result in different upstream and downstream sequences for the same gene among a number of species. Transcription and RNA processing signals are therefore different, even among closely related plants. To evaluate the impact of DNA rearrangements on gene expression I conducted a comparative analysis of the S7 ribosomal protein gene (rps7) among a number of grasses: wheat, rice, maize, barley, rye, brome, Lolium and oats (grasses whose evolutionary divergence times range from about 5 to 60 Mya). Using circularized-RT-PCR to simultaneously map rps7 transcript termini I found that 3’ends for various RNA species are homogeneous, mapping to conserved sequences among plants. 5’ termini are more complex and can be both discrete and heterogeneous for different transcripts, both within and among plants. Genome rearrangements upstream of the rps7 start codon for some but not all species has led to plant-specific signals for both rps7 transcription and RNA processing. Termini for rps7 precursor species in wheat and Lolium are very discrete and likely use different upstream tRNAs as processing signals for end-cleavage. A number of potential stem-loop structures have also been identified at or near 5’ and 3’ termini which may function in maturation of transcript ends or provide transcript stability and protection from degradation by ribonucleases. C-to-U RNA editing of non-coding sequences, a rare event, was observed at multiple sites within the 5’ and 3’UTRs among plants. Some sites may even be developmentally regulated as CR-RT-PCR experiments were conducted using mitochondrial RNA isolated from seedlings and germinating embryos. Taken together, my observations demonstrate the frequency of upstream DNA rearrangements and the variety of signals used for expression of rps7 among grasses, providing new insights into the complexities of mRNA production in plant mitochondria.
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Plant mitochondrial RNA : replicons characterization and developmentally regulated distributionZhang, Mingda January 1993 (has links)
The structure of one member of a family of maize mitochondrial RNA replicons (or RNA plasmids), RNA b, has been characterized. It is shown that RNA b shares a 13 nucleotide sequence with the central conserved region of Cadang-Cadang viroid of coconuts which might be involved in substrate recognition by the RNA replicase during replication. RNA b likely was derived from a larger member in that family, RNA a, through co-linear deletions similar to those involved with the generation of the defective interfering (DI) elements associated with both animal and plant viruses. RNA b may represent a "selfish" RNA optimized for replication as it does not have the capacity to encode its own replicase. Mitochondrial RNA plasmids have been found not to be restricted to the S and RU cytoplasms, as previously reported. Related plasmid RNAs have been detected in maize plants with C, N and T cytoplasms as well as 13 Latin American races. They were not found, however, in teosintes, indicating that the ancestral nucleic acid from which these RNAs evolved was acquired soon after the split between teosintes and maize, before the divergence of the maize races. Distribution of the plasmid RNAs, a maize mRNA (atp6), and a mitochondrial rRNA (26S) in different organs and tissues was investigated by in situ hybridization. These results indicated that mitochondrial gene expression is subjected to an unexpected degree of both spatial and developmental regulation, and that individual mitochondrial genes are subjected to different controls. Similar results were obtained in in situ hybridization studies of Brassica floral buds. Both studies suggested that the levels of mitochondrial genes transcripts are not particularly high in the tapetal cells of both maize and Brassica anthers contrary to common belief. High levels of RNA plasmid were detected in the pollen of S maize anthers prior to pollen abortion, suggesting they might be related to the cytoplasmic male sterility (CMS) trait of S maize
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Transcription initiation sites on the soybean mitochondrial genomeAuchincloss, Andrea Helen January 1987 (has links)
No description available.
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Organelle function in photorespiratory glycine metabolism / by Ian Barry DryDry, Ian Barry January 1984 (has links)
Bibliography: leaves [i]-xvi / xi, 132, xvi, [137] leaves : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, 1984
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The subcellular localisation, tissue expression, substrate specificity and binding partners of stress-activated protein kinase-3Court, Naomi Wynne January 2004 (has links)
[Truncated abstract] Cells need to be able to detect changes in their surrounding environment and transduce these signals into the appropriate cellular compartments. One of the major ways that the cell achieves this signal transduction is through the process of phosphorylation. Protein kinases are the enzymes responsible for catalysing this transfer of phosphate groups from ATP to amino acid residues of their specific substrates. A subfamily of serine/threonine kinases known as the Mitogen-Activated Protein Kinases (MAPKs) is essential in a diverse range of cell processes including growth, metabolism, differentiation and death. The first identified MAPKs, the Extracellular Signal-Regulated Kinases (ERKs), were found to be activated in response to mitogenic stimuli such as growth factors. However, since the discovery of the ERKs, other pathways leading to the activation of related kinases have been recognised. These kinases are preferentially activated in response to stress, and are thus termed “Stress-Activated Protein Kinases” or SAPKs. They consist of the c-Jun N-terminal kinase isoforms 1, 2 and 3 (also called SAPK1γ, SAPK1α and SAPKβ respectively) and the p38 MAPKs, p38α, p38β, p38γ and p38δ (also called SAPK2a, SAPK2b, SAPK3 and SAPK4 respectively). A major challenge in this field has been to identify the substrates and functions of the SAPKs. This has been partly achieved by the development of inhibitors for the JNK MAPKs and SAPK2a/b. However, no inhibitors currently exist that specifically inhibit SAPK3 and SAPK4. Therefore, elucidating the function of these SAPKs has proved more difficult. Recent studies suggest that SAPK3 may play a unique role in the cell compared to other members of the p38 MAPK family. For example, several signalling proteins appear to specifically activate SAPK3 in certain circumstances while not activating other members of the p38 MAPK family. In addition, SAPK3 contains a unique sequence motif that allows it to bind to specialised domains known as PDZ domains. The interaction of SAPK3 with proteins containing these domains may regulate its subcellular localisation and interactions with other proteins in the cell. This project was undertaken to expand the knowledge on the expression, localisation, substrate specificity and binding partners of SAPK3. In Chapter 3 of this thesis, a SAPK3 monoclonal antibody was evaluated for its ability to specifically recognise endogenous SAPK3 protein. SAPK3 was found to be expressed in immortalised cell lines and primary cultures of neonatal rat myocytes, and to be colocalised with the mitochondria of these cells. This co-localisation remained unaltered in response to treatment with the nuclear export inhibitor Leptomycin B, and with exposure to osmotic shock, suggesting that SAPK3 substrates may be localised at the mitochondria
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Functional maturation of mouse epididymal spermatozoaLee, Yun Hwa January 2008 (has links)
Research Doctorate - Doctor of Philosophy / On leaving the testis, spermatozoa can neither swim nor fertilize the oocyte. These functional properties are acquired as spermatozoa engage in a process of post-testicular maturation in the epididymis. The studies described in this thesis were designed to elucidate some of the fundamental mechanisms associated with the regulation of epididymal maturation in mouse spermatozoa. The initial studies described in this thesis investigated the expression of a cAMP/PKAdependent, tyrosine phosphorylation signaling pathway that becomes activated during epididymal sperm maturation. It was demonstrated that the entry of spermatozoa into the epididymis was accompanied by the sudden stimulation of this pathway, initially in the principal piece of the cell and subsequently in the midpiece. The competence of these cells to phosphorylate the entire sperm tail, particularly the mitochondria, was accompanied by a capacity to exhibit hyperactivated motility on stimulation with cAMP. A distinctly different pattern of tyrosine phosphorylation involving the acrosomal domain of the sperm head was provoked as spermatozoa entered the caput epididymis and then remained high until these cells entered the distal corpus and cauda. However, tyrosine dephosphorylation of the sperm acrosomal domain during epididymal transit did not appear to be functionally involved in controlling the acrosome reaction. Research into the biochemical basis of sperm epididymal maturation revealed that this process was associated with the activation of sperm mitochondria, leading to the creation of a mitochondrial membrane potential (MMP) and activation of mitochondrial free radical generation. Immature caput spermatozoa displayed a low MMP whereas mature caudal spermatozoa actively maintained a high MMP. Moreover mitochondrial generation of reactive oxygen species (ROS) could be triggered by antimycin A in mature caudal spermatozoa but not in immature caput spermatozoa, suggesting a lack of electron flux in the latter. The molecular mechanisms responsible for regulating mitochondrial function were also found to be reversible, as washing the cells free of epididymal fluid allowed caput spermatozoa to acquire a high MMP and generate ROS while incubating caudal spermatozoa in caput epididymal fluid, suppressed MMP and their ability to generate ROS. Pharmacological suppression of mitochondrial activity was subsequently found to be associated with the inhibition of hyperactivated motility. These results strongly suggested that fluid from the caput epididymis contained a mitochondrial inhibitor and that activation of mitochondrial activity was due to the removal or inactivation of this inhibitor during epididymal transit. This causative factor was not species specific. Incubation of ejaculated human spermatozoa in murine epididymal fluid systematically suppressed their MMP. The characterization of caput epididymal fluid suggested that the putative mitochondrial inhibitor is a heat-resistant protein with a molecular weight larger than 30 kDa. The final results presented in this thesis demonstrate that a full-length Riken protein is a potential candidate for the putative mitochondrial inhibitor that switches off mitochondrial function in caput spermatozoa. Indeed, these results represent the first report suggesting that the epididymal maturation is associated with activation of sperm mitochondria and the first study of a testis specific protein that could be a regulator of mitochondrial function in the male germ line. Further characterization of the mechanisms by which epididymal spermatozoa control mitochondrial function may hold the key to our understanding of sperm maturation. It may also lead us to a clear exposition of the molecular basis of human male infertility, potentially serve as a target for infertility treatment and possibly contribute to the development of novel contraceptive agents.
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The effects of exogenous NAD on substrate oxydation by isolated plant mitochondria /Soole, Kathleen Lydia. January 1984 (has links) (PDF)
Thesis (B. Sc. Hons)--University of Adelaide, 1984. / Includes bibliographical references (leaves [86-88]).
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A model of mitochonrial [sic] calcium induced calcium releaseThomas, Balbir, January 2007 (has links)
Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 116-121).
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Crisis in energy metabolism : mitochondrial defects and a new disease entity /Kollberg, Gittan, January 2007 (has links)
Diss. (sammanfattning) Göteborg : Göteborgs universitet, 2007. / Härtill 5 uppsatser.
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