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Full-Text Articles in Life Sciences
Investigation Of Shot1-Binding Atpases In Arabidopsis Thaliana, Sam Zelman
Investigation Of Shot1-Binding Atpases In Arabidopsis Thaliana, Sam Zelman
Masters Theses
Mitochondria play critical roles not only in primary metabolism as a central organelle for ATP generation, but also in responding to abiotic stresses. We identified a mutation in the MTERF18 (Mitochondrial Transcription Termination factor)/SHOT1 (Suppressor of hot1-4 1) gene in Arabidopsis thaliana that enables plants to better tolerate heat and oxidative stresses, presumably due to reduced oxidative damage, but the exact molecular mechanism of the heat tolerance is unknown. In order to reveal the stress tolerance mechanisms of mterf18/shot1 mutations, it is critical to understand the molecular defects of the mutant and to identify …
Protease Oma1 Modulates Mitochondrial Bioenergetics And Ultrastructure Through Dynamic Association With Micos Complex, Martonio P. Viana
Protease Oma1 Modulates Mitochondrial Bioenergetics And Ultrastructure Through Dynamic Association With Micos Complex, Martonio P. Viana
Department of Biochemistry: Dissertations, Theses, and Student Research
Remodeling of mitochondrial ultrastructure is a complex dynamic process that is critical for a variety of mitochondrial functions and apoptosis. Although the key regulators of this process - mitochondrial contact site and cristae junction organizing system (MICOS) and GTPase Optic Atrophy 1 (OPA1) have been characterized, the mechanisms behind this regulation remain incompletely defined. Here, we found that in addition to its role in mitochondrial division, metallopeptidase OMA1 is required for maintenance of contacts between the inner and outer membranes through a dynamic association with MICOS. This association is independent of OPA1, appears to be mediated via the MIC60 MICOS …
The Shape Of Metabolism: Mitochondrial Dynamics, Remodeling, And Bioenergetic Reprogramming In Disease, Carl Decker
The Shape Of Metabolism: Mitochondrial Dynamics, Remodeling, And Bioenergetic Reprogramming In Disease, Carl Decker
KGI Theses and Dissertations
Mitochondria are dynamic, double-membrane bound hubs of bioenergetics, cell signaling, and redox balance that exist as an oscillating network of fused superstructures and smaller, single organelles. Importantly, their position at the junction of catabolic and anabolic metabolism connects these morphological fluctuations to larger cellular metabolic programs, which in turn have implicated mitochondrial dynamics in a number of disease states and a varied set of cell phenomena. For example, differentiation of memory t-cells is dependent on mitochondrial network morphology, and in particular on remodeling dynamics that yield fused mitochondrial assemblies favoring oxidative phosphorylation-driven metabolism. In contrast, many cancers have been shown …
Acetoacetate Enhances Oxidative Metabolism And Response To Toxicants Of Cultured Renal Cells, Trudi Maria Denoon
Acetoacetate Enhances Oxidative Metabolism And Response To Toxicants Of Cultured Renal Cells, Trudi Maria Denoon
Theses and Dissertations
In vitro methods can be cost effective and facilitate large scale drug screening in the pharmaceutical industry. Renal proximal tubular cells have been a prime target for drug induced toxicity. LLC-PK1 cells possess many transport functions of the proximal tubule epithelia, however, its energy metabolism differs from the highly oxidative tubule metabolism in vivo. This may impact its reliability in predicting toxicity. Modulating the growth media composition has been shown to shift cultured liver and muscle cells from high glycolytic activity to increased oxidative metabolism, but few studies have been done on renal cells. This study is designed to test …
Quantification Of Mitochondrial Zinc Homeostasis And Analysis Of Zinc And Polyamine-Mediated Axonal Trafficking, Dylan Hunt Fudge
Quantification Of Mitochondrial Zinc Homeostasis And Analysis Of Zinc And Polyamine-Mediated Axonal Trafficking, Dylan Hunt Fudge
Electronic Theses and Dissertations
The zinc ion is an important emerging signaling molecule for biological processes. In this work we engineered improved zinc sensors based on our previously developed fluorescent sensor GZnP1 to provide sensors with a higher fluorescent readout, faster kinetics, and a superior sensitivity to zinc. We utilized these zinc sensors and further developed the sensors to answer questions pertaining to biological zinc. We showed the labile zinc concentration in the mitochondrial matrix was less than 1 pM while the labile zinc concentration in the cytosol and mitochondrial IMS were comparable (~100 pM) across four different cell lines. Using these zinc sensors …
Seasonal Variation In Mitochondrial Bioenergetics Of The Bluegill Sunfish, Lepomis Macrochirus, From A Shallow Midwest River, Derick Isaac Lamptey
Seasonal Variation In Mitochondrial Bioenergetics Of The Bluegill Sunfish, Lepomis Macrochirus, From A Shallow Midwest River, Derick Isaac Lamptey
Masters Theses
As average global temperature increase, the frequency and magnitude of extreme temperatures in shallow aquatic ecosystems are more ubiquitous. In order to understand how these changing thermal regimes affect aquatic ectotherms, it is essential to develop studies evaluating the response of ectotherms to seasonal fluctuating thermal regimes. Previous studies on fluctuating temperature regimes have reported an increased physiological stress leading to morphological, behavioral and biochemical adaptations. From the latter, the adaptive capacity and seasonal performance associated with optimal function of the oxidative phosphorylation system (OXPHOS) are key for species persistence. However, studies on this matter are scarce. This study explores …
From Synthesis To Utilization: The Ins And Outs Of Mitochondrial Heme, Samantha A. Swenson, Courtney M. Moore, Jason R. Marcero, Amy E. Medlock, Amit R. Reddi, Oleh Khalimonchuk
From Synthesis To Utilization: The Ins And Outs Of Mitochondrial Heme, Samantha A. Swenson, Courtney M. Moore, Jason R. Marcero, Amy E. Medlock, Amit R. Reddi, Oleh Khalimonchuk
Department of Biochemistry: Faculty Publications
Heme is a ubiquitous and essential iron containing metallo-organic cofactor required for virtually all aerobic life. Heme synthesis is initiated and completed in mitochondria, followed by certain covalent modifications and/or its delivery to apo-hemoproteins residing throughout the cell. While the biochemical aspects of heme biosynthetic reactions are well understood, the trafficking of newly synthesized heme—a highly reactive and inherently toxic compound—and its subsequent delivery to target proteins remain far from clear. In this review, we summarize current knowledge about heme biosynthesis and trafficking within and outside of the mitochondria.
Characterization Of The Biochemical Properties Of Nudt8, A Novel Coa-Degrading Enzyme That Localizes To The Mitochondria, Evan W. Kerr
Characterization Of The Biochemical Properties Of Nudt8, A Novel Coa-Degrading Enzyme That Localizes To The Mitochondria, Evan W. Kerr
Graduate Theses, Dissertations, and Problem Reports
Coenzyme A (CoA) is a vital cofactor that is required for a variety of metabolic reactions including the TCA cycle and the synthesis and oxidation of fatty acids, amino acids and ketone bodies. The importance of CoA is underscored by its tight regulation, as prolonged elevations or inability to synthesize adequate amounts of this cofactor lead to severe metabolic dysfunction. Regulation of CoA biosynthesis has been extensively characterized, however less is known about regulation of CoA and its thioesters via degradation. Presently, two CoA-degrading enzymes, Nudt7 and Nudt19 have been identified as regulators of the peroxisomal pool of (acyl-)CoA in …