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Full-Text Articles in Cell and Developmental Biology
Phenotypic And Mutational Consequences Of Mitochondrial Etc Genetic Damage, Michael James Lue
Phenotypic And Mutational Consequences Of Mitochondrial Etc Genetic Damage, Michael James Lue
Dissertations and Theses
Genetic mutation is the ultimate source of new phenotypic variation in populations. The importance of mutation cannot be understated, and constitutes a significant evolutionary force. Although single mutations may have little to no impact on organismal performance or fitness, when multiplied across the total number of potential sites within the genome, mutation can have a large impact. Accurate measurement of the rates, molecular mechanisms, and distributions of effects of mutations are critical for many applications of evolutionary theory. Despite the importance of both deleterious and beneficial mutations, their genome-wide patterns and phenotypic consequences are poorly understood when considering the mitochondrial …
Increased Glutathione Metabolic Defense Capabilities In Cultured Alzheimer's Diseased Lymphoblast Cell Lines, Collin M. Shaw
Increased Glutathione Metabolic Defense Capabilities In Cultured Alzheimer's Diseased Lymphoblast Cell Lines, Collin M. Shaw
Dissertations and Theses
The hypothesis to be tested states that the pathology of Alzheimer's disease (AD) involves elevated levels of oxidative stress, resulting in elevated levels of cellular oxidative defense mechanisms. If the premise is true, than AD pathologically afflicted cells should have a higher demand for glutathione (GSH) as an innate oxidative defense mechanism hence; greater GSH concentrations, increased GSH resynthesis capabilities, and increased levels of cystathionine gamma-lyase (CNase). Alzheimer diseased and age matched control lymphoblast cells, obtained from OHSU's Oregon Brain Aging Study, were cultured, and GSH biochemistry was subsequently evaluated. GSH was depleted by exposing cells to the GSH depleting …