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Full-Text Articles in Life Sciences
Identifying Genetic Factors In The Development Of Diabetes In The Wasatch Front Population 2013-2014, Julianne H. Grose
Identifying Genetic Factors In The Development Of Diabetes In The Wasatch Front Population 2013-2014, Julianne H. Grose
Journal of Undergraduate Research
The academic objectives of this MEG were to train undergraduate and graduate students on the scientific process while providing valuable insight into the genetic factors that may play a role in the development of diabetes in the Wasatch front population. We were able to meet these objectives as evidenced by the training of two graduate students and seven undergraduates and by the identification of a novel genetic allele which most likely contributes to diabetes.
Examining The Relative Contributions Of Genes, Diet, And The Gut Microbiome To The Development Of Obesity And Diabetes, Laura C. Bridgewater
Examining The Relative Contributions Of Genes, Diet, And The Gut Microbiome To The Development Of Obesity And Diabetes, Laura C. Bridgewater
Journal of Undergraduate Research
This project began as a collaboration with Dr. Julianne Grose in MMBIO to study the effect of PAS kinase on diabetes and obesity in a mouse model system. Due to our initial findings, the study has grown to include Dr. Ben Bickman in PDBIO (an expert in metabolism) and Dr. Scott Weber in MMBIO (an immunologist). We have found that PAS kinase knockout mice have an increased metabolic rate—not only in their overall system but also specifically in skeletal muscle. Metabolic rate can have a profound influence on the immune system, so we began working with Dr. Weber to measure …
The Role Of Cdk5r1 In Β-¬Cell Survival From Apoptosis, Amanda Hobson, Jeffrey Tessem
The Role Of Cdk5r1 In Β-¬Cell Survival From Apoptosis, Amanda Hobson, Jeffrey Tessem
Journal of Undergraduate Research
Type 1 and Type 2 diabetes are classified as a decrease in functional ß-cell mass, which results in impaired blood glucose regulation. Functional ß-cell mass is defined as the glucose stimulated insulin secretion rate multiplied by the total cellular mass which is determined by the proliferation and cell death rates. Though ß-cell mass proliferation rates generally decrease by adolescence, obesity and pregnancy have been shown to be times of significant ß-cell proliferation (1). This implies that the inherent molecular pathways necessary for ß-cell proliferation are present, but highly regulated. Discovering the molecular pathway of ß-cell proliferation could lead to diabetes …
Determining If C-Fos Protects Β-Cells From Apoptosis, Kyle Kener, Jeffery Tessem
Determining If C-Fos Protects Β-Cells From Apoptosis, Kyle Kener, Jeffery Tessem
Journal of Undergraduate Research
Diabetes, a disease characterized by the inability of the body to maintain a normal blood glucose level, continues to affect the lives of many. In both Type I and Type II diabetes, eventual β-cell destruction results in decreased β-cell mass. Regeneration of functional β-cells and protection of such, could help reverse the effects of this disease and could possibly lead to a cure. Many studies have been done to increase functioning β-cell mass, but protecting regenerated β-cells from further apoptotic insults could greatly increase the effectiveness of β-cell transplants and other future treatments of the disease.