Life Sciences Commons^™

Relationship Between Body Composition, Fitness, And Eating Behaviors And Markers Of Metabolic Suppression In Exercising Men, Mikayla K. Locke, Karsten Koehler

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Introduction: Chronic dieting can result in characteristic metabolic adaptations such as a suppression of resting metabolic rate (RMR). Previous research has focused on health outcomes related to metabolic suppression in female athletes, which include impaired menstrual and bone health. The study purpose was to assess the relationship between metabolic suppression and body composition, fitness, and eating behavior traits in exercising men.

Approach: Cross-sectional study comparing exercising men who display evidence of metabolic suppression (MS) and a control group (Con). RMR was used as a surrogate marker of metabolic suppression.

Results and Discussion: When compared to Con, MS …

3-Hydroxy Fatty Acid Induce Trophoblast And Hepatocyte Lipoapoptosis, Taylor Bruett, Taylor Heng, Sathish Kumar Natarajan

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Acute Fatty Liver of Pregnancy (AFLP) is a very rare and fatal condition for both the mother and the unborn offspring accompanied by severe maternal liver dysfunction. AFLP usually develops during the third trimester of pregnancy with symptoms of liver disease. AFLP is associated with a mutation in the enzyme, long-chain 3-hydroxy acyl CoA dehydrogenase (LCHAD) which is involved in the mitochondrial beta-oxidation of fatty acids. Defective beta-oxidation of fatty acids results in the individual unable to metabolize fatty acids which then causes fatty infiltration in their organs, such as the liver. This interferes with normal function of the liver …

The Impact Of Depleting Dietary Microrna In A High-Fat Diet, Briley Moates, Sonia Manca, Janos Zempleni

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We tested the hypothesis that a highfat diet would increase the difference in body weight between C57BL/6J mice provided dietary microRNA (Exo +) and mice which were fed the same diet depleted of microRNA (Exo-).

• The data demonstrate that depleting miRNAs from a high-fat diet does not impact the difference in body weight between Exo+ and Exo- subjects. • Depleting dietary miRNAs from normal low-fat diets do result in differences in body weight, fat, fecundity, purine metabolism, and gut microbiome.

Examining Maternal Obesity Effects On Oogenesis, Follicular Development, And Embryonic Myogenesis, Chris Lindeman, Jennifer Wood

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The CDC estimates that more than one-third of U.S. adults (approximately 78.6 million) are obese. Despite national efforts to combat this with diet and exercise, the number of obese adults and children continues to climb. It is critical to emphasize that obesity can lead to lifelong, chronic complications and health risks including hypertension, heart disease, and diabetes.

Diet and obesity also have important impacts on the reproductive health of female including the ability to become pregnant (fertility) and risk for complications during pregnancy. Furthermore, for women who do become pregnant, obesity can affect the development of the embryo and fetus, …

Role Of Acetyl-Coa Synthetase 2 And Acetyl-Coa Precursors, Acetate And Ethanol, On Hepatocyte Gene Expression, Noel Bruner, Anjeza Erickson, Mengna Xia, Bo He, Regis Moreau

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Abnormally high blood and tissue lipid levels observed in metabolic disorders and cardiovascular diseases are associated with extensive gene expression changes. Gene expression is modulated by epigenetic mechanisms, which include modifications of DNA-bound protein histones without alteration of DNA sequence. Histone hyperacetylation is observed in the setting of metabolic disorders but the causes have not been described in any detail. We know that histone acetylation is positively correlated with the abundance of acetyl-coenzyme A. This study tests the hypothesis that acetyl-coenzyme A metabolizing enzyme acetyl-coenzyme A synthetase 2 (ACSS2, cytoplasmic, aka AceCS1) impacts liver function through histone acetylation, and that …

How Microbial Communities Differ In Ruminants On A Glycerin Vs Common Diet, Makala Muller, Nirosh D. Aluthge, Allison L. Knoell, Morgan Kaiser, Samodha C. Fernando

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Can we reduce methane by using dietary interventions to reduce carbon footprint and increase feed efficiency? Ruminant livestock account for a significant amount of the anthropogenic methane produced in the U.S. All ruminant livestock produce 28% of the earth’s methane emissions. The methane within ruminants is produced by a microbial fermentation, especially by a group of bacteria known as the methanogens. However, the different species of methanogens and their pathways of methane production within ruminants are not fully understood. Cattle are considered one of the main producers of methane. They produce 20% of the U.S. methane emissions. Methane absorbs more …