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Full-Text Articles in Translational Medical Research
An Analysis Of Abdominal Stability Following Hyperthermic Exercise In Euhydrated And Dehydrated Conditions, Carli Ceckanowicz
An Analysis Of Abdominal Stability Following Hyperthermic Exercise In Euhydrated And Dehydrated Conditions, Carli Ceckanowicz
Honors Scholar Theses
Core stability is essential for maintaining safety and optimizing performance during exercise and sport. The purpose of this study is to analyze how heat and hydration status (euhydrated USG<1.025 or dehydrated USG>1.025) can impair trunk stability in males and females (in both follicular and luteal phases) using the Trunk Stability Test (TST). Participants complete three blocks of 30 minutes of hyperthermic (35±1.299 oC and 49.418±5.0329% relative humidity) treadmill exercise. Exercise intensity is equivalent to 15 minutes at either 11W/kg or 7W/kg and the following 15 minutes at either 7W/kg or 4W/kg, respectively, based on individual heat production data. TST data will …1.025>
Differential Iron Regulatory Genetics In 2d & 3d Culture Of Breast Cancer Cells, Tyler Hanna, Suzy Torti Ph. D, Frank Torti M.D., Mph, Nicole Farra Ph. D.
Differential Iron Regulatory Genetics In 2d & 3d Culture Of Breast Cancer Cells, Tyler Hanna, Suzy Torti Ph. D, Frank Torti M.D., Mph, Nicole Farra Ph. D.
Honors Scholar Theses
The iron regulatory axis has consistently been shown to be perturbed in cancer cell lines relative to non-cancerous cell lines. As cancer cells rapidly divide and grow, they require iron to fuel many intracellular processes, including DNA replication and protein synthesis. Three-dimensional cell culture is an increasingly popular method of culture that purportedly more accurately mimics the in vivo microenvironment of cancers over traditional two-dimensional culture. This project was prompted by previous lab results to investigate differential iron regulatory gene expression in 2D and 3D spheroid culture models. We replicated the findings that the gene hepcidin is induced in 3D …
Increasing Upstream Chromatin Long-Range Interactions May Favor Induction Of Circular Rnas In Lysopc-Activated Human Aortic Endothelial Cells., Angus Li, Yu Sun, Charles Drummer, Yifan Lu, Daohai Yu, Yan Zhou, Xinyuan Li, Simone J. Pearson, Candice Johnson, Catherine Yu, William Y. Yang, Kevin Mastascusa, Xiaohua Jiang, Jianxin Sun, Thomas Rogers, Wenhui Hu, Hong Wang, Xiaofeng Yang
Increasing Upstream Chromatin Long-Range Interactions May Favor Induction Of Circular Rnas In Lysopc-Activated Human Aortic Endothelial Cells., Angus Li, Yu Sun, Charles Drummer, Yifan Lu, Daohai Yu, Yan Zhou, Xinyuan Li, Simone J. Pearson, Candice Johnson, Catherine Yu, William Y. Yang, Kevin Mastascusa, Xiaohua Jiang, Jianxin Sun, Thomas Rogers, Wenhui Hu, Hong Wang, Xiaofeng Yang
Center for Translational Medicine Faculty Papers
Circular RNAs (circRNAs) are non-coding RNAs that form covalently closed continuous loops, and act as gene regulators in physiological and disease conditions. To test our hypothesis that proatherogenic lipid lysophosphatidylcholine (LPC) induce a set of circRNAs in human aortic endothelial cell (HAEC) activation, we performed circRNA analysis by searching our RNA-Seq data from LPC-activated HAECs, and found: (1) LPC induces significant modulation of 77 newly characterized cirRNAs, among which 47 circRNAs (61%) are upregulated; (2) 34 (72%) out of 47 upregulated circRNAs are upregulated when the corresponding mRNAs are downregulated, suggesting that the majority of circRNAs are upregulated presumably via …