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Full-Text Articles in Chemicals and Drugs
The Various Nervous System Drugs Commonly Used For Treatment And The Disparities In Availability Of These Drugs In Minority Groups, Iman Haurami
Honors Scholars Collaborative Projects
The nervous system is a complex network in our body that is responsible for actions, reflexes, and even sensations. With the brain being part of the CNS, many common nervous system disorders are due to a defect in the central nervous system and the functions of this organ. These disorders include mental health problems, degenerative diseases, seizures, infections, and other possible genetic diseases. Many of these diseases are common in society and constantly researched. Even though these diseases are common, treatment accessibility and effects on people of minority groups are overlooked compared to the focus on majority groups. For drug …
The Interconnectivity Of Parkinson's Disease And Type Two Diabetes Mellitus, Erica Olfson
The Interconnectivity Of Parkinson's Disease And Type Two Diabetes Mellitus, Erica Olfson
Honors Scholars Collaborative Projects
This thesis is about the biochemical connection between Parkinson's disease and Type II Diabetes Mellitus.
Selinexor Hyperactivates Akt And Induces Its Nuclear Accumulation, Erin Lawrence
Selinexor Hyperactivates Akt And Induces Its Nuclear Accumulation, Erin Lawrence
Honors Scholars Collaborative Projects
Selinexor is currently being used in several clinical trials for cancer and has shown anti-cancer effects in combination with other chemotherapies. Clinical trials evaluating the use of selinexor in the treatment of triple negative breast cancer are limited, but in vitro studies show promising results in its ability to kill triple negative breast cancer cells. The mechanism by which this occurs, however, is not understood. The goal of this research was to determine the mechanism by which selinexor kills BT- 549 triple negative breast cancer cells.
Effect Of Amodiaquine On Gene Expression And Apoptosis In Colorectal Cancer Cells, Holly Pyles
Effect Of Amodiaquine On Gene Expression And Apoptosis In Colorectal Cancer Cells, Holly Pyles
Honors Scholars Collaborative Projects
This study used gene expression analysis to explore the specific response to amodiaquine in HCT116 colorectal cancer cells. Real-time PCR revealed that 20 human stress and toxicity genes were upregulated by at least 3 fold in HCT116 colorectal cancer cells treated with AMQ. Of these 20 upregulated genes, 9 were found to be pro-apoptotic and 2 were DNA damage repair genes, which supports our original hypothesis that amodiaquine is inducing a stress response in these cells. These results are consistent with previous research done by Qiao et al. (2013), as DNA damage repair genes were among the genes upregulated in …