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Our lab seeks to better understand the maturation and regulation of a group of human lipases. We aim to uncover how these lipases properly fold and exit the ER, and how their activity is subsequently regulated. We study the membrane-bound and secreted proteins that play a role in lipase regulation. Our research can potentially impact human health as biochemical deficiencies in lipase activity can cause hypertriglyceridemia and associated disorders, such as diabetes and atherosclerosis. We are an interdisciplinary lab and aim to address these questions using a variety of techniques, including membrane protein biochemistry, enzymology, and structural and molecular biology.,Our lab seeks to better understand the maturation and regulation of a group of human lipases. We aim to uncover how these lipases properly fold and exit the ER, and how their activity is subsequently regulated. We study the membrane-bound and secreted proteins that play a role in lipase regulation. Our research can potentially impact human health as biochemical deficiencies in lipase activity can cause hypertriglyceridemia and associated disorders, such as diabetes and atherosclerosis. We are an interdisciplinary lab and aim to address these questions using a variety of techniques, including membrane protein biochemistry, enzymology, and structural and molecular biology.
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CLINICAL/RESEARCH INTERESTS:
Biochemistry, Bioinformatics, Cardiovascular Biology, Molecular Biology, Structural Biology |