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Full-Text Articles in Chemicals and Drugs
Rare Degs1 Variant Significantly Alters De Novo Ceramide Synthesis Pathway, Nicholas B. Blackburn, Laura F. Michael, Peter J. Meikle, Juan M. Peralta, Marian Mosior, Scott Mcahren, Hai H. Bui, Melissa A. Bellinger, Corey Giles, Satish Kumar, Ana C. Leandro, Marcio Almeida, Jacquelyn M. Weir, Michael C. Mahaney, Thomas D. Dyer, Laura Almasy, John L. Vandeberg, Sarah Williams-Blangero, David C. Glahn, Ravindranath Duggirala, Mark Kowala, John Blangero, Joanne E. Curran
Rare Degs1 Variant Significantly Alters De Novo Ceramide Synthesis Pathway, Nicholas B. Blackburn, Laura F. Michael, Peter J. Meikle, Juan M. Peralta, Marian Mosior, Scott Mcahren, Hai H. Bui, Melissa A. Bellinger, Corey Giles, Satish Kumar, Ana C. Leandro, Marcio Almeida, Jacquelyn M. Weir, Michael C. Mahaney, Thomas D. Dyer, Laura Almasy, John L. Vandeberg, Sarah Williams-Blangero, David C. Glahn, Ravindranath Duggirala, Mark Kowala, John Blangero, Joanne E. Curran
School of Medicine Publications and Presentations
The de novo ceramide synthesis pathway is essential to human biology and health but genetic influences remain unexplored. The core function of this pathway is the generation of biologically active ceramide from its precursor, dihydroceramide. Dihydroceramides have diverse, often protective, biological roles; conversely, increased ceramide levels are biomarkers of complex disease. To explore the genetics of the ceramide synthesis pathway, we searched for deleterious nonsynonymous variants in the genomes of 1,020 Mexican Americans from extended pedigrees. We identified a Hispanic ancestry−specific rare functional variant, L175Q, in DEGS1, a key enzyme in the pathway that converts dihydroceramide to ceramide. This amino …
Rapid Identification Of Phospholipase A2 Transcripts From Snake Venoms, Ying Jia, Pablo Olvera, Frida Rangel, Bianca Mendez, Samir Reddy
Rapid Identification Of Phospholipase A2 Transcripts From Snake Venoms, Ying Jia, Pablo Olvera, Frida Rangel, Bianca Mendez, Samir Reddy
Biology Faculty Publications and Presentations
Phospholipase A2 (PLA2) is a major component in snake venoms and it is found in many different isoforms. To identify transcripts encoding different PLA2 isoforms, we developed a simple, rapid procedure. Total RNA was extracted from the venoms of three cottonmouth snakes and two diamondback rattlesnakes, and further reverse-transcribed into complementary DNA (cDNA). Using one pair of cottonmouth PLA2-specific primers and Reverse Transcription Polymerase Chain Reaction (RT-PCR) technique, we identified 27 unique full-length PLA2 transcripts, including nine sequences identical to the previously documented ones in the database and one novel GIII-like PLA2 …