Bromley, S.
The lipidomes of C. elegans with mutations in asm-3/acid sphingomyelinase and hyl-2/ceramide synthase show distinct lipid profiles during aging
Staab, Trisha, McIntyre, Grace, Bromley, S., Raftery, D., Chan, Jason, Wang, L., Radeny, J., Bettcher, L., Guillen, Melissa, Peck, M. , and Kalil, A.
Lipid metabolism affects cell and physiological functions that mediate animal healthspan and lifespan. Lipidomics approaches in model organisms have allowed us to better understand changes in lipid composition related to age...
Research Paper
Work1
Research Paper1
Bettcher, L.1
Bromley, S.[remove]1
Chan, Jason1
Guillen, Melissa1
Kalil, A.1
C. elegans1
aging1
fatty acid metabolism1
lipidomics1
sphingolipid metabolism1
English1
Impact Journals, LLC1
20231
Department of Biology1
Submitted Manuscripts and Publications - College of Arts & Sciences1
Marian University1