Subhash D. Katewa, Ph.D.

Buck Institute for Research on Aging 
"Subhash Katewa"
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Akagi K, Wilson KA, Katewa SD, et al. (2018) Dietary restriction improves intestinal cellular fitness to enhance gut barrier function and lifespan in D. melanogaster. Plos Genetics. 14: e1007777
Khanna A, Kumar J, Vargas MA, et al. (2016) A genome-wide screen of bacterial mutants that enhance dauer formation in C. elegans. Scientific Reports. 6: 38764
Luis NM, Wang L, Ortega M, et al. (2016) Intestinal IRE1 Is Required for Increased Triglyceride Metabolism and Longer Lifespan under Dietary Restriction. Cell Reports. 17: 1207-1216
Katewa SD, Akagi K, Bose N, et al. (2016) Peripheral Circadian Clocks Mediate Dietary Restriction-Dependent Changes in Lifespan and Fat Metabolism in Drosophila. Cell Metabolism. 23: 143-54
Chatterjee D, Katewa SD, Qi Y, et al. (2014) Control of metabolic adaptation to fasting by dILP6-induced insulin signaling in Drosophila oenocytes. Proceedings of the National Academy of Sciences of the United States of America. 111: 17959-64
Katewa SD, Khanna A, Kapahi P. (2014) Mitobolites: the elixir of life. Cell Metabolism. 20: 8-9
Katewa SD, Demontis F, Kolipinski M, et al. (2012) Intramyocellular fatty-acid metabolism plays a critical role in mediating responses to dietary restriction in Drosophila melanogaster. Cell Metabolism. 16: 97-103
Katewa SD, Kapahi P. (2011) Role of TOR signaling in aging and related biological processes in Drosophila melanogaster. Experimental Gerontology. 46: 382-90
Kapahi P, Chen D, Rogers AN, et al. (2010) With TOR, less is more: a key role for the conserved nutrient-sensing TOR pathway in aging. Cell Metabolism. 11: 453-65
Katewa SD, Kapahi P. (2010) Dietary restriction and aging, 2009. Aging Cell. 9: 105-12
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