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Host–microbe interactions rewire metabolism in a C. elegans model of leucine breakdown deficiency.
Yong-Uk Lee, Bennett W. Fox, Rui Guo, Brian J. Curtis, Jingfang Yu, Sookyung, Kim, Shivani Nanda, Victor Baumann, L. Safak Yilmaz, Cole M. Haynes, Frank C. Schroeder, and Albertha J. M. Walhout
Nature Metabolism, 2024. 9. 1.
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C. elegans as a model for inter-individual variation in metabolism
Bennett W Fox, Olga Ponomarova, Yong-Uk Lee, Gaotian Zhang, Gabrielle E Giese, Melissa Walker, Nicole M Roberto, Huimin Na, Pedro R Rodrigues, Brian J Curtis, Aiden R Kolodziej, Timothy A Crombie, Stefan Zdraljevic, L Safak Yilmaz, Erik C Andersen, Frank C Schroeder, Albertha JM Walhout
Nature, 2022. 7. 21.
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WormPaths: Caenorhabditis elegans metabolic pathway annotation and visualization
Melissa D Walker, Gabrielle E Giese, Amy D Holdorf, Sushila Bhattacharya, Cédric Diot, Aurian P García-González, Brent B Horowitz, Yong-Uk Lee, Thomas Leland, Xuhang Li, Zeynep Mirza, Huimin Na, Shivani Nanda, Olga Ponomarova, Hefei Zhang, Jingyan Zhang, L Safak Yilmaz, Albertha JM Walhout
Genetics, 2021. 9. 1.
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Autophagy of germ-granule components, PGL-1 and PGL-3, contributes to DNA damage-induced germ cell apoptosis in C. elegans
H Min, YU Lee, YH Shim, I Kawasaki
PLoS Genetics, 2019. 5. 24.
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A persistence detector for metabolic network rewiring in an animal
Jote T Bulcha, Gabrielle E Giese, Md Zulfikar Ali, Yong-Uk Lee, Melissa D Walker, Amy D Holdorf, L Safak Yilmaz, Robert C Brewster, Albertha JM Walhout
Cell Reports, 2019. 1. 8.
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CDC-25.2, a C. elegans ortholog of cdc25, is essential for the progression of intestinal divisions
YU Lee, M Son, J Kim, YH Shim, I Kawasaki
Cell Cycle, 2016. 3. 3.
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Inhibition of developmental processes by flavone in Caenorhabditis elegans and its application to the pinewood nematode, Bursaphelenchus xylophilus
Yong-Uk Lee, Ichiro Kawasaki, Yoongho Lim, Wan-Suk Oh, Young-Ki Paik, Yhong-Hee Shim
Molecules and Cells, 2008. 8. 1.