Parents
Sign in to add mentor| John Tyson | grad student | Virginia Tech | |
| Jay C. Dunlap | post-doc | Dartmouth (Chemistry Tree) |
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Publications
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| Chakravarty S, Hong CI, Csikász-Nagy A. (2023) Systematic analysis of negative and positive feedback loops for robustness and temperature compensation in circadian rhythms. Npj Systems Biology and Applications. 9: 5 |
| Fawad JA, Luzader DH, Hanson GF, et al. (2022) Histone deacetylase inhibition by gut microbe-generated short chain fatty acids entrains intestinal epithelial circadian rhythms. Gastroenterology |
| Park M, Cao Y, Hong CI. (2022) Methods for Assessing Circadian Rhythms and Cell Cycle in Intestinal Enteroids. Methods in Molecular Biology (Clifton, N.J.). 2482: 105-124 |
| Lee S, Hong CI. (2022) Organoids as Model Systems to Investigate Circadian Clock-Related Diseases and Treatments. Frontiers in Genetics. 13: 874288 |
| Rosselot AE, Park M, Kim M, et al. (2021) Ontogeny and function of the circadian clock in intestinal organoids. The Embo Journal. e106973 |
| Liu X, Chen A, Caicedo-Casso A, et al. (2020) Author Correction: FRQ-CK1 interaction determines the period of circadian rhythms in Neurospora. Nature Communications. 11: 346 |
| Liu X, Chen A, Caicedo-Casso A, et al. (2019) FRQ-CK1 interaction determines the period of circadian rhythms in Neurospora. Nature Communications. 10: 4352 |
| Baek M, Virgilio S, Lamb TM, et al. (2019) Circadian clock regulation of the glycogen synthase () gene by WCC is critical for rhythmic glycogen metabolism in . Proceedings of the National Academy of Sciences of the United States of America |
| Fawad JA, Luzader D, Moutinho TJ, et al. (2019) 154 – Gut Microbe-Produced Short Chain Fatty Acids Entrain Circadian Rhythms in Murine Enteroids by Histone Deacetylase Inhibition Gastroenterology. 156: S-36 |
| Ballweg R, Lee S, Han X, et al. (2018) Unraveling the Control of Cell Cycle Periods during Intestinal Stem Cell Differentiation. Biophysical Journal |