Jay C. Dunlap
Affiliations: | Genetics | Dartmouth College, Hanover, NH, United States |
Area:
Genetics, Molecular Biology, BiochemistryGoogle:
"Jay Dunlap"Cross-listing: Chemistry Tree
Parents
Sign in to add mentor| John Woodland "Woody" Hastings | grad student | 1979 | Harvard (Chemistry Tree) |
| Jerry F. Feldman | post-doc | 1980-1984 | UC Santa Cruz (Microtree) |
Children
Sign in to add trainee| Mi Shi | grad student | 2008 | Dartmouth (Chemistry Tree) |
| Randy Lambreghts | grad student | 2012 | Dartmouth (Chemistry Tree) |
| Christian I. Hong | post-doc | Dartmouth (Computational Biology Tree) | |
| Luis F. Larrondo | post-doc | (Neurotree) | |
| C. Robertson McClung | post-doc | 1986-1988 | Dartmouth Medical School (Plant Biology Tree) |
| Jennifer Marie Hurley | post-doc | 2009-2015 | Dartmouth Medical School (Chemistry Tree) |
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Publications
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| Tariq D, Maurici N, Bartholomai BM, et al. (2024) Phosphorylation, disorder, and phase separation govern the behavior of Frequency in the fungal circadian clock. Elife. 12 |
| Wang B, Edamo ME, Zhou X, et al. (2023) Acetylation of WCC is dispensable for the core circadian clock but differentially regulates acute light responses in . Biorxiv : the Preprint Server For Biology |
| Wang B, Zhou X, Kettenbach AN, et al. (2023) A crucial role for dynamic expression of components encoding the negative arm of the circadian clock. Nature Communications. 14: 3371 |
| Wang B, Dunlap JC. (2023) Domains Required for the Interaction of the Central Negative Element FRQ with its Transcriptional Activator WCC within the Core Circadian Clock of Neurospora. The Journal of Biological Chemistry. 104850 |
| Wang B, Zhou X, Kettenbach AN, et al. (2023) A crucial role for dynamic expression of components encoding the negative arm of the circadian clock. Biorxiv : the Preprint Server For Biology |
| Wang B, Dunlap JC. (2023) Domains Required for FRQ-WCC Interaction within the Core Circadian Clock of . Biorxiv : the Preprint Server For Biology |
| Kelliher CM, Stevenson EL, Loros JJ, et al. (2023) Nutritional compensation of the circadian clock is a conserved process influenced by gene expression regulation and mRNA stability. Plos Biology. 21: e3001961 |
| Wang Z, Bartholomai BM, Loros JJ, et al. (2022) Optimized fluorescent proteins for 4-color and photoconvertible live-cell imaging in Neurospora crassa. Fungal Genetics and Biology : Fg & B. 164: 103763 |
| Bartholomai BM, Gladfelter AS, Loros JJ, et al. (2022) PRD-2 mediates clock-regulated perinuclear localization of clock gene RNAs within the circadian cycle of . Proceedings of the National Academy of Sciences of the United States of America. 119: e2203078119 |
| Tyler J, Lu Y, Dunlap J, et al. (2022) Evolution of the repression mechanisms in circadian clocks. Genome Biology. 23: 17 |