David J. Eide
Affiliations: | University of Wisconsin, Madison, Madison, WI |
Area:
Molecular Biology, Cell Biology, BiochemistryGoogle:
"David Eide"Mean distance: (not calculated yet)
Children
Sign in to add traineeWei Qiao | grad student | 2008 | UW Madison |
Chang-Yi Wu | grad student | 2008 | UW Madison |
Avery G. Frey | grad student | 2010 | UW Madison |
Yi-Hsuan Wu | grad student | 2012 | UW Madison |
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Publications
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Eide DJ. (2020) Transcription factors and transporters in zinc homeostasis: lessons learned from fungi. Critical Reviews in Biochemistry and Molecular Biology. 55: 88-110 |
Martha-Paz AM, Eide D, Mendoza-Cózatl D, et al. (2020) Zinc uptake in the Basidiomycota: Characterization of zinc transporters in . Molecular Membrane Biology. 35: 39-50 |
Tatip S, Taggart J, Wang Y, et al. (2019) Changes in transcription start sites of Zap1-regulated genes during zinc deficiency: Implications for HNT1 gene regulation. Molecular Microbiology |
Eide D, Bird A. (2019) Decision letter: Single cell analysis reveals multiple requirements for zinc in the mammalian cell cycle Elife |
Wang Y, Weisenhorn E, MacDiarmid CW, et al. (2018) The cellular economy of the Saccharomyces cerevisiae zinc proteome. Metallomics : Integrated Biometal Science |
Ullah I, Wang Y, Eide DJ, et al. (2018) Evolution, and functional analysis of Natural Resistance-Associated Macrophage Proteins (NRAMPs) from Theobroma cacao and their role in cadmium accumulation. Scientific Reports. 8: 14412 |
Taggart J, Wang Y, Weisenhorn E, et al. (2018) The GIS2 Gene Is Repressed by a Zinc-Regulated Bicistronic RNA in Saccharomyces cerevisiae. Genes. 9 |
Bucci MD, Weisenhorn E, Haws S, et al. (2018) An Autophagy-Independent Role for ATG41 in Sulfur Metabolism During Zinc Deficiency. Genetics |
Taggart J, MacDiarmid CW, Haws S, et al. (2017) Zap1-dependent transcription from an alternative upstream promoter controls translation of RTC4 mRNA in zinc-deficient Saccharomyces cerevisiae. Molecular Microbiology |
Wu YH, Taggart J, Song PX, et al. (2016) An MSC2 Promoter-lacZ Fusion Gene Reveals Zinc-Responsive Changes in Sites of Transcription Initiation That Occur across the Yeast Genome. Plos One. 11: e0163256 |