Browsing by Author "Hardin, Paul E"
Now showing items 1-8 of 8
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Jung, Young-Ho (2022-03-23)Cell fate decisions in eukaryotic organisms can be altered in response to small dose changes of transcription factors. Drosophila melanogaster sex determination is such an example. Sex-lethal (Sxl) is the master regulatory ...
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Gunawardhana, Kushan Lakshitha (2018-01-17)TThe Drosophila circadian clock is comprised of transcriptional feedback loops, which control rhythmic gene expression and are also responsible for daily rhythms in physiology, metabolism and behavior. The core feedback ...
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Agrawal, Parul (2016-08-03)Circadian (~24 h) clocks regulate daily cycles in gene expression to control overt rhythms in physiology, metabolism and behavior. In Drosophila, a transcriptional feedback loop activated by CLOCK-CYCLE (CLK-CYC) complexes, ...
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Houl, Jerry H; Ng, Fanny; Taylor, Pete; Hardin, Paul E (BMC Neuroscience, 2008)
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Liu, Shian (2016-01-08)K^+ channels are a class of membrane proteins that rapidly and selectively transport K^+ ions across lipid membranes. K^+ ions are concentrated inside the cell, and its efflux is responsible for the rapid repolarization ...
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Lazareva, Anna A; Roman, Gregg; Mattox, William; Hardin, Paul E; Dauwalder, Brigitte; Stern, David L (PLoS Genetics, 2007)
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Sahasrabudhe, Aishwarya (2023-04-10)Almost every mammalian cell harbors a circadian clock that helps the organism anticipate changes in the environment across a period of 24-hours to enable it to carry out biological functions at the optimum time of day. All ...
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Dekhang, Rigzin N (2015-05-05)The Neurospora crassa circadian clock is based on a highly regulated molecular negative feedback loop, similar to molecular clocks in all eukaryotes. A core component of the N. crassa molecular clock is the White Collar ...