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Dephosphorylation Of Iqg1 By Cdc14 Regulates Cytokinesis In Budding Yeast, Daniel P. Miller, Hana Kenton Hall, Ryan Chaparian, Madison Mara, Alison Mueller, Mark C. Hall, Katie Shannon
Dephosphorylation Of Iqg1 By Cdc14 Regulates Cytokinesis In Budding Yeast, Daniel P. Miller, Hana Kenton Hall, Ryan Chaparian, Madison Mara, Alison Mueller, Mark C. Hall, Katie Shannon
Biological Sciences Faculty Research & Creative Works
Cytokinesis separates cells by contraction of a ring composed of filamentous actin (F-actin) and type II myosin. Iqg1, an IQGAP family member, is an essential protein in Saccharomyces cerevisiae required for assembly and contraction of the actomyosin ring. Localization of F-actin to the ring occurs only after anaphase and is mediated by the calponin homology domain (CHD) of Iqg1, but the regulatory mechanisms that temporally restrict actin ring assembly are not well defined. We tested the hypothesis that dephosphorylation of four perfect cyclin-dependent kinase (Cdk) sites flanking the CHD promotes actin ring formation, using site-specific alanine mutants. Cells expressing the …
Foraging Alters Resilience/Vulnerability To Sleep Disruption And Starvation In Drosophila, Jeffrey Donlea, Averi Leahy, Matthew S. Thimgan, Yasuko Suzuki, Bryon N. Hughson, Marla B. Sokolowski, Paul J. Shaw
Foraging Alters Resilience/Vulnerability To Sleep Disruption And Starvation In Drosophila, Jeffrey Donlea, Averi Leahy, Matthew S. Thimgan, Yasuko Suzuki, Bryon N. Hughson, Marla B. Sokolowski, Paul J. Shaw
Biological Sciences Faculty Research & Creative Works
Recent human studies suggest that genetic polymorphisms allow an individual to maintain optimal cognitive functioning during sleep deprivation. If such polymorphisms were not associated with additional costs, selective pressures would allow these alleles to spread through the population such that an evolutionary alternative to sleep would emerge. To determine whether there are indeed costs associated with resiliency to sleep loss, we challenged natural allelic variants of the foraging gene (for) with either sleep deprivation or starvation. Flies with high levels of Protein Kinase G (PKG) (forR) do not display deficits in short-term memory following 12 …
Reverse Engineering Of Oxygen Transport In The Lung: Adaptation To Changing Demands And Resources Through Space-Filling Networks, Chen Hou, Stefan Gheorghiu, Virginia H. Huxley, Peter Pfeifer
Reverse Engineering Of Oxygen Transport In The Lung: Adaptation To Changing Demands And Resources Through Space-Filling Networks, Chen Hou, Stefan Gheorghiu, Virginia H. Huxley, Peter Pfeifer
Biological Sciences Faculty Research & Creative Works
The space-filling fractal network in the human lung creates a remarkable distribution system for gas exchange. Landmark studies have illuminated how the fractal network guarantees minimum energy dissipation, slows air down with minimum hardware, maximizes the gas- exchange surface area, and creates respiratory flexibility between rest and exercise. In this paper, we investigate how the fractal architecture affects oxygen transport and exchange under varying physiological conditions, with respect to performance metrics not previously studied. We present a renormalization treatment of the diffusion-reaction equation which describes how oxygen concentrations drop in the airways as oxygen crosses the alveolar membrane system. The …
Identifying Sleep Regulatory Genes Using A Drosophila Model Of Insomnia, Laurent Seugnet, Yasuko Suzuki, Matthew S. Thimgan, Jeffrey Donlea, Sarah I. Gimbel, Laura Gottschalk, Stephen P. Duntley, Paul J. Shaw
Identifying Sleep Regulatory Genes Using A Drosophila Model Of Insomnia, Laurent Seugnet, Yasuko Suzuki, Matthew S. Thimgan, Jeffrey Donlea, Sarah I. Gimbel, Laura Gottschalk, Stephen P. Duntley, Paul J. Shaw
Biological Sciences Faculty Research & Creative Works
Although it is widely accepted that sleep must serve an essential biological function, little is known about molecules that underlie sleep regulation. Given that insomnia is a common sleep disorder that disrupts the ability to initiate and maintain restorative sleep, a better understanding of its molecular underpinning may provide crucial insights into sleep regulatory processes. Thus, we created a line of flies using laboratory selection that share traits with human insomnia. After 60 generations, insomnia-like (ins-l) flies sleep 60 min a day, exhibit difficulty initiating sleep, difficulty maintaining sleep, and show evidence of daytime cognitive impairment. ins-l flies …