Open Access. Powered by Scholars. Published by Universities.®

Life Sciences Commons

Open Access. Powered by Scholars. Published by Universities.®

2009

Drosophila

Articles 1 - 7 of 7

Full-Text Articles in Life Sciences

Nf-Kappab Signaling Pathways In Mammalian And Insect Innate Immunity, Neal S. Silverman, Tom Maniatis Dec 2009

Nf-Kappab Signaling Pathways In Mammalian And Insect Innate Immunity, Neal S. Silverman, Tom Maniatis

Neal Silverman

In this review, we discuss recent advances in understanding the signaling pathways in mammalian and Drosophila innate immunity, with emphasis on the mechanisms by which NF-kappaB/Rel family proteins are activated.

Go to article

Isoform- And Cell-Specific Function Of Tyrosine Decarboxylase In The Drosophila Malpighian Tubule, Edward M. Blumenthal Dec 2009

Isoform- And Cell-Specific Function Of Tyrosine Decarboxylase In The Drosophila Malpighian Tubule, Edward M. Blumenthal

Biological Sciences Faculty Research and Publications

The biogenic amine tyramine (TA) is a potent diuretic factor when applied to the Malpighian tubule (MT) of Drosophila melanogaster, stimulating both urine production and transepithelial chloride conductance. Isolated MTs can respond not only to TA but also to its precursor, tyrosine; this observation led to the proposal that MTs are able to synthesize TA from applied tyrosine through the action of the enzyme tyrosine decarboxylase (TDC). In the current study it is shown that the non-neuronal isoform of TDC, Tdc1, is expressed in the principal cells of the MT. A mutant allele of Tdc1, Tdc1f03311 …

Go to article

Metazoan Stress Granule Assembly Is Mediated By P-Eif2alpha-Dependent And -Independent Mechanisms, Natalie Farny, Nancy Kedersha, Pamela Silver Sep 2009

Metazoan Stress Granule Assembly Is Mediated By P-Eif2alpha-Dependent And -Independent Mechanisms, Natalie Farny, Nancy Kedersha, Pamela Silver

Natalie G. Farny

Stress granules (SGs) are cytoplasmic bodies wherein translationally silenced mRNAs are recruited for triage in response to environmental stress. We report that Drosophila cells form SGs in response to arsenite and heat shock. Drosophila SGs, like mammalian SGs, are distinct from but adjacent to processing bodies (PBs, sites of mRNA silencing and decay), require polysome disassembly, and are in dynamic equilibrium with polysomes. We further examine the role of the two Drosophila eIF2alpha kinases, PEK and GCN2, in regulating SG formation in response to heat and arsenite stress. While arsenite-induced SGs are dependent upon eIF2alpha phosphorylation, primarily via PEK, heat-induced …

Go to article

Defective Gut Function In Drop-Dead Mutant Drosophila, Cassandra R. Peller, Elizabeth M. Bacon, Julie A. Bucheger, Edward M. Blumenthal Sep 2009

Defective Gut Function In Drop-Dead Mutant Drosophila, Cassandra R. Peller, Elizabeth M. Bacon, Julie A. Bucheger, Edward M. Blumenthal

Biological Sciences Faculty Research and Publications

Mutation of the gene drop-dead (drd ) causes adult Drosophila to die within 2 weeks of eclosion and is associated with reduced rates of defecation and increased volumes of crop contents. In the current study, we demonstrate that flies carrying the strong allele drdlwf display a reduction in the transfer of ingested food from the crop to the midgut, as measured both as a change in the steady-state distribution of food within the gut and also in the rates of crop emptying and midgut filling following a single meal. Mutant flies have abnormal triglyceride (TG) and glycogen stores …

Go to article

Role Of Ecdysone Signaling In Fat Body Remodeling, Marsha Kristel Bernardo, N. Bond, Allen G. Gibbs Aug 2009

Role Of Ecdysone Signaling In Fat Body Remodeling, Marsha Kristel Bernardo, N. Bond, Allen G. Gibbs

Undergraduate Research Opportunities Program (UROP)

Climate change is fundamentally connected to animal development and survival, and the life history of an organism must be coordinated with predictable seasonal changes of the environment. Climate change affects the life cycle of plants, a major food source for insects. If photoperiod, the primary environmental queue that insects utilize to determine the proper emergence time, and food availability becomes out of sync, many populations of insects and other animals could be threatened. Understanding animal development can provide insight into this issue and could provide clues that may help the scientific community predict how insect populations may respond to climate …

Go to article

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 Jun 2009

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 …

Go to article

A Microrna Imparts Robustness Against Environmental Fluctuation During Development, Xin Li, Justin J. Cassidy, Catherine A. Reinke, Stephen Fischboeck, Richard W. Carthew Jan 2009

A Microrna Imparts Robustness Against Environmental Fluctuation During Development, Xin Li, Justin J. Cassidy, Catherine A. Reinke, Stephen Fischboeck, Richard W. Carthew

Faculty Publications

The microRNA miR-7 is perfectly conserved from annelids to humans, and yet some of the genes that it regulates in Drosophila are not regulated in mammals. We have explored the role of lineage restricted targets, using Drosophila , in order to better understand the evolutionary significance of microRNA-target relationships. From studies of two well characterized developmental regulatory networks, we find that miR-7 functions in several interlocking feedback and feedforward loops, and propose that its role in these networks is to buffer them against perturbation. To directly demonstrate this function for miR-7, we subjected the networks to temperature fluctuation and found …

Go to article