POSTER SESSIONS
See page 14 for presentation schedule
Poster board number is in
bold
above title. The first author is the presenter. Full abstracts can be found online at dros-conf.org
70
640
A
Dissecting the Dopaminergic Circuitry Underlying Feeding
Behavior in
Drosophila
.
Lay Kodama
1
,
Qili Liu
1
,
Mark Wu
1,2
.
1)
Department of Neurology, Johns Hopkins University, Baltimore,
MD; 2) Department of Neuroscience, Johns Hopkins University,
Baltimore, MD.
641
B
Acid taste detection in
Drosophila
.
Sandhya Charlu
1
,
Zev
Wisotsky
2
,
Adriana Medina
3
,
Anupama Dahanukar
1,2,3
.
1)
Biomedical Sciences Graduate Program, UC Riverside; 2)
Interdepartmental Neuroscience Program, UC RIverside; 3)
Department of Entomology, IIGB, UC Riverside.
642
C
Gustatory perception regulates the behavioral response to
starvation.
Nancy J. Linford, Scott D. Pletcher.
Molecular and
Integrative Physiology, University of Michigan, Ann Arbor, MI.
643
A
Modularity of Function among Rickets-expressing neurons in the
Wing Expansion Network of Drosophila.
Feici Diao
1
,
Fengqiu
Diao
1
,
Chun-yuan Ting
2
,
Chi-hong Lee
2
,
Benjamin White
1
.
1)
NIMH, NIH,Bethesda,MD; 2) NICHD, NIH,Bethesda,MD.
644
B
The
Drosophila
fat body modulates sexually dimorphic responses to
stress.
Wendi S. Neckameyer, Kathryn J. Argue.
Dept Pharmac &
Physiol Sci, St Louis Univ School Med, St Louis, MO.
645
C
Neurotransmitter receptors regulate ecdysteroid biosynthesis and
developmental transition in Drosophila.
Yuko Shimada
1
,
Yosuke
Umei
1
,
Jevgenija Maramzina
1
,
Ryusuke Niwa
1,2
.
1)
Graduate
School of Life and Environmental Sciences, University of Tsukuba,
Tsukuba, Ibaraki, Japan; 2) PRESTO, JST, Japan.
646
A
Deciphering how general anesthetics work: the role of ion
channels.
Joel P. Goodman
1
,
Trevor Batty
1
,
Winnie Cheung
1
,
J.
Ryan Jackson
1
,
Michael J. Murray
2
,
Gerald B. Call
1
.
1)
Arizona
College of Osteopathic Medicine, Midwestern University, Glendale,
AZ; 2) Department of Anesthesiology, Mayo Clinic, Scottsdale,
AZ.
647
B
The ion channel
seizure
regulates Adipokinetic hormone cell
excitability.
Rebecca J. Perry, Jason T. Braco, Erik C.
Johnson.
Department of Biology, Wake Forest University,
Winston-Salem, NC.
648
C
Genetic variation in associative learning ability of Drosophila
melanogaster larvae.
Seana Lymer, Julia Saltz, Sergey
Nuzhdin.
University of Southern California, Los Angeles, CA.
649
A
Mapping Glial Circuits Underlying Neuronal Function and Behavior
in
Drosophila
.
Taylor R. Fore
1
,
Camille Milton*
1
,
Alexander
Nasr*
1
,
Kody McKay*
2
,
Jered Stowers
1
,
Hong Bao
1
,
Bing
Zhang
1
.
1)
Department of Biology, University of Oklahoma,
Norman, OK; 2) Department of Biological Sciences, Southwestern
Oklahoma State University, Weatherford, OK.
650
B
Individual leg tracking reveals the basic building blocks of
behavior.
James S. Kain
1
,
Chris Stokes
1
,
Quentin Gaudry
2
,
Xiangzhi Song
1,3
,
James Foley
1
,
Rachel Wilson
2
,
Benjamin de
Bivort
1,4
.
1)
The Rowland Institute at Harvard, Cambridge, MA; 2)
Department of Neurobiology, Harvard Medical School, Boston,
MA; 3) College of Chemistry & Chemical Engineering, Central
South University, Changsha, China; 4) Department of Organismic
and Evolutionary Biology, Harvard University, Cambridge, MA.
651
C
Sensory modalities relevant for the walking behavior of adult
Drosophila melanogaster.
Cesar S. Mendes
1
,
Imre Bartos
2
,
Turgay Akay
3
,
Szabolcs Marka
2
,
Richard Mann
1
.
1)
Columbia
University, Dept. Biochemistry and Molecular Biochemistry, , New
York, NY; 2) Columbia University Dept. of Physics New York ,
NY; 3) Columbia University Dept. of Neurological Surgery, New
York, NY.
652
A
Increasing Tip60 HAT levels rescues axonal transport defects and
associated behavioral phenotypes in a Drosophila Alzheimer’s
disease model.
Ashley A. Zervos, William Reube, Felice
Elefant.
Dept Biol, Drexel Univ, Philadelphia, PA.
653
B
Mechanisms of force generation and auditory amplification in
auditory neurons of
Drosophila melanogaster
.
Somdatta Karak
1
,
Julia Jacobs
2
,
Maurice Kernan
3
,
Daniel Eberl
2
,
Martin
Goepfert
1
.
1)
Schwann Schleiden Forschungszentrum, Univ of
Goettingen, Goettingen, Niedersachsen, Germany; 2) 269BB, Dept.
of Biology, Univ of Iowa, Iowa, IA 52242, USA; 3) Dept. of
Neurobiology and Behavior, SUNY, New York, USA.
654
C
Dopamine and ecdysone acutely modulate AKH signaling during
physiological stress in Drosophila.
Jason T. Braco, Greg E.
Alberto, Emily L. Gillespie, Erik C. Johnson.
Biology, Wake
Forest University, Winston-Salem, NC.
655
A
The temporal pattern of neural activity underlying ecdysis behavior
is regulated by neuropeptides downstream of Ecdysis Triggering
Hormone.
John Ewer, Wilson Mena.
Centro Interdisciplinario de
Neurociencias, Universidad de Valparaiso, Valparaiso, Valparaiso,
Chile.
656
B
Neuropeptide signaling is required for tissue damage-induced
nociceptive sensitization in
Drosophila
larvae.
Seol-Hee Im
1
,
Daniel Babcock
1
,
Felona Gunawan
2
,
Michael Galko
1
.
1)
Biochemistry and Molecular Biology, University of Texas MD
Anderson Cancer Center, Houston, TX; 2) Department of
Biochemistry Cell and Molecular Biology, Rice University,
Houston, TX.
657
C
Control of Body Size by TGF-β Signaling.
Lindsay Moss-Taylor,
Michael O'Connor.
University of Minnesota, Minneapolis, MN.
658
A
Dopamine Can Regulate Period of the
Drosophila
Circadian
Clock.
Karol Cichewicz
1
,
Emma Garren
1
,
Magali Iché-Torres
2
,
Serge Birman
2
,
Jay Hirsh
1
.
1)
Biology, University of Virginia,
Charlottesville, VA; 2) CNRS, ESPCI, Paris.
659
B
Functional DTH expression from undriven UAS-DTHg.
Emma J.
Garren, Karol Cichewicz, Jay Hirsh.
Biology, University of
Virginia, Charlottesville, VA.
660
C
The Effect of Peripheral and Central Histamine Deficiency on
Courtship Behavior in
Drosophila melanogaster
.
Judith A. Ingles
1
,
Anthony Hage
1
,
Shelby Lemke
1,3
,
Martin G. Burg
1,2
.
1)
