nanosymposium - Society for Neuroscience
nanosymposium - Society for Neuroscience
nanosymposium - Society for Neuroscience
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11:00 D10 334.4 NF-Y is essential <strong>for</strong> expression of the<br />
proapoptotic bim gene in neurons. J. HAM*; R. HUGHES;<br />
M. KRISTIANSEN; R. MANTOVANI. UCL Inst. of Child Hlth.,<br />
Univ. degli Studi di Milano.<br />
8:00 D11 334.5 Ketamine anesthesia during the first<br />
week of life can cause long-lasting cognitive deficits in rhesus<br />
monkeys. M. G. PAULE*; M. LI; X. ZOU; C. HOTCHKISS; J.<br />
P. HANIG; T. A. PATTERSON; W. SLIKKER, Jr.; C. WANG.<br />
Natl. Ctr. Toxicological Res., Bionetics Corp., Ctr. <strong>for</strong> Drug<br />
Evaluation and Res.<br />
9:00 D12 334.6 Cell specific ablation of pten signaling<br />
alters gabaergic circuitry. G. N. BARNES*; Y. LI. Vanderbilt<br />
Univ. Sch. Med.<br />
10:00 D13 334.7 GABA toxicity in immature Purkinje cells is<br />
prevented by the steroid mifepristone. J. RAKOTOMAMONJY;<br />
C. LEVENES; M. M. SCHUMACHER*; A. GHOUMARI.<br />
INSERM UMR788, UMR8119 CNRS-INC-Université Paris<br />
Decartes.<br />
POSTER<br />
335. Visual Development: Retina, LGN, V1<br />
Theme A: Development<br />
Mon. 8:00 AM — San Diego Convention Center, Halls B-H<br />
8:00 D14 335.1 • The crumbs apicobasal polarity proteins<br />
are required <strong>for</strong> photoreceptor stability and functions in the<br />
zebrafish retina. X. WEI*. Univ. Pittsburgh.<br />
9:00 D15 335.2 Epigenetic changes at gene promoters<br />
during mouse rod photoreceptor development. C. J.<br />
BARNSTABLE*; E. POPOVA; S. S. M. ZHANG. Penn State<br />
Coll Med.<br />
10:00 D16 335.3 Bax-mediated apoptosis generates<br />
functional mosaic of ipRGCs. D. MCNEILL*; S. CHEN; K. S.<br />
CHEW; R. KURUVILLA; S. HATTAR. Johns Hopkins Univ.<br />
11:00 D17 335.4 Changing dynamics of spontaneous<br />
waves during retinal development: A novel panretinal<br />
perspective achieved with the Active Pixel Sensor (APS)<br />
4,096 electrodes array. E. SERNAGOR*; A. MACCIONE;<br />
M. HENNIG; M. GANDOLFO; S. EGLEN; L. BERDONDINI.<br />
Newcastle Univ., Italian Inst. of Technol., Univ. of Edinburgh,<br />
Univ. of Genova, Cambridge Univ.<br />
8:00 D18 335.5 Mechanisms underlying retinal waves in<br />
mice lacking β2-containing nAChRs. L. A. KIRKBY*; M. B.<br />
FELLER. UC Berkeley.<br />
9:00 D19 335.6 The role of starburst amacrine cells<br />
in initiating retinal waves. K. J. FORD*; A. L. FÉLIX; M.<br />
B. FELLER. Univ. Cali<strong>for</strong>nia Berkeley, Ecole des Ponts<br />
ParisTech.<br />
10:00 D20 335.7 Characterization of genetically<br />
labeled subsets of direction selective ganglion cells in two<br />
transgenic mouse lines. M. RIVLIN-ETZION*; W. WEI; A. D.<br />
HUBERMAN; K. ZHOU; B. A. BARRES; M. B. FELLER. Univ.<br />
of Cali<strong>for</strong>nia, Berkeley, Stan<strong>for</strong>d Univ. Sch. of Med.<br />
11:00 D21 335.8 Functional analysis of bHLH factor Hes1<br />
on the mouse retinal development. K. SAKAGAMI*; R.<br />
KAGEYAMA; X. MU; W. H. KLEIN; X. YANG. UCLA, Jules<br />
Stein Eye Inst., Kyoto Univ., Univ. at Buffalo, Univ. of Texa,<br />
M.D. Anderson Cancer Ctr.<br />
8:00 D22 335.9 Intraocular muscimol injection reversibly<br />
silences spontaneous retinal activity. A. M. HAMBY*; W. WEI;<br />
M. B. FELLER. Univ. of Cali<strong>for</strong>nia Berkeley.<br />
9:00 D23 335.10 APB blockade of retinal waves does not<br />
prevent eye-specific segregation of retinogeniculate afferents.<br />
J. M. BALLESTEROS*; C. SUN; B. CHAPMAN. Univ. of<br />
Cali<strong>for</strong>nia, Davis.<br />
10:00 D24 335.11 Control of neonatal retinal ganglion<br />
cell activity using the photoswitchable potassium channel<br />
blocker AAQ. S. W. FAILOR*; C. SUN; R. H. KRAMER; B.<br />
CHAPMAN. Univ. of Cali<strong>for</strong>nia, Davis, Univ. of Cali<strong>for</strong>nia,<br />
Berkeley.<br />
11:00 D25 335.12 The effect of light deprivation on retinal<br />
ganglion cell morphology depends on developmental stage.<br />
J. L. COOMBS*; D. A. VAN DER LIST; B. CHAPMAN. Univ.<br />
Cali<strong>for</strong>nia- Davis, Ctr. <strong>for</strong> <strong>Neuroscience</strong>, UC Davis.<br />
8:00 D26 335.13 Morphologies of YFP expressing retinal<br />
ganglion cells in mice where cholinergic transmission has<br />
been altered by knockout of the nicotinic acetylcholine<br />
receptor β2 subunit or by immunotoxin ablation of starburst<br />
amacrine cells. D. A. VAN DER LIST; J. L. COOMBS; J. M.<br />
BALLESTEROS; C. SUN*; B. CHAPMAN. Univ. Calif, Davis,<br />
Univ. of Cali<strong>for</strong>nia, Davis.<br />
9:00 D27 335.14 • G-protein coupling with adenosine A2A<br />
receptor regulates retinal waves in developing rat retinas. P.<br />
HUANG*; Y. CHEN; C. WANG. Natl. Taiwan Univ.<br />
10:00 D28 335.15 Developmentally regulated expression<br />
of CRMP4 in the interlaminar zones of the lateral geniculate<br />
nucleus. C. J. FLYNN*; W. M. USREY; J. C. CROWLEY. Dept.<br />
of Biol. Sciences, Carnegie Mellon Univ., Univ. of Cali<strong>for</strong>nia,<br />
Davis.<br />
11:00 D29 335.16 Differential expression of VGLUT1 and<br />
VGLUT2 across early development in the kitten LGN. C. W.<br />
KILEY*; W. M. USREY. UC Davis.<br />
8:00 D30 335.17 Spatial-temporal interactions of<br />
spontaneous retinal activity during eye-specific segregation.<br />
H. XU*, Sr.; M. FURMAN; M. PICCIOTTO; M. CRAIR. Yale<br />
University, Sch. of Med.<br />
9:00 D31 335.18 Timing of corticogeniculate innervation<br />
in the dorsal lateral geniculate nucleus (dLGN) of the<br />
mouse relies on retinogeniculate axon innervation. T. A.<br />
SEABROOK*; R. N. ELDANAF; T. E. KRAHE; M. A. FOX; W.<br />
GUIDO. Virginia Commonwealth Univ.<br />
10:00 D32 335.19 Development of relay neurons in the<br />
dorsal lateral geniculate nucleus (dLGN) of the mouse in<br />
the absence of retinal innervation. R. N. ELDANAF*; M.<br />
A. FOX; T. E. KRAHE; E. K. DILGER; W. GUIDO. Virginia<br />
Commonwealth Univ.<br />
11:00 D33 335.20 Spontaneous retinal activity shapes<br />
network dynamics in the developing visual cortex in vivo. F.<br />
SIEGEL*; C. LOHMANN. Netherlands Inst. For Neurosci.,<br />
Max Planck Inst. Of Neurobio.<br />
8:00 D34 335.21 Abnormal binocular balance contributes to<br />
altered OD plasticity in PirB-/- mice. M. DJURISIC*; M. MANN;<br />
M. HUBENER; C. SHATZ. Bio-X, Stan<strong>for</strong>d Univ., Max Planck<br />
Inst. of Neurobio.<br />
9:00 D35 335.22 A conserved switch in sensory<br />
processing prepares developing neocortex <strong>for</strong> vision. M.<br />
T. COLONNESE*; A. KAMINSKA; R. KHAZIPOV. INMED/<br />
INERM U901, APHP, Groupe Hospitalier Cochin-Saint Vincent<br />
de Paul.<br />
10:00 D36 335.23 Ipsilateral lateral line connections from the<br />
medulla to the tectum in Xenopus. S. B. UDIN*. SUNY.<br />
12 | <strong>Society</strong> <strong>for</strong> <strong>Neuroscience</strong> • Indicated a real or perceived conflict of interest, see page 157 <strong>for</strong> details.<br />
� Indicates a high school or undergraduate student presenter.