Publications

High-Frequency Hearing Is Required to Compute a Topographic Map of Auditory Space in the Mouse Superior Colliculus.

Yufei Si, Shinya Ito, Alan M. Litke, and David A. Feldheim
eNeuro. 2022 May 17

Adult Expression of Tbr2 Is Required for the Maintenance but Not Survival of Intrinsically Photosensitive Retinal Ganglion Cells.

Sadaf Abed, Andreea Reilly, Sebastian J. Arnold, and David A. Feldheim
Front. Cell Neurosci. 2022 Mar 23.

Nonlinear visuoauditory integration in the mouse superior colliculus.

Shinya Ito, Yufei Si, Alan M. Litke, and David A. Feldheim
Plos Computational Biology. 2021 Nov 1.

Spectral cues are necessary to encode azimuthal auditory space in the mouse superior colliculus.

Shinya Ito, Yufei Si, David A. Feldheim, and Alan M. Litke
Nat Commun. 2020 Feb 27.

The Mouse Superior Colliculus: An Emerging Model for Studying Circuit Formation and Function

Shinya Ito, David A. Feldheim
J Neurosci. 2018 Feb 13.

Segregation of Visual Response Properties in the Mouse Superior Colliculus and their Modulation during Locomotion

Shinya Ito, David A. Feldheim and Alan M. Litke
J Neurosci. 2017 Aug 3.

Expression of transcription factors divide retinal ganglion cells into distinct classes

Neal Sweeney, Kiely James, Andreea Nistorica, Ryan Lorig-Roach, and David A. Feldheim
J Comp Neurol. 2017 Jan 12.

Corticothalamic Axons Are Essential for Retinal Ganglion Cell Axon Targeting to the Mouse Dorsal Lateral Geniculate Nucleus

James A. Shanks, Shinya Ito, Laura Schaevitz, Jena Yamada, Bin Chen, Alan Litke, and David A. Feldheim
J Neurosci. 2016 May 11.

Stochastic Interaction between Neural Activity and Molecular Cues in the Formation of Topographic Maps

Owens MT, Feldheim DA, Stryker MP, Triplett JW.
Neuron. 2015 Sept 23.

Ephrin-As are required for the topographic mapping but not laminar choice of physiologically distinct RGC types.

Sweeney NT, James KN, Sales EC, Feldheim DA.
Dev Neurobiol. 2015 Feb 3.

Tbr2 is required to generate a neural circuit mediating the pupillary light reflex.

Sweeney NT, Tierney H, Feldheim DA.
J Neurosci. 2014 Apr 16;34(16):5447-53.

Dendritic and axonal targeting patterns of a genetically-specified class of retinal ganglion cells that participate in image-forming circuits.

Triplett JW, Wei W, Gonzalez C, Sweeney NT, Huberman AD, Feller MB, Feldheim DA.
Neural Dev. 2014 Feb 5;9:2.

Alignment of multimodal sensory input in the superior colliculus through a gradient-matching mechanism.

Triplett JW, Phan A, Yamada J, Feldheim DA.
J Neurosci. 2012 Apr 11;32(15):5264-71.

Competition is a driving force in topographic mapping.

Triplett JW, Pfeiffenberger C, Yamada J, Stafford BK, Sweeney NT, Litke AM, Sher A, Koulakov AA, Feldheim DA.
Proc Natl Acad Sci U S A. 2011 Nov 22;108(47):19060-5.

Spatial-temporal patterns of retinal waves underlying activity-dependent refinement of retinofugal projections.

Stafford BK, Sher A, Litke AM, Feldheim DA.
Neuron. 2009 Oct 29;64(2):200-12.

Retinal input instructs alignment of visual topographic maps.

Triplett JW, Owens MT, Yamada J, Lemke G, Cang J, Stryker MP, Feldheim DA.
Cell. 2009 Oct 2;139(1):175-85.

Eph/ephrin gradients in the retinotectal system of Rana pipiens: developmental and adult expression patterns.

Scalia F, Currie JR, Feldheim DA.
J Comp Neurol. 2009 May 1;514(1):30-48. doi: 10.1002/cne.21968.

Roles of ephrin-As and structured activity in the development of functional maps in the superior colliculus.

Cang J, Wang L, Stryker MP, Feldheim DA.
J Neurosci. 2008 Oct 22;28(43):11015-23. doi: 10.1523/JNEUROSCI.2478-08.2008.

Ephrin-As and patterned retinal activity act together in the development of topographic maps in the primary visual system.

Pfeiffenberger C, Yamada J, Feldheim DA.
J Neurosci. 2006 Dec 13;26(50):12873-84.

Ephrin-As guide the formation of functional maps in the visual cortex.

Cang J, Kaneko M, Yamada J, Woods G, Stryker MP, Feldheim DA.
Neuron. 2005 Nov 23;48(4):577-89.