Principal Investigator

Tatiana Pasternak, Ph.D. University of Rochester work Box 603 601 Elmwood Ave Rochester NY 14642 office: MC 5-6409 p +1-585-275-8668 tania@cvs.rochester.edu

Recent Publications

The following list has been created from the PubMed database. Click the logo beside each publication to view the abstract.

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1. Hussar CR
2. Pasternak T
(2009). Flexibility of sensory representations in prefrontal cortex depends on cell type. Neuron. In press.
1. Zaksas D
2. Pasternak T
(2006 Nov 09). Directional signals in the prefrontal cortex and in area MT during a working memory for visual motion task. J Neurosci. 26, 11726-42.
1. Zaksas D
2. Pasternak T
(2005 Nov 18). Area MT neurons respond to visual motion distant from their receptive fields. J Neurophysiol. 94, 4156-67.
1. Pasternak T
2. Greenlee MW
(2005 Feb 01). Working memory in primate sensory systems. Nat Rev Neurosci. 6, 97-107.
1. Bisley JW
2. Zaksas D
3. Droll JA
4. Pasternak T
(2004 Jan 12). Activity of neurons in cortical area MT during a memory for motion task. J Neurophysiol. 91, 286-300.
1. Huxlin KR
2. Pasternak T
(2003 Dec 05). Training-induced recovery of visual motion perception after extrastriate cortical damage in the adult cat. Cereb Cortex. 14, 81-90.
1. Pasternak T
2. Zaksas D
(2003 Oct 09). Stimulus specificity and temporal dynamics of working memory for visual motion. J Neurophysiol. 90, 2757-62.
1. Zaksas D
2. Bisley JW
3. Pasternak T
(2001 Aug 09). Motion information is spatially localized in a visual working-memory task. J Neurophysiol. 86, 912-21.
1. Bisley JW
2. Zaksas D
3. Pasternak T
(2001 Jan 26). Microstimulation of cortical area MT affects performance on a visual working memory task. J Neurophysiol. 85, 187-96.
1. Huxlin KR
2. Pasternak T
(2000 Dec 20). Long-term neurochemical changes after visual cortical lesions in the adult cat. J Comp Neurol. 429, 221-41.
1. Bisley JW
2. Pasternak T
(2000 Nov 16). The multiple roles of visual cortical areas MT/MST in remembering the direction of visual motion. Cereb Cortex. 10, 1053-65.
1. Reynolds JH
2. Pasternak T
3. Desimone R
(2000 Aug 07). Attention increases sensitivity of V4 neurons. Neuron. 26, 703-14.
1. Rudolph K
2. Pasternak T
(1999 Apr 22). Transient and permanent deficits in motion perception after lesions of cortical areas MT and MST in the macaque monkey. Cereb Cortex. 9, 90-100.
1. Rudolph KK
2. Pasternak T
(1997 Mar 11). Lesions in cat lateral suprasylvian cortex affect the perception of complex motion. Cereb Cortex. 6, 814-22.
1. Pasternak T
2. Tompkins J
3. Olson CR
(1995 Apr 20). The role of striate cortex in visual function of the cat. J Neurosci. 15, 1940-50.
1. Rudolph KK
2. Ferrera VP
3. Pasternak T
(1995 Mar 17). A reduction in the number of directionally selective neurons extends the spatial limit for global motion perception. Vision Res. 34, 3241-51.
1. Pasternak T
2. Merigan WH
(1994 Oct 03). Motion perception following lesions of the superior temporal sulcus in the monkey. Cereb Cortex. 4, 247-59.
1. Pasternak T
2. Maunsell JH
(1992 Dec 11). Spatiotemporal sensitivity following lesions of area 18 in the cat. J Neurosci. 12, 4521-9.
1. Pasternak T
2. Horn K
(1991 Jul 23). Spatial vision of the cat: variation with eccentricity. Vis Neurosci. 6, 151-8.
1. Riley NM
2. Hodos W
3. Pasternak T
(1991 May 23). Effects of serial lesions of telencephalic components of the visual system in pigeons. Vis Neurosci. 1, 387-94.
1. Pasternak T
2. Horn KM
3. Maunsell JH
(1991 Mar 13). Deficits in speed discrimination following lesions of the lateral suprasylvian cortex in the cat. Vis Neurosci. 3, 365-75.
1. Pasternak T
2. Albano JE
3. Harvitt DM
(1990 Oct 12). The role of directionally selective neurons in the perception of global motion. J Neurosci. 10, 3079-86.
1. Pasternak T
(1988 May 24). Discrimination of differences in speed and flicker rate depends on directionally selective mechanisms. Vision Res. 27, 1881-90.
1. Pasternak T
(1987 Feb 04). The role of cortical directional selectivity in detection of motion and flicker. Vision Res. 26, 1187-94.
1. Pasternak T
2. Leinen LJ
(1986 Jun 06). Pattern and motion vision in cats with selective loss of cortical directional selectivity. J Neurosci. 6, 938-45.
1. Pasternak T
2. Schumer RA
3. Gizzi MS
4. Movshon JA
(1986 Feb 28). Abolition of visual cortical direction selectivity affects visual behavior in cats. Exp Brain Res. 61, 214-7.
1. Spear PD
2. Tong L
3. McCall MA
4. Pasternak T
(1985 Oct 02). Developmentally induced loss of direction-selective neurons in the cat's lateral suprasylvian visual cortex. Brain Res. 352, 281-5.
1. Pasternak T
2. Flood DG
3. Eskin TA
4. Merigan WH
(1985 Jul 30). Selective damage to large cells in the cat retinogeniculate pathway by 2,5-hexanedione. J Neurosci. 5, 1641-52.
1. Pasternak T
2. Merigan WH
(1985 Mar 21). Effects of stimulus speed on direction discriminations. Vision Res. 24, 1349-55.
1. Pasternak T
2. Merigan WH
3. Flood DG
4. Zehl D
(1984 Mar 14). The role of area centralis in the spatial vision of the cat. Vision Res. 23, 1409-16.
1. Pasternak T
2. Merigan WH
(1982 Feb 12). The luminance dependence of spatial vision in the cat. Vision Res. 21, 1333-9.
1. Pasternak T
2. Merigan WH
3. Movshon JA
(1982 Jan 28). Motion mechanisms in strobe-reared cats: psychophysical and electrophysical measures. Acta Psychol (Amst). 48, 321-32.
1. Pasternak T
2. Movshon JA
3. Merigan WH
(1981 Oct 25). Creation of direction selectivity in adult strobe-reared cats. Nature. 292, 834-6.
1. Merigan WH
2. Pasternak T
3. Zehl D
(1981 Sep 22). Spatial and temporal vision of macaques after central retinal lesions. Invest Ophthalmol Vis Sci. 21, 17-26.
1. Pasternak T
2. Merigan WH
(1981 Jan 16). Movement detection by cats: invariance with direction and target configuration. J Comp Physiol Psychol. 94, 943-52.