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IETE Journal of Research Volume 49, 2003 - Issue 2-3: Cognitive Science
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Original Articles

Response Plasticity in Primary Visual Cortex and its Role in Vision and Visuomotor Behavior: Bottom-up and Top-down Influences

Valentin DragoiDepartment of Brain and Cognitive Sciences, Picower Center for Learning and Memory, Massachusetts Institute of Technology, Cambridge, MA02139, USA. email: [email protected]View further author information
,
Jitendra SharmaDepartment of Brain and Cognitive Sciences, Picower Center for Learning and Memory, Massachusetts Institute of Technology, Cambridge, MA02139, USA. email: [email protected]View further author information
&
Mriganka SurDepartment of Brain and Cognitive Sciences, Picower Center for Learning and Memory, Massachusetts Institute of Technology, Cambridge, MA02139, USA. email: [email protected]
Pages 77-85 | Published online: 26 Mar 2015

REFERENCES

  • C Blakemore & F W J Campbell, Adaptation to spatial stimuli, Journal of Physiology London, vol 200, pp 11P–13P, 1969.
  • P Hammond, Mouat G S & A T Smith, Motion aftereffects in cat striate cortex elicited by moving gratings, Experimental Brain Research, vol 60, pp 411–416, 1985.
  • S B Nelson, Temporal interactions in the cat visual system, I. Orientation-selective suppression in the visual cortex, Journal of Neuroscience, vol 11, pp 344–356. 1991.
  • M Carandini, J A Movshon & D Ferster, Pattern adaptation and cross-orientation interactions in the primary visual cortex. Neuropharmacology, vol 37, pp 501–511, 1998.
  • J R Muller, A B Metha, J Krauskopf & P Lennie, Rapid adaptation in visual cortex to the structure of images. Science, vol 285, pp 1405–1408, 1999.
  • V Dragoi, J Sharma & M Sur, Adaptation-induced plasticity of orientation tuning in adult visual cortex, Neuron, vol 28, pp 287–298, 2000.
  • A Movshon & P Lennie, Pattern-selective adaptation in visual cortical neurons, Nature, vol 278, pp 850–852, 1979.
  • I Ohzawa, G Sciar & R D S Freeman, Contrast gain control in the cat visual cortex, Nature, vol 298, pp 266–268, 1982.
  • M Carandini & D Ferster, A tonic hyperpolarization underlying contrast adaptation in cat visual cortex, Science, vol 276, pp 949–952, 1997.
  • A B Saul & M S Cynader, Adaptation in single units in visual cortex: the tuning of aftereffects in the spatial domain, Visual Neuroscience, vol 2, pp 593–607, 1989.
  • L Maffei, A Fiorentini & S Bisti, Neural correlate of perceptual adaptation to gratings, Science, vol 182, pp 1036–1038, 1973.
  • P Hammond, G S Mouat & A T Smith, Motion after-effects in cat striate cortex elicited by moving texture, Vision Research, vol 26, pp 1055–1060, 1986.
  • J J Gibson, Adaptation, after-effect and contrast in the perception of curved lines, Journal of Experimental Psychology, vol 16, pp 1–33, 1933.
  • J Gibson & J M Radner, Adaptation, after-effect and contrast in the perception of tilted lines. I Quantitative studies, Journal of Experimental Psychology, vol 20, pp 453–467, 1937.
  • S Magnussen & W Kurtenbach, Adapting to two orientations: Disinhibition in a visual aftereffect. Science, vol 207, pp 908–909, 1980.
  • J Sharma, V Dragoi & M Sur, Modulation of VI responses by an internal model of stimulus location. Society for Neuroscience Abstracts, 159.12, 2002.
  • L F Abbott, J A Varela, K Sen & S B Nelson, Synaptic depression and cortical gain control. Science, vol 275, pp 220–224, 1997.
  • F S Chance, S B Nelson & L F Abbott, Synaptic depression and the temporal response characteristics of VI cells. Journal of Neuroscience, vol 18, pp 4785–4799, 1998.
  • M V Sanches-Vines, LG Nowak & D A McComick, Membrane mechanisms underlying contrast adaptation in cat area 17 in vivo, Journal of Neuroscience, vol 20, pp 4267–4285, 2000.
  • V Dragoi, J Sharma, E K Miller & M Sur, Dynamics of neuronal sensitivity in visual cortex and local feature discrimination, Nature Neuroscience, vol 5, pp 883–891, 2002.
  • A L Yarbus, Eye Movement and Vision, Plenum, New York, 1967.
  • T J Andrews & D M Coppola, Idiosyncratic characteristics of saccadic eye movements when viewing different visual environments, Vision Research, vol 39, pp 2947–2953, 1999.
  • F Attneave, Informational aspects of visual processing, Psychological Review, vol 61, pp 183–193. 1954.
  • H B Barlow, A theory about the functional role and synaptic mechanism of after-effects. In Vision: Coding and Efficiency, C Blakemore (Editor), Cambridge Univ Press. Cambridge, 1991, pp 363–375.
  • E de Boer & P Kuyper, IEEE Transactions in Biomedical Engineering, vol 15, pp 169–179, 1968.
  • D L Ringach, M J Hawken & R Shapley, Dynamics of orientation tuning in macaque primary visual cortex, Nature, vol 387, pp 281–284, 1997.
  • V Dragoi, J Sharma, E K Miller & M Sur, Dynamics of orientation adaptation in awake monkey VI revealed by reverse correlation, Society for Neuroscience Abstracts, vol 25, p 1548, 1999.
  • D Regan & K I Beverley, Postadaptation orientation discrimination, Journal of the Optical Society of the American Academy, vol 2, pp 147–155, 1985.
  • C W Clifford, A M Wyatt, D H Arnold, S T Smith & P Wenderoth, Orthogonal adaptation improves orientation discrimination, Vision Research, vol 41, pp 151–159, 2001.
  • J D Schall & K G Thompson, Neural selection and control of visually guided movements, Annual Reviews Neuroscience, vol 22, pp 241–259, 1999.
  • L Platt & P W Glimcher, Neural correlates of decision variables in parietal cortex, Nature, vol 400, pp 233–238, 1999.
  • Glimcher, Decisions, decisions, decisions: choosing a biological science of choice, Neuron, vol 36, pp 323–32, 2002.
  • P H Schiller & E Tehovnik, Look and sec: how the brain moves your eyes about. Progress in Brain Research, vol 134, pp 127–142, 2001.
  • K Nakamura & C Colby, Updating of the visual representation in monkey striate and extrastriate cortex during saccades, Proceedings of the National Academy of Sciences. USA, vol 99, pp 4026–4031, 2002.
  • R H S Carpenter & M L L Williams, Neural computation of log likelihood in control of saccadic eye movements, Nature, vol 377, pp 59–61, 1995.
  • E Kowler, Eye movements and their role in visual and cognitive processes, Reviews of Oculomotor Research, vol 4, Elsevier, Amsterdam, 1990.
  • R D Luce, Response Times: Tlteir role in inferring elementary mental organization, Oxford, New York, 1986.
  • T G Weyand & J G Malpeli, Responses of neurons in primary visual cortex are modulated by eye position, Journal of Neurophysiology, vol 69, pp 2258–2260, 1993.
  • Y Trotter & S Celebrini, Gaze direction controls response gain in primary visual-cortex neurons, Nature, vol 398, pp 239–243, 1999.
  • A Schoups, R Vogels, N Qian & G Orban, Practising orientation identification improves orientation coding in VI neurons, Nature, vol 412, pp 549–553, 2001.
  • C D Gilbert, M Sigman & R E Crist, The neural basis of perceptual learning, Neuron, vol 31, pp 681–692, 2001.
  • H Super, H Spekreijse & V A Lamme, A neural correlate of working memory in the monkey primary visual cortex, Science, vol 293, pp 120–124, 2001.
  • R A Andersen, L H Snyder, D C Bradley & J Xing, Multimodal representation of space in the posterior parietal cortex and its use in planning movements, Annual Reviews in Neuroscience, vol 20, pp 303–330, 1997.
  • J D Schall, Neural basis of deciding, choosing and acting, Nature Reviews Neuroscience, vol 2, pp 33–42, 2001.
  • M E Goldberg, J Bisley, K D Powell, J Gottlieb, & M Kusunoki, The role of the lateral intraparietal area of the monkey in the generation of saccades and visuospatial attention, Annals of the N Y Academy of Science, vol 956, pp 205–215, 2002.
  • V Dragoi & M Sur, Dynamic properties of recurrent inhibition in primary visual cortex: contrast and orientation dependence of contextual effects, Journal of Neurophysiol, vol 83, pp 1019–1030, 2000.
  • D C Somers, V Dragoi & M Sur, Orientation selectivity and its modulation by local and long-range connections in visual cortex, The Cat Primary Visual Cortex, pp 471–520, Academic Press, California, 2002.

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