Biology Reference
In-Depth Information
Parent, A., and Hazrati, L.N.
(1995). Functional anatomy of the basal ganglia. I. The cortico-
basal ganglia-thalamo-cortical loop.
Brain Research Review
, 20, 91-127.
Paul, L., and Schyns, P. G. (2003). Attention enhances feature integration.
Vision Research
,
43,
1793-1798.
Reeves, A., Fuller, H., and Fine, E. M., (2005). The role of attention in binding shape to
color.
Vision Research
, 45, 3343-3355.
Rektor, I., Bares, M., Brazdil, M., Kanovsky, P., Rektorova, I., Sochurkova, D., Kubova, D.,
Kuba, R., and Daniel, P. (2005). Cognitive- and movement-related potentials recorded in
the human basal ganglia.
Movement Disorders
, 20, 562-568.
Saenz, M., Buracas, G. T., and Boynton, G. M. (2003). Global feature-based attention for
motion and color.
Vision Research
, 43, 629-637.
Schultz, W. (1997). Dopamine neurons and their role in reward mechanisms.
Current Opinion
in Neurobiology
, 7, 191-197.
Schultz, W., Apicella, P., and Ljungberg, T. (1993). Responses of monkey dopamine neurons
to reward and conditioned stimuli during successive steps of learning a delayed response
task.
Journal of Neuroscience
, 13, 900-913.
Silkis, I. (2000). The cortico-basal ganglia-thalamocortical circuit with synaptic plasticity. I.
Modification rules for excitatory and inhibitory synapses in the striatum.
Biosystems
, 57,
187-196.
Silkis, I. (2001). The cortico-basal ganglia-thalamocortical circuit with synaptic plasticity. II.
Mechanism of synergistic modulation of thalamic activity via the direct and indirect
pathways through the basal ganglia.
Biosystems
, 59,
7-14.
Sil'kis, I. (2003). The involvement of dopamine in strengthening cortical signals activating
NMDA receptors in the striatum (a hypothetical mechanism).
Neuroscience and
Behavioral Physiology
, 33,
379-386.
Sil'kis, I. (2006). Possible mechanisms of the involvement of dopaminergic cells and
cholinergic interneurons in the striatum in the conditioned-reflex selection of motor
activity.
Neuroscience and Behavioral Physiology
, 36, 163-175.
Silkis, I. (2007). A hypothetical role of cortico - basal ganglia - thalamocortical loops in
visual processing.
Biosystems
, 89,
227-235.
Slotnick, S.D., Thompson, W.L., and Kosslyn, S.M. (2005). Visual mental imagery induces
retinotopically organized activation of early visual areas.
Cerebral Cortex, 15,
1570-1583.
Treue, S. (2003). Visual attention: the where, what, how and why of saliency.
Current
Opinion in Neurobiology
,
13, 428-432.
Treue, S., and Maunsell, J. H. (1999). Effects of attention on the processing of motion in
macaque middle temporal and medial superior temporal visual cortical areas.
Journal of
Neuroscience
, 19,
7591-7602.
Turle-Lorenzo, N., Maurin, B., Puma, C., Chezaubernard, C., Morain, P., Baunez, C.,
Nieoullon, A., and Amalric, M. (2006). The dopamine agonist piribedil with L-DOPA
improves attentional dysfunction: relevance for Parkinson's disease.
The Journal of
Pharmacology and Experimental Therapeutics
, 319, 914-923.
Vidyasagar, T. R. (1998). Gating of neuronal responses in macaque primary visual cortex by
an attentional spotlight.
Neuroreport
, 9, 1947-1952.
Woldorff, M. G., Liotti, M., Seabolt, M., Busse, L., Lancaster, J. L., and Fox, P.T. (2002).
The temporal dynamics of the effects in occipital cortex of visual-spatial selective
attention.
Cognitive Brain Research
, 15, 1-15.
