Performance monitoring by the supplementary eye field. Stuphorn V, Taylor TL, Schall JD (2000) Nature 408: 857-60 Visual feature selectivity in frontal eye fields induced by experience in mature macaques. Bichot NP, Schall JD, Thompson KG (1996) Nature 381: 697-9 Neural selection and control of visually guided eye movements. Schall JD, Thompson KG (1999) Annu Rev Neurosci 22: 241-59 Effects of similarity and history on neural mechanisms of visual selection. Bichot NP, Schall JD (1999) Nat Neurosci 2: 549-54 Spatial working memory deficits in the relatives of schizophrenic patients. Park S, Holzman PS, Goldman-Rakic PS (1995) Arch Gen Psychiatry 52: 821-8 Schizophrenics show spatial working memory deficits. Park S, Holzman PS (1992) Arch Gen Psychiatry 49: 975-82 From sensory evidence to a motor command. Schall JD (2000) Curr Biol 10: R404-6 Eye-movement behavior reveals relational memory impairment in schizophrenia. Williams LE, Must A, Avery S, Woolard A, Woodward ND, Cohen NJ, Heckers S (2010) Biol Psychiatry 68: 617-24 Neural correlates of visual and motor decision processes. Schall JD, Bichot NP (1998) Curr Opin Neurobiol 8: 211-7 Distributed but convergent ordering of corticostriatal projections: analysis of the frontal eye field and the supplementary eye field in the macaque monkey. Parthasarathy HB, Schall JD, Graybiel AM (1992) J Neurosci 12: 4468-88 Supplementary eye field during visual search: salience, cognitive control, and performance monitoring. Purcell BA, Weigand PK, Schall JD (2012) J Neurosci 32: 10273-85 Homologous mechanisms of visuospatial working memory maintenance in macaque and human: properties and sources. Reinhart RM, Heitz RP, Purcell BA, Weigand PK, Schall JD, Woodman GF (2012) J Neurosci 32: 7711-22 Motion-sensitive responses in visual area V4 in the absence of primary visual cortex. Schmid MC, Schmiedt JT, Peters AJ, Saunders RC, Maier A, Leopold DA (2013) J Neurosci 33: 18740-5 Saccade target selection in frontal eye field of macaque. I. Visual and premovement activation. Schall JD, Hanes DP, Thompson KG, King DJ (1995) J Neurosci 15: 6905-18 mGluR2 versus mGluR3 Metabotropic Glutamate Receptors in Primate Dorsolateral Prefrontal Cortex: Postsynaptic mGluR3 Strengthen Working Memory Networks. Jin LE, Wang M, Galvin VC, Lightbourne TC, Conn PJ, Arnsten AFT, Paspalas CD (2018) Cereb Cortex 28: 974-987 Neural chronometry and coherency across speed-accuracy demands reveal lack of homomorphism between computational and neural mechanisms of evidence accumulation. Heitz RP, Schall JD (2013) Philos Trans R Soc Lond B Biol Sci 368: 20130071 Increased hospital mortality in patients with bedside hippus. Denny JC, Arndt FV, Dupont WD, Neilson EG (2008) Am J Med 121: 239-45 Relational memory in psychotic bipolar disorder. Sheffield JM, Williams LE, Cohen N, Heckers S (2012) Bipolar Disord 14: 537-46 Executive control of gaze by the frontal lobes. Schall JD, Boucher L (2007) Cogn Affect Behav Neurosci 7: 396-412 Neuronal representation of occluded objects in the human brain. Olson IR, Gatenby JC, Leung HC, Skudlarski P, Gore JC (2004) Neuropsychologia 42: 95-104 Dynamic Imaging of the Eye, Optic Nerve, and Extraocular Muscles With Golden Angle Radial MRI. Sengupta S, Smith DS, Smith AK, Welch EB, Smith SA (2017) Invest Ophthalmol Vis Sci 58: 4390–4398 Biophysical support for functionally distinct cell types in the frontal eye field. Cohen JY, Pouget P, Heitz RP, Woodman GF, Schall JD (2009) J Neurophysiol 101: 912-6 Neural basis of the set-size effect in frontal eye field: timing of attention during visual search. Cohen JY, Heitz RP, Woodman GF, Schall JD (2009) J Neurophysiol 101: 1699-704 Neural correlates of correct and errant attentional selection revealed through N2pc and frontal eye field activity. Heitz RP, Cohen JY, Woodman GF, Schall JD (2010) J Neurophysiol 104: 2433-41 Long-range traveling waves of activity triggered by local dichoptic stimulation in V1 of behaving monkeys. Yang Z, Heeger DJ, Blake R, Seidemann E (2015) J Neurophysiol 113: 277-94 Role of frontal eye fields in countermanding saccades: visual, movement, and fixation activity. Hanes DP, Patterson WF, Schall JD (1998) J Neurophysiol 79: 817-34 Chronometry of visual responses in frontal eye field, supplementary eye field, and anterior cingulate cortex. Pouget P, Emeric EE, Stuphorn V, Reis K, Schall JD (2005) J Neurophysiol 94: 2086-92 Looking at the center of the targets helps multiple object tracking. Fehd HM, Seiffert AE (2010) J Vis 10: 19.1-13 Deciding where to attend: priming of pop-out drives target selection. Brascamp JW, Blake R, Kristjánsson Á (2011) J Exp Psychol Hum Percept Perform 37: 1700-7 Neuronal control and monitoring of initiation of movements. Stuphorn V, Schall JD (2002) Muscle Nerve 26: 326-39 Visually guided attention is neutralized when informative cues are visible but unperceived. Schall JD, Nawrot M, Blake R, Yu K (1993) Vision Res 33: 2057-64 Association of an oculomotor delayed response task and the Wisconsin Card Sort Test in schizophrenic patients. Park S (1997) Int J Psychophysiol 27: 147-51 Response inhibition during perceptual decision making in humans and macaques. Middlebrooks PG, Schall JD (2014) Atten Percept Psychophys 76: 353-66 Topography of supplementary eye field afferents to frontal eye field in macaque: implications for mapping between saccade coordinate systems. Schall JD, Morel A, Kaas JH (1993) Vis Neurosci 10: 385-93
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