Performance monitoring by the supplementary eye field. Stuphorn V, Taylor TL, Schall JD (2000) Nature 408: 857-60 Performance monitoring by the anterior cingulate cortex during saccade countermanding. Ito S, Stuphorn V, Brown JW, Schall JD (2003) Science 302: 120-2 Effects of stimulus-response compatibility on neural selection in frontal eye field. Sato TR, Schall JD (2003) Neuron 38: 637-48 Search efficiency but not response interference affects visual selection in frontal eye field. Sato T, Murthy A, Thompson KG, Schall JD (2001) Neuron 30: 583-91 Executive control of countermanding saccades by the supplementary eye field. Stuphorn V, Schall JD (2006) Nat Neurosci 9: 925-31 Nonhuman primate event-related potentials indexing covert shifts of attention. Woodman GF, Kang MS, Rossi AF, Schall JD (2007) Proc Natl Acad Sci U S A 104: 15111-6 Neural latencies across auditory cortex of macaque support a dorsal stream supramodal timing advantage in primates. Camalier CR, D'Angelo WR, Sterbing-D'Angelo SJ, de la Mothe LA, Hackett TA (2012) Proc Natl Acad Sci U S A 109: 18168-73 Binocular Modulation of Monocular V1 Neurons. Dougherty K, Cox MA, Westerberg JA, Maier A (2019) Curr Biol 29: 381-391.e4 From salience to saccades: multiple-alternative gated stochastic accumulator model of visual search. Purcell BA, Schall JD, Logan GD, Palmeri TJ (2012) J Neurosci 32: 3433-46 Cooperation and competition among frontal eye field neurons during visual target selection. Cohen JY, Crowder EA, Heitz RP, Subraveti CR, Thompson KG, Woodman GF, Schall JD (2010) J Neurosci 30: 3227-38 Priming in macaque frontal cortex during popout visual search: feature-based facilitation and location-based inhibition of return. Bichot NP, Schall JD (2002) J Neurosci 22: 4675-85 Supplementary eye field during visual search: salience, cognitive control, and performance monitoring. Purcell BA, Weigand PK, Schall JD (2012) J Neurosci 32: 10273-85 Microcircuitry of agranular frontal cortex: testing the generality of the canonical cortical microcircuit. Godlove DC, Maier A, Woodman GF, Schall JD (2014) J Neurosci 34: 5355-69 Spiking Suppression Precedes Cued Attentional Enhancement of Neural Responses in Primary Visual Cortex. Cox MA, Dougherty K, Adams GK, Reavis EA, Westerberg JA, Moore BS, Leopold DA, Maier A (2019) Cereb Cortex 29: 77-90 Performance Monitoring during Visual Priming. Westerberg JA, Maier A, Woodman GF, Schall JD (2020) J Cogn Neurosci 32: 515-526 Continuous processing in macaque frontal cortex during visual search. Bichot NP, Chenchal Rao S, Schall JD (2001) Neuropsychologia 39: 972-82 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 Neural mechanisms of speed-accuracy tradeoff of visual search: saccade vigor, the origin of targeting errors, and comparison of the superior colliculus and frontal eye field. Reppert TR, Servant M, Heitz RP, Schall JD (2018) J Neurophysiol 120: 372-384 Comparative diffusion tractography of corticostriatal motor pathways reveals differences between humans and macaques. Neggers SF, Zandbelt BB, Schall MS, Schall JD (2015) J Neurophysiol 113: 2164-72 Performance monitoring local field potentials in the medial frontal cortex of primates: supplementary eye field. Emeric EE, Leslie M, Pouget P, Schall JD (2010) J Neurophysiol 104: 1523-37 V1 microcircuit dynamics: altered signal propagation suggests intracortical origins for adaptation in response to visual repetition. Westerberg JA, Cox MA, Dougherty K, Maier A (2019) J Neurophysiol 121: 1938-1952 Thalamic and cortical contributions to neural plasticity after limb amputation. Florence SL, Hackett TA, Strata F (2000) J Neurophysiol 83: 3154-9 Neural control of visual search by frontal eye field: chronometry of neural events and race model processes. Nelson MJ, Murthy A, Schall JD (2016) J Neurophysiol 115: 1954-69 Performance monitoring local field potentials in the medial frontal cortex of primates: anterior cingulate cortex. Emeric EE, Brown JW, Leslie M, Pouget P, Stuphorn V, Schall JD (2008) J Neurophysiol 99: 759-72 Low-threshold Ca2+-associated bursts are rare events in the LGN of the awake behaving monkey. Ruiz O, Royal D, Sáry G, Chen X, Schall JD, Casagrande VA (2006) J Neurophysiol 95: 3401-13 On the origin of event-related potentials indexing covert attentional selection during visual search. Cohen JY, Heitz RP, Schall JD, Woodman GF (2009) J Neurophysiol 102: 2375-86 Role of supplementary eye field in saccade initiation: executive, not direct, control. Stuphorn V, Brown JW, Schall JD (2010) J Neurophysiol 103: 801-16 On the origin of event-related potentials indexing covert attentional selection during visual search: timing of selection by macaque frontal eye field and event-related potentials during pop-out search. Purcell BA, Schall JD, Woodman GF (2013) J Neurophysiol 109: 557-69 Frontal eye field contributions to rapid corrective saccades. Murthy A, Ray S, Shorter SM, Priddy EG, Schall JD, Thompson KG (2007) J Neurophysiol 97: 1457-69 Temporal dynamics of binocular integration in primary visual cortex. Cox MA, Dougherty K, Westerberg JA, Schall MS, Maier A (2019) J Vis 19: 13 Regional and laminar distribution of the vesicular glutamate transporter, VGluT2, in the macaque monkey auditory cortex. Hackett TA, de la Mothe LA (2009) J Chem Neuroanat 38: 106-16 Effect of target-distractor similarity on FEF visual selection in the absence of the target. Sato TR, Watanabe K, Thompson KG, Schall JD (2003) Exp Brain Res 151: 356-63 Correlates of motor planning and postsaccadic fixation in the macaque monkey lateral geniculate nucleus. Royal DW, Sáry G, Schall JD, Casagrande VA (2006) Exp Brain Res 168: 62-75 Pre-excitatory pause in frontal eye field responses. Sato T, Schall JD (2001) Exp Brain Res 139: 53-8 Influence of history on saccade countermanding performance in humans and macaque monkeys. Emeric EE, Brown JW, Boucher L, Carpenter RH, Hanes DP, Harris R, Logan GD, Mashru RN, Paré M, Pouget P, Stuphorn V, Taylor TL, Schall JD (2007) Vision Res 47: 35-49 On the role of frontal eye field in guiding attention and saccades. Schall JD (2004) Vision Res 44: 1453-67 Dynamics of saccade target selection: race model analysis of double step and search step saccade production in human and macaque. Camalier CR, Gotler A, Murthy A, Thompson KG, Logan GD, Palmeri TJ, Schall JD (2007) Vision Res 47: 2187-211 Neurosurgical access to cortical areas in the lateral fissure of primates. Hackett TA, Karmos G, Schroeder CE, Ulbert I, Sterbing-D'Angelo SJ, D'Angelo WR, Kajikawa Y, Blumell S, de la Mothe L (2005) J Neurosci Methods 141: 103-13 Nonindependent and nonstationary response times in stopping and stepping saccade tasks. Nelson MJ, Boucher L, Logan GD, Palmeri TJ, Schall JD (2010) Atten Percept Psychophys 72: 1913-29 Saccade target selection in macaque during feature and conjunction visual search. Bichot NP, Schall JD (1999) Vis Neurosci 16: 81-9
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