The relationship of anatomical and functional connectivity to resting-state connectivity in primate somatosensory cortex. Wang Z, Chen LM, Négyessy L, Friedman RM, Mishra A, Gore JC, Roe AW (2013) Neuron 78: 1116-26 Pet-1 is required across different stages of life to regulate serotonergic function. Liu C, Maejima T, Wyler SC, Casadesus G, Herlitze S, Deneris ES (2010) Nat Neurosci 13: 1190-8 High spatial correspondence at a columnar level between activation and resting state fMRI signals and local field potentials. Shi Z, Wu R, Yang PF, Wang F, Wu TL, Mishra A, Chen LM, Gore JC (2017) Proc Natl Acad Sci U S A 114: 5253-5258 Atypical motor and sensory cortex activation in attention-deficit/hyperactivity disorder: a functional magnetic resonance imaging study of simple sequential finger tapping. Mostofsky SH, Rimrodt SL, Schafer JG, Boyce A, Goldberg MC, Pekar JJ, Denckla MB (2006) Biol Psychiatry 59: 48-56 Brain reorganization in patients with spinal cord compression evaluated using fMRI. Duggal N, Rabin D, Bartha R, Barry RL, Gati JS, Kowalczyk I, Fink M (2010) Neurology 74: 1048-54 Megalencephaly in NF1: predominantly white matter contribution and mitigation by ADHD. Cutting LE, Cooper KL, Koth CW, Mostofsky SH, Kates WR, Denckla MB, Kaufmann WE (2002) Neurology 59: 1388-94 High-resolution maps of real and illusory tactile activation in primary somatosensory cortex in individual monkeys with functional magnetic resonance imaging and optical imaging. Chen LM, Turner GH, Friedman RM, Zhang N, Gore JC, Roe AW, Avison MJ (2007) J Neurosci 27: 9181-91 Discrete Modules and Mesoscale Functional Circuits for Thermal Nociception within Primate S1 Cortex. Yang PF, Wu R, Wu TL, Shi Z, Chen LM (2018) J Neurosci 38: 1774-1787 The development of cortical multisensory integration. Wallace MT, Carriere BN, Perrault TJ, Vaughan JW, Stein BE (2006) J Neurosci 26: 11844-9 DOI-Induced activation of the cortex: dependence on 5-HT2A heteroceptors on thalamocortical glutamatergic neurons. Scruggs JL, Patel S, Bubser M, Deutch AY (2000) J Neurosci 20: 8846-52 Correlated inter-regional variations in low frequency local field potentials and resting state BOLD signals within S1 cortex of monkeys. Wilson GH, Yang PF, Gore JC, Chen LM (2016) Hum Brain Mapp 37: 2755-66 Realistic models of apparent dynamic changes in resting-state connectivity in somatosensory cortex. Shi Z, Rogers BP, Chen LM, Morgan VL, Mishra A, Wilkes DM, Gore JC (2016) Hum Brain Mapp 37: 3897-3910 Mapping the pathways of information processing from sensation to action in four distinct sensorimotor tasks. Ivanoff J, Branning P, Marois R (2009) Hum Brain Mapp 30: 4167-86 Functional connectivity with cortical depth assessed by resting state fMRI of subregions of S1 in squirrel monkeys. Mishra A, Majumdar S, Wang F, Wilson GH, Gore JC, Chen LM (2019) Hum Brain Mapp 40: 329-339 Distinct fine-scale fMRI activation patterns of contra- and ipsilateral somatosensory areas 3b and 1 in humans. Ann Stringer E, Qiao PG, Friedman RM, Holroyd L, Newton AT, Gore JC, Min Chen L (2014) Hum Brain Mapp 35: 4841-57 Experimental model for functional magnetic resonance imaging of somatic sensory cortex in the unanesthetized rat. Sachdev RN, Champney GC, Lee H, Price RR, Pickens DR, Morgan VL, Stefansic JD, Melzer P, Ebner FF (2003) Neuroimage 19: 742-50 Differentiation of somatosensory cortices by high-resolution fMRI at 7 T. Stringer EA, Chen LM, Friedman RM, Gatenby C, Gore JC (2011) Neuroimage 54: 1012-20 Spatiotemporal trajectories of reactivation of somatosensory cortex by direct and secondary pathways after dorsal column lesions in squirrel monkeys. Qi HX, Wang F, Liao CC, Friedman RM, Tang C, Kaas JH, Avison MJ (2016) Neuroimage 142: 431-453 Functional connectivity and activity of white matter in somatosensory pathways under tactile stimulations. Wu X, Yang Z, Bailey SK, Zhou J, Cutting LE, Gore JC, Ding Z (2017) Neuroimage 152: 371-380 High-resolution functional MRI identified distinct global intrinsic functional networks of nociceptive posterior insula and S2 regions in squirrel monkey brain. Wu R, Wang F, Yang PF, Chen LM (2017) Neuroimage 155: 147-158 Differential fMRI activation to noxious heat and tactile stimuli in parasylvian areas of new world monkeys. Chen LM, Dillenburger BC, Wang F, Tang CH (2012) Pain 153: 158-169 High-resolution functional magnetic resonance imaging mapping of noxious heat and tactile activations along the central sulcus in New World monkeys. Chen LM, Dillenburger BC, Wang F, Friedman RM, Avison MJ (2011) Pain 152: 522-532 TRESK and TREK-2 two-pore-domain potassium channel subunits form functional heterodimers in primary somatosensory neurons. Lengyel M, Czirják G, Jacobson DA, Enyedi P (2020) J Biol Chem 295: 12408-12425 Potentiation of mGlu5 receptors with the novel enhancer, VU0360172, reduces spontaneous absence seizures in WAG/Rij rats. D'Amore V, Santolini I, van Rijn CM, Biagioni F, Molinaro G, Prete A, Conn PJ, Lindsley CW, Zhou Y, Vinson PN, Rodriguez AL, Jones CK, Stauffer SR, Nicoletti F, van Luijtelaar G, Ngomba RT (2013) Neuropharmacology 66: 330-8 Overexpressing wild-type γ2 subunits rescued the seizure phenotype in Gabrg2 Dravet syndrome mice. Huang X, Zhou C, Tian M, Kang JQ, Shen W, Verdier K, Pimenta A, MacDonald RL (2017) Epilepsia 58: 1451-1461 Sensory enrichment after peripheral nerve injury restores cortical, not thalamic, receptive field organization. Florence SL, Boydston LA, Hackett TA, Lachoff HT, Strata F, Niblock MM (2001) Eur J Neurosci 13: 1755-66 Somatosensory Event-Related Potentials and Association with Tactile Behavioral Responsiveness Patterns in Children with ASD. Cascio CJ, Gu C, Schauder KB, Key AP, Yoder P (2015) Brain Topogr 28: 895-903 Cortical connections of the auditory cortex in marmoset monkeys: core and medial belt regions. de la Mothe LA, Blumell S, Kajikawa Y, Hackett TA (2006) J Comp Neurol 496: 27-71 Multisensory convergence in auditory cortex, I. Cortical connections of the caudal superior temporal plane in macaque monkeys. Smiley JF, Hackett TA, Ulbert I, Karmas G, Lakatos P, Javitt DC, Schroeder CE (2007) J Comp Neurol 502: 894-923 Prenatal development of rat primary afferent fibers: II. Central projections. Mirnics K, Koerber HR (1995) J Comp Neurol 355: 601-14 Suppression of thalamocortical oscillations following traumatic brain injury in rats. Kao C, Forbes JA, Jermakowicz WJ, Sun DA, Davis B, Zhu J, Lagrange AH, Konrad PE (2012) J Neurosurg 117: 316-23 Intra- and inter-subject variability of high field fMRI digit maps in somatosensory area 3b of new world monkeys. Zhang N, Wang F, Turner GH, Gore JC, Avison MJ, Chen LM (2010) Neuroscience 165: 252-64 A functional near-infrared spectroscopy study to detect activation of somatosensory cortex by peripheral nerve stimulation. Niederhauser BD, Rosenbaum BP, Gore JC, Jarquin-Valdivia AA (2008) Neurocrit Care 9: 31-6 On the Relationship between MRI and Local Field Potential Measurements of Spatial and Temporal Variations in Functional Connectivity. Shi Z, Wilkes DM, Yang PF, Wang F, Wu R, Wu TL, Chen LM, Gore JC (2019) Sci Rep 9: 8871 Neuromodulation of sensory networks in monkey brain by focused ultrasound with MRI guidance and detection. Yang PF, Phipps MA, Newton AT, Chaplin V, Gore JC, Caskey CF, Chen LM (2018) Sci Rep 8: 7993 Normal somatotopy in SI of a tyrosinase-negative albino cat. Garraghty PE, Schall JD, Kaas JH (1990) Brain Res 536: 315-7 A neural circuit framework for somatosensory amplification in somatoform disorders. Perez DL, Barsky AJ, Vago DR, Baslet G, Silbersweig DA (2015) J Neuropsychiatry Clin Neurosci 27: e40-50 Fine-scale functional connectivity in somatosensory cortex revealed by high-resolution fMRI. Chen L, Mishra A, Newton AT, Morgan VL, Stringer EA, Rogers BP, Gore JC (2011) Magn Reson Imaging 29: 1330-7 Anatomical mechanisms and functional implications of multisensory convergence in early cortical processing. Schroeder CE, Smiley J, Fu KG, McGinnis T, O'Connell MN, Hackett TA (2003) Int J Psychophysiol 50: 5-17 The hallucinogen 1-[2,5-dimethoxy-4-iodophenyl]-2-aminopropane (DOI) increases cortical extracellular glutamate levels in rats. Scruggs JL, Schmidt D, Deutch AY (2003) Neurosci Lett 346: 137-40
Hints: (1) double-click or double-tap to navigate to a node. (2) Grab a node and move it to arrange the graph.