Majerus S (2009) Verbal short-term memory and temporary activation of language representations: the importance of distinguishing item and order information. In: Thorn A, editor. Interactions between short-term and long-term memory in the verbal domain: Psychology Press. 244-276.
Attout L, Van der Kaa MA, George M, Majerus S (2012) Dissociating short-term memory and language impairment: The importance of item and serial order information. Aphasiology 26: 355-382.
Majerus S, Belayachi S, De Smedt B, Leclercq AL, Martinez Perez T, et al. (2008) Neural networks for short-term memory for order differentiate high and low proficiency bilinguals. Neuroimage 42: 1698-1713.
Majerus S, D'Argembeau A, Martinez Perez T, Belayachi S, Van der Linden M, et al. (2010) The commonality of neural networks for verbal and visual short-term memory. Journal of cognitive neuroscience 22: 2570-2593.
Majerus S, Poncelet M, Van der Linden M, Albouy G, Salmon E, et al. (2006) The left intraparietal sulcus and verbal short-term memory: Focus of attention or serial order? Neuroimage 32: 880-891. (Pubitemid 44149151)
Marshuetz C (2005) Order information in working memory: An integrative review of evidence from brain and behavior. Psychological Bulletin 131: 323-339.
Henson RNA (1998) Short-Term Memory for Serial Order: The Start-End Model. Cognitive psychology 36: 73-137.
Henson RNA, Burgess N, Frith CD (2000) Recoding, storage, rehearsal and grouping in verbal short-term memory: an fMRI study. Neuropsychologia 38: 426-440. (Pubitemid 30101549)
Marshuetz C, Smith EE, Jonides J, DeGutis J, Chenevert TL (2000) Order information in working memory: fMRI evidence for parietal and prefrontal mechanisms. Journal of cognitive neuroscience 12: 130-144.
Majerus S, Bastin C, Poncelet M, Van der Linden M, Salmon E, et al. (2007) Short-term memory and the left intraparietal sulcus: Focus of attention? Further evidence from a face short-term memory paradigm. Neuroimage 35: 353-367. (Pubitemid 46240948)
Burgess N, Hitch GJ (1999) Memory for serial order: A network model of the phonological loop and its timing. Psychological Review 106: 551-581.
Burgess N, Hitch GJ (2006) A revised model of short-term memory and long-term learning of verbal sequences. Journal of Memory and Language 55: 627-652. (Pubitemid 44575956)
Page M, Norris D (1998) The primacy model: a new model of immediate serial recall. Psychological review 105: 761-781. (Pubitemid 128456530)
Brown GDA, Preece T, Hulme C (2000) Oscillator-based memory for serial order. Psychological Review 107: 127-181.
Botvinick M, Watanabe T (2007) From numerosity to ordinal rank: a gain-field model of serial order representation in cortical working memory. Journal of Neuroscience 27: 8636-8642. (Pubitemid 47254266)
Botvinick M, Plaut DC (2006) Short-term memory for serial order: a recurrent neural network model. Psychological review 113: 201-233. (Pubitemid 43815196)
Ansari D, Dhital B (2006) Age-related changes in the activation of the intraparietal sulcus during nonsymbolic magnitude processing: an event-related functional magnetic resonance imaging study. Journal of Cognitive Neuroscience 18: 1820-1828. (Pubitemid 44674281)
Cohen Kadosh R, Walsh V (2009) Numerical representation in the parietal lobes: Abstract or not abstract? Behav Brain Sci 32: 313-328.
Kaufmann L, Vogel S, Starke M, Kremser C, Schocke M (2009) Numerical and non-numerical ordinality processing in children with and without developmental dyscalculia: Evidence from fMRI. Cognitive Development 24: 486-494.
Dehaene S, Piazza M, Pinel P, Cohen L (2003) Three parietal circuits for number processing. Cognitive neuropsychology 20: 487-506. (Pubitemid 36889818)
Pinel P, Dehaene S, Riviere D, LeBihan D (2001) Modulation of parietal activation by semantic distance in a number comparison task. Neuroimage 14: 1013-1026. (Pubitemid 33049843)
Turconi E, Jemel B, Rossion B, Seron X (2004) Electrophysiological evidence for differential processing of numerical quantity and order in humans. Cognitive Brain Research 21: 22-38. (Pubitemid 39119609)
Marshuetz C, Reuter-Lorenz PA, Smith EE, Jonides J, Noll DC (2006) Working memory for order and the parietal cortex: An event-related functional magnetic resonance imaging study. Neuroscience 139: 311-316.
Fias W, Lammertyn J, Caessens B, Orban GA (2007) Processing of abstract ordinal knowledge in the horizontal segment of the intraparietal sulcus. Journal of Neuroscience 27: 8952-8956. (Pubitemid 47292751)
Fulbright RK, Manson SC, Skudlarski P, Lacadie CM, Gore JC (2003) Quantity determination and the distance effect with letters, numbers, and shapes: a functional MR imaging study of number processing. American journal of neuroradiology 24: 193-200. (Pubitemid 36237168)
Ischebeck A, Heim S, Siedentopf C, Zamarian L, Schocke M, et al. (2008) Are numbers special? Comparing the generation of verbal materials from ordered categories (months) to numbers and other categories (animals) in an fMRI study. Human Brain Mapping 29: 894-909.
Majerus S, Attout L, D'Argembeau A, Degueldre C, Fias W, et al. (2012) Attention supports verbal short-term memory via competition between dorsal and ventral attention networks. Cerebral Cortex 22: 1086-1097.
Todd JJ, Marois R (2004) Capacity limit of visual short-term memory in human posterior parietal cortex. Nature 428: 751-754. (Pubitemid 38508285)
Jou J, Aldridge JW (1999) Memory representation of alphabetic position and interval information. Journal of Experimental Psychology: Learning, Memory, and Cognition 25: 680-701.
Lovelace EA, Snodgrass RD (1971) Decision times for alphabetic order of letter pairs. Journal of Experimental Psychology 88: 258-264.
Andersson JLR, Hutton C, Ashburner J, Turner R, Friston K (2001) Modeling Geometric Deformations in EPI Time Series. NeuroImage 13: 903-919. (Pubitemid 32848335)
Hutton C, Bork A, Josephs O, Deichmann R, Ashburner J, et al. (2002) Image Distortion Correction in fMRI: A Quantitative Evaluation. NeuroImage 16: 217-240. (Pubitemid 34852485)
Cairo TA, Liddle PF, Woodward TS, Ngan ET (2004) The influence of working memory load on phase specific patterns of cortical activity. Cognitive Brain Research 21: 377-387. (Pubitemid 39423639)
Worsley KJ, Marrett S, Neelin P, Evans A (1996) Searching scale space for activation in PET images. Human brain mapping 4: 74-90. (Pubitemid 26195722)
Chochon F, Cohen L, Moortele PF, Dehaene S (1999) Differential contributions of the left and right inferior parietal lobules to number processing. Journal of cognitive neuroscience 11: 617-630.
Gevers W, Reynvoet B, Fias W (2003) The mental representation of ordinal sequences is spatially organized. Cognition 87: B87-B95. (Pubitemid 36390326)
Holloway ID, Ansari D (2009) Mapping numerical magnitudes onto symbols: The numerical distance effect and individual differences in children's mathematics achievement. Journal of Experimental Child Psychology 103: 17-29.
Reynvoet B, De Smedt B, Van den Bussche E (2009) Children's representation of symbolic magnitude: The development of the priming distance effect. Journal of Experimental Child Psychology 103: 480-489.
Halsband U, Matsuzaka Y, Tanji J (1994) Neuronal activity in the primate supplementary, pre-supplementary and premotor cortex during externally and internally instructed sequential movements. Neuroscience research 20: 149-155. (Pubitemid 24273620)
Matsuzaka Y, Aizawa H, Tanji J (1992) A motor area rostral to the supplementary motor area (presupplementary motor area) in the monkey: neuronal activity during a learned motor task. Journal of Neurophysiology 68: 653-662.
Hassabis D, Kumaran D, Maguire EA (2007) Using imagination to understand the neural basis of episodic memory. The Journal of neuroscience 27: 14365-14374.
Corbetta M, Kincade JM, Ollinger JM, McAvoy MP, Shulman GL (2000) Voluntary orienting is dissociated from target detection in human posterior parietal cortex. Nature neuroscience 3: 292-297. (Pubitemid 30140793)
Farrell S, Lewandowsky S (2002) An endogenous distributed model of ordering in serial recall. Psychonomic bulletin & review 9: 59-79.
Nieder A, Diester I, Tudusciuc O (2006) Temporal and spatial enumeration processes in the primate parietal cortex. Science 313: 1431-1435. (Pubitemid 44360270)
Zorzi M, Di Bono MG, Fias W (2011) Distinct representations of numerical and non-numerical order in the human intraparietal sulcus revealed by multivariate pattern recognition. Neuroimage 56: 674-680.
Szu{combining double acute accent}cs D, Csépe V (2004) Similarities and differences in the coding of numerical and alphabetical order using acoustic stimulation as revealed by event-related potentials in humans. Neuroscience Letters 360: 65-68.
Knops A, Willmes K (2014) Numerical ordering and symbolic arithmetic share frontal and parietal circuits in the right hemisphere. NeuroImage 84: 786-795.
Walsh V (2003) A theory of magnitude: common cortical metrics of time, space and quantity. Trends in cognitive sciences 7: 483-488.
Bugden S, Price GR, McLean DA, Ansari D (2012) The role of the left intraparietal sulcus in the relationship between symbolic number processing and children's arithmetic competence. Developmental Cognitive Neuroscience 2: 448-457.
Pesenti M, Thioux M, Seron X, De Volder A (2000) Neuroanatomical substrates of Arabic number processing, numerical comparison, and simple addition: A PET study. Journal of Cognitive Neuroscience 12: 461-479. (Pubitemid 30410286)
Piazza M, Pinel P, Le Bihan D, Dehaene S (2007) A magnitude code common to numerosities and number symbols in human intraparietal cortex. Neuron 53: 293-305. (Pubitemid 46074397)
Ansari D (2007) Does the parietal cortex distinguish between "10," "ten," and ten dots? Neuron 53: 165-167.
Cohen Kadosh R, Muggleton N, Silvanto J, Walsh V (2010) Double dissociation of format-dependent and number-specific neurons in human parietal cortex. Cerebral Cortex 20: 2166-2171.
Andres M, Seron X, Olivier E (2005) Hemispheric lateralization of number comparison. Cognitive Brain Research 25: 283-290. (Pubitemid 41278505)
Cantlon JF, Brannon EM, Carter EJ, Pelphrey KA (2006) Functional imaging of numerical processing in adults and 4-y-old children. PLoS Biology 4: e125.
Rivera S, Reiss A, Eckert M, Menon V (2005) Developmental changes in mental arithmetic: evidence for increased functional specialization in the left inferior parietal cortex. Cerebral Cortex 15: 1779-1790. (Pubitemid 41447043)
van Dijck JP, Abrahamse E, Majerus S, Fias W (2013) Spatial attention interacts with serial order retrieval from verbal working memory. Psychological Science 24: 1854-1859.
van Dijck JP, Fias W (2011) A working memory account for spatial-numerical associations. Cognition 119: 114-119.
Franklin MS, Jonides J (2009) Order and magnitude share a common representation in parietal cortex. Journal of cognitive neuroscience 21: 2114-2120.
Jacob SN, Nieder A (2008) The ABC of cardinal and ordinal number representations. Trends in Cognitive Sciences 12: 41-43.
Van Essen DC (2005) A Population-Average, Landmark- and Surface-based (PALS) atlas of human cerebral cortex. NeuroImage 28: 635-662.
Van Essen DC, Drury HA, Dickson J, Harwell J, Hanlon D, et al. (2001) An integrated software suite for surface-based analyses of cerebral cortex. Journal of the American Medical Informatics Association 8: 443-459. (Pubitemid 32847795)
