Ad Sci U S A 103:3863?868. Kriegeskorte N, Formisano E, Sorger B, Goebel R (2007) Individual faces elicit distinct response patterns in human anterior temporal cortex. Proc Natl Acad Sci U S A 104:20600 ?0605. Kriegeskorte N, Mur M, Ruff DA, Kiani R, Bodurka J, Esteky H, Tanaka K, Bandettini PA (2008) Matching categorical object MLN1117 web representations in inferior temporal cortex of man and monkey. Neuron 60:1126 ?141. Lane RD, Chua PM, Dolan RJ (1999) Common effects of emotional valence, arousal and attention on neural activation during visual processing of pictures. Neuropsychologia 37:989 ?97. Lerner Y, Epshtein B, Ullman S, Malach R (2008) Class information predicts activation by object fragments in human object areas. J Cogn Neurosci 20:1189 ?206. Liu T, Pestilli F, Carrasco M (2005) Transient attention enhances perceptual performance and fMRI response in human visual cortex. Neuron 45:469 ?477. Malach R, Reppas JB, Benson RR, Kwong KK, Jiang H, Kennedy WA, Ledden PJ, Brady TJ, Rosen BR, Tootell RB (1995) Object-related activity revealed by functional magnetic resonance imaging in human occipital cortex. Proc Natl Acad Sci U S A 92:8135?8139. O’Craven KM, Downing PE, Kanwisher N (1999) fMRI evidence for ARRY-334543 msds objects as the units of attentional selection. Nature 401:584 ?87. Palermo R, Rhodes G (2007) Are you always on my mind? A review of how face perception and attention interact. Neuropsychologia 45:75?2. Puce A, Allison T, Gore JC, McCarthy G (1995) Face-sensitive regions in human extrastriate cortex studied by functional MRI. J Neurophysiol 74:1192?199. Rajimehr R, Devaney KJ, Bilenko NY, Young JC, Tootell RB (2011) The “parahippocampal place area” responds preferentially to high spatial frequencies in humans and monkeys. PLoS Biol 9(4):e1000608. Sigala N, Logothetis NK (2002) Visual categorization shapes feature selectivity in the primate temporal cortex. Nature 415:318 ?20. Tanaka K (1996) Inferotemporal cortex and object vision. Annu Rev Neurosci 19:109 ?39. Tsao DY, Freiwald WA, Knutsen TA, Mandeville JB, Tootell RB (2003) Faces and objects in macaque cerebral cortex. Nat Neurosci 6:989 ?95. Tsao DY, Freiwald WA, Tootell RB, Livingstone MS (2006) A cortical region consisting entirely of face-selective cells. Science 311:670 ?674. Ullman S, Vidal-Naquet M, Sali E (2002) Visual features of intermediate complexity and their use in classification. Nat Neurosci 5:682?687. Vogels R (1999) Categorization of complex visual images by rhesus monkeys. Part 2: single-cell study. Eur J Neurosci 11:1239 ?255. Wojciulik E, Kanwisher N, Driver J (1998) Covert visual attention modulates face-specific activity in the human fusiform gyrus: fMRI study. J Neurophysiol 79:1574 ?578. Young MP, Yamane S (1992) Sparse population coding of faces in inferotemporal cortex. Science 256:1327?331.profile correlation test, (2) subject-unique group results for the largest-gapinverted-pairs test and category-step-and-gradedness test, and (3) optimally weighted subject-average group results for the largest-gap-inverted-pairs test. This material has not been peer reviewed.
ZooKeys 262: 39?2 (2013) www.zookeys.orgdoi: 10.3897/zookeys.262.Larvae of five horticulturally important species of Chrysopodes…ReseARCh ARtiCLeA peer-reviewed open-access journalLaunched to accelerate biodiversity researchLarvae of five horticulturally important species of Chrysopodes (Neuroptera, Chrysopidae): shared generic features, descriptions and keysPatr ia S. Silva1, Catherine A. Tauber2, Gil.Ad Sci U S A 103:3863?868. Kriegeskorte N, Formisano E, Sorger B, Goebel R (2007) Individual faces elicit distinct response patterns in human anterior temporal cortex. Proc Natl Acad Sci U S A 104:20600 ?0605. Kriegeskorte N, Mur M, Ruff DA, Kiani R, Bodurka J, Esteky H, Tanaka K, Bandettini PA (2008) Matching categorical object representations in inferior temporal cortex of man and monkey. Neuron 60:1126 ?141. Lane RD, Chua PM, Dolan RJ (1999) Common effects of emotional valence, arousal and attention on neural activation during visual processing of pictures. Neuropsychologia 37:989 ?97. Lerner Y, Epshtein B, Ullman S, Malach R (2008) Class information predicts activation by object fragments in human object areas. J Cogn Neurosci 20:1189 ?206. Liu T, Pestilli F, Carrasco M (2005) Transient attention enhances perceptual performance and fMRI response in human visual cortex. Neuron 45:469 ?477. Malach R, Reppas JB, Benson RR, Kwong KK, Jiang H, Kennedy WA, Ledden PJ, Brady TJ, Rosen BR, Tootell RB (1995) Object-related activity revealed by functional magnetic resonance imaging in human occipital cortex. Proc Natl Acad Sci U S A 92:8135?8139. O’Craven KM, Downing PE, Kanwisher N (1999) fMRI evidence for objects as the units of attentional selection. Nature 401:584 ?87. Palermo R, Rhodes G (2007) Are you always on my mind? A review of how face perception and attention interact. Neuropsychologia 45:75?2. Puce A, Allison T, Gore JC, McCarthy G (1995) Face-sensitive regions in human extrastriate cortex studied by functional MRI. J Neurophysiol 74:1192?199. Rajimehr R, Devaney KJ, Bilenko NY, Young JC, Tootell RB (2011) The “parahippocampal place area” responds preferentially to high spatial frequencies in humans and monkeys. PLoS Biol 9(4):e1000608. Sigala N, Logothetis NK (2002) Visual categorization shapes feature selectivity in the primate temporal cortex. Nature 415:318 ?20. Tanaka K (1996) Inferotemporal cortex and object vision. Annu Rev Neurosci 19:109 ?39. Tsao DY, Freiwald WA, Knutsen TA, Mandeville JB, Tootell RB (2003) Faces and objects in macaque cerebral cortex. Nat Neurosci 6:989 ?95. Tsao DY, Freiwald WA, Tootell RB, Livingstone MS (2006) A cortical region consisting entirely of face-selective cells. Science 311:670 ?674. Ullman S, Vidal-Naquet M, Sali E (2002) Visual features of intermediate complexity and their use in classification. Nat Neurosci 5:682?687. Vogels R (1999) Categorization of complex visual images by rhesus monkeys. Part 2: single-cell study. Eur J Neurosci 11:1239 ?255. Wojciulik E, Kanwisher N, Driver J (1998) Covert visual attention modulates face-specific activity in the human fusiform gyrus: fMRI study. J Neurophysiol 79:1574 ?578. Young MP, Yamane S (1992) Sparse population coding of faces in inferotemporal cortex. Science 256:1327?331.profile correlation test, (2) subject-unique group results for the largest-gapinverted-pairs test and category-step-and-gradedness test, and (3) optimally weighted subject-average group results for the largest-gap-inverted-pairs test. This material has not been peer reviewed.
ZooKeys 262: 39?2 (2013) www.zookeys.orgdoi: 10.3897/zookeys.262.Larvae of five horticulturally important species of Chrysopodes…ReseARCh ARtiCLeA peer-reviewed open-access journalLaunched to accelerate biodiversity researchLarvae of five horticulturally important species of Chrysopodes (Neuroptera, Chrysopidae): shared generic features, descriptions and keysPatr ia S. Silva1, Catherine A. Tauber2, Gil.
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