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Publications of Jennifer M. Groh    :chronological  alphabetical  by type  bibtex listing:

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  1. Schmehl, MN; Caruso, VC; Chen, Y; Jun, NY; Willett, SM; Mohl, JT; Ruff, DA; Cohen, M; Ebihara, AF; Freiwald, WA; Tokdar, ST; Groh, JM (2024). Multiple objects evoke fluctuating responses in several regions of the visual pathway.. eLife, 13, e91129. [doi]  [abs]
  2. King, CD; Lovich, SN; Murphy, DL; Landrum, R; Kaylie, D; Shera, CA; Groh, JM (2023). Individual similarities and differences in eye-movement-related eardrum oscillations (EMREOs).. Hear Res, 440, 108899. [doi]  [abs]
  3. Lovich, SN; King, CD; Murphy, DLK; Landrum, RE; Shera, CA; Groh, JM (2023). Parametric information about eye movements is sent to the ears.. Proceedings of the National Academy of Sciences of the United States of America, 120(48), e2303562120. [doi]  [abs]
  4. Lovich, SN; King, CD; Murphy, DLK; Abbasi, H; Bruns, P; Shera, CA; Groh, JM (2023). Conserved features of eye movement related eardrum oscillations (EMREOs) across humans and monkeys.. Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 378(1886), 20220340. [doi]  [abs]
  5. King, CD; Lovich, SN; Murphy, DLK; Landrum, R; Kaylie, D; Shera, CA; Groh, JM (2023). Individual similarities and differences in eye-movement-related eardrum oscillations (EMREOs).. bioRxiv. [doi]  [abs]
  6. Lovich, SN; King, CD; Murphy, DLK; Abbasi, H; Bruns, P; Shera, CA; Groh, J (2023). Conserved features of eye movement related eardrum oscillations (EMREOs) across humans and monkeys.. bioRxiv. [doi]  [abs]
  7. Jun, NY; Ruff, DA; Kramer, LE; Bowes, B; Tokdar, ST; Cohen, MR; Groh, JM (2022). Coordinated multiplexing of information about separate objects in visual cortex.. eLife, 11, e76452. [doi]  [abs]
  8. Willett, SM; Groh, JM (2022). Multiple sounds degrade the frequency representation in monkey inferior colliculus.. The European journal of neuroscience, 55(2), 528-548. [doi]  [abs]
  9. Schmehl, MN; Groh, JM (2021). Visual Signals in the Mammalian Auditory System.. Annual review of vision science, 7, 201-223. [doi]  [abs]
  10. Caruso, VC; Pages, DS; Sommer, MA; Groh, JM (2021). Compensating for a shifting world: evolving reference frames of visual and auditory signals across three multimodal brain areas.. Journal of neurophysiology, 126(1), 82-94. [doi]  [abs]
  11. Glynn, C; Tokdar, ST; Zaman, A; Caruso, VC; Mohl, JT; Willett, SM; Groh, JM (2021). ANALYZING SECOND ORDER STOCHASTICITY OF NEURAL SPIKING UNDER STIMULI-BUNDLE EXPOSURE.. The annals of applied statistics, 15(1), 41-63. [doi]  [abs]
  12. Mohl, JT; Pearson, JM; Groh, JM (2020). Monkeys and humans implement causal inference to simultaneously localize auditory and visual stimuli.. J Neurophysiol, 124(3), 715-727. [doi]  [abs]
  13. Jun, NY; Ruff, DA; Kramer, LE; Bowes, B; Tokdar, ST; Cohen, MR; Groh, JM (2019). Coordinated multiplexing of information about separate objects in visual cortex. [doi]  [abs]
  14. Kopčo, N; Lokša, P; Lin, I-F; Groh, J; Shinn-Cunningham, B (2019). Hemisphere-specific properties of the ventriloquism aftereffect.. The Journal of the Acoustical Society of America, 146(2), EL177. [doi]  [abs]
  15. Caruso, VC; Mohl, JT; Glynn, C; Lee, J; Willett, SM; Zaman, A; Ebihara, AF; Estrada, R; Freiwald, WA; Tokdar, ST; Groh, JM (2018). Single neurons may encode simultaneous stimuli by switching between activity patterns.. Nature communications, 9(1), 2715. [doi]  [abs]
  16. Gruters, KG; Murphy, DLK; Jenson, CD; Smith, DW; Shera, CA; Groh, JM (2018). The eardrums move when the eyes move: A multisensory effect on the mechanics of hearing.. Proceedings of the National Academy of Sciences of the United States of America, 115(6), E1309-E1318. [doi]  [abs]
  17. Caruso, V; Pages, D; Sommer, MA; Groh, J (2017). Beyond the labeled line: variation in visual reference frames from intraparietal cortex to frontal eye fields and the superior colliculus. Journal of Neurophysiology, In Press(4), 1411-1421. [doi]  [abs]
  18. Pages, DS; Ross, DA; Puñal, VM; Agashe, S; Dweck, I; Mueller, J; Grill, WM; Wilson, BS; Groh, JM (2016). Effects of Electrical Stimulation in the Inferior Colliculus on Frequency Discrimination by Rhesus Monkeys and Implications for the Auditory Midbrain Implant.. J Neurosci, 36(18), 5071-5083. [doi]  [abs]
  19. Caruso, VC; Pages, DS; Sommer, MA; Groh, JM (2016). Similar prevalence and magnitude of auditory-evoked and visually-evoked activity in the frontal eye fields: Implications for multisensory motor control. Journal of Neurophysiology, in press(6), 3162-3173. [doi]  [abs]
  20. Groh, JM (2014). Making Space: How the Brain Knows Where Things Are.. Harvard University Press. [catalog.php]  [abs]
  21. Groh, JM; Lee, J (2014). Different Stimuli, Different Spatial Codes: A Visual Map and an Auditory Rate Code for Oculomotor Space in the Primate Superior Colliculus. PLoS One, 9(1), e85017. [journal.pone.0085017], [doi]  [abs]
  22. Zucker, NL; Merwin, RM; Bulik, CM; Moskovich, A; Wildes, JE; Groh, J (2013). Subjective experience of sensation in anorexia nervosa.. Behav Res Ther, 51(6), 256-265. [23523866], [doi]  [abs]
  23. Pages, DS; Groh, JM (2013). Looking at the ventriloquist: visual outcome of eye movements calibrates sound localization.. PLoS One, 8(8), e72562. [24009691], [doi]  [abs]
  24. Gruters, KG; Groh, JM (2012). Sounds and beyond: Multisensory and other non-auditory signals in the inferior colliculus. Frontiers in Neural Circuits, NOV, 1-39. [doi]  [abs]
  25. Lee, J; Groh, JM (2012). Auditory signals evolve from hybrid- to eye-centered coordinates in the primate superior colliculus.. Journal of neurophysiology, 108(1), 227-242. [22514295], [doi]  [abs]
  26. Bulkin, DA; Groh, JM (2012). Distribution of eye position information in the monkey inferior colliculus.. Journal of neurophysiology, 107(3), 785-795. [doi]  [abs]
  27. Gruters, KG; Groh, JM (2012). Sounds and beyond: multisensory and other non-auditory signals in the inferior colliculus.. Frontiers in neural circuits, 6(DEC), 96. [23248584], [doi]  [abs]
  28. Bulkin, DA; Groh, JM (2012). Distribution of visual and saccade related information in the monkey inferior colliculus.. Frontiers in neural circuits, 6(SEPTEMBER), 61. [doi]  [abs]
  29. DA Bulkin, JM Groh (2012). Distribution of visual and saccade related information in the monkey inferior colliculus.. Frontiers in neural circuits, 6, 61. [doi]  [abs]
  30. Bulkin, DA; Groh, JM (2011). Systematic mapping of the monkey inferior colliculus reveals enhanced low frequency sound representation.. Journal of neurophysiology, 105(4), 1785-1797. [21307328], [doi]  [abs]
  31. Groh, JM (2011). Effects of Initial Eye Position on Saccades Evoked by Microstimulation in the Primate Superior Colliculus: Implications for Models of the SC Read-Out Process.. Frontiers in integrative neuroscience, 4, 130. [21267431], [doi]  [abs]
  32. J.M. Groh (2011). [Book Review: The Tell Tale Brain.]. Journal of Clinical Investigation, 121, 2953.
  33. JM Groh (2011). Effects of Initial Eye Position on Saccades Evoked by Microstimulation in the Primate Superior Colliculus: Implications for Models of the SC Read-Out Process.. Frontiers in integrative neuroscience, 4(4), 130. [doi]  [abs]
  34. Groh, JM; Pai, DK "Looking at Sounds: Neural Mechanisms in the Primate Brain." Primate Neuroethology. Oxford University Press, February, 2010: 273-291. [doi]  [abs]
  35. Maier, JX; Groh, JM (2010). Comparison of gain-like properties of eye position signals in inferior colliculus versus auditory cortex of primates.. Frontiers in integrative neuroscience, 4, 121. [20838470], [doi]  [abs]
  36. Maier, JX; Groh, JM (2009). Multisensory guidance of orienting behavior.. Hearing research, 258(1-2), 106-112. [19520151], [doi]  [abs]
  37. Kopco, N; Lin, I-F; Shinn-Cunningham, BG; Groh, JM (2009). Reference frame of the ventriloquism aftereffect.. The Journal of neuroscience : the official journal of the Society for Neuroscience, 29(44), 13809-13814. [19889992], [doi]  [abs]
  38. Mullette-Gillman, OA; Cohen, YE; Groh, JM (2009). Motor-related signals in the intraparietal cortex encode locations in a hybrid, rather than eye-centered reference frame.. Cereb Cortex, 19(8), 1761-1775. [19068491], [doi]  [abs]
  39. Mullette-Gillman, O. A., Cohen, Y. E. and Groh, JM. (2009). Motor-related signals in the intraparietal cortex encode locations in a hybrid, rather than eye-centered, reference frame. Cerebral Cortex, 19(8), 1761-1775.  [abs]
  40. Werner-Reiss, U; Groh, JM (2008). A rate code for sound azimuth in monkey auditory cortex: implications for human neuroimaging studies.. J Neurosci, 28(14), 3747-3758. [18385333], [doi]  [abs]
  41. Groh, JM and Pai, D "Looking at sounds: neural mechanisms in the primate brain.." Primate Neuroethology. In press.  [abs]
  42. Porter, KK; Metzger, RR; Groh, JM (2007). Visual- and saccade-related signals in the primate inferior colliculus.. Proc Natl Acad Sci U S A, 104(45), 17855-17860. [17978183], [doi]  [abs] [author's comments]
  43. Bulkin, DA; Groh, JM (2006). Seeing sounds: visual and auditory interactions in the brain.. Current opinion in neurobiology, 16(4), 415-419. [16837186], [doi]  [abs]
  44. Metzger, RR; Greene, NT; Porter, KK; Groh, JM (2006). Effects of reward and behavioral context on neural activity in the primate inferior colliculus.. The Journal of neuroscience : the official journal of the Society for Neuroscience, 26(28), 7468-7476. [doi]  [abs]
  45. Porter, KK; Metzger, RR; Groh, JM (2006). Representation of eye position in primate inferior colliculus.. Journal of neurophysiology, 95(3), 1826-1842. [doi]  [abs]
  46. Porter, KK; Groh, JM (2006). The "other" transformation required for visual-auditory integration: representational format.. Progress in brain research, 155, 313-323. [Gateway.cgi], [doi]  [abs]
  47. Werner-Reiss, U; Porter, KK; Underhill, AM; Groh, JM (2006). Long lasting attenuation by prior sounds in auditory cortex of awake primates.. Experimental brain research, 168(1-2), 272-276. [doi]  [abs]
  48. J.M. Groh, O. A. Mullette-Gillman, Y. E. Cohen (2006). Auditory and visual reference frames in the intraparietal sulcus. Cosyne workshop.
  49. J.M. Groh (2006). Hybrid reference frames: why?. Neural Control of Movement..
  50. Mullette-Gillman, OA; Cohen, YE; Groh, JM (2005). Eye-centered, head-centered, and complex coding of visual and auditory targets in the intraparietal sulcus.. Journal of neurophysiology, 94(4), 2331-2352. [doi]  [abs]
  51. Werner-Reiss, U, Greene, NT, Underhill, AM, Metzger, RR, Groh, JM (2005). The representation of sound frequency in the primate inferior colliculus. Association for Research in Otolaryngology Abstr..
  52. Werner-Reiss, U, Porter, KK, Greene, NT, Larue, DT, Winer, JA and Groh, JM (2005). Eye position signals are distributed throughout the primate inferior colliculus. Soc. Neurosci. Abstr..
  53. Porter, KK, Metzger, RR, Werner-Reiss, U, Underhill, AM, Groh, JM (2005). Visual responses in auditory neurons of the primate inferior colliculus. Soc. Neurosci. Abstr..
  54. Metzger, RR; Mullette-Gillman, OA; Underhill, AM; Cohen, YE; Groh, JM (2004). Auditory saccades from different eye positions in the monkey: implications for coordinate transformations.. Journal of neurophysiology, 92(4), 2622-2627. [doi]  [abs]
  55. Mullette-Gillman, OA; Cohen, YE; Groh, JM (2004). Reference frame of auditory and visual signals in bimodal neurons of the primate lateral intraparietal area (LIP). Soc. Neurosci. Abstr..
  56. Metzger, RR, Kelly, KA, Groh, JM (2004). Sensitivity to eye position in the inferior colliculus of the monkey during an auditory saccade task. Soc. Neurosci. Abstr..
  57. Werner-Reiss, U, Underhill, AM, and Groh, JM (2004). The representation of auditory space in core auditory cortex of primates maintaining fixation. Soc. Neurosci. Abstr..
  58. Groh, JM; Kelly, KA; Underhill, AM (2003). A monotonic code for sound azimuth in primate inferior colliculus.. Journal of cognitive neuroscience, 15(8), 1217-1231. [doi]  [abs]
  59. Werner-Reiss, U; Kelly, KA; Trause, AS; Underhill, AM; Groh, JM (2003). Eye position affects activity in primary auditory cortex of primates.. Current biology : CB, 13(7), 554-562. [doi]  [abs]
  60. Kelly, KA, Werner-Reiss, U, Underhill, AM and Groh, JM (2003). Eye position signals change shape along the primate auditory pathway. Soc. Neurosci. Abstr..
  61. Metzger, RR, Mullette-Gillman, OA, Underhill, AM, Cohen, YE and Groh, JM (2003). Effect of initial eye position on saccades to auditory targets in monkeys. Soc. Neurosci. Abstr..
  62. Mullette-Gillman, OA, Cohen, YE and Groh, JM (2003). Similar eye position influences on auditory and visual responses in the lateral intraparietal area, LIP, of primates. Soc. Neurosci. Abstr..
  63. Werner-Reiss, U, Kelly, KA, Underhill, AM and Groh, JM (2003). Long inter-stimulus intervals affect responses in primate auditory cortex. Soc. Neurosci. Abstr..
  64. Groh, JM; Gazzaniga, MS (2003). How the brain keeps time. Daedalus, 132(2), 56-61.
  65. Kelly, KA; Metzger, R; Mullette-Gillman, OA; Werner-Reiss, U; Groh, JM "Representation of sound location in the primate brain." Primate Audition: Ethology and Neurobiology. Ed. A. Ghazanfar Boca Raton, FL: CRC. Press, January, 2002: 177-197.  [abs]
  66. Groh, JM and Werner-Reiss, U "Visual and auditory integration." Encyclopedia of the Human Brain. Ed. V. S. Ramachandran San Diego, CA: Academic Press, 2002
  67. Kelly KA, Werner-Reiss U, Underhill AM, and Groh JM (2002). Eye position affects a wide range of auditory cortical neurons in primates. Soc. Neurosci. Abstr., 845.1.
  68. Mullette-Gillman OA, Cohen YE, and Groh JM (2002). Assessing the spatial alignment of auditory and visual responses in the inferior parietal sulcus. Soc. Neurosci. Abstr., 57.19.
  69. Metzger RR and Groh JM (2002). Linking primate inferior colliculus neural activity to sound localization performance. Soc. Neurosci. Abstr., 845.2.
  70. Groh, JM (2001). Converting neural signals from place codes to rate codes.. Biological cybernetics, 85(3), 159-165. [doi]  [abs]
  71. Boucher, L; Groh, JM; Hughes, HC (2001). Afferent delays and the mislocalization of perisaccadic stimuli.. Vision research, 41(20), 2631-2644. [doi]  [abs]
  72. Groh, JM; Trause, AS; Underhill, AM; Clark, KR; Inati, S (2001). Eye position influences auditory responses in primate inferior colliculus.. Neuron, 29(2), 509-518. (This article was featured on the cover of the journal). [doi]  [abs]
  73. Groh, JM, Underhill, AM (2001). Coding of sound location in primate inferior colliculus. Soc. Neurosci. Abstr., 27, 60.1.
  74. Metzger, R R, Underhill, AM and Groh, JM (2001). Time course of eye position influence in primate inferior colliculus. Soc. Neurosci. Abstr., 27, 60.3.
  75. Werner-Reiss, U, Kelly, KA, Underhill, AM and Groh, JM (2001). Eye position tuning in primate auditory cortex. Soc. Neurosci. Abstr., 27, 60.2.
  76. Boucher, L; Groh, JM; Hughes, HC (2001). Visual latency and the mislocalization of perisaccadic stimuli. Vision Research, 41(20), 2631-2644. [doi]  [abs]
  77. Born, RT; Groh, JM; Zhao, R; Lukasewycz, SJ (2000). Segregation of object and background motion in visual area MT: effects of microstimulation on eye movements.. Neuron, 26(3), 725-734. [doi]  [abs]
  78. Groh, JM (2000). Predicting perception from population codes.. Nature neuroscience, 3(3), 201-202. [doi]  [abs]
  79. Trause, AS, Werner-Reiss, U, Underhill, AM, Groh, JM (2000). Effects of eye position on auditory signals in primate auditory cortex. Soc. Neurosci. Abstr., 26, 1977.
  80. Clark, KR, Trause, AS, Underhill, AM, Groh, JM (2000). Effects of eye position on auditory signals in primate inferior colliculus. Soc. Neurosci. Abstr., 26, 1977.
  81. Boucher, L, Groh JM, Hughes, HC (2000). Oculomotor localization of perisaccadic auditory targets. Soc. Neurosci. Abstr., 26, 1329.
  82. Boucher, L, Groh, JM, and Hughes, HC (1999). Contributions of visual processing delays to mislocalization of perisaccadic stimuli. Soc. Neurosci. Abstr., 29.
  83. Born, RT, Zhao, R, and Lukasewycz, SJ, Groh, JM (1999). Representation of figure and ground in visual area MT. Soc. Neurosci. Abstr..
  84. Groh, JM (1998). Reading neural representations.. Neuron, 21(4), 661-664. [doi]
  85. Wickersham, I; Groh, JM (1998). Neurophysiology: electrically evoking sensory experience.. Current biology : CB, 8(12), R412-R414. [doi]  [abs]
  86. Wickersham, I; Groh, JM (1998). Electrically evoking sensory experience. Current Biology, 8(12), R412-R414.  [abs]
  87. Groh, JM; Born, RT; Newsome, WT (1997). How is a sensory map read Out? Effects of microstimulation in visual area MT on saccades and smooth pursuit eye movements.. The Journal of neuroscience : the official journal of the Society for Neuroscience, 17(11), 4312-4330. [doi]  [abs]
  88. Groh, JM (1997). A model for transforming signals from a place code to a rate code. Soc. Neurosci. Abstr., 23, 1560.
  89. Groh, JM; Seidemann, E; Newsome, WT (1996). Neurophysiology: neural fingerprints of visual attention.. Current biology : CB, 6(11), 1406-1409. [doi]  [abs]
  90. Groh, JM; Born, RT; Newsome, WT (1996). A comparison of the effects of microstimulation in area MT on saccades and smooth pursuit eye movements. Investigative Ophthalmology and Visual Science, 37(3), S472.  [abs]
  91. Groh, JM; Sparks, DL (1996). Saccades to somatosensory targets. III. eye-position-dependent somatosensory activity in primate superior colliculus.. Journal of neurophysiology, 75(1), 439-453. [doi]  [abs]
  92. Groh, JM; Sparks, DL (1996). Saccades to somatosensory targets. II. motor convergence in primate superior colliculus.. Journal of neurophysiology, 75(1), 428-438. [doi]  [abs]
  93. Groh, JM; Sparks, DL (1996). Saccades to somatosensory targets. I. behavioral characteristics.. Journal of neurophysiology, 75(1), 412-427. [doi]  [abs]
  94. Groh, JM; Seidemann, E; Newsome, WT (1996). Neural fingerprints of visual attention. Current Biol., 11, 1406-1409.
  95. Groh, JM; Born, RT; Newsome, WT (1996). Interpreting sensory maps in visual cortex. IBRO News, 24, 11-12.
  96. Sparks, DL and Groh, JM "The superior colliculus: a window to problems in integrative neuroscience." The Cognitive Neurosciences. Ed. Michael S. Gazzaniga Cambridge, MA: MIT Press, 1995
  97. Groh, JM, Born, RT, and Newsome, WT (1995). Microstimulation of area MT affects both saccades and smooth pursuit eye movements. Soc. Neurosci. Abstr., 21, 281.
  98. Born, RT, Groh, JM, and Newsome, WT (1995). Functional architecture of primate area MT probed with microstimulation: effects on eye movements. Soc. Neurosci. Abstr., 21, 281.
  99. Shadlen, MN, Groh, JM, Salzman, CD and Newsome, WT (1994). . Responses of LIP neurons during a motion discrimination task: a decision process in action?. Soc. Neurosci. Abstr., 20, 1279.
  100. Groh, JM (1993). Coordinate transformations, sensorimotor integration, and the neural basis of saccades to somatosensory targets. (Ph.D. thesis, University of Pennsylvania).
  101. Groh, JM and Sparks, DL (1993). Motor activity in the primate superior colliculus (SC) during saccades to somatosensory and visual targets. Invest. Ophthal. Vis.. Sci., 34, 1137.
  102. Glimcher, PW, Groh, JM and Sparks, DL (1993). Low-frequency collicular stimulation specifies saccadic amplitude gradually. Invest. Ophthal. Vis.. Sci., 34, 1137.
  103. Groh, JM and Sparks, DL (1993). Somatosensory activity in the superior colliculus (SC) influenced by eye position. Soc. Neurosci. Abstr., 19, 858.
  104. Groh, JM; Sparks, DL (1992). Two models for transforming auditory signals from head-centered to eye-centered coordinates.. Biological cybernetics, 67(4), 291-302. [doi]  [abs]
  105. Groh, JM and Sparks, DL (1992). Characteristics of saccades to somatosensory targets. Soc. Neurosci. Abstr., 18, 701.
  106. Groh, JM and Sparks, DL (1991). A model for transforming auditory signals from head-centered to eye-centered coordinates. Soc. Neurosci. Abstr., 17, 458.
  107. Aldridge, JW, Thompson, JF, Walters, EA, Groh, JM and Gilman, S (1991). Neostriatal unit activity related to movement preparation in a go/no-go task in the cat. Soc. Neurosci. Abstr., 17, 1217.
  108. Groh, JM (1988). Bachelor male feral horses: characteristics of group living and aggression. (Senior thesis, Princeton University).
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