[ad_1]
Emery, N. J. The eyes have it: the neuroethology, function and evolution of social gaze. Neurosci. Biobehav. Rev. 24, 581–604 (2000).
Nahm, F. K., Perret, A., Amaral, D. G. & Albright, T. D. How do monkeys look at faces? J. Cogn. Neurosci. 9, 611–623 (1997).
Emery, N. J., Lorincz, E. N., Perrett, D. I., Oram, M. W. & Baker, C. I. Gaze following and joint attention in rhesus monkeys (Macaca mulatta). J. Comp. Psychol. 111, 286–293 (1997).
Chang, S. W. C., Gariepy, J.-F. & Platt, M. L. Neuronal reference frames for social decisions in primate frontal cortex. Nat. Neurosci. 16, 243–250 (2013).
Aquino, T. G. et al. Value-related neuronal responses in the human amygdala during observational learning. J. Neurosci. 40, 4761–4772 (2020).
Falcone, R., Brunamonti, E., Ferraina, S. & Genovesio, A. Neural encoding of self and another agent’s goal in the primate prefrontal cortex: human-monkey interactions. Cereb. Cortex 26, 4613–4622 (2016).
Haroush, K. & Williams, Z. M. Neuronal prediction of opponent’s behavior during cooperative social interchange in primates. Cell 160, 1233–1245 (2015).
Jamali, M. et al. Single-neuronal predictions of others’ beliefs in humans. Nature 591, 610–614 (2021).
Báez-Mendoza, R., Mastrobattista, E. P., Wang, A. J. & Williams, Z. M. Social agent identity cells in the prefrontal cortex of interacting groups of primates. Science 374, eabb4149 (2021).
Rose, M. C., Styr, B., Schmid, T. A., Elie, J. E. & Yartsev, M. M. Cortical representation of group social communication in bats. Science 374, eaba9584 (2021).
Padilla-Coreano, N. et al. Cortical ensembles orchestrate social competition through hypothalamic outputs. Nature 603, 667–671 (2022).
Kingsbury, L. et al. Correlated neural activity and encoding of behavior across brains of socially interacting animals. Cell 178, 429–446.e16 (2019).
Li, S. W. et al. Frontal neurons driving competitive behaviour and ecology of social groups. Nature 603, 661–666 (2022).
Visco-Comandini, F. et al. Do non-human primates cooperate? Evidences of motor coordination during a joint action task in macaque monkeys. Cortex. 70, 115–127 (2015).
Mesterton-gibbons, M. & Dugatkin, L. A. Cooperation and the Prisoner’s Dilemma: towards testable models of mutualism versus reciprocity. Anim. Behav. 54, 551–557 (1997).
Silk, J. B. Nepotistic cooperation in non-human primate groups. Philos. Trans. R. Soc. Lond. B. Biol. Sci. 364, 3243–3254 (2009).
Maestripieri, D. & Georgiev, A. V. What cortisol can tell us about the costs of sociality and reproduction among free-ranging rhesus macaque females on Cayo Santiago. Am. J. Primatol. 78, 92–105 (2016).
Sliwa, J. & Freiwald, W. A. A dedicated network for social interaction processing in the primate brain. Science 356, 745–749 (2017).
Dal Monte, O. et al. Widespread implementations of interactive social gaze neurons in the primate prefrontal-amygdala networks. Neuron 110, 2183–2197.e7 (2022).
Mosher, C. P., Zimmerman, P. E. & Gothard, K. M. Neurons in the monkey amygdala detect eye contact during naturalistic social interactions. Curr. Biol. 24, 2459–2464 (2014).
Mathis, A. et al. DeepLabCut: markerless pose estimation of user-defined body parts with deep learning. Nat. Neurosci. 21, 1281–1289 (2018).
Kobatake, E. & Tanaka, K. Neuronal selectivities to complex object features in the ventral visual pathway of the macaque cerebral cortex. J. Neurophysiol. 71, 856–867 (1994).
Schein, S. J. & Desimone, R. Spectral properties of V4 neurons in the macaque. J. Neurosci. 10, 3369–3389 (1990).
Pasupathy, A. & Connor, C. E. Responses to contour features in macaque area V4. J. Neurophysiol. 82, 2490–2502 (1999).
Wang, L. et al. Differential roles of delay-period neural activity in the monkey dorsolateral prefrontal cortex in visual-haptic crossmodal working memory. Proc. Natl Acad. Sci. USA 112, E214–9 (2015).
Viswanathan, P. & Nieder, A. Neuronal correlates of a visual ‘sense of number’ in primate parietal and prefrontal cortices. Proc. Natl Acad. Sci. USA 110, 11187–11192 (2013).
Gariépy, J.-F. et al. Social learning in humans and other animals. Front. Neurosci. 8, 58 (2014).
Tanji, J. & Hoshi, E. Role of the lateral prefrontal cortex in executive behavioral control. Physiol. Rev. 88, 37–57 (2008).
Dickey, A. S., Suminski, A., Amit, Y. & Hatsopoulos, N. G. Single-unit stability using chronically implanted multielectrode arrays. J. Neurophysiol. 102, 1331–1339 (2009).
Grabenhorst, F., Báez-Mendoza, R., Genest, W., Deco, G. & Schultz, W. Primate amygdala neurons simulate decision processes of social partners. Cell 177, 986–998.e15 (2019).
Suzuki, S. et al. Learning to simulate others’ decisions. Neuron 74, 1125–1137 (2012).
Rigotti, M. et al. The importance of mixed selectivity in complex cognitive tasks. Nature 497, 585–590 (2013).
Talluri, B.C., Kang, I., Lazere, A. et al. Activity in primate visual cortex is minimally driven by spontaneous movements. Nat. Neurosci. 26, 1953–1959 (2023).
Tremblay, S., Testard, C., DiTullio, R. W., Inchauspé, J. & Petrides, M. Neural cognitive signals during spontaneous movements in the macaque. Nat. Neurosci. https://doi.org/10.1038/s41593-022-01220-4 (2022).
Musall, S., Kaufman, M. T., Juavinett, A. L., Gluf, S. & Churchland, A. K. Single-trial neural dynamics are dominated by richly varied movements. Nat. Neurosci. 22, 1677–1686 (2019).
Shahidi, N. et al. Population coding of strategic variables during foraging in freely-moving macaques. Nat. Neurosci. (in the press).
Koren, V. Uncovering structured responses of neural populations recorded from macaque monkeys with linear support vector machines. STAR Protoc. 2, 100746 (2021).
Shahidi, N., Andrei, A. R., Hu, M. & Dragoi, V. High-order coordination of cortical spiking activity modulates perceptual accuracy. Nat. Neurosci. 22, 1148–1158 (2019).
Salinas, E. & Sejnowski, T. J. Correlated neuronal activity and the flow of neural information. Nat. Rev. Neurosci. 2, 539–550 (2001).
Bair, W., Zohary, E. & Newsome, W. T. Correlated firing in macaque visual area MT: time scales and relationship to behavior. J. Neurosci. 21, 1676–1697 (2001).
Miller, E. K. & Cohen, J. D. An integrative theory of prefrontal cortex function. Annu. Rev. Neurosci. 24, 167–202 (2001).
Hedrick, N. G. et al. Learning binds new inputs into functional synaptic clusters via spinogenesis. Nat. Neurosci. 25, 726–737 (2022).
Makino, H., Hwang, E. J., Hedrick, N. G. & Komiyama, T. Circuit mechanisms of sensorimotor learning. Neuron 92, 705–721 (2016).
Semedo, J. D., Zandvakili, A., Machens, C. K., Yu, B. M. & Kohn, A. Cortical areas interact through a communication subspace. Neuron 102, 249–259.e4 (2019).
Runyan, C. A., Piasini, E., Panzeri, S. & Harvey, C. D. Distinct timescales of population coding across cortex. Nature 548, 92–96 (2017).
Ong, W. S., Madlon-Kay, S. & Platt, M. L. Neuronal correlates of strategic cooperation in monkeys. Nat. Neurosci. https://doi.org/10.1038/s41593-020-00746-9 (2020).
Wallace, K. J. & Hofmann, H. A. Decision-making in a social world: integrating cognitive ecology and social neuroscience. Curr. Opin. Neurobiol. 68, 152–158 (2021).
Ghazanfar, A. A. & Santos, L. R. Primate brains in the wild: the sensory bases for social interactions. Nat. Rev. Neurosci. 5, 603–616 (2004).
Fernandez-Leon, J. A. et al. A wireless transmission neural interface system for unconstrained non-human primates. J. Neural Eng. 12, 56005 (2015).
Milton, R., Shahidi, N. & Dragoi, V. Dynamic states of population activity in prefrontal cortical networks of freely-moving macaque. Nat. Commun. 11, 1948 (2020).
Contestabile, A., Casarotto, G., Girard, B., Tzanoulinou, S. & Bellone, C. Deconstructing the contribution of sensory cues in social approach. Eur. J. Neurosci. 53, 3199–3211 (2021).
Froesel, M. et al. Socially meaningful visual context either enhances or inhibits vocalisation processing in the macaque brain. Nat. Commun. 13, 4886 (2022).
Fan, S., Dal Monte, O. & Chang, S. W. C. Levels of naturalism in social neuroscience research. iScience 24, 102702 (2021).
Miller, C. T. et al. Natural behavior is the language of the brain. Curr. Biol. 32, R482–R493 (2022).
Salvucci, D. D. & Goldberg, J. H. Identifying fixations and saccades in eye-tracking protocols. In Proc. 2000 Symposium on Eye Tracking Research & Applications 71–78 (Association for Computing Machinery, 2000).
Mahalanobis, P. C. On the generalised distance in statistics. Proc. Natl Acad. Sci. India 2, 45–49 (1936).
Luo, T. Z. & Maunsell, J. H. R. Attentional changes in either criterion or sensitivity are associated with robust modulations in lateral prefrontal cortex. Neuron 97, 1382–1393.e7 (2018).
Green, D. M. & Swets, J. A. Signal Detection Theory and Psychophysics (Wiley, 1966).
Bishop, C. M. Pattern Recognition and Machine Learning (Springer, 2006).
Pojoga, S. A., Kharas, N. & Dragoi, V. Perceptually unidentifiable stimuli influence cortical processing and behavioral performance. Nat. Commun. 11, 6109 (2020).
Kruger, J. & Aiple, F. Multimicroelectrode investigation of monkey striate cortex: Spike train correlations in the infragranular layers. J. Neurophysiol. 60, 798–828 (1988).
[ad_2]
Source link
Leave a Reply