Биология добра и зла. Как наука объясняет наши поступки

“Bidirectional Switch of the Valence Associated with a Hippocampal Contextual Memory Engram,” Nat 513 (2014): 426; E. Kirby et al., “Basolateral Amygdala Regulation of Adult Hippocampal Neurogenesis and Fear-Related Activation of Newborn Neurons,” Mol Psychiatry 17 (2012): 527.

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A. Gozzi, “A Neural Switch for Active and Passive Fear,” Neuron 67 (2010): 656.

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G. Aston-Jones and J. Cohen, “Adaptive Gain and the Role of the Locus Coeruleus-Norepinephrine System in Optimal Performance,” J Comp Neurol 493 (2005): 99; M. Carter et al., “Tuning Arousal with Optogenetic Modulation of Locus Coeruleus Neurons,”Nat Nsci 13 (2010): 1526.

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D. Blanchard et al., “Lesions of Structures Showing FOS Expression to Cat Presentation: Effects on Responsivity to a Cat, Cat Odor, and Nonpredator Threat,” Nsci Biobehav Rev 29 (2005): 1243.

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G. Holstege, “Brain Activation During Human Male Ejaculation,” J Nsci 23 (2003): 9185; H. Lee et al., “Scalable Control of Mounting and Attack by Ers1+ Neurons in the Ventromedial Hypothalamus,” Nat 509 (2014): 627; D. Anderson, “Optogenetics, Sex, and Violence in the Brain: Implications for Psychiatry,” BP 71 (2012): 1081.

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K Blair, “Neuroimaging of Psychopathy and Antisocial Behavior: A Targeted Review,” Curr Psychiatry Rep 12 (2010): 76; K. Kiehl, The Psychopath Whisperer: The Nature of Those Without Conscience (Woodland Hills, CA: Crown Books, 2014); M. Koenigs et al., “Investigating the Neural Correlates of Psychopathy: A Critical Review,” Mol Psychiatry 16 (2011): 792.

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Здесь весьма интересные рассуждения об импульсивности лобной коры: J. Dalley et al., “Impulsivity, Compulsivity, and Top-Down Cognitive Control,” Neuron 69 (2011): 680.

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J. Rilling and T. Insel, “The Primate Neocortex in Comparative Perspective Using MRI,” J Hum Evol 37 (1999): 191; R. Barton and C. Venditti, “Human Frontal Lobes Are Not Relatively Large,” PNAS 110 (2013): 9001; Y. Zhang et al., “Accelerated Recruitment of New Brain Development Genes into the Human Genome,” PLoS Biol 9 (2011): e1001179; G. Miller, “New Clues About What Makes the Human Brain Special,” Sci 330 (2010): 1167; K. Semendeferi et al., “Humans and Great Apes Share a Large Frontal Cortex,” Nat Nsci 5 (2002): 272; P. Schoenemann, “Evolution of the Size and Functional Areas of the Human Brain,” Ann Rev of Anthropology 35 (2006): 379.

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J. Allman et al., “The von Economo Neurons in the Frontoinsular and Anterior Cingulate Cortex,” ANYAS 1225 (2011): 59; C. Butti et al., “Von Economo Neurons: Clinical and Evolutionary Perspectives,” Cortex 49 (2013): 312; H. Evrard et al., “Von Economo Neurons in the Anterior Insula of the Macaque Monkey,” Neuron 74 (2012): 482.

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E. Miller and J. Cohen, “An Integrative Theory of Prefrontal Cortex Function,” Ann Rev of Nsci 24 (2001): 167.

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V. Mante et al., “Context-Dependent Computation by Recurrent Dynamics in Prefrontal Cortex,” Nat 503 (2013): 78. Вот еще несколько публикаций, где обсуждается вовлечение лобной коры, когда требуется переключиться на другую задачу: S. Bunge, “How We Use Rules to Select Actions: A Review of Evidence from Cognitive Neuroscience,” SCAN 4 (2004): 564; E. Crone et al., “Evidence for Separable Neural Processes Underlying Flexible Rule Use,” Cerebral Cortex 16 (2005): 475; R. Passingham et al., “Specialisation Within the Prefrontal Cortex: The Ventral Prefrontal Cortex and Associative Learning,” Exp Brain Res 133 (2000): 103; D. Liu et al., “Medial Prefrontal Activity During Delay Period Contributes to Learning of a Working Memory Task,” Sci 346 (2014): 458.

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J. Baldo et al., “Memory Performance on the California Verbal Learning Test-II: Findings from Patients with Focal Frontal Lesions,” J the Int Neuropsychological Soc 8 (2002): 539.

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D. Freedman, “Categorical Representation of Visual Stimuli in the Primate Prefrontal Cortex,” Sci 291 (2001): 312. Еще примеры кодировки разных категорий: D. McNamee et al., “Category-Dependent and Category-Independent Goal-Value Codes in Human Ventromedial Prefrontal Cortex,” Nat Nsci 16 (2013): 479. R. Schmidt et al., “Canceling Actions Involves a Race Between Basal Ganglia Pathways,” Nat Nsci 16 (2013): 1118.

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M. Histed et al., “Learning Subtracts in the Primate Prefrontal Cortex and Striatum: Sustained Activity Related to Successful Actions,” Neuron 63 (2004): 244. Вот еще несколько хороших примеров того, как лобная кора продолжает придерживаться выбранной линии: D. Crowe et al., “Prefrontal Neurons Transmit Signals to Parietal Neurons That Reflect Executive Control of Cognition,” Nat Nsci 16 (2013): 1484.

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M. Rigotti et al., “The Importance of Mixed Selectivity in Complex Cognitive Tasks,” Nat 497 (2013): 585; J. Cromer et al., “Representation of Multiple, Independent Categories in the Primate Prefrontal Cortex,” Neuron 66 (2010): 796; M. Cole et al., “Global Connectivity of Prefrontal Cortex Predicts Cognitive Control and Intelligence,” J Nsci 32 (2012): 8988.

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L. Grossman et al., “Accelerated Evolution of the Electron Transport Chain in Anthropoid Primates,” Trends in Genetics 20 (2004): 578.

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J. W. De Fockert et al., “The Role of Working Memory in Visual Selective Attention,” Sci 291 (2001): 1803; K. Vohs et al., “Making Choices Impairs Subsequent Self-Control: A Limited-Resource Account of Decision Making, Self-Regulation, and Active Initiative,” JPSP 94 (2008): 883; K. Watanabe and S. Funahashi, “Neural Mechanisms of Dual-Task Interference and Cognitive Capacity Limitation in the Prefrontal Cortex,” Nat Nsci 17 (2014): 601.

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N. Meand et al., “Too Tired to Tell the Truth: Self-Control Resource Depletion and Dishonesty,” JESP 45 (2009): 594; M. Hagger et al., “Ego Depletion and the Strength Model of Self-Control: A Meta-analysis,” Psych Bull 136 (2010): 495; C. DeWall et al., “Depletion Makes the Heart Grow Less Helpful: Helping as a Function of Self-Regulatory Energy and Genetic Relatedness,”