J
Jane R. Taylor
Researcher at Yale University
Publications - 197
Citations - 18119
Jane R. Taylor is an academic researcher from Yale University. The author has contributed to research in topics: Nucleus accumbens & Prefrontal cortex. The author has an hindex of 71, co-authored 187 publications receiving 16610 citations. Previous affiliations of Jane R. Taylor include University of Connecticut & Rosalind Franklin University of Medicine and Science.
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Developmental Neurocircuitry of Motivation in Adolescence: A Critical Period of Addiction Vulnerability
TL;DR: An exploration of developmental changes in neurocircuitry involved in impulse control has significant implications for understanding adolescent behavior, addiction vulnerability, and the prevention of addiction in adolescence and adulthood.
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Supranormal Stimulation of D1 Dopamine Receptors in the Rodent Prefrontal Cortex Impairs Spatial Working Memory Performance
TL;DR: Results demonstrate that supranormal D1 receptor stimulation in the PFC is sufficient to impair PFC working memory function, which is consistent with recent electrophysiological studies of D1 receptors mechanisms affecting the P FC.
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Molecular mechanisms of memory reconsolidation
TL;DR: Understanding the molecular mechanisms of reconsolidation could provide crucial insights into the dynamic aspects of normal mnemonic function and psychiatric disorders that are characterized by exceptionally strong and salient emotional memories.
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Strategies and Methods for Research on Sex Differences in Brain and Behavior
Jill B. Becker,Arthur P. Arnold,Karen J. Berkley,Jeffrey D. Blaustein,Lisa A. Eckel,Elizabeth Hampson,James P. Herman,Sherry A. Marts,Wolfgang Sadee,Meir Steiner,Jane R. Taylor,Elizabeth A. Young +11 more
TL;DR: Methods and procedures are described to assist scientists new to the field in designing and conducting experiments to investigate sex differences in research involving both laboratory animals and humans.
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Effects of chronic exposure to cocaine are regulated by the neuronal protein Cdk5
James A. Bibb,Jingshan Chen,Jane R. Taylor,Per Svenningsson,Akinori Nishi,Akinori Nishi,Gretchen L. Snyder,Zhen Yan,Zhen Yan,Zachary K. Sagawa,Charles C. Ouimet,Angus C. Nairn,Eric J. Nestler,Eric J. Nestler,Paul Greengard +14 more
TL;DR: The results suggest that changes in Cdk5 levels mediated by ΔFosB, and resulting alterations in signalling involving D1 dopamine receptors, contribute to adaptive changes in the brain related to cocaine addiction.