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J. David Jentsch

D-Index & Metrics

Neuroscience

D-Index
62
Citations
14767
World Ranking
3510
National Ranking
1621

Overview

J. David Jentsch is affiliated with Binghamton University in the United States. Their research primarily focuses on neuroscience and biochemistry, genetics, and molecular biology with an emphasis on cellular and molecular neuroscience, genetics, molecular biology, cognitive neuroscience, and physiology.

Their recent publications address various aspects of substance use and genetic influences on behavior. Notable papers include:

  • Extreme phenotypic diversity in operant response to intravenous cocaine or saline infusion in the hybrid mouse diversity panel, 2022, Addiction Biology
  • Genetic pathways regulating the longitudinal acquisition of cocaine self-administration in a panel of inbred and recombinant inbred mice, 2023, Cell Reports
  • Extreme Phenotypic Diversity in Operant Responding for an Intravenous Cocaine or Saline Infusion in the Hybrid Mouse Diversity Panel, 2021, bioRxiv (Cold Spring Harbor Laboratory)
  • Heritability of ethanol consumption and pharmacokinetics in a genetically diverse panel of Collaborative Cross mouse strains and their inbred founders, 2020, bioRxiv (Cold Spring Harbor Laboratory)
  • Gonadal Sex and Sex-Chromosome Complement Interact to Affect Ethanol Consumption in Adolescent Four Core Genotypes Mice, 2022, bioRxiv (Cold Spring Harbor Laboratory)

Their frequent co-authors include Jared R. Bagley, Elissa J. Chesler, Arshad H. Khan, Desmond J. Smith, and Vivek M. Philip.

Jentsch has contributed to numerous publications in specific venues, with a significant number appearing in bioRxiv (Cold Spring Harbor Laboratory). Other journals include Addiction Biology, Cell Reports, Communications Biology, and the International Journal of Molecular Sciences.

The research topics explored by Jentsch cover areas such as:

  • Neurotransmitter receptor influence on behavior
  • Genetic mapping and diversity in plants and animals
  • Receptor mechanisms and signaling
  • Adipose tissue and metabolism
  • Neuroscience and neuropharmacology research
  • Memory and neural mechanisms
  • Metabolomics and mass spectrometry studies

The scientist's work integrates investigations into genetic mechanisms underlying substance use behaviors, neurotransmitter systems' impact on behavior, and molecular pathways related to metabolism and neuropharmacology. Their multidisciplinary approach involves genetic diversity studies using mouse models to understand behavioral phenotypes related to drug administration and ethanol consumption.

Best Publications

  • Impulsivity resulting from frontostriatal dysfunction in drug abuse: implications for the control of behavior by reward-related stimuli

    Unknown

  • The neuropsychopharmacology of phencyclidine: from NMDA receptor hypofunction to the dopamine hypothesis of schizophrenia.

    J David Jentsch;Robert H Roth

  • Enduring Cognitive Deficits and Cortical Dopamine Dysfunction in Monkeys After Long-Term Administration of Phencyclidine

    J. David Jentsch;D. Eugene Redmond;John D. Elsworth;Jane R. Taylor

  • The HMG-CoA Reductase Inhibitor Lovastatin Reverses the Learning and Attention Deficits in a Mouse Model of Neurofibromatosis Type 1

    Weidong Li;Yijun Cui;Steven A. Kushner;Robert A.M. Brown

  • A Neurobehavioral Systems Analysis of Adult Rats Exposed to Methylazoxymethanol Acetate on E17: Implications for the Neuropathology of Schizophrenia

    Holly Moore;J. David Jentsch;Mehdi Ghajarnia;Mark A. Geyer

  • Reversal learning as a measure of impulsive and compulsive behavior in addictions

    Alicia Izquierdo;J. David Jentsch

  • Impairments of reversal learning and response perseveration after repeated, intermittent cocaine administrations to monkeys.

    J. David Jentsch;Peter Olausson;Richard De La Garza;Richard De La Garza;Jane R. Taylor

  • Dissecting impulsivity and its relationships to drug addictions

    J. David Jentsch;James R. Ashenhurst;M. Catalina Cervantes;Stephanie M. Groman

  • Insight Into the Relationship Between Impulsivity and Substance Abuse From Studies Using Animal Models

    Catharine A. Winstanley;Peter Olausson;Jane R. Taylor;J. David Jentsch

  • Phenomics: The systematic study of phenotypes on a genome-wide scale

    R. M. Bilder;R. M. Bilder;F. W. Sabb;F. W. Sabb;T. D. Cannon;T. D. Cannon;E. D. London;E. D. London

  • Dopamine and Spatial Working Memory in Rats and Monkeys: Pharmacological Reversal of Stress-Induced Impairment

    B. L. Murphy;A. F. T. Arnsten;J. D. Jentsch;R. H. Roth

  • Specific developmental disruption of disrupted-in-schizophrenia-1 function results in schizophrenia-related phenotypes in mice

    Weidong Li;Yu Zhou;J. David Jentsch;Robert A. M. Brown

  • Neural Components Underlying Behavioral Flexibility in Human Reversal Learning

    Dara G. Ghahremani;John Monterosso;J. David Jentsch;Robert M. Bilder

  • Subchronic Phencyclidine Administration Increases Mesolimbic Dopaminergic System Responsivity and Augments Stress- and Psychostimulant-Induced Hyperlocomotion

    J David Jentsch;Jane R Taylor;Robert H Roth

  • Poor response inhibition: at the nexus between substance abuse and attention deficit/hyperactivity disorder.

    Stephanie M. Groman;Alex S. James;J. David Jentsch

  • Neurofibromin regulates corticostriatal inhibitory networks during working memory performance

    Carrie Shilyansky;Katherine H. Karlsgodt;Damian M. Cummings;Kyriaki Sidiropoulou

  • Dopamine D2/D3 receptors play a specific role in the reversal of a learned visual discrimination in monkeys

    Buyean Lee;Stephanie Groman;Edythe D London;James David Jentsch

  • Nicotine enhances responding with conditioned reinforcement.

    Peter Olausson;J. David Jentsch;J. David Jentsch;Jane R. Taylor

  • Targeted expression of μ-opioid receptors in a subset of striatal direct-pathway neurons restores opiate reward

    Yijun Cui;Sean B Ostlund;Alex S James;Chang Sin Park

  • Hybrid mouse diversity panel: a panel of inbred mouse strains suitable for analysis of complex genetic traits.

    Anatole Ghazalpour;Christoph D. Rau;Charles R. Farber;Brian J. Bennett

  • Inhibition of the norepinephrine transporter improves behavioral flexibility in rats and monkeys

    Emanuele Seu;Andrew Lang;Ronald J. Rivera;J. David Jentsch;J. David Jentsch

  • Prenatal exposure to bisphenol A impacts midbrain dopamine neurons and hippocampal spine synapses in non-human primates

    John D. Elsworth;J. David Jentsch;Catherine A. VandeVoort;Robert H. Roth

Frequent Co-Authors

Jane R. Taylor
Jane R. Taylor Yale University
Nelson B. Freimer
Nelson B. Freimer University of California, Los Angeles
John D. Elsworth
John D. Elsworth Yale University
Katherine H. Karlsgodt
Katherine H. Karlsgodt University of California, Los Angeles
Richard K. Wilson
Richard K. Wilson Nationwide Children's Hospital
Lara A. Ray
Lara A. Ray University of California, Los Angeles
Eleazar Eskin
Eleazar Eskin University of California, Los Angeles
Russell A. Poldrack
Russell A. Poldrack Stanford University
Rita M. Cantor
Rita M. Cantor University of California, Los Angeles
Roger P. Woods
Roger P. Woods University of California, Los Angeles

External Links

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