0B68 Schwaber, James S. - Thomas Jefferson University - Thomas Jefferson University

James S. Schwaber, PhD

Contact Dr. Schwaber

1020 Locust Street
Jefferson Alumni Hall, Suite 381
Philadelphia, PA 19107

(215) 503-7823

Most Recent Peer-reviewed Publications

  1. Coordinated Dynamic Gene Expression Changes in the Central Nucleus of the Amygdala During Alcohol Withdrawal
  2. Dynamic transcriptomics: Transcriptomic discovery of a biological multiple-input multiple-output heart control mechanism
  3. Rapid Temporal Changes in the Expression of a Set of Neuromodulatory Genes During Alcohol Withdrawal in the Dorsal Vagal Complex: Molecular Evidence of Homeostatic Disturbance
  4. Integrative gene regulatory network analysis reveals light-induced regional gene expression phase shift programs in the mouse suprachiasmatic nucleus
  5. Temporal changes in innate immune signals in a rat model of alcohol withdrawal in emotional and cardiorespiratory homeostatic nuclei
  6. Adaptive transcriptional dynamics of A2 neurons and central cardiovascular control pathways
  7. Robust dynamic balance of AP-1 transcription factors in a neuronal gene regulatory network
  8. The effect of biological variability on the angiotensin II gene regulatory network in the central regulation of blood pressure
  9. Elucidating the transcriptional regulatory network underlying the Nts response to acute hypertension
  10. A control system hypothesis of the N-methyl-D-aspartate glutamate receptor's role in alcoholism and
  11. Modeling the control of an excitatory neurotransmitter receptor during alcoholism and alcohol withdrawal
  12. A fast carrier chromatin immunoprecipitation method applicable to microdissected tissue samples
  13. Dynamic transcriptomic response to acute hypertension in the nucleus tractus solitarius
  14. From promoter analysis to transcriptional regulatory network prediction using PAINT.
  15. Epidermal growth factor receptor-induced circadian-time-dependent gene regulation in suprachiasmatic nucleus
  16. Quantifying gene network connectivity in silico: Scalability and accuracy of a modular approach
  17. < 0729 li>Systems analysis of circadian time-dependent neuronal epidermal growth factor receptor signaling
  18. Epidermal growth factor receptor induced Erk phosphorylation in the suprachiasmatic nucleus
  19. A universal reference sample derived from clone vector for improved detection of differential gene expression
  20. Modeling the VPAC2-activated cAMP/PKA signaling pathway: From receptor to circadian clock gene induction