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Elena Gracheva, PhD

Professor of Cellular and Molecular Physiology and of Neuroscience
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Appointments

Cellular & Molecular Physiology
Fully Joint
Neuroscience
Fully Joint

About

Titles

Professor of Cellular and Molecular Physiology and of Neuroscience

Appointments

  • Cellular & Molecular Physiology

    Professor
    Fully Joint
  • Neuroscience

    Professor
    Fully Joint

Other Departments & Organizations

Education & Training

Postdoctoral Fellow
UCSF (2012)
PhD
University of Illinois at Chicago (2007)

Research

Overview

My lab is interested in somatosensation and thermoregulation, particularly molecular and evolutionary mechanisms whereby the somatosensory and thermoregulatory systems adapt to the environmental and behavioral needs of an organism. We intend:

(i) To understand, which molecules mediate different types of sensation undernormal and extreme physiological conditions using mammalian hibernation as a naturally reversible model.

(ii) To dissect mechanism(s) of thermoregulation and thermogenesis using hibernators in their active and torpor physiological states.

Mammalian hibernation is fascinating as it is characterized by prolonged alternating periods of hypothermia (core body temperature drops from 37°C to 2-10°C) in association with unusual resistance of tissues to cold. Despite the robustness of these phenomena, fundamental questions remain about their cellular basis. Mammalian hibernators (thirteen-lined ground squirrels and Syrian hamsters) provide unique natural system for understanding thermotransduction machinery. Moreover, comparisons between phylogenetically related species of hibernators and non-hibernators will provide insights into anatomical, physiological, and genetic factors that support this unique thermo-adaptive process. Due to the complexity and dynamic nature of thesomatosensory and thermoregulatory systems, we are taking an integrated approach using biochemistry, bioinformatics, live-cell imaging, electrophysiology, genomics, behavioral paradigms, and additional cellular and molecular biological techniques to approach these fascinating questions of both physiological and clinical significance.

Mechanisms gleaned from this study could have profound outcomes for human health in regard to:

(i) Inducible and reversible hypothermia.

(ii) Cold tolerance and hypersensitivity.

(iii) Tissue transplantation.

Medical Research Interests

Physiology, Comparative

Public Health Interests

Evolution; Environmental Health

Research at a Glance

Yale Co-Authors

Frequent collaborators of Elena Gracheva's published research.

Publications

2024

2023

2020

2019

Academic Achievements & Community Involvement

  • honor

    Finalist of the Blavatnik National Awards for Young Scientists

  • honor

    Presidential Early Career Award for Scientists and Engineers (PECASE)

  • honor

    Odyssey Award

  • honor

    Beckman Foundation Fellow

  • honor

    Rita Allen Scholar

Get In Touch

Contacts

Academic Office Number
Lab Number

Locations

  • Sterling Hall of Medicine, B-Wing

    Academic Office

    333 Cedar Street, Fl E, Rm 36D

    New Haven, CT 06510