Skip to main content

Mobile Main Navigation

  • People
  • Support Our Research
  • Life in the Department
  • Community
    • Our Mission
    • In-Reach Programs
      • Listening Labs
      • Neuro Lunch Days
      • Pulse Survey
      • Race in Biosciences: A Journal Club for use in labs
      • Department Social Events
    • Outreach Programs
      • Morehouse And Harvard Partnership In Neuroscience Growth (MAHPING)
      • Coming Soon: Science partnership with Local Middle School(s)
    • PiNBAC: Harvard Program in Neuroscience Post-Baccalaureate program
    • Neuro Community Resources
      • For Life in Boston
      • For High School Students
      • For Undergraduate Students
      • For Parents
      • For Undocumented Students
      • For International Community Members
      • Staff, Faculty and Postdocs with a Disability/Disabilities
      • For Work/Life Balance
      • For Navigating Higher Education and STEM
      • For Learning About Race and Equity in Higher Education
      • For Gender Equity, Sexual Harassment, and Professional Conduct
    • United Scholars in Neuroscience
  • Events

Mobile Utility Navigation

  • NeuroNet
Logo
Menu

Utility Navigation

  • NeuroNet
Search

Main navigation

  • People
  • Support Our Research
    • Science in the Balance
    • Donation Video Tutorial
    • Give Today
  • Life in the Department
    • Centers and Initiatives
    • Events
    • About Us
    • History
    • Neuro Community
  • Community
    • Our Mission
    • In-Reach Programs
    • Outreach Programs
    • PiNBAC: Harvard Program in Neuroscience Post-Baccalaureate program
    • Neuro Community Resources
    • United Scholars in Neuroscience
  • Events

Publications

Neural and behavioral mechanisms of olfactory perception.

Cracking neural circuits in a tiny brain: new approaches for understanding the neural circuitry of Drosophila.

Homeostatic matching and nonlinear amplification at identified central synapses.

Lateral presynaptic inhibition mediates gain control in an olfactory circuit.

Eppendorf 2007 winner. Neural circuits underlying chemical perception.

Sensory processing in the Drosophila antennal lobe increases reliability and separability of ensemble odor representations.

Olfactory processing and behavior downstream from highly selective receptor neurons.

Excitatory interactions between olfactory processing channels in the Drosophila antennal lobe.

Neurobiology: scent secrets of insects.

Early events in olfactory processing.

  • Load More
Harvard Medical School
Facebook linkedin instagram youtube

220 Longwood Avenue
Goldenson Building, Room 420
Boston, MA 02115

Footer

  • Accessibility
  • Digital Accessibility​
  • Privacy Policy

User account menu

  • Log in

© 2026 by the President and Fellows of Harvard College