New Results
Calcium-activated chloride channels clamp odor-evoked spike activity in olfactory receptor neurons
View ORCID ProfileJoseph D. Zak, Julien Grimaud, Rong-chang Li, Chih-chun Li, View ORCID ProfileVenkatesh N. Murthy
doi: https://doi.org/10.1101/282731
Joseph D. Zak
Harvard University;
Julien Grimaud
Harvard University;
Rong-chang Li
Johns Hopkins University
Chih-chun Li
Johns Hopkins University
Venkatesh N. Murthy
Harvard University;

Article usage
Posted March 29, 2018.
Calcium-activated chloride channels clamp odor-evoked spike activity in olfactory receptor neurons
Joseph D. Zak, Julien Grimaud, Rong-chang Li, Chih-chun Li, Venkatesh N. Murthy
bioRxiv 282731; doi: https://doi.org/10.1101/282731
Subject Area
Subject Areas
- Biochemistry (1494)
- Bioengineering (948)
- Bioinformatics (6834)
- Biophysics (2434)
- Cancer Biology (1798)
- Cell Biology (2533)
- Clinical Trials (106)
- Developmental Biology (1702)
- Ecology (2579)
- Epidemiology (1497)
- Evolutionary Biology (5032)
- Genetics (3626)
- Genomics (4638)
- Immunology (1177)
- Microbiology (4256)
- Molecular Biology (1629)
- Neuroscience (10820)
- Paleontology (83)
- Pathology (240)
- Physiology (557)
- Plant Biology (1460)
- Synthetic Biology (543)
- Systems Biology (1882)
- Zoology (260)