Adams W, Graham JN, Han X, Riecke H. (2019). Top-down inputs drive neuronal network rewiring and context-enhanced sensory processing in olfaction. PLoS computational biology. 15 [PubMed]
Carey RM, Sherwood WE, Shipley MT, Borisyuk A, Wachowiak M. (2015). Role of intraglomerular circuits in shaping temporally structured responses to naturalistic inhalation-driven sensory input to the olfactory bulb. Journal of neurophysiology. 113 [PubMed]
Cavarretta F et al. (2018). Parallel odor processing by mitral and middle tufted cells in the olfactory bulb. Scientific reports. 8 [PubMed]
David F, Courtiol E, Buonviso N, Fourcaud-Trocmé N. (2015). Competing Mechanisms of Gamma and Beta Oscillations in the Olfactory Bulb Based on Multimodal Inhibition of Mitral Cells Over a Respiratory Cycle. eNeuro. 2 [PubMed]
Gilra A, Bhalla US. (2015). Bulbar microcircuit model predicts connectivity and roles of interneurons in odor coding. PloS one. 10 [PubMed]
Linster C, Kelsch W. (2019). A computational model of oxytocin modulation of olfactory recognition memory. eNeuro. 6 [PubMed]
Osinski BL, Kay LM. (2016). Granule cell excitability regulates gamma and beta oscillations in a model of the olfactory bulb dendrodendritic microcircuit. Journal of neurophysiology. 116 [PubMed]
Pouille F, McTavish TS, Hunter LE, Restrepo D, Schoppa NE. (2017). Intraglomerular gap junctions enhance interglomerular synchrony in a sparsely connected olfactory bulb network. The Journal of physiology. 595 [PubMed]