TY - JOUR
T1 - Differential odor processing in two olfactory pathways in the honeybee
AU - Yamagata, Nobuhiro
AU - Schmuker, Michael
AU - Szyszka, Paul
AU - Mizunami, Makoto
AU - Menzel, Randolf
PY - 2009/12/4
Y1 - 2009/12/4
N2 - An important component in understanding central olfactory processing and coding in the insect brain relates to the characterization of the functional divisions between morphologically distinct types of projection neurons (PN). Using calcium imaging, we investigated how the identity, concentration and mixtures of odors are represented in axon terminals (boutons) of two types of PNs - lPN and mPN. In lPN boutons we found less concentration dependence, narrow tuning profiles at a high concentration, which may be optimized for fine, concentration-invariant odor discrimination. In mPN boutons, however, we found clear rising concentration dependence, broader tuning profiles at a high concentration, which may be optimized for concentration coding. In addition, we found more mixture suppression in lPNs than in mPNs, indicating lPNs better adaptation for synthetic mixture processing. These results suggest a functional division of odor processing in both PN types.
AB - An important component in understanding central olfactory processing and coding in the insect brain relates to the characterization of the functional divisions between morphologically distinct types of projection neurons (PN). Using calcium imaging, we investigated how the identity, concentration and mixtures of odors are represented in axon terminals (boutons) of two types of PNs - lPN and mPN. In lPN boutons we found less concentration dependence, narrow tuning profiles at a high concentration, which may be optimized for fine, concentration-invariant odor discrimination. In mPN boutons, however, we found clear rising concentration dependence, broader tuning profiles at a high concentration, which may be optimized for concentration coding. In addition, we found more mixture suppression in lPNs than in mPNs, indicating lPNs better adaptation for synthetic mixture processing. These results suggest a functional division of odor processing in both PN types.
U2 - 10.3389/neuro.06.016.2009
DO - 10.3389/neuro.06.016.2009
M3 - Article
C2 - 20198105
SN - 1662-5137
VL - 3
SP - 16
JO - Frontiers in Systems Neuroscience
JF - Frontiers in Systems Neuroscience
ER -