Figure 15.1 Organization of the human olfactory system
Figure 15.1 Organization of the human olfactory system (Part 1)
Figure 15.1 Organization of the human olfactory system (Part 2)
Figure 15.1 Organization of the human olfactory system (Part 3)
Figure 15.1 Organization of the human olfactory system (Part 4)
Figure 15.1 Organization of the human olfactory system (Part 5)
Figure 15.2 Odorant perception in mammals
Figure 15.2 Odorant perception in mammals (Part 1)
Figure 15.2 Odorant perception in mammals (Part 2)
Figure 15.2 Odorant perception in mammals (Part 3)
Figure 15.3 Anosmia is the inability to identify common odors
Figure 15.4 Normal decline in olfactory sensitivity with age
Figure 15.5 Hypothalamus activation in subjects exposed to a sex hormone-containing odor mix
Figure 15.6 Structure and function of the olfactory epithelium
Figure 15.6 Structure and function of the olfactory epithelium (Part 1)
Figure 15.6 Structure and function of the olfactory epithelium (Part 2)
Box 15A Pheromones, Reproduction, and the Vomeronasal System
Figure 15.7 Odorant receptor genes
Figure 15.7 Odorant receptor genes (Part 1)
Figure 15.7 Odorant receptor genes (Part 2)
Figure 15.8 Odorant receptor gene expression
Figure 15.9 Molecular mechanisms of odorant transduction
Figure 15.9 Molecular mechanisms of odorant transduction (Part 1)
Figure 15.9 Molecular mechanisms of odorant transduction (Part 2)
Figure Responses of olfactory receptor neurons to selected odorants
Figure Odorant receptor protein selectivity
Figure Responses of a single olfactory receptor neuron to odorant concentration
Figure The organization of the mammalian olfactory bulb
Figure The organization of the mammalian olfactory bulb (Part 1)
Figure The organization of the mammalian olfactory bulb (Part 2)
Figure The organization of the mammalian olfactory bulb (Part 3)
Figure Mapping responses of chemically distinct odorants in individual glomeruli
Figure The human taste system
Figure The human taste system (Part 1)
Figure The human taste system (Part 2)
Figure The human taste system (Part 3)
Figure The human taste system (Part 4)
Figure Taste buds and the peripheral innervation of the tongue
Figure Taste buds and the peripheral innervation of the tongue (Part 1)
Figure Taste buds and the peripheral innervation of the tongue (Part 2)
Figure Taste buds, taste cells, and taste transduction
Figure Taste buds, taste cells, and taste transduction (Part 1)
Figure Taste buds, taste cells, and taste transduction (Part 2)
Figure Taste transduction via ion channels and G-protein–coupled receptors
Figure Taste transduction via ion channels and G-protein–coupled receptors (Part 1)
Figure Taste transduction via ion channels and G-protein–coupled receptors (Part 2)
Figure Taste transduction via ion channels and G-protein–coupled receptors (Part 3)
Figure Specificity in peripheral taste coding supports the labeled line hypothesis
Figure Specificity in peripheral taste coding supports the labeled line hypothesis (Part 1)
Figure Specificity in peripheral taste coding supports the labeled line hypothesis (Part 2)
Figure Specificity in peripheral taste coding supports the labeled line hypothesis (Part 3)