|
|
|
|
|
|
|
||||
| Home Help Feedback Subscriptions Archive Search Table of Contents | ||||
|
Fig. 5. Functional connections are established in the OB of adult
O/E3GFP/GFP mutants. (A) The ORN projection to dorsal OB
and olfactory glomeruli formation in this region were visualized by GFP
fluorescence and OMP immunofluorescence. The patterns of GFP and OMP in the
coronal sections clearly show the absence of olfactory glomeruli in the dorsal
aspect of O/E3GFP/GFP mutant OB. (B) Tyrosine hydroxylase
(Th) expression in the periglomerular neurons is dependent on innervation and
activity from the olfactory epithelium. Immunofluorescence demonstrates that
Th expression overlaps the GFP-positive glomeruli and suggests that ORNs
transduce signals and form functional connections within the OB of
O/E3GFP/GFP animals. (C) Characterization of OB neurons in
O/E3GFP/GFP mice. The soma of mitral, tufted and
periglomerular cells are visualized with a fluorescent Nissl stain in
heterozygous and homozygous O/E3GFP/GFP mice. Although
there is considerable disorganization of the glomerular layer, many neurons
are present. The intensity of dendritic marker Map2 staining is considerably
diminished in O/E3GFP/GFP animals, consistent
with the thinning of the external plexiform layer on the dorsal surface. The
intrinsic GFP labeling of ORN axons and their convergence into glomeruli is
shown in green.
|
