The Journal of Neuroscience, November 2, 2005, ():
Input to V2 Thin Stripes Arises from V1 Cytochrome Oxidase Patches
J. Neurosci. Sincich and Horton
25: 10087
Supplemantal data
Files in this Data Supplement:
- supplemental material -
Supplemental Table
- supplemental material
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Supplemental Figure 8. Cells in patches are more strongly labeled than cells in interpatches. A) Boxed region from Fig. 2b, showing CTB-Au-filled cells in darkfield. B) Same section in lightfield, showing contour lines from Fig. 2c dividing the cortex into 6 zones, based on the density of CO activity. Cells are not only more numerous in patches, but they tend to be better filled with retrograde label. The arrows show a representative cell in an interpatch (left) and two in a patch (right).
- supplemental material
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Supplementary Figure 1. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 2. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 3. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 4. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 5. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 6. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
- supplemental material
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Supplementary Figure 7. Top. Tracer injection into a thin stripe. A) Darkfield view of a section through layer 3, showing CTB-Au labeled cells. B) The same section, in lightfield, showing CO patches. C) Red contours divide the intensity of CO activity into 6 zones of equal area. D) CTB-Au labeled cells in A superimposed on the CO density contours, showing that cells are located preferentially in patches.
