As shown in Figure 7C, of the four cells analyzed, cells a and b

As shown in Figure 7C, of the four cells analyzed, cells a and b strongly responded to 6CHO and 7CHO, whereas cells c and d strongly responded to 3CHO. Interestingly, the neurons that showed similar odorant response

profiles (a and b; c and d) were located in close proximities to each other within the MCL. This result suggested that neighboring mitral cells might be controlled by the same subset of granule cells. If this hypothesis is correct, then the similarities of mitral cell odorant response profiles may be related to the distance between the neurons. To test this possibility, RO4929097 the odorant response properties and horizontal distribution of mitral cells were analyzed (Figure 7D). These results indicate that neighboring pairs of mitral cells had high odorant response similarities and that distant pairs had lower similarities. This relationship is summarized in Figure 7E. The similarities of odorant selectivities significantly correlated with the intercellular distances between mitral cells (48 pairs of mitral cells in nine glomeruli, R = −0.76, p < 0.01). By contrast, the similarities of odorant selectivities in JG cells were not correlated with interneuronal distances (Figure 7F; 37 pairs of JG

cells in 11 glomeruli, R = 0.05, p = 0.76). Furthermore, the similarity of excitatory/inhibitory responses was also analyzed using correlation coefficient and cosine similarity as similarity metrics (Figures 7G, 7H, and S3; see Experimental Procedures). In both analyses, the similarity of mitral cell pairs demonstrated Wnt drug significant negative correlation with interneuronal

distance (Figure 7G; Pearson’s correlation coefficient, R = −0.77, p < 0.001) (Figure S3A; cosine similarity, R = −0.66, p < 0.001), whereas that of JG cell pairs had lower Oxymatrine correlations (Figure 7H; Pearson’s correlation coefficient, R = 0.01, p = 0.93) (Figure S3B; cosine similarity, R = 0.24, p = 0.13). Interestingly, the values of correlation coefficients and cosine similarity were not always high. This observation suggests that the difference in response similarity of mitral cells is more likely accounted for by a difference in the overall shape of response profile (e.g. optimal stimulus) than by a difference of the threshold that is applied to the otherwise similar response profile. In addition, if we focus solely on the neighboring mitral cell pairs (within 50 μm), the mean Pearson’s correlation coefficient is R = 0.86 (n = 17 pairs), which is apparently higher than the corresponding value in a previous report (R = 0.68; Dhawale et al., 2010). However, it remains unclear whether the response profile in our study is indeed less divergent, taking into account that the smaller number of odorants in our study might limit the precision of the estimate of correlation coefficients and make such a comparison difficult.

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