Extended Data Fig. 4: , related to Fig. 2: Control experiments for lipids transfer from cortex glia to MB neurons required to sustain memory formed after massed training.
From: Neuronal fatty acid oxidation fuels memory after intensive learning in Drosophila
Extended Data Fig. 4a. When ACC RNAi expression was not induced, memory after massed training was normal (n = 10, F2,27 = 0.06, P = 0.939). b. When Apolpp RNAi expression was not induced, memory after massed training was normal (n = 12, F2,33 = 1.90, P = 0.170). c. When Apoltp RNAi expression was not induced, memory after massed training was normal (n = 12,11,11, F2,31 = 1.30, P = 0.289). d. When LRP1 RNAi expression was not induced, memory after massed training was normal (n = 10, F2,27 = 0.72, P = 0.494). e. related to Fig. 2g: Mean traces of ATP consumption of MB neurons of flies subjected to either massed associative training (green) or the unpaired protocol (black). f. related to Fig. 2g: Mean traces of ATP consumption of MB neurons KD for LRP1 of flies subjected to either massed associative training (orange) or the unpaired protocol (black). Data on barplots are expressed as mean ± s.e.m. with dots as individual values, and analyzed by ANOVA with post hoc testing by Newman–Keuls pairwise comparisons test (a-d). Genotype sample sizes are listed in the legend in order of bar appearance. Significance level of the Newman–Keuls pairwise comparison between the genotype of interest and the genotypic controls (a-d) following one-way ANOVA: NS: not significant.
