Knolhoff AM , Nautiyal KM , Nemes P , Kalachikov S , Morozova I , Silver R , Sweedler JV .

	Figure 1. Schematic for experimental workflow: metabolomic and transcriptomic analyses were combined to enable the characterization of related chemical changes between genotypes.
	Figure 2. Metabolites with significant differences in relative abundance in pairwise comparisons of Wsh/Wsh, Wsh/+, and +/+ mice. Bars show the mean of normalized abundances measured in the biological replicates for each genotype; error bars represent standard error; p-values from the corresponding Student’s t-tests are tabulated to the left. Statistically significant differences in the levels of these analytes (p ≤ 0.05) are also supported by gene expression data. Metabolites associated with differentially expressed metabolic pathways identified by gene expression analysis are marked with black bold in the table. An asterisk indicates that the intensity is reflective of the second peak in the isotopic series due to its high concentration. Key: WT (W), Wsh/+ (H), Wsh/Wsh (S).
	Figure 3. Hierarchical clustering of affected metabolites based on their participation in pathways containing differentially expressed genes. Pathways (rows) were clustered against metabolites (columns) monitored by CE–ESI-MS using the UPGMA clustering algorithm with the Euclidean distance as a similarity measure. A yellow block in the diagram indicates that a given metabolite is involved in the corresponding pathway containing mast cell-associated genes found through the expression analysis.

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