Table 2:
Diseases and functions related to top 10 networks from interaction analyses
| Score | Brain region | Network functions |
|---|---|---|
| 47 | PFC | Cell Morphology, Cellular Assembly and Organization, Connective Tissue Disorders |
| 44 | MA | Cell-To-Cell Signaling and Interaction, Molecular Transport, Small Molecule Biochemistry |
| 38 | MA | Behavior, Neurological Disease, Psychological Disorders |
| 37 | PFC | Embryonic Development, Organ Development, Organismal Development |
| 36 | LA | Cell Morphology, Cellular Assembly and Organization, Cellular Development |
| 35 | MA | Amino Acid Metabolism, Embryonic Development, Organismal Development |
| 35 | MA | Cell-To-Cell Signaling and Interaction, Nervous System Development and Function, Organismal Injury and Abnormalities |
| 34 | MA | Connective Tissue Disorders, Inflammatory Disease, Organismal Injury and Abnormalities |
| 32 | MA | Auditory and Vestibular System Development and Function, Auditory Disease, Connective Tissue Development and Function |
| 32 | LA | Amino Acid Metabolism, Carbohydrate Metabolism, Drug Metabolism |
All networks contain 35 molecules. The network score, calculated by IPA, is equal to the - log(Fisher’s exact test result) of the chance of getting the number of DEGs from our dataset found within the network versus randomly selecting 35 molecules. For example, in Network 1, 23 of the 35 molecules are significantly differentially expressed in our dataset, resulting in a rank of 47, or a Fisher’s exact test result of 1×10−47. The ranks are calculated separately for each network and the top 10 ranked networks from interaction analyses from each brain region are shown above.