File S1 - Intrinsic Differences between Oral and Skin Keratinocytes

Table S1. * The network Score is based on the hypergeometric distribution and is calculated with the right-tailed Fisher's Exact Test. The score is the –log (Fisher's Exact test result). Networks are scored for the likelihood of finding the focus molecule(s) in that given network. The higher the score, the lower the probability that one would find the focus molecules(s) in a given network by random chance. ** Networks are preferentially enriched for focus molecules (shown in bold) with the most extensive interactions, and for which interactions are specific with the other molecules in the network (rather than molecules that are promiscuous—those that interact with a broad selection of molecules throughout Ingenuity's knowledge base). Additional non-focus molecules from the dataset and from Ingenuity's knowledge base are then recruited and added to the growing networks. Table S2. * The network Score is based on the hypergeometric distribution and is calculated with the right-tailed Fisher's Exact Test. The score is the –log (Fisher's Exact test result). Networks are scored for the likelihood of finding the focus molecule(s) in that given network. The higher the score, the lower the probability that one would find the focus molecules(s) in a given network by random chance. ** Networks are preferentially enriched for focus molecules (shown in bold) with the most extensive interactions, and for which interactions are specific with the other molecules in the network (rather than molecules that are promiscuous—those that interact with a broad selection of molecules throughout Ingenuity's knowledge base). Additional non-focus molecules from the dataset and from Ingenuity's knowledge base are then recruited and added to the growing networks. Table S3. * Fischer's exact test was used to calculate a p-value determining the probability that each biological function assigned to that data set is due to chance alone. Table S4. * Fischer's exact test was used to calculate a p-value determining the probability that each biological function assigned to that data set is due to chance alone. Table S5. *Fischer's exact test was used to calculate a p-value determining the probability that each biological function assigned to that data set is due to chance alone. Table S6. *Fischer's exact test was used to calculate a p-value determining the probability that each biological function assigned to that data set is due to chance alone. (DOC)