10.6084/m9.figshare.6796373.v1 Ashley Maiuri Ashley Maiuri Hongde Li Hongde Li Barry Stein Barry Stein Jason Tennessen Jason Tennessen Heather O’Hagan Heather O’Hagan Additional file 1: of Inflammation-induced DNA methylation of DNA polymerase gamma alters the metabolic profile of colon tumors Springer Nature 2018 Inflammation DNA methylation DNA polymerase gamma Mitochondria Glucose uptake Glycolysis 2018-07-10 05:00:00 Journal contribution https://springernature.figshare.com/articles/journal_contribution/Additional_file_1_of_Inflammation-induced_DNA_methylation_of_DNA_polymerase_gamma_alters_the_metabolic_profile_of_colon_tumors/6796373 Figure S1. Additional gene and protein expression in mock and ETBF-induced tumors. A) Gene expression by qPCR relative to mock epithelium from indicated tissue 8 weeks post-infection. Mean ± SEM. N = 6. *P < 0.05 compared with mock Min epithelium. #P < 0.05 compared to Msh2l/lVCMin ETBF tumors. B) Western blots were run using protein isolated from indicated tissue 8 weeks post-infection. Blots are representative of two independent sets of biological replicates. Figure S2. Polg knockdown in colonoids derived from normal epithelium does not alter glucose uptake. A) Polg gene expression by qRT-PCR relative to nontarget (NT) knockdown colonoids derived from wt epithelium. Bar represents mean ± SEM. *P < 0.05. B) DNA from organoids as in A was used in qPCR assays with primer sets specific for a region of mitochondrial DNA or the genomic ApoB. Bars indicate mean ± SEM. *P < 0.05. C) Glucose uptake by tumoroids derived as in A. Mean ± SEM. NS not significant. Table S1. Primer sequences for qMSP and mtDNA content and assays used for TaqMan gene expression. Table S2. Fold change in expression by RT2 Profiler Glucose Metabolism PCR Array. (DOCX 3724 kb)