References
- Schulze A, Harris AL. How cancer metabolism is tuned for proliferation and vulnerable to disruption. Nature. 2012;491:364-73. doi:10.1038/nature11706. PMID:23151579
- Perera RM, Stoykova S, Nicolay BN, Ross KN, Fitamant J, Boukhali M, Lengrand J, Deshpande V, Selig MK, Ferrone CR, et al. Transcriptional control of autophagy-lysosome function drives pancreatic cancer metabolism. Nature. 2015;524:361-5. doi:10.1038/nature14587. PMID:26168401
- Efeyan A, Comb WC. Sabatini DM. Nutrient-sensing mechanisms and pathways. Nature. 2015;517,:302-10. doi:10.1038/nature14190. PMID:25592535
- Kornberg H.L., Krebs HA. Synthesis of cell constituents from C2-units by a modified tricarboxylic acid cycle. Nature. 1957;179:988-91. doi:10.1038/179988a0. PMID:13430766
- Jiang Y, Qian X, Shen J, Wang Y, Li X, Liu R, Xia Y, Chen Q, Peng G, Lin SY, et al. Local generation of fumarate promotes DNA repair through inhibition of histone H3 demethylation. Nature cell biology. 2015;17:1158-68. doi:10.1038/ncb3209. PMID:26237645
- Greer E.L, Shi Y. Histone methylation: A dynamic mark in health, disease and inheritance. Nature reviews Genetics. 2012;13:343-57. doi:10.1038/nrg3173. PMID:22473383
- Nagel AK, Ball LE. O-GlcNAc transferase and O-GlcNAcase: Achieving target substrate specificity. Amino acids. 2014;46:2305-16. doi:10.1007/s00726-014-1827-7. PMID:25173736
- Hardiville S. & Hart GW. Nutrient regulation of gene expression by O-GlcNAcylation of chromatin. Current opinion in chemical biology. 2016;33:88-94. doi:10.1016/j.cbpa.2016.06.005. PMID:27322399
- Ferrer C.M, Reginato MJ. Sweet connections: O-GlcNAcylation links cancer cell metabolism and survival. 2015;2:e961809
- Wang T, Yu Q, Li J, Hu B, Zhao Q, Ma C, Huang W, Zhuo L, Fang H, Liao L, et al. O-GlcNAcylation of fumarase maintains tumour growth under glucose deficiency. 2017;19:833-43