Szpirer J, Pedeutour F, Kesti T, Riviere M, Syväoja JE, Turc-Carel C, Szpirer C (1994. augusztus 1.). „Localization of the gene for DNA polymerase epsilon (POLE) to human chromosome 12q24.3 and rat chromosome 12 by somatic cell hybrid panels and fluorescence in situ hybridization”. Genomics20 (2), 223–6. o. DOI:10.1006/geno.1994.1156. PMID8020968.
Palles C, Cazier JB, Howarth KM, Domingo E, Jones AM, Broderick P, Kemp Z, Spain SL, Guarino E, Guarino Almeida E, Salguero I, Sherborne A, Chubb D, Carvajal-Carmona LG, Ma Y, Kaur K, Dobbins S, Barclay E, Gorman M, Martin L, Kovac MB, Humphray S, Lucassen A, Holmes CC, Bentley D, Donnelly P, Taylor J, Petridis C, Roylance R, Sawyer EJ, Kerr DJ, Clark S, Grimes J, Kearsey SE, Thomas HJ, McVean G, Houlston RS, Tomlinson I (2013). „Germline mutations affecting the proofreading domains of POLE and POLD1 predispose to colorectal adenomas and carcinomas”. Nat. Genet.45 (2), 136–44. o. DOI:10.1038/ng.2503. PMID23263490. PMC3785128.
Rytkönen AK, Vaara M, Nethanel T, Kaufmann G, Sormunen R, Läärä E, Nasheuer HP, Rahmeh A, Lee MY, Syväoja JE, Pospiech H (2006). „Distinctive activities of DNA polymerases during human DNA replication”. FEBS J.273 (13), 2984–3001. o. DOI:10.1111/j.1742-4658.2006.05310.x. PMID16762037.
Ma X, Riaz N, Samstein RM, Lee M, Makarov V, Valero C, Chowell D, Kuo F, Hoen D, Fitzgerald CWR, Jiang H, Alektiar J, Alban TJ, Juric I, Parthasarathy PB, Zhao Y, Sabio EY, Verma R, Srivastava RM, Vuong L, Yang W, Zhang X, Wang J, Chu LK, Wang SL, Kelly DW, Pei X, Chen J, Yaeger R, Zamarin D, Zehir A, Gönen M, Morris LGT, Chan TA (2022. július 11.). „Functional landscapes of POLE and POLD1 mutations in checkpoint blockade-dependent antitumor immunity”. Nat Genet54 (7), 996–1012. o. DOI:10.1038/s41588-022-01108-w. PMID35817971. PMC10181095. (Hozzáférés: 2024. március 20.)
Post SM, Tomkinson AE, Lee EY (2003. október 1.). „The human checkpoint Rad protein Rad17 is chromatin-associated throughout the cell cycle, localizes to DNA replication sites, and interacts with DNA polymerase epsilon”. Nucleic Acids Res., Anglia 31 (19), 5568–75. o. DOI:10.1093/nar/gkg765. PMID14500819. PMC206465.
Fuss J, Linn S (2002). „Human DNA polymerase epsilon colocalizes with proliferating cell nuclear antigen and DNA replication late, but not early, in S phase”. J. Biol. Chem.277 (10), 8658–66. o. DOI:10.1074/jbc.M110615200. PMID11741962.
nih.gov
pubmed.ncbi.nlm.nih.gov
Szpirer J, Pedeutour F, Kesti T, Riviere M, Syväoja JE, Turc-Carel C, Szpirer C (1994. augusztus 1.). „Localization of the gene for DNA polymerase epsilon (POLE) to human chromosome 12q24.3 and rat chromosome 12 by somatic cell hybrid panels and fluorescence in situ hybridization”. Genomics20 (2), 223–6. o. DOI:10.1006/geno.1994.1156. PMID8020968.
Palles C, Cazier JB, Howarth KM, Domingo E, Jones AM, Broderick P, Kemp Z, Spain SL, Guarino E, Guarino Almeida E, Salguero I, Sherborne A, Chubb D, Carvajal-Carmona LG, Ma Y, Kaur K, Dobbins S, Barclay E, Gorman M, Martin L, Kovac MB, Humphray S, Lucassen A, Holmes CC, Bentley D, Donnelly P, Taylor J, Petridis C, Roylance R, Sawyer EJ, Kerr DJ, Clark S, Grimes J, Kearsey SE, Thomas HJ, McVean G, Houlston RS, Tomlinson I (2013). „Germline mutations affecting the proofreading domains of POLE and POLD1 predispose to colorectal adenomas and carcinomas”. Nat. Genet.45 (2), 136–44. o. DOI:10.1038/ng.2503. PMID23263490. PMC3785128.
Rytkönen AK, Vaara M, Nethanel T, Kaufmann G, Sormunen R, Läärä E, Nasheuer HP, Rahmeh A, Lee MY, Syväoja JE, Pospiech H (2006). „Distinctive activities of DNA polymerases during human DNA replication”. FEBS J.273 (13), 2984–3001. o. DOI:10.1111/j.1742-4658.2006.05310.x. PMID16762037.
Ma X, Riaz N, Samstein RM, Lee M, Makarov V, Valero C, Chowell D, Kuo F, Hoen D, Fitzgerald CWR, Jiang H, Alektiar J, Alban TJ, Juric I, Parthasarathy PB, Zhao Y, Sabio EY, Verma R, Srivastava RM, Vuong L, Yang W, Zhang X, Wang J, Chu LK, Wang SL, Kelly DW, Pei X, Chen J, Yaeger R, Zamarin D, Zehir A, Gönen M, Morris LGT, Chan TA (2022. július 11.). „Functional landscapes of POLE and POLD1 mutations in checkpoint blockade-dependent antitumor immunity”. Nat Genet54 (7), 996–1012. o. DOI:10.1038/s41588-022-01108-w. PMID35817971. PMC10181095. (Hozzáférés: 2024. március 20.)
Post SM, Tomkinson AE, Lee EY (2003. október 1.). „The human checkpoint Rad protein Rad17 is chromatin-associated throughout the cell cycle, localizes to DNA replication sites, and interacts with DNA polymerase epsilon”. Nucleic Acids Res., Anglia 31 (19), 5568–75. o. DOI:10.1093/nar/gkg765. PMID14500819. PMC206465.
Fuss J, Linn S (2002). „Human DNA polymerase epsilon colocalizes with proliferating cell nuclear antigen and DNA replication late, but not early, in S phase”. J. Biol. Chem.277 (10), 8658–66. o. DOI:10.1074/jbc.M110615200. PMID11741962.
Palles C, Cazier JB, Howarth KM, Domingo E, Jones AM, Broderick P, Kemp Z, Spain SL, Guarino E, Guarino Almeida E, Salguero I, Sherborne A, Chubb D, Carvajal-Carmona LG, Ma Y, Kaur K, Dobbins S, Barclay E, Gorman M, Martin L, Kovac MB, Humphray S, Lucassen A, Holmes CC, Bentley D, Donnelly P, Taylor J, Petridis C, Roylance R, Sawyer EJ, Kerr DJ, Clark S, Grimes J, Kearsey SE, Thomas HJ, McVean G, Houlston RS, Tomlinson I (2013). „Germline mutations affecting the proofreading domains of POLE and POLD1 predispose to colorectal adenomas and carcinomas”. Nat. Genet.45 (2), 136–44. o. DOI:10.1038/ng.2503. PMID23263490. PMC3785128.
Ma X, Riaz N, Samstein RM, Lee M, Makarov V, Valero C, Chowell D, Kuo F, Hoen D, Fitzgerald CWR, Jiang H, Alektiar J, Alban TJ, Juric I, Parthasarathy PB, Zhao Y, Sabio EY, Verma R, Srivastava RM, Vuong L, Yang W, Zhang X, Wang J, Chu LK, Wang SL, Kelly DW, Pei X, Chen J, Yaeger R, Zamarin D, Zehir A, Gönen M, Morris LGT, Chan TA (2022. július 11.). „Functional landscapes of POLE and POLD1 mutations in checkpoint blockade-dependent antitumor immunity”. Nat Genet54 (7), 996–1012. o. DOI:10.1038/s41588-022-01108-w. PMID35817971. PMC10181095. (Hozzáférés: 2024. március 20.)
Post SM, Tomkinson AE, Lee EY (2003. október 1.). „The human checkpoint Rad protein Rad17 is chromatin-associated throughout the cell cycle, localizes to DNA replication sites, and interacts with DNA polymerase epsilon”. Nucleic Acids Res., Anglia 31 (19), 5568–75. o. DOI:10.1093/nar/gkg765. PMID14500819. PMC206465.