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Number of items: 16.

Hühn, D; Kousholt, A N; Sørensen, C S; Sartori, A A (2015). miR-19, a component of the oncogenic miR-17∼92 cluster, targets the DNA-end resection factor CtIP. Oncogene, 34(30):3977-3984.

Sharma, A; Bode, B; Wenger, R H; Lehmann, K; Sartori, A A; Moch, H; Knuth, A; von Boehmer, L; van den Broek, Maries (2011). Gamma-radiation promotes immunological recognition of cancer cells through increased expression of cancer-testis antigens in vitro and in vivo. PLoS ONE, 6(11):e28217.

Toller, I M; Neelsen, K J; Steger, M; Hartung, M L; Hottiger, M O; Stucki, M; Kalali, B; Gerhard, M; Sartori, A A; Lopes, M; Müller, A (2011). Carcinogenic bacterial pathogen Helicobacter pylori triggers DNA double-strand breaks and a DNA damage response in its host cells. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 108(36):14944-14949.

Eid, W; Steger, M; El-Shemerly, M; Ferretti, L P; Pena-Diaz, J; König, C J; Valtorta, E; Sartori, A A; Ferrari, S (2010). DNA end resection by CtIP and exonuclease 1 prevents genomic instability. EMBO Reports, 11(12):962-968.

Kratz, K; Schöpf, B; Kaden, S; Sendoel, A; Eberhard, R; Lademann, C; Cannavó, E; Sartori, A A; Hengartner, M O; Jiricny, J (2010). Deficiency of FANCD2-associated nuclease KIAA1018/FAN1 sensitizes cells to interstrand crosslinking agents. Cell, 142(1):77-88.

Zheng, L; Kanagaraj, R; Mihaljevic, B; Schwendener, S; Sartori, A A; Gerrits, B; Shevelev, I; Janscak, P (2009). MRE11 complex links RECQ5 helicase to sites of DNA damage. Nucleic Acids Research, 37(8):2645-2657.

Huertas, P; Cortés-Ledesma, F; Sartori, A A; Aguilera, A; Jackson, S P (2008). CDK targets Sae2 to control DNA-end resection and homologous recombination. Nature, 455:689-692.

Sartori, A A; Lukas, C; Coates, J; Mistrik, M; Fu, S; Bartek, J; Baer, R; Lukas, J; Jackson, S P (2007). Human CtIP promotes DNA end resection. Nature, 450(7169):509-514.

Lingaraju, G M; Sartori, A A; Kostrewa, D; Prota, A E; Jiricny, J; Winkler, F K (2005). A DNA glycosylase from Pyrobaculum aerophilum with an 8-oxoguanine binding mode and a noncanonical helix-hairpin-helix structure. Structure, 13(1):87-98.

Sartori, A A; Lingaraju, G M; Hunziker, P; Winkler, F K; Jiricny, J (2004). Pa-AGOG, the founding member of a new family of archaeal 8-oxoguanine DNA-glycosylases. Nucleic Acids Research, 32(22):6531-6539.

Sartori, A A. DNA Repair in the Hyperthermophilic Archaeon Pyrobaculum aerophilum. 2003, University of Zurich, Faculty of Science.

Sartori, A A; Jiricny, J (2003). Enzymology of base excision repair in the hyperthermophilic archaeon Pyrobaculum aerophilum. Journal of Biological Chemistry, 278(27):24563-24576.

Sartori, A A; Fitz-Gibbon, S; Yang, H; Miller, J H; Jiricny, J (2002). A novel uracil-DNA glycosylase with broad substrate specificity and an unusual active site. EMBO Journal, 21(12):3182-3191.

Hinks, J A; Evans, M C W; De Miguel, Y; Sartori, A A; Jiricny, J; Pearl, L H (2002). An iron-sulfur cluster in the family 4 uracil-DNA glycosylases. Journal of Biological Chemistry, 277(19):16936-19640.

Yang, H; Chiang, J-H; Fitz-Gibbon, S; Lebel, M; Sartori, A A; Jiricny, J; Slupska, M M; Miller, J H (2002). Direct interaction between uracil-DNA glycosylase and a proliferating cell nuclear antigen homolog in the crenarchaeon Pyrobaculum aerophilum. Journal of Biological Chemistry, 277(25):22271-22278.

Sartori, A A; Schär, P; Fitz-Gibbon, S; Miller, J H; Jiricny, J (2001). Biochemical characterization of uracil processing activities in the hyperthermophilic archaeon Pyrobaculum aerophilum. Journal of Biological Chemistry, 276(32):29979-29986.

This list was generated on Wed Nov 22 08:33:20 2017 CET.