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Number of items: 15.

Ramadan, K (2012). p97/VCP- and Lys48-linked polyubiquitination form a new signaling pathway in DNA damage response. Cell Cycle, 11(6):1062-1069.

Ramadan, K; Meerang, M (2011). Degradation-linked ubiquitin signal and proteasome are integral components of DNA double strand break repair: New perspectives for anti-cancer therapy. FEBS Letters, 585(18):2868-2875.

Meerang, M; Ritz, D; Paliwal, S; Garajova, Z; Bosshard, M; Mailand, N; Janscak, P; Hübscher, U; Meyer, H; Ramadan, K (2011). The ubiquitin-selective segregase VCP/p97 orchestrates the response to DNA double-strand breaks. Nature Cell Biology, 13(11):1376-1382.

Locatelli, G A; Savio, M; Forti, L; Shevelev, I V; Ramadan, K; Stivala, L A; Vannini, V; Hübscher, U; Spadari, S; Maga, G (2005). Inhibition of mammalian DNA polymerases by resveratrol: mechanism and structural determinants. Biochemical Journal, 389(2):259-268.

Maga, G; Ramadan, K; Locatelli, G A; Shevelev, I V; Spadari, S; Hübscher, U (2005). DNA elongation by the human DNA polymerase lambda polymerase and terminal transferase activities are differentially coordinated by proliferating cell nuclear antigen and replication protein A. Journal of Biological Chemistry, 280(3):1971-1981.

Ramadan, K; Shevelev, I V; Hübscher, U (2004). The DNA-polymerase-X family: controllers of DNA quality? Nature Reviews. Molecular Cell Biology, 5(12):43.

Maga, G; Blanca, G; Shevelev, I V; Frouin, I; Ramadan, K; Spadari, S; Villani, G; Hübscher, U (2004). The human DNA polymerase lambda interacts with PCNA through a domain important for DNA primer binding and the interaction is inhibited by p21/WAF1/CIP1. FASEB Journal, 18(14):1743-1745.

Blanca, G; Villani, G; Shevelev, I V; Ramadan, K; Spadari, S; Hübscher, U; Maga, G (2004). Human DNA polymerases lambda and beta show different efficiencies of translesion DNA synthesis past abasic sites and alternative mechanisms for frameshift generation. Biochemistry, 43(36):11605-11615.

Ramadan, K; Shevelev, I V; Maga, G; Hübscher, U (2004). De novo DNA synthesis by human DNA polymerase lambda, DNA polymerase mu and terminal deoxyribonucleotidyl transferase. Journal of Molecular Biology, 339(2):395-404.

Shevelev, I V; Blanca, G; Villani, G; Ramadan, K; Spadari, S; Hübscher, U; Maga, G (2003). Mutagenesis of human DNA polymerase lambda: essential roles of Tyr505 and Phe506 for both DNA polymerase and terminal transferase activities. Nucleic Acids Research, 31(23):6916-6925.

Blanca, G; Shevelev, I V; Ramadan, K; Villani, G; Spadari, S; Hübscher, U; Maga, G (2003). Human DNA polymerase lambda diverged in evolution from DNA polymerase beta toward specific Mn(++) dependence: a kinetic and thermodynamic study. Biochemistry, 42(24):7467-7476.

Ramadan, K; Maga, G; Shevelev, I V; Villani, G; Blanco, L; Hübscher, U (2003). Human DNA polymerase lambda possesses terminal deoxyribonucleotidyl transferase activity and can elongate RNA primers: implications for novel functions. Journal of Molecular Biology, 328(1):63-72.

Maga, G; Villani, G; Ramadan, K; Shevelev, I V; Tanguy Le Gac, N; Blanco, L; Blanca, G; Spadari, S; Hübscher, U (2002). Human DNA polymerase lambda functionally and physically interacts with proliferating cell nuclear antigen in normal and translesion DNA synthesis. Journal of Biological Chemistry, 277(50):48434-48440.

Maga, G; Shevelev, I V; Ramadan, K; Spadari, S; Hübscher, U (2002). DNA polymerase theta purified from human cells is a high-fidelity enzyme. Journal of Molecular Biology, 319(2):359-369.

Ramadan, K; Shevelev, I V; Maga, G; Hübscher, U (2002). DNA polymerase lambda from calf thymus preferentially replicates damaged DNA. Journal of Biological Chemistry, 277(21):18454-18458.

This list was generated on Thu Nov 23 02:13:58 2017 CET.