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Number of items: 18.

Villani, G; Hübscher, U; Gironis, N; Parkkinen, S; Pospiech, H; Shevelev, I; di Cicco, G; Markkanen, E; Syväoja, J E; Tanguy Le Gac, N (2011). In vitro gap-directed translesion DNA synthesis of an abasic site involving human DNA polymerases epsilon, lambda, and beta. Journal of Biological Chemistry, 286(37):32094-32104.

DNA Polymerases Discovery,Characterizations and Functions in Cellular DNA Transactions. Edited by: Hübscher, U; Spadari, S; Villani, G; Maga, G (2010). Singapure, Singapure: World Scientific Publishing Co. PTE. Ltd..

Locatelli, G A; Pospiech, H; Tanguy Le Gac, N; van Loon, B; Hubscher, U; Parkkinen, S; Syväoja, J E; Villani, G (2010). Effect of 8-oxoguanine and abasic site DNA lesions on in vitro elongation by human DNA polymerase in the presence of replication protein A and proliferating-cell nuclear antigen. Biochemical Journal, 429(3):573-582.

Maga, G; van Loon, B; Crespan, E; Villani, G; Hübscher, U (2009). The block of DNA polymerase delta strand displacement activity by an abasic site can be rescued by the concerted action of DNA polymerase beta and Flap endonuclease 1. Journal of Biological Chemistry, 284(21):14267-1475.

Gembka, A; Smirnova, E; Hübscher, U (2008). The checkpoint sensors, the 9-1-1 complex and the Rad17-RF-C2-5 complex: at the crossroads of DNA damage checkpoint and DNA repair. In: Maga, G; Hübscher, U; Villani, G; Baldacci, G. DNA Replication, Repair and Recombination at the Crossroad Between Genome Integrity and Genomic Instability : A Biochemical Perspective. Kerala: Research Signpost, 77-86.

Maga, G; Shevelev, I V; Villani, G; Spadari, S; Hübscher, U (2006). Human replication protein A can suppress the intrinsic in vitro mutator phenotype of human DNA polymerase lambda. Nucleic Acids Research, 34(5):1405-1415.

Locatelli, G A; Di Santo, R; Crespan, E; Costi, R; Roux, A; Hübscher, U; Shevelev, I V; Blanca, G; Villani, G; Spadari, S; Maga, G (2005). Diketo hexenoic acid derivatives are novel selective non-nucleoside inhibitors of mammalian terminal deoxynucleotidyl transferases, with potent cytotoxic effect against leukemic cells. Molecular Pharmacology, 68(2):538-550.

Crespan, E; Zanoli, S; Khandazhinskaya, A; Shevelev, I V; Jasko, M; Alexandrova, L; Kukhanova, M; Blanca, G; Villani, G; Hübscher, U; Spadari, S; Maga, G (2005). Incorporation of non-nucleoside triphosphate analogues opposite to an abasic site by human DNA polymerases beta and lambda. Nucleic Acids Research, 33(13):4117-4127.

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.

Toueille, M; El-Andaloussi, N; Frouin, I; Freire, R; Funk, D; Shevelev, I V; Friedrich-Heineken, E; Villani, G; Hottiger, M O; Hübscher, U (2004). The human Rad9/Rad1/Hus1 damage sensor clamp interacts with DNA polymerase beta and increases its DNA substrate utilisation efficiency: implications for DNA repair. Nucleic Acids Research, 32(11):3316-3324.

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.

Pascucci, B; Maga, G; Hübscher, U; Bjoras, M; Seeberg, E; Hickson, I D; Villani, G; Giordano, C; Cellai, L; Dogliotti, E (2002). Reconstitution of the base excision repair pathway for 7,8-dihydro-8-oxoguanine with purified human proteins. Nucleic Acids Research, 30(10):2124-2130.

Maga, G; Villani, G; Tillement, V; Stucki, M; Locatelli, G A; Frouin, I; Spadari, S; Hübscher, U (2001). Okazaki fragment processing: modulation of the strand displacement activity of DNA polymerase delta by the concerted action of replication protein A, proliferating cell nuclear antigen, and flap endonuclease-1. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 98(25):14298-14303.

Hoffmann, J S; Pillaire, M J; Maga, G; Podust, V N; Hübscher, U; Villani, G (1995). DNA polymerase beta bypasses in vitro a single d(GpG)-cisplatin adduct placed on codon 13 of the HRAS gene. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 92(12):5356-5360.

This list was generated on Sat Jul 22 12:01:01 2017 CEST.