Repair of small base lesions in DNA - from molecular biology to phenotypeKROKAN, Hans E; SLUPPHAUG, Geir.DNA repair. 2007, Vol 6, Num 4, issn 1568-7864, 164 p.Serial Issue

Uracil in DNA : General mutagen, but normal intermediate in acquired immunityKAULI, Bodil; OTTERLEI, Marit; SLUPPHAUG, Geir et al.DNA repair. 2007, Vol 6, Num 4, pp 505-516, issn 1568-7864, 12 p.Article

Novel aspects of macromolecular repair and relationship to human diseaseKROKAN, Hans E; KAVLI, Bodil; SLUPPHAUG, Geir et al.Journal of molecular medicine (Berlin. Print). 2004, Vol 82, Num 5, pp 280-297, issn 0946-2716, 18 p.Article

Mammalian single-strand break repair : Mechanisms and links with chromatinCALDECOTT, Keith W.DNA repair. 2007, Vol 6, Num 4, pp 443-453, issn 1568-7864, 11 p.Article

Cell-specific enhancement of doxorubicin toxicity in human tumour cells by docosahexaenoic acidRUDRA, Parveen K; KROKAN, Hans E.Anticancer research. 2001, Vol 21, Num 1A, pp 29-38, issn 0250-7005Article

The interacting pathways for prevention and repair of oxidative DNA damageSLUPPHAUG, Geir; KAVLI, Bodil; KROKAN, Hans E et al.Mutation research. Fundamental and molecular mechanisms of mutagenesis. 2003, Vol 531, Num 1-2, pp 231-251, issn 1386-1964, 21 p.Article

Uracil in DNA: occurrence, consequences and repairKROKAN, Hans E; DRABLØS, Finn; SLUPPHAUG, Geir et al.Oncogene (Basingstoke). 2002, Vol 21, Num 58, pp 8935-8948, issn 0950-9232, 14 p.Article

Base damage and single-strand break repair : Mechanisms and functional significance of short-and long-patch repair subpathwaysFORTINI, Paola; DOGLIOTTI, Eugenia.DNA repair. 2007, Vol 6, Num 4, pp 398-409, issn 1568-7864, 12 p.Article

Mitochondrial base excision repair of uracil and AP sites takes place by single-nucleotide insertion and long-patch DNA synthesisAKBARI, Mansour; VISNES, Torkild; KROKAN, Hans E et al.DNA repair. 2008, Vol 7, Num 4, pp 605-616, issn 1568-7864, 12 p.Article

Oxidative damage to purines in DNA : Role of mammalian Ogg1KLUNGLAND, Arne; BJELLAND, Suein.DNA repair. 2007, Vol 6, Num 4, pp 481-488, issn 1568-7864, 8 p.Article

Cytotoxicity and mutagenicity of endogenous DNA base lesions as potential cause of human agingAKBARI, Mansour; KROKAN, Hans E.Mechanisms of ageing and development. 2008, Vol 129, Num 7-8, pp 353-365, issn 0047-6374, 13 p.Article

The rate of base excision repair of uracil is controlled by the initiating glycosylaseVISNES, Torkild; AKBARI, Mansour; HAGEN, Lars et al.DNA repair. 2008, Vol 7, Num 11, pp 1869-1881, issn 1568-7864, 13 p.Article

Overexpression of transcription factor AP-2 stimulates the P_A promoter of the human uracil-DNA glycosylase (UNG) gene through a mechanism involving derepressionAAS, Per Arne; PENA-DIAZ, Javier; BEATE LIABAKK, Nina et al.DNA repair. 2009, Vol 8, Num 7, pp 822-833, issn 1568-7864, 12 p.Article

Hypersensitivity phenotypes associated with genetic and synthetic inhibitor-induced base excision repair deficiencyHORTON, Julie K; WILSON, Samuel H.DNA repair. 2007, Vol 6, Num 4, pp 530-543, issn 1568-7864, 14 p.Article

AlkB demethylases flip out in different waysSUNDHEIM, Ottar; TALSTAD, Vivi A; VAGBØ, Cathrine Broberg et al.DNA repair. 2008, Vol 7, Num 11, pp 1916-1923, issn 1568-7864, 8 p.Article

The intricate structural chemistry of base excision repair machinery : Implications for DNA damage recognition, removal, and repairHITOMI, Kenichi; IWAI, Shiqenori; TAINER, John A et al.DNA repair. 2007, Vol 6, Num 4, pp 410-428, issn 1568-7864, 19 p.Article

The mechanics of base excision repair, and its relationship to aging and diseaseWILSON, David M; BOHR, Vilhelm A.DNA repair. 2007, Vol 6, Num 4, pp 544-559, issn 1568-7864, 16 p.Article

Strikingly different properties of uracil-DNA glycosylases UNG2 and SMUG1 may explain divergent roles in processing of genomic uracilDOSETH, Berit; EKRE, Cecilie; SLUPPHAUG, Geir et al.DNA repair. 2012, Vol 11, Num 6, pp 587-593, issn 1568-7864, 7 p.Article

Co-ordination of DNA single strand break repairDIANOU, Grigory L; PARSONS, Jason L.DNA repair. 2007, Vol 6, Num 4, pp 454-460, issn 1568-7864, 7 p.Article

Crosstalk of DNA glycosylases with pathways other than base excision repairKOUTUN, Irina V; MCMURRAY, Cynthia T.DNA repair. 2007, Vol 6, Num 4, pp 517-529, issn 1568-7864, 13 p.Article

Direct interaction between XRCC1 and UNG2 facilitates rapid repair of uracil in DNA by XRCC1 complexesAKBARI, Mansour; SOLVANG-GARTEN, Karin; HANSSEN-BAUER, Audun et al.DNA repair. 2010, Vol 9, Num 7, pp 785-795, issn 1568-7864, 11 p.Article

The enigmatic thymine DNA glycosylaseCORTDZAR, Daniel; KUNZ, Christophe; SAITO, Yusuke et al.DNA repair. 2007, Vol 6, Num 4, pp 489-504, issn 1568-7864, 16 p.Article

Human and bacterial oxidative demethylases repair alkylation damage in both RNA and DNAAAS, Per Arne; OTTERLEI, Marit; KROKAN, Hans E et al.Nature (London). 2003, Vol 421, Num 6925, pp 859-863, issn 0028-0836, 5 p.Article

Multiple microRNAs may regulate the DNA repair enzyme uracil-DNA glycosylaseHEGRE, SivA; SAETROM, Pål; AAS, Per A et al.DNA repair. 2013, Vol 12, Num 1, pp 80-86, issn 1568-7864, 7 p.Article

A susceptibility locus for lung cancer maps to nicotinic acetylcholine receptor subunit genes on 15q25HUNG, Rayjean J; MCKAY, James D; FABIANOVA, Eleonora et al.Nature (London). 2008, Vol 452, Num 7187, pp 633-637, issn 0028-0836, 5 p.Article