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Uracil in DNA and its processing by different DNA glycosylases

by Visnes, Torkild , Doseth, Berit , Sousa, Mirta M.L , Otterlei, Marit , Kavli, Bodil , Pettersen, Henrik Sahlin , Akbari, Mansour , Slupphaug, Geir , Krokan, Hans E , Hagen, Lars

in AIDS / B cell lymphoma / B lymphocytes / Base Excision Repair / Cell cycle / Cell lines / Class Switch Recombination / Cytosine Deaminase - metabolism / Cytosine Deamination / DNA / DNA - chemistry / DNA damage / DNA Glycosylases - metabolism / DNA Mismatch Repair / DNA repair / Enzymes / Genetic mutation / Immunity, Active - genetics / Immunity, Active - immunology / Models, Immunological / Review / Somatic Hypermutation / Uracil - metabolism / Uracil-Dna Glycosylase

2009

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Uracil in DNA and its processing by different DNA glycosylases

by Visnes, Torkild , Doseth, Berit , Sousa, Mirta M.L , Otterlei, Marit , Kavli, Bodil , Pettersen, Henrik Sahlin , Akbari, Mansour , Slupphaug, Geir , Krokan, Hans E , Hagen, Lars

2009

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Uracil in DNA and its processing by different DNA glycosylases

by Visnes, Torkild , Doseth, Berit , Sousa, Mirta M.L , Otterlei, Marit , Kavli, Bodil , Pettersen, Henrik Sahlin , Akbari, Mansour , Slupphaug, Geir , Krokan, Hans E , Hagen, Lars

2009

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Journal Article

Uracil in DNA and its processing by different DNA glycosylases

Visnes, Torkild,

Doseth, Berit,

Sousa, Mirta M.L,

Otterlei, Marit,

Kavli, Bodil,

Pettersen, Henrik Sahlin,

Akbari, Mansour,

Slupphaug, Geir,

Krokan, Hans E,

Hagen, Lars

2009

Overview

Uracil in DNA may result from incorporation of dUMP during replication and from spontaneous or enzymatic deamination of cytosine, resulting in U:A pairs or U:G mismatches, respectively. Uracil generated by activation-induced cytosine deaminase (AID) in B cells is a normal intermediate in adaptive immunity. Five mammalian uracil-DNA glycosylases have been identified; these are mitochondrial UNG1 and nuclear UNG2, both encoded by the UNG gene, and the nuclear proteins SMUG1, TDG and MBD4. Nuclear UNG2 is apparently the sole contributor to the post-replicative repair of U:A lesions and to the removal of uracil from U:G contexts in immunoglobulin genes as part of somatic hypermutation and class-switch recombination processes in adaptive immunity. All uracil-DNA glycosylases apparently contribute to U:G repair in other cells, but they are likely to have different relative significance in proliferating and non-proliferating cells, and in different phases of the cell cycle. There are also some indications that there may be species differences in the function of the uracil-DNA glycosylases.

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Publisher

The Royal Society

Subject

AIDS

/ B cell lymphoma

/ B lymphocytes

/ Base Excision Repair

/ Cell cycle

/ Cell lines

/ Class Switch Recombination