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DNA replication, recombination and repair, all of which are necessary for genomic stability, require the presence of exonucleases. In DNA replication, these enzymes are involved in the processing of Okazaki fragments, whereas in DNA repair they function to excise damaged DNA fragments and correct recombinational mismatches. These exonucleases include the family of DNA polymerases. DNA pol alpha, beta, delta and epsilon are involved in DNA replication and repair. DNA pol delta and DNA pol epsilon are multisubunit enzymes, with DNA pol delta consisting of two subunits: p125, which interacts with the sliding DNA clamp protein PCNA; and p50. The nuclear-encoded DNA pol gamma is the only DNA polymerase required for the replication of the mitochondrial DNA. DNA pol zeta is ubiquitously expressed in various tissues and mediates the cellular mechanism of damage-induced mutagenesis. DNA pol theta is a DNA polymerase-helicase that binds ATP and is involved in the repair of interstrand crosslinks.
AW321876; DNA pol alpha; DNA polymerase alpha 1 catalytic subunit; DNA polymerase alpha 1, 180 kDa; DNA polymerase alpha 1, catalytic subunit; DNA polymerase alpha catalytic subunit; DNA polymerase alpha catalytic subunit p180; DNA polymerase alpha p180 subunit; DNA polymerase alpha subunit I; G7a/Bat6Hom; NSX; p180; Pola; Pola1; polymerase (DNA directed), alpha 1; polymerase (DNA directed), alpha 1, catalytic subunit; polymerase (DNA) alpha 1, catalytic subunit; polymerase (DNA-directed), alpha (70kD); polymerase, alpha 1
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100 µg
100 µg
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100 µL
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