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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Identification of rat DDB1, a putative DNA repair protein, and functional correlation with its damaged-DNA recognition activity.

Recognition and incision of UV-DNA adducts play key roles in the efficacy of nucleotide excision repair. Damaged-DNA recognition activity has been identified from primate cells as a complex of DDB1 (127-kD) and DDB2 (48-kD) subunits. However, the function of damaged-DNA binding proteins (DDBs) in damaged-DNA recognition is not well understood. To assess the functional correlation between DDBs and UV-damaged-DNA recognition activity, we identified UV-damaged-DNA recognition activities in rodent cell lines. There is a cell type-dependent expression of DDB1 and DDB2. Rodent cells had less abundant DDBs and lower UV-damaged-DNA recognition activity than did human tumor cells. Interestingly, the profusion of DDBs is associated with UV-damaged-DNA recognition activity in these cell lines. We also discovered tissue-dependent expression of DDBs and its functional correlation with UV-damaged-DNA recognition activity. cDNA (3850 nucleotides) from rat ddb1 was isolated. It contained the complete length of the open reading frame that encodes an 1140-amino-acid polypeptide with a predicted molecular weight of 126.8 kD. The predicted protein size from the rat ddb1 gene resembles that from human DDB1 (127 kD). Rat DDB1 shares highly conserved sequencing (greater than 98% similarity) with those of mouse, human, and monkey. Rat and fruit fly DDB1 exhibit 62.23% identity and 57.66% homology. The evolutionary conservation of the DDB1 sequence suggests that DDB1 may play a pivotal role in mammals as well as in other eukaryotes. However, overexpression of DDB1 did not augment UV-damaged-DNA recognition activity in human HeLa, hamster V79, or rat PC12 cells. In contrast, restricting DDB2 expression by antisense ddb2 partially inhibited UV-damaged-DNA recognition activity in cells, whereas overexpressing DDB2 through a recombinant ddb2 adenovirus partly restored the recognition activity of these cells. These findings support the notion that DDB abundance is functionally correlated with UV-damaged-DNA recognition activity. These results also suggest that the profusion of DDB2, but not DDB1, may moderate UV-damaged-DNA recognition activity.[1]

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