[No authors listed]
A novel in vivo selection method for active deoxyribonucleoside kinase proteins is described here. A pool of randomly mutated genes for deoxyribonucleoside kinase from Drosophila melanogaster (Dm-dNK) was prepared and inserted into an expression vector. Enzymatically active mutants were selected by repeated cycles, including (i) introduction into Escherichia coli, (ii) treatment of the E. coli pool with a mutagenic deoxyribonucleoside (2-hydroxy-dA), and (iii) selection of antibiotic-resistant colonies resulting from mutations by phosphorylated 2-hydroxy-dA and the subsequent isolation of the plasmid DNAs. The ratio of the resistant colonies increased by two orders of magnitude from the first cycle to the fifth cycle, and then reached a plateau. Fifteen Dm-dNK mutants selected after the seventh and eighth evolution cycles were actually active in vivo. Moreover, one of the mutant proteins was as active as the wild-type protein in vitro. These results indicate that this novel in vivo evolution method was useful and that similar strategies would be applicable to other deoxyribonucleoside kinases. In addition, the distribution of mutated amino acids suggests important residues/regions in the Dm-dNK protein.
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