Template-directed photoligation of oligodeoxyribonucleotides via 4-thiothymidine.

AUTOR(ES)

Liu, J

RESUMO

Non-enzymatic, template-directed ligation of oligonucleotides in aqueous solution has been of great interest because of its potential synthetic and biomedical utility and implications for the origin of life. Though there are many methods for template-directed chemical ligation of oligonucleotides, there are only three reported photochemical methods. In the first report, template-directed photoligation was effected by cyclobutane dimer formation between the 5'- and 3'-terminal thymidines of two oligonucleotides with >290 nm light, which also damages DNA itself. To make the photochemistry of native DNA more selective, we have replaced the thymidine at the 5'-end of one oligonucleotide with 4-thiothymidine (s4T) and show that it photoreacts at 366 nm with a T at the 3'-endof another oligonucleotide in the presence of a complementary template. When a single mismatch is introduced opposite either the s4T or its adjoining T, the ligation efficiency drops by a factor of five or more. We also show that by linking the two ends of the oligonucleotides together, photoligation can be used to form circular DNA molecules and to 'photopadlock' circular DNA templates. Thus, s4T-mediated photo-ligation may have applications to phototriggered antisense-based or antigene-based genetic tools, diagnostic agents and drugs, especially for those situations in which chemical or enzyme-mediated ligation isundesirable or impossible, for example inside a cell.

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