DNA-controlled reactions offer interesting opportunities in biological, chemical, and nanosciences. In practical applications, such as in DNA sequence analysis, the sequence fidelity of the chemical-ligation reaction is of central importance. We present a ligation reaction that is as fast as and much more selective than enzymatic T4 ligase-mediated oligonucleotide ligations. The selectivity was higher than 3000-fold in discriminating matched from singly mismatched DNA templates. It is demonstrated that this enormous selectivity is the hallmark of the particular ligation architecture, which is distinct from previous ligation architectures designed as "nick ligations" . Interestingly, the fidelity of the native chemical ligation of peptide nucleic acids was increased by more than one order of magnitude when performing the ligation in such a way that an abasic-site mimic was formed opposite an unpaired template base. It is shown that the high sequence fidelity of the abasic ligation could facilitate the MALDI-TOF mass-spectrometric analysis of early cancer onset by allowing the detection of as little as 0.2% of single-base mutant DNA in the presence of 99.8% wild-type DNA.

• 出版日期2005-11