Bias in nucleotide composition of antisense oligonucleotides.

In this study we investigated if specific sequence motifs occur with a higher frequency in antisense oligonucleotides than can be expected on the basis of the mRNA composition to get an impression of the importance of these motifs for antisense effects. Computer analysis of 206 antisense oligonucleotides extracted from the literature and from sequence databases, all targeted against human mRNA, was performed. We compared the sequence composition of these oligonucleotides with the average of 100 equally large and randomly selected sequences from sequence databases and of their target mRNA. We found that the frequency of sequence motifs containing GG, CCC, CC, GAC, and CG is significantly higher and TT and that TCC is significantly lower in antisense oligonucleotide sequences than in the randomly selected mRNA sequences. We conclude that there is a bias in the nucleotide composition of antisense oligonucleotides. Some of these biased sequence motifs have been reported to induce nonantisense effects mediated by protein binding. Further analysis of the biologic function of these motifs is necessary to investigate if they should be avoided or incorporated into future designs of therapeutic effective oligonucleotides.