ssH-Linker

Solid-support conjugation at the 5'-terminal primary amine of oligonucleotides is a convenient and powerful method for introducing various functional groups. However, conventional aliphatic amines do not necessarily provide conjugates with sufficient yields. To improve the modification efficacy, we used the amino-linker (aminoethoxycarbonyl)aminohexyl group (ssH-linker), for solid-support conjugation. In the ssH-linker terminal modification, reactive free amino group could be easily presented onto a solid-support due to rapid removal of the amino-protecting group, and activated amino acids or cholesterol molecules could be covalently connected more efficiently than to typical 6-aminohexyl-linkers. Based on these results, the ssH-linker can be a useful terminal modification for the solid-support conjugation of functional molecules.

We previously reported a series of new amino-linkers, consisting of an aminoethyl carbamate structure (Komatsu, 2008). We have now examined the chemical properties of oligonucleotides modified with an ssH-linker, which is the simplest and most cost-effective derivative of the series. Although it was previously shown that monomethoxytrityl protection on a primary amine of the ssH-linker was cleaved under weakly acidic conditions (1% acetic acid), we found that the deprotection also proceeded in aqueous buffer solutions (pH 6.0, 7.0). The MMT group was removed much faster than other commercially available amino-linkers, and this property enabled the ssH-modified oligonucleotides to be conveniently purified with a cartridge column. Furthermore, the ssH-modified oligonucleotides were utilized in on-support labeling reactions. As compared with other amino-linkers, the ssH-linker was superior in terms of its purification and reaction efficiencies.