Synthesis of oligodeoxynucleotides containing 2-thiopyrimidine residues--a new protection scheme
Overview of Kuimelis RG et al.
Authors | Kuimelis RG  Nambiar KP   |
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Affiliation | Department of Chemistry   University of California   Davis 95616.   |
Journal | Nucleic Acids Res |
Year | 1994 |
Abstract
A method is described for the incorporation of 2'-deoxy-2-thiouridine (dS2U) and 2'-deoxy-2-thiothymidine (dS2T) into oligodeoxynucleotides at predetermined positions. This requires N3 or O4-acylation of dS2U and dS2T with toluoyl chloride. These base-protected thiopyrimidines are completely stable toward the aqueous iodine oxidation reagent used in the phosphoramidite DNA synthesis method. The toluoyl protecting group is removed during the standard post-synthetic ammonia treatment. This novel protection strategy allows dS2U and dS2T to be efficiently incorporated into oligodeoxynucleotides at predetermined sites without the usual problem of desulfurization and decomposition. Several 14-mers containing the Eco-RI recognition site (dGGCGGAAXXCCGCC and dGGCGGAAXXCGCGG, where X represents dT, dS2U or dS2T) have been synthesized and characterized by base composition, thermal denaturation, CD spectroscopy and endonuclease substrate activity.