Authors: Pontarelli A, Liu JT, Oh JK, Wilds CJ
The protocols described in this article provide details regarding the synthesis and characterization of a disulfide containing linker phosphoramidite for terminal functionalization of synthetic oligonucleotides. The linker is first synthesized from 6-mercaptohexanol in two steps and is incorporated at the 5' end of short DNA oligonucleotides using automated solid-phase synthesis. The linker contains a terminal tosylate group which is post-synthetically displaced by altering the deprotection conditions to yield a variety of functional handles (N3 , NH2 , OMe, SH) or alternatively, the tosylate can be displaced directly with primary amines such as tert-butylamine. The linker system is also compatible with RNA oligonucleotides enabling the introduction of various functional handles (N3 , NH2 ). The protocol outlined in this procedure provides access to a versatile linker for the terminal functionalization of oligonucleotides containing a disulfide bond which may serve useful in the synthesis of reduction-responsive oligonucleotide conjugates. As a proof of concept, in this protocol the linker is used to modify a dT10 oligonucleotide and then conjugated by copper(I)-mediated azide-alkyne cycloaddition (CuAAC) to an alkyne-modified poly(ethylene glycol) which shows concentration dependent release of the oligonucleotide upon treatment with 1,4-dithiothreitol, a reducing agent. © 2023 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Preparation of disulfide linker phosphoramidite 3 Basic Protocol 2: Synthesis, functionalization, and characterization of DNA oligonucleotides containing disulfide linker phosphoramidite 3 Basic Protocol 3: Displacement of terminal tosylate functionalized DNA with primary aliphatic amines Basic Protocol 4: Synthesis of oligonucleotide-PEG conjugate Support Protocol: Preparation of PEG-alkyne.
Keywords: disulfide linker; oligonucleotide conjugation; oligonucleotide functionalization; redox-responsive release;
PubMed: https://pubmed.ncbi.nlm.nih.gov/36840706/
DOI: 10.1002/cpz1.691