Oligodeoxynucleotide Synthesis Under Non‐Nucleophilic Deprotection Conditions

Author:

Fang Shiyue1ORCID,Chillar Komal1,Yin Yipeng1,Apostle Alexander1,Eriyagama Dhananjani N. A. M.1,Shahsavari Shahien1,Halami Bhaskar1,Yuan Yinan2

Affiliation:

1. Department of Chemistry and Health Research Institute Michigan Technological University Houghton Michigan

2. College of Forest Resources and Environmental Science Michigan Technological University Houghton Michigan

Abstract

AbstractThis protocol describes a method for the incorporation of sensitive functional groups into oligodeoxynucleotides (ODNs). The nucleophile‐sensitive epigenetic N4‐acetyldeoxycytosine (4acC) DNA modification is used as an example, but other sensitive groups can also be incorporated, e.g., alkyl halide, α‐haloamide, alkyl ester, aryl ester, thioester, and chloropurine groups, all of which are unstable under the basic and nucleophilic deprotection and cleavage conditions used in standard ODN synthesis methods. The method uses a 1,3‐dithian‐2‐yl‐methoxycarbonyl (Dmoc) group that carries a methyl group at the carbon of the methoxy moiety (meDmoc) for the protection of exo‐amines of nucleobases. The growing ODN is anchored to a solid support via a Dmoc linker. With these protecting and linking strategies, ODN deprotection and cleavage are achieved without using any strong bases and nucleophiles. Instead, they can be carried out under nearly neutral non‐nucleophilic oxidative conditions. To increase the length of ODNs that can be synthesized using the meDmoc method, the protocol also describes the synthesis of a PEGylated Dmoc (pDmoc) phosphoramidite. With some of the nucleotides being incorporated with pDmoc‐CE phosphoramidite, the growing ODN on the solid support carries PEG moieties and becomes more soluble, thus enabling longer ODN synthesis. The ODN synthesis method described in this protocol is expected to make many sensitive ODNs that are difficult to synthesize accessible to researchers in multiple areas, such as epigenetics, nanopore sequencing, nucleic acid‐protein interactions, antisense drug development, DNA alkylation carcinogenesis, and DNA nanotechnology. © 2024 Wiley Periodicals LLC.Basic Protocol: Sensitive ODN synthesisSupport Protocol 1: Synthesis of meDmoc‐CE phosphoramiditesSupport Protocol 2: Synthesis of a pDmoc‐CE phosphoramidite

Funder

National Institutes of Health

National Science Foundation

Publisher

Wiley

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