Glyoxal-Linked Nucleotides and DNA for Bioconjugations and Crosslinking with Arginine-Containing Peptides and Proteins

Denise-Liu' Leone; Radek Pohl; Martin Hubálek; Marta Kadeřábková; Matouš Krömer; Veronika Sýkorová; Michal Hocek

doi:10.1002/chem.202104208

Glyoxal-Linked Nucleotides and DNA for Bioconjugations and Crosslinking with Arginine-Containing Peptides and Proteins

Chemistry. 2022 Mar 7;28(14):e202104208. doi: 10.1002/chem.202104208. Epub 2022 Feb 9.

Authors

Denise-Liu' Leone^{1

2}, Radek Pohl¹, Martin Hubálek¹, Marta Kadeřábková¹, Matouš Krömer^{1

2}, Veronika Sýkorová¹, Michal Hocek^{1

2}

Affiliations

¹ Institute of Organic Chemistry and Biochemistry, Czech Academy of Sciences, Flemingovo nam. 2, 16610, Prague 6, Czech Republic.
² Department of Organic Chemistry, Faculty of Science, Charles University in Prague, Hlavova 8, 12843, Prague 2, Czech Republic.

PMID: 35076143
DOI: 10.1002/chem.202104208

Abstract

Glyoxal-linked 2'-deoxyuridine 5'-O-mono- and triphosphates were synthesized through a CuAAC click reaction of 4-azidophenylglyoxal or a Sonogashira reaction of 4-bromophenylglyoxal with 5-ethynyl-dUMP or -dUTP. The triphosphates were used as substrates for enzymatic synthesis of modified DNA probes with KOD XL DNA polymerase. The glyoxal-linked nucleotides reacted with arginine-containing peptides to form stable imizadolone-linked conjugates. This reactive glyoxal modification in DNA was used for efficient bioconjugations and crosslinking with Arg-containing peptides or proteins (e. g., histones) and was found to be more reactive than previously reported 1,3-diketone-linked DNA probes.

Keywords: DNA; bioconjugations; crosslinking; glyoxal; nucleotides.

MeSH terms

Arginine*
DNA / metabolism
Glyoxal
Histones
Nucleotides* / metabolism
Peptides / metabolism

Substances

Histones
Nucleotides
Peptides
Glyoxal
DNA
Arginine

Abstract

MeSH terms

Substances

Grants and funding