Direct Decarboxylation of 5-Carboxylcytosine by DNA C5- Methyltransferases

Zita Liutkevičiūtė; Edita Kriukienė; Janina Ličytė; Milda Rudytė; Giedrė Urbanavičiu̅tė; Saulius Klimašauskas

doi:10.1021/ja5019223

Direct Decarboxylation of 5-Carboxylcytosine by DNA C5- Methyltransferases

Zita Liutkevičiūtė(Vilnius University), Edita Kriukienė(Vilnius University), Janina Ličytė(Vilnius University), Milda Rudytė(Vilnius University), Giedrė Urbanavičiu̅tė(Vilnius University), Saulius Klimašauskas(Vilnius University)

Journal of the American Chemical Society

April 9, 2014

10.1021/ja5019223

Cited by 62

Abstract

S-Adenosylmethionine-dependent DNA methyltransferases (MTases) perform direct methylation of cytosine to yield 5-methylcytosine (5mC), which serves as part of the epigenetic regulation mechanism in vertebrates. Active demethylation of 5mC by TET oxygenases produces 5-formylcytosine (fC) and 5-carboxylcytosine (caC), which were shown to be enzymatically excised and then replaced with an unmodified nucleotide. Here we find that both bacterial and mammalian C5-MTases can catalyze the direct decarboxylation of caC yielding unmodified cytosine in DNA in vitro but are inert toward fC. The observed atypical enzymatic C-C bond cleavage reaction provides a plausible precedent for a direct reversal of caC to the unmodified state in DNA and offers a unique approach for sequence-specific analysis of genomic caC.

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