[HTML][HTML] Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - nature.com
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - ideas.repec.org
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
[HTML][HTML] Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - ncbi.nlm.nih.gov
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA.
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - search.ebscohost.com
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - ui.adsabs.harvard.edu
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA.
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - europepmc.org
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova, D DiCorpo… - Nature …, 2022 - econpapers.repec.org
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, IA Yushenova… - Nature …, 2022 - pubmed.ncbi.nlm.nih.gov
DNA modifications are used to regulate gene expression and defend against invading
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
genetic elements. In eukaryotes, modifications predominantly involve C5-methylcytosine …
Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, I Yushenova, D DiCorpo, I Arkhipova - 2021 - researchsquare.com
In eukaryotes, 5-methylcytosine is the predominant DNA base modification, followed by N6-
methyladenine. However, N4-methylcytosine (4mC) is confined to bacteria. Here we report …
methyladenine. However, N4-methylcytosine (4mC) is confined to bacteria. Here we report …
[PDF][PDF] Bacterial N4-methylcytosine as an epigenetic mark in eukaryotic DNA
F Rodriguez, I Yushenova, D DiCorpo, I Arkhipova - scholar.archive.org
Fig. 1. Putative DNA methyltransferases and modified bases in bdelloid rotifers. ab, Domain
106 structure of putative N4C (a) and N6A (b) bdelloid amino-MTases. PFAM/KOG domains …
106 structure of putative N4C (a) and N6A (b) bdelloid amino-MTases. PFAM/KOG domains …