Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Adenine methylation is very scarce in the drosophila genome and not erased by the Ten Eleven Translocation dioxygenase
View through CrossRef
Abstract
N6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in drosophila, for which the erasure of this epigenetic mark has been ascribed to the Ten Eleven Translocation (TET) enzyme. Here, we re-evaluated 6mA presence and TET impact on drosophila genome. Using axenic or conventional breeding conditions, we found traces of 6mA by LC-MS/MS and no significant increase in 6mA levels in the absence of TET, suggesting that this modification is present at very low levels in the drosophila genome but not regulated by TET. Consistent with this latter hypothesis, further molecular and genetic analyses showed that TET does not demethylate 6mA but acts essentially in an enzymatic-independent manner. Our results call for further caution concerning the role and regulation of 6mA DNA modification in metazoans and underline the importance of TET non-enzymatic activity for fly development.
eLife Sciences Publications, Ltd
Title: Adenine methylation is very scarce in the drosophila genome and not erased by the Ten Eleven Translocation dioxygenase
Description:
Abstract
N6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in drosophila, for which the erasure of this epigenetic mark has been ascribed to the Ten Eleven Translocation (TET) enzyme.
Here, we re-evaluated 6mA presence and TET impact on drosophila genome.
Using axenic or conventional breeding conditions, we found traces of 6mA by LC-MS/MS and no significant increase in 6mA levels in the absence of TET, suggesting that this modification is present at very low levels in the drosophila genome but not regulated by TET.
Consistent with this latter hypothesis, further molecular and genetic analyses showed that TET does not demethylate 6mA but acts essentially in an enzymatic-independent manner.
Our results call for further caution concerning the role and regulation of 6mA DNA modification in metazoans and underline the importance of TET non-enzymatic activity for fly development.
Related Results
Translocation Ecology of New Zealand Freshwater Mussels
Translocation Ecology of New Zealand Freshwater Mussels
<p><b>Freshwater mussels are a diverse and important group of animals that provide multiple ecosystem services as well as direct services to humans. They are also one ...
Correcting Methylation Calls in Clinically Relevant Low-Mappability Regions
Correcting Methylation Calls in Clinically Relevant Low-Mappability Regions
AbstractDNA methylation is an important component in vital biological functions such as embryonic development, carcinogenesis, and heritable regulation. Accurate methods to assess ...
Whole-genome bisulfite sequencing of multiple individuals reveals complementary roles of promoter and gene body methylation in transcriptional regulation
Whole-genome bisulfite sequencing of multiple individuals reveals complementary roles of promoter and gene body methylation in transcriptional regulation
Abstract
Background
DNA methylation is an important type of epigenetic modification involved in gene regulation. Although strong DNA...
Comparative Promoter Methylation Analysis of p53 Target Genes in Urogenital Cancers
Comparative Promoter Methylation Analysis of p53 Target Genes in Urogenital Cancers
<i>Introduction:</i> The methylation status of selected new p53 target genes in bladder, kidney and testicular cancer was investigated to find similarities in methylati...
Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase
Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase
N6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in Drosophila, for which the erasure of this epigenetic mark has been ascribed to the te...
Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase
Adenine methylation is very scarce in the Drosophila genome and not erased by the ten-eleven translocation dioxygenase
N6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in Drosophila, for which the erasure of this epigenetic mark has been ascribed to the te...
Adenine methylation is very scarce in the drosophila genome and not erased by the Ten Eleven Translocation dioxygenase
Adenine methylation is very scarce in the drosophila genome and not erased by the Ten Eleven Translocation dioxygenase
AbstractN6-methyladenine (6mA) DNA modification has recently been described in metazoans, including in drosophila, for which the erasure of this epigenetic mark has been ascribed t...
Abstract 2094: Correaltions between genome-wide DNA methylation profiles and genomic driver aberrations during multistage lung adenocaricinogenesis
Abstract 2094: Correaltions between genome-wide DNA methylation profiles and genomic driver aberrations during multistage lung adenocaricinogenesis
Abstract
The aim of this study was to clarify correlations between epigenomic and genomic alterations during multistage lung adenocarcinogenesis. Single-CpG resoluti...