Unknown,Transcriptomics,Genomics,Proteomics

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Germ cell epigenetic instability in the Mtrr mouse model of transgenerational epigenetic inheritance


ABSTRACT: Folate metabolism is important for the generation of methyl groups required for cellular methylation reactions. Mice with a hypomorphic mutation in the gene Mtrr have disrupted folate metabolism and show transgenerational inheritance of developmental abnormalities. We sought to explore if DNA methylation patterns in the sperm of Mtrr mice may be disrupted. Therefore we performed MeDIP-seq on sperm collect from males with the Mtrr mutation (either heterozygous (Mtrr +/gt) or homozygous mutants (Mtrr gt/gt)), males ancestrally exposed to the Mtrr mutation (Mtrr +/+) and C57Bl/6J control males. C57Bl/6J males were used as controls as they have the same genetic background as the mice with Mtrr mutation.

INSTRUMENT(S): Illumina HiSeq 1000

ORGANISM(S): Mus musculus

SUBMITTER: Xiaohui Zhao 

PROVIDER: E-MTAB-8533 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Publications

Defective folate metabolism causes germline epigenetic instability and distinguishes Hira as a phenotype inheritance biomarker.

Blake Georgina E T GET   Zhao Xiaohui X   Yung Hong Wa HW   Burton Graham J GJ   Ferguson-Smith Anne C AC   Hamilton Russell S RS   Watson Erica D ED  

Nature communications 20210617 1


The mechanism behind transgenerational epigenetic inheritance is unclear, particularly through the maternal grandparental line. We previously showed that disruption of folate metabolism in mice by the Mtrr hypomorphic mutation results in transgenerational epigenetic inheritance of congenital malformations. Either maternal grandparent can initiate this phenomenon, which persists for at least four wildtype generations. Here, we use genome-wide approaches to reveal genetic stability in the Mtrr mod  ...[more]

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