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The role of the KRAB zinc-finger protein ZFP57 in the maintenance of the methylation programme in mouse development

ReferenceBB/G020930/1
Principal Investigator / Supervisor Professor Anne Ferguson-Smith
Co-Investigators /
Co-Supervisors
Institution University of Cambridge
DepartmentPhysiology Development and Neuroscience
Funding typeResearch
Value (£) 366,324
StatusCompleted
TypeResearch Grant
Start date 07/12/2009
End date 06/12/2012
Duration36 months

Abstract

In mammalian preimplantation embryos, DNA methylation patterns are lost and subsequently reaquired by de novo methylation. This epigenetic reprogramming is believed to be important for the regulation of pluripotency genes. In contrast, genomic methylation imprints, heritable methylation states acquired in the germline and required for the correct mono-allelic expression of imprinted genes after fertilisation, are resistant to epigenetic reprogramming. This resistance to reprogramming ensures that the epigenetic memory which differentially marks the maternal and paternally inherited chromosomes at imprinted loci, remains heritable in embryos. It is not understood what makes methylation imprints resistant to epigenetic reprogramming. We have recently identified a KRAB zinc-finger protein, ZFP57, that when absent from both the egg and the zygote, results in loss of methylation from germline imprints. This suggests an important role for this factor in the maintenance of genomic imprints in preimplantation embryos. Here we propose a series of experiments to: 1. Identify the extent to which imprints are regulated by ZFP57. 2. Identify genomic target sites for ZFP57. 3. Determine the relationship between the KRAB-binding co-repressor KAP1 and imprinting control. 4. Identify ZFP57 interacting partners, including DNA methyltransferases. Using these approaches we aim to test the hypothesis that ZFP57 maintains methylation by specifically targeting the DNA methyltransferase machinery to germline imprints, and to better understand the newly defined role for KRAB-zinc-finger proteins in the in vivo regulation of the mammalian epigenetic programme.

Summary

DNA is packaged inside our cells into bundles called chromosomes. Chromosome packaging is a highly regulated process that ensures that the correct cell makes the correct genes available for proper regulation specific to that cell. We are interested in the factors that regulate DNA packaging into chromosomes and in particular we are interested in the changes that happen to chromosome packaging as stem cells develop into body cells. We have made a mutant where key factors required for proper gene regulation are not placed on the DNA and the chromosomes. These experiments are designed to learn more about this key factor and how it influences the chromosomes in early development.
Committee Closed Committee - Genes & Developmental Biology (GDB)
Research TopicsX – not assigned to a current Research Topic
Research PriorityX – Research Priority information not available
Research Initiative X - not in an Initiative
Funding SchemeX – not Funded via a specific Funding Scheme
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