Loss of the methyl lysine effector protein PHF20 impacts the expression of genes regulated by the lysine acetyltransferase MOF

Aimee I. Badeaux; Yanzhong Yang; Kim Cardenas; Vidyasiri Vemulapalli; Kaifu Chen; Donna Kusewitt; Ellen Richie; Wei Li; Mark T. Bedford

doi:10.1074/jbc.M111.271163

Loss of the methyl lysine effector protein PHF20 impacts the expression of genes regulated by the lysine acetyltransferase MOF

Aimee I. Badeaux, Yanzhong Yang, Kim Cardenas, Vidyasiri Vemulapalli, Kaifu Chen, Donna Kusewitt, Ellen Richie, Wei Li, Mark T. Bedford

Epigenetics & Molecular Carcinogenesis

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

In epigenetic signaling pathways, histone tails are heavily modified, resulting in the recruitment of effector molecules that can influence transcription. One such molecule, plant homeodomain finger protein 20 (PHF20), uses a Tudor domain to read dimethyl lysine residues and is a known component of the MOF(male absent on the first) histone acetyltransferase protein complex, suggesting it plays a role in the cross-talk between lysine methylation and histone acetylation. We sought to investigate the biological role of PHF20 by generating a knockout mouse. Without PHF20, mice die shortly after birth and display a wide variety of phenotypes within the skeletal and hematopoietic systems. Mechanistically, PHF20 is not required for maintaining the global H4K16 acetylation levels or locus specific histone acetylation but instead works downstream in transcriptional regulation of MOF target genes.

Original language	English (US)
Pages (from-to)	429-437
Number of pages	9
Journal	Journal of Biological Chemistry
Volume	287
Issue number	1
DOIs	https://doi.org/10.1074/jbc.M111.271163
State	Published - Jan 2 2012

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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Genetically Engineered Mouse Facility
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10.1074/jbc.M111.271163

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title = "Loss of the methyl lysine effector protein PHF20 impacts the expression of genes regulated by the lysine acetyltransferase MOF",

abstract = "In epigenetic signaling pathways, histone tails are heavily modified, resulting in the recruitment of effector molecules that can influence transcription. One such molecule, plant homeodomain finger protein 20 (PHF20), uses a Tudor domain to read dimethyl lysine residues and is a known component of the MOF(male absent on the first) histone acetyltransferase protein complex, suggesting it plays a role in the cross-talk between lysine methylation and histone acetylation. We sought to investigate the biological role of PHF20 by generating a knockout mouse. Without PHF20, mice die shortly after birth and display a wide variety of phenotypes within the skeletal and hematopoietic systems. Mechanistically, PHF20 is not required for maintaining the global H4K16 acetylation levels or locus specific histone acetylation but instead works downstream in transcriptional regulation of MOF target genes.",

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AU - Badeaux, Aimee I.

AU - Yang, Yanzhong

AU - Cardenas, Kim

AU - Vemulapalli, Vidyasiri

AU - Chen, Kaifu

AU - Kusewitt, Donna

AU - Richie, Ellen

AU - Li, Wei

AU - Bedford, Mark T.

PY - 2012/1/2

Y1 - 2012/1/2

N2 - In epigenetic signaling pathways, histone tails are heavily modified, resulting in the recruitment of effector molecules that can influence transcription. One such molecule, plant homeodomain finger protein 20 (PHF20), uses a Tudor domain to read dimethyl lysine residues and is a known component of the MOF(male absent on the first) histone acetyltransferase protein complex, suggesting it plays a role in the cross-talk between lysine methylation and histone acetylation. We sought to investigate the biological role of PHF20 by generating a knockout mouse. Without PHF20, mice die shortly after birth and display a wide variety of phenotypes within the skeletal and hematopoietic systems. Mechanistically, PHF20 is not required for maintaining the global H4K16 acetylation levels or locus specific histone acetylation but instead works downstream in transcriptional regulation of MOF target genes.

AB - In epigenetic signaling pathways, histone tails are heavily modified, resulting in the recruitment of effector molecules that can influence transcription. One such molecule, plant homeodomain finger protein 20 (PHF20), uses a Tudor domain to read dimethyl lysine residues and is a known component of the MOF(male absent on the first) histone acetyltransferase protein complex, suggesting it plays a role in the cross-talk between lysine methylation and histone acetylation. We sought to investigate the biological role of PHF20 by generating a knockout mouse. Without PHF20, mice die shortly after birth and display a wide variety of phenotypes within the skeletal and hematopoietic systems. Mechanistically, PHF20 is not required for maintaining the global H4K16 acetylation levels or locus specific histone acetylation but instead works downstream in transcriptional regulation of MOF target genes.

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Loss of the methyl lysine effector protein PHF20 impacts the expression of genes regulated by the lysine acetyltransferase MOF

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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