TDRD3 Is an Effector Molecule for Arginine-Methylated Histone Marks

Yanzhong Yang; Yue Lu; Alexsandra Espejo; Jiacai Wu; Wei Xu; Shoudan Liang; Mark T. Bedford

doi:10.1016/j.molcel.2010.11.024

TDRD3 Is an Effector Molecule for Arginine-Methylated Histone Marks

Yanzhong Yang, Yue Lu, Alexsandra Espejo, Jiacai Wu, Wei Xu, Shoudan Liang, Mark T. Bedford

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

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Abstract

Specific sites of histone tail methylation are associated with transcriptional activity at gene loci. These methyl marks are interpreted by effector molecules, which harbor protein domains that bind the methylated motifs and facilitate either active or inactive states of transcription. CARM1 and PRMT1 are transcriptional coactivators that deposit H3R17me2a and H4R3me2a marks, respectively. We used a protein domain microarray approach to identify the Tudor domain-containing protein TDRD3 as a " reader" of these marks. Importantly, TDRD3 itself is a transcriptional coactivator. This coactivator activity requires an intact Tudor domain. TDRD3 is recruited to an estrogen-responsive element in a CARM1-dependent manner. Furthermore, ChIP-seq analysis of TDRD3 reveals that it is predominantly localized to transcriptional start sites. Thus, TDRD3 is an effector molecule that promotes transcription by binding methylarginine marks on histone tails.

Original language	English (US)
Pages (from-to)	1016-1023
Number of pages	8
Journal	Molecular cell
Volume	40
Issue number	6
DOIs	https://doi.org/10.1016/j.molcel.2010.11.024
State	Published - Dec 22 2010

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2010.11.024

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title = "TDRD3 Is an Effector Molecule for Arginine-Methylated Histone Marks",

abstract = "Specific sites of histone tail methylation are associated with transcriptional activity at gene loci. These methyl marks are interpreted by effector molecules, which harbor protein domains that bind the methylated motifs and facilitate either active or inactive states of transcription. CARM1 and PRMT1 are transcriptional coactivators that deposit H3R17me2a and H4R3me2a marks, respectively. We used a protein domain microarray approach to identify the Tudor domain-containing protein TDRD3 as a {"} reader{"} of these marks. Importantly, TDRD3 itself is a transcriptional coactivator. This coactivator activity requires an intact Tudor domain. TDRD3 is recruited to an estrogen-responsive element in a CARM1-dependent manner. Furthermore, ChIP-seq analysis of TDRD3 reveals that it is predominantly localized to transcriptional start sites. Thus, TDRD3 is an effector molecule that promotes transcription by binding methylarginine marks on histone tails.",

author = "Yanzhong Yang and Yue Lu and Alexsandra Espejo and Jiacai Wu and Wei Xu and Shoudan Liang and Bedford, {Mark T.}",

note = "Funding Information: M.T.B. is supported by NIH grant number DK62248 and in part by institutional grant NIEHS ES07784. Y.Y. is an Epigenetics Scholar supported by The Center for Cancer Epigenetics at MDACC. ",

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doi = "10.1016/j.molcel.2010.11.024",

language = "English (US)",

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AU - Yang, Yanzhong

AU - Lu, Yue

AU - Espejo, Alexsandra

AU - Wu, Jiacai

AU - Xu, Wei

AU - Liang, Shoudan

AU - Bedford, Mark T.

N1 - Funding Information: M.T.B. is supported by NIH grant number DK62248 and in part by institutional grant NIEHS ES07784. Y.Y. is an Epigenetics Scholar supported by The Center for Cancer Epigenetics at MDACC.

PY - 2010/12/22

Y1 - 2010/12/22

N2 - Specific sites of histone tail methylation are associated with transcriptional activity at gene loci. These methyl marks are interpreted by effector molecules, which harbor protein domains that bind the methylated motifs and facilitate either active or inactive states of transcription. CARM1 and PRMT1 are transcriptional coactivators that deposit H3R17me2a and H4R3me2a marks, respectively. We used a protein domain microarray approach to identify the Tudor domain-containing protein TDRD3 as a " reader" of these marks. Importantly, TDRD3 itself is a transcriptional coactivator. This coactivator activity requires an intact Tudor domain. TDRD3 is recruited to an estrogen-responsive element in a CARM1-dependent manner. Furthermore, ChIP-seq analysis of TDRD3 reveals that it is predominantly localized to transcriptional start sites. Thus, TDRD3 is an effector molecule that promotes transcription by binding methylarginine marks on histone tails.

AB - Specific sites of histone tail methylation are associated with transcriptional activity at gene loci. These methyl marks are interpreted by effector molecules, which harbor protein domains that bind the methylated motifs and facilitate either active or inactive states of transcription. CARM1 and PRMT1 are transcriptional coactivators that deposit H3R17me2a and H4R3me2a marks, respectively. We used a protein domain microarray approach to identify the Tudor domain-containing protein TDRD3 as a " reader" of these marks. Importantly, TDRD3 itself is a transcriptional coactivator. This coactivator activity requires an intact Tudor domain. TDRD3 is recruited to an estrogen-responsive element in a CARM1-dependent manner. Furthermore, ChIP-seq analysis of TDRD3 reveals that it is predominantly localized to transcriptional start sites. Thus, TDRD3 is an effector molecule that promotes transcription by binding methylarginine marks on histone tails.

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TDRD3 Is an Effector Molecule for Arginine-Methylated Histone Marks

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TDRD3 Is an Effector Molecule for Arginine-Methylated Histone Marks

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