Msl3 promotes germline stem cell differentiation in female Drosophila

Alicia McCarthy; Kahini Sarkar; Elliot T. Martin; Maitreyi Upadhyay; Seoyeon Jang; Nathan D. Williams; Paolo E. Forni; Michael Buszczak; Prashanth Rangan

doi:10.1242/DEV.199625

Msl3 promotes germline stem cell differentiation in female Drosophila

Alicia McCarthy, Kahini Sarkar, Elliot T. Martin, Maitreyi Upadhyay, Seoyeon Jang, Nathan D. Williams, Paolo E. Forni, Michael Buszczak, Prashanth Rangan

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

11 Scopus citations

Abstract

Gamete formation from germline stem cells (GSCs) is essential for sexual reproduction. However, the regulation of GSC differentiation is incompletely understood. Set2, which deposits H3K36me3 modifications, is required for GSC differentiation during Drosophila oogenesis. We discovered that the H3K36me3 reader Male-specific lethal 3 (Msl3) and histone acetyltransferase complex Ada2a-containing (ATAC) cooperate with Set2 to regulate GSC differentiation in female Drosophila. Msl3, acting independently of the rest of the male-specific lethal complex, promotes transcription of genes, including a germline-enriched ribosomal protein S19 paralog RpS19b. RpS19b upregulation is required for translation of RNA-binding Fox protein 1 (Rbfox1), a known meiotic cell cycle entry factor. Thus, Msl3 regulates GSC differentiation by modulating translation of a key factor that promotes transition to an oocyte fate.

Original language	English (US)
Article number	dev199625
Journal	Development (Cambridge)
Volume	149
Issue number	1
DOIs	https://doi.org/10.1242/DEV.199625
State	Published - Jan 2022

Keywords

Differentiation
Meiosis
Msl3
Rbfox1
RpS19
Set2

ASJC Scopus subject areas

Molecular Biology
Developmental Biology

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10.1242/DEV.199625

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title = "Msl3 promotes germline stem cell differentiation in female Drosophila",

abstract = "Gamete formation from germline stem cells (GSCs) is essential for sexual reproduction. However, the regulation of GSC differentiation is incompletely understood. Set2, which deposits H3K36me3 modifications, is required for GSC differentiation during Drosophila oogenesis. We discovered that the H3K36me3 reader Male-specific lethal 3 (Msl3) and histone acetyltransferase complex Ada2a-containing (ATAC) cooperate with Set2 to regulate GSC differentiation in female Drosophila. Msl3, acting independently of the rest of the male-specific lethal complex, promotes transcription of genes, including a germline-enriched ribosomal protein S19 paralog RpS19b. RpS19b upregulation is required for translation of RNA-binding Fox protein 1 (Rbfox1), a known meiotic cell cycle entry factor. Thus, Msl3 regulates GSC differentiation by modulating translation of a key factor that promotes transition to an oocyte fate.",

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author = "Alicia McCarthy and Kahini Sarkar and Martin, {Elliot T.} and Maitreyi Upadhyay and Seoyeon Jang and Williams, {Nathan D.} and Forni, {Paolo E.} and Michael Buszczak and Prashanth Rangan",

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doi = "10.1242/DEV.199625",

language = "English (US)",

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AU - Sarkar, Kahini

AU - Martin, Elliot T.

AU - Upadhyay, Maitreyi

AU - Jang, Seoyeon

AU - Williams, Nathan D.

AU - Forni, Paolo E.

AU - Buszczak, Michael

AU - Rangan, Prashanth

PY - 2022/1

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N2 - Gamete formation from germline stem cells (GSCs) is essential for sexual reproduction. However, the regulation of GSC differentiation is incompletely understood. Set2, which deposits H3K36me3 modifications, is required for GSC differentiation during Drosophila oogenesis. We discovered that the H3K36me3 reader Male-specific lethal 3 (Msl3) and histone acetyltransferase complex Ada2a-containing (ATAC) cooperate with Set2 to regulate GSC differentiation in female Drosophila. Msl3, acting independently of the rest of the male-specific lethal complex, promotes transcription of genes, including a germline-enriched ribosomal protein S19 paralog RpS19b. RpS19b upregulation is required for translation of RNA-binding Fox protein 1 (Rbfox1), a known meiotic cell cycle entry factor. Thus, Msl3 regulates GSC differentiation by modulating translation of a key factor that promotes transition to an oocyte fate.

AB - Gamete formation from germline stem cells (GSCs) is essential for sexual reproduction. However, the regulation of GSC differentiation is incompletely understood. Set2, which deposits H3K36me3 modifications, is required for GSC differentiation during Drosophila oogenesis. We discovered that the H3K36me3 reader Male-specific lethal 3 (Msl3) and histone acetyltransferase complex Ada2a-containing (ATAC) cooperate with Set2 to regulate GSC differentiation in female Drosophila. Msl3, acting independently of the rest of the male-specific lethal complex, promotes transcription of genes, including a germline-enriched ribosomal protein S19 paralog RpS19b. RpS19b upregulation is required for translation of RNA-binding Fox protein 1 (Rbfox1), a known meiotic cell cycle entry factor. Thus, Msl3 regulates GSC differentiation by modulating translation of a key factor that promotes transition to an oocyte fate.

KW - Differentiation

KW - Meiosis

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KW - Rbfox1

KW - RpS19

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Msl3 promotes germline stem cell differentiation in female Drosophila

Abstract

Keywords

ASJC Scopus subject areas

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