Dynamic Histone H3 Modifications Regulate Meiosis Initiation via Respiration

Shi, Jian; Ma, Yanjie; Hua, Hui; Liu, Yujiao; Li, Wei; Yu, Hongxiu; Liu, Chao

doi:10.3389/fcell.2021.646214

Cited by 3 publications

(3 citation statements)

References 62 publications

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“…Recently, mass spectrometry has frequently been used to detect histone modifications, where different variations of MS are applied, such as LC-MALDI-TOF and LC-MS/MS [2,28,29].…”

Section: Analyzing Histone Modificationsmentioning

confidence: 99%

The Zebrafish Model to Understand Epigenetics in Renal Diseases

Sopel

Müller-Deile

2021

IJMS

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Epigenetic modifications are able to alter gene expression and include DNA methylation, different histone variants, and post-transcriptional modifications (PTMs), such as acetylation or phosphorylation, and through short/long RNAs, respectively. In this review, we focus on current knowledge concerning epigenetic modifications in gene regulation. We describe different forms of epigenetic modifications and explain how epigenetic changes can be detected. The relevance of epigenetics in renal diseases is highlighted with multiple examples and the use of the zebrafish model to study glomerular diseases in general and epigenetics in renal diseases in particular is discussed. We end with an outlook on how to use epigenetic modifications as a therapeutic target for different diseases. Here, the zebrafish model can be employed as a high-throughput screening tool not only to discover epigenetic alterations contributing to disease, but also to test novel substances that change epigenetic signatures in vivo. Therefore, the zebrafish model harbors the opportunity to find novel pathogenic pathways allowing a pre-selection of potential targets and compounds to be tested for renal diseases.

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“…Recently, mass spectrometry has frequently been used to detect histone modifications, where different variations of MS are applied, such as LC-MALDI-TOF and LC-MS/MS [2,28,29].…”

Section: Analyzing Histone Modificationsmentioning

confidence: 99%

The Zebrafish Model to Understand Epigenetics in Renal Diseases

Sopel

Müller-Deile

2021

IJMS

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“…In non-meiotic conditions, sporulation genes are transcriptionally repressed by Ume6 (Unscheduled meiotic gene expression 6) and Sum1 (Suppressor of Mar1-1) which bind to URS1 and MSE sites, respectively. Beyond transcriptional control, entry and progression into sporulation requires multiple coordinated regulatory pathways including RNA modifications (Schwartz et al, 2013), translational regulation (Berchowitz et al, 2013; Jin and Neiman, 2016), precise post-translational modifications and fine-tuning of protein levels (Eisenberg et al, 2018; Bhagwat et al, 2021; Shi et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

“…The former sites are enriched in the vicinity of the stop codon in coding sequences and 3'UTR in mammals (Dominissini et al, 2012;Meyer et al, 2012), plants (Bodi et al, 2012), yeast (Schwartz et al, 2013) and flies (Lence et al, 2016). m 6 A is added cotranscriptionally on polymerase II transcribed RNAs by a multi-component "writer" complex comprising METTL3-METTL14 heterodimer in metazoans and plants (Zhong et al, 2008;Slobodin et al, 2017;Zaccara et al, 2019), of which METTL3 (also called MT-A70) is the active component (Śledź and Jinek, 2016;Wang et al, 2016aWang et al, , 2016b.…”

Section: Introductionmentioning

confidence: 99%

The S. cerevisiae m⁶A-reader Pho92 impacts meiotic recombination by controlling key methylated transcripts

Scutenaire

Plassard

Matelot

et al. 2022

Preprint

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N6-methyladenosine (m6A), the most abundant internal modification of eukaryotic mRNAs, participates in the post-transcriptional control of gene expression. In Saccharomyces cerevisiae, m6A is only found during meiosis. Although the deletion of the m6A-methyltransferase Ime4 impairs this process, the molecular impact of m6A on gene expression remains ill defined. Here we investigated the function of the budding yeast m6A reader Pho92. We found that Pho92 is specifically expressed during meiosis and impacts meiotic progression. We used high-throughput RNA sequencing and mapping of Pho92-binding sites following UV-crosslinking to show that Pho92 is recruited to specific mRNAs in an m6A-dependent manner during the meiotic prophase, preceding their down-regulation. Strikingly, point mutations altering m6A sites in mRNAs targeted by Pho92 are sufficient to delay their down-regulation and, in one case, to impact meiotic progression. Altogether, our results indicate that Pho92 facilitate the meiotic progression by accelerating the down-regulation of timely-regulated mRNAs during meiotic recombination.

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Roles of histone post-translational modifications in meiosis

Nie,

Kong,

Song

et al. 2024

Biology of Reproduction

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Histones post-translational modifications (PTMs), such as phosphorylation, methylation, acetylation and ubiquitination, play vital roles in various chromatin-based cellular processes. Meiosis is crucial for organisms that depend on sexual reproduction to produce haploid gametes, during which chromatin undergoes intricate conformational changes. An increasing body of evidence is clarifying the essential roles of histone PTMs during meiotic divisions. In this review, we concentrate on the PTMs of H2A, H2B, H3 and H4 as well as the linker histone H1 that are required for meiosis and summarize recent progress in understanding how these modifications influence diverse meiotic events. Finally, challenges and exciting open questions for future research in this field are discussed.

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Dynamic Histone H3 Modifications Regulate Meiosis Initiation via Respiration

Cited by 3 publications

References 62 publications

The Zebrafish Model to Understand Epigenetics in Renal Diseases

The Zebrafish Model to Understand Epigenetics in Renal Diseases

The S. cerevisiae m⁶A-reader Pho92 impacts meiotic recombination by controlling key methylated transcripts

Roles of histone post-translational modifications in meiosis

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Dynamic Histone H3 Modifications Regulate Meiosis Initiation via Respiration

Cited by 3 publications

References 62 publications

The Zebrafish Model to Understand Epigenetics in Renal Diseases

The Zebrafish Model to Understand Epigenetics in Renal Diseases

The S. cerevisiae m6A-reader Pho92 impacts meiotic recombination by controlling key methylated transcripts

Roles of histone post-translational modifications in meiosis

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The S. cerevisiae m⁶A-reader Pho92 impacts meiotic recombination by controlling key methylated transcripts