4.6 Review

Versatile functions of RNA m6A machinery on chromatin

JOURNAL OF MOLECULAR CELL BIOLOGY (2022)

Related references

Note: Only part of the references are listed.
Article Gastroenterology & Hepatology

HBV-Induced Increased N6 Methyladenosine Modification of PTEN RNA Affects Innate Immunity and Contributes to HCC

Geon-Woo Kim et al.

Summary: HBV significantly increases m(6)A modification of PTEN RNA, leading to a decrease in PTEN protein levels and affecting IRF-3 function and interferon synthesis. This finding provides new insights into HBV-mediated immune evasion and HBV-associated hepatocarcinogenesis.

HEPATOLOGY (2021)

Add to Collection
Article Cell Biology

Comprehensive analysis of lncRNAs N6-methyladenosine modification in colorectal cancer

Luo Zuo et al.

Aging-US (2021)

Add to Collection
Article Multidisciplinary Sciences

m6A RNA methylation regulates the fate of endogenous retroviruses

Tomasz Chelmicki et al.

Summary: Research indicates that m(6)A RNA methylation can restrict ERVs, maintaining cellular integrity by reducing the half-life of IAP mRNA to clear reactive ERV-derived RNA species.

NATURE (2021)

Add to Collection
Article Multidisciplinary Sciences

Hepatitis B virus X protein recruits methyltransferases to affect cotranscriptional N6-methyladenosine modification of viral/host RNAs

Geon-Woo Kim et al.

Summary: This study reveals that the viral protein HBV X (HBx) is responsible for the m(6)A modification of viral transcripts, with evidence showing its interaction with m(6)A methyltransferase complexes on the HBV minichromosome. The role of HBx extends to host phosphatase and tensin homolog (PTEN) mRNA, providing insight into how a viral protein recruits RNA methylation machinery to modify RNAs.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

Add to Collection
Article Biochemistry & Molecular Biology

Mechanism of noncoding RNA-associated N6-methyladenosine recognition by an RNA processing complex during IgH DNA recombination

Lekha Nair et al.

Summary: The m(6)A modification driven by METTL3 enzyme promotes the recognition and processing of StiGLT by the RNA exosome in B cells, leading to enhanced class switch recombination and suppression of chromosomal translocations.

MOLECULAR CELL (2021)

Add to Collection
Article Multidisciplinary Sciences

METTL3 regulates heterochromatin in mouse embryonic stem cells

Wenqi Xu et al.

Summary: METTL3 regulates mouse embryonic stem-cell heterochromatin, critical for silencing retroviral elements and mammalian development. Through m(6)A methylation, METTL3 modulates integrity of IAP heterochromatin.

NATURE (2021)

Add to Collection
Article Multidisciplinary Sciences

The RNA m6A reader YTHDC1 silences retrotransposons and guards ES cell identity

Jiadong Liu et al.

Summary: The study reveals that the m(6)A RNA modification and YTHDC1 play essential roles in regulating retrotransposons and cellular reprogramming during early mouse embryonic development.

NATURE (2021)

Add to Collection
Article Multidisciplinary Sciences

Small-molecule inhibition of METTL3 as a strategy against myeloid leukaemia

Eliza Yankova et al.

Summary: The study identified a highly potent and selective catalytic inhibitor of METTL3, STM2457, which shows potential therapeutic value in treating AML. Treatment with this inhibitor leads to reduced AML growth, increased differentiation and apoptosis, and decreased m(6)A levels on leukemogenic mRNAs. In vivo pharmacological inhibition of METTL3 results in impaired engraftment and prolonged survival in mouse models of AML.

NATURE (2021)

Add to Collection
Article Cell Biology

m6A-independent genome-wide METTL3 and METTL14 redistribution drives the senescence-associated secretory phenotype

Pingyu Liu et al.

Summary: Research shows that METTL3 and METTL14 promote the senescence-associated secretory phenotype in an m(6)A-independent manner. METTL14 is redistributed to enhancers, while METTL3 is localized to pre-existing NF-kappa B sites in the promoters of SASP genes during senescence. Both are essential for SASP, but it is not regulated by m(6)A mRNA modification.

NATURE CELL BIOLOGY (2021)

Add to Collection
Article Multidisciplinary Sciences

R-loop resolution promotes co-transcriptional chromatin silencing

Congyao Xu et al.

Summary: RNA-mediated chromatin silencing plays a central role in genome regulation across various organisms. In this study, researchers demonstrated that resolution of an R-loop during 3'-end processing of a plant antisense transcript recruits chromatin modifiers to promote chromatin silencing. Additionally, modulation of R-loop stability by co-transcriptional RNA processing can trigger chromatin silencing.

NATURE COMMUNICATIONS (2021)

Add to Collection
Article Cell Biology

Nuclear m6A reader YTHDC1 regulates the scaffold function of LINE1 RNA in mouse ESCs and early embryos

Chuan Chen et al.

Summary: The study reveals that YTHDC1 plays crucial roles in the self-renewal and differentiation of mouse embryonic stem cells, depending on its m(6)A binding ability. YTHDC1 recognizes m(6)A on LINE1 RNAs in the nucleus, regulating chromatin recruitment and transcriptional activities.

PROTEIN & CELL (2021)

Add to Collection
Article Cell Biology

RNA m6A modification orchestrates a LINE-1-host interaction that facilitates retrotransposition and contributes to long gene vulnerability

Feng Xiong et al.

Summary: Through the development of a new method MINT-Seq, it was discovered that many classes of RTE RNAs, particularly intronic L1s, are strongly methylated with m(6)A, promoting L1 retrotransposition. This m(6)A-orchestrated L1-host interaction plays widespread roles in gene regulation, genome integrity, human development, and diseases.

CELL RESEARCH (2021)

Add to Collection
Article Biochemistry & Molecular Biology

m6A RNA methylation regulates promoter-proximal pausing of RNA polymerase II

Junaid Akhtar et al.

Summary: m(6)A RNA modification regulates RNAP II pausing in Drosophila cells, affecting pause release, Ser2P occupancy, and nascent RNA transcription. The m(6)A-mediated gene regulation adds another layer to the control of gene expression.

MOLECULAR CELL (2021)

Add to Collection
Article Biochemistry & Molecular Biology

Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation

Joo-Hyung Lee et al.

Summary: The study reveals the heavy but selective deposition of m6A on nascent RNAs produced by transcription regulatory elements, and shows that m6A-eRNAs mark highly active enhancers by recruiting YTHDC1 and promoting condensate formation. This mechanism plays broad roles in enhancer activation and gene transcriptional control.

MOLECULAR CELL (2021)

Add to Collection
Article Multidisciplinary Sciences

Shape of promoter antisense RNAs regulates ligand-induced transcription activation

Fan Yang et al.

Summary: PAS RNAs act as key gatekeepers for a broad transcriptional pause release program, mediating gene regulation through RNA structure and enabling the activation of target genes.

NATURE (2021)

Add to Collection
Article Biochemistry & Molecular Biology

Human MettL3-MettL14 RNA adenine methyltransferase complex is active on double-stranded DNA containing lesions

Dan Yu et al.

Summary: The MettL3-MettL14 methyltransferase complex is active in repairing DNA damage by UV and X-ray exposure. N6-methyladenine (N6mA) reduces misincorporation of 8-oxo-guanine (8-oxoG) during DNA repair, and inhibits excision of N6mA by the adenine DNA glycosylase when 8-oxoG is incorporated. The N6mA reader domain of YTHDC1 binds to N6mA at damaged DNA sites, providing a potential mechanism for N6mA writer and reader proteins in DNA repair.

NUCLEIC ACIDS RESEARCH (2021)

Add to Collection
Article Multidisciplinary Sciences

A heat shock-responsive lncRNA Heat acts as a HSF1-directed transcriptional brake via m6A modification

Quanquan Ji et al.

Summary: The study identified a heat shock-inducible lncRNA, Heat, in mouse cells that acts as a transcriptional brake to restrain stress gene expression through m6A methylation. The findings reveal a crucial role of the nuclear epitranscriptome in the transcriptional regulation of heat shock response.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

Add to Collection
Article Multidisciplinary Sciences

Hakai is required for stabilization of core components of the m6A mRNA methylation machinery

Praveen Bawankar et al.

Summary: The E3 ligase Hakai is a conserved component of the m(6)A methyltransferase complex in Drosophila and human cells. Depletion of Hakai results in reduced m(6)A levels and altered functions, affecting sex determination in Drosophila.

NATURE COMMUNICATIONS (2021)

Add to Collection
Article Biochemistry & Molecular Biology

Landscape and Regulation of m6A and m6Am Methylome across Human and Mouse Tissues

Jun'e Liu et al.

MOLECULAR CELL (2020)

Add to Collection
Article Multidisciplinary Sciences

SPEN integrates transcriptional and epigenetic control of X-inactivation

Francois Dossin et al.

NATURE (2020)

Add to Collection
Article Multidisciplinary Sciences

N6-methyladenosine of chromosome-associated regulatory RNA regulates chromatin state and transcription

Jun Liu et al.

SCIENCE (2020)

Add to Collection
Review Oncology

m6A Modification in Coding and Non-coding RNAs: Roles and Therapeutic Implications in Cancer

Huilin Huang et al.

CANCER CELL (2020)

Add to Collection
Article Biochemistry & Molecular Biology

Dynamic landscape and evolution of m6A methylation in human

Hui Zhang et al.

NUCLEIC ACIDS RESEARCH (2020)

Add to Collection
Review Biochemistry & Molecular Biology

Domain cross-talk in regulation of histone modifications: Molecular mechanisms and targeting opportunities

James E. Longbotham et al.

CURRENT OPINION IN CHEMICAL BIOLOGY (2020)

Add to Collection
Article Biochemistry & Molecular Biology

METTL3 and N6-Methyladenosine Promote Homologous Recombination-Mediated Repair of DSBs by Modulating DNA-RNA Hybrid Accumulation

Canfeng Zhang et al.

MOLECULAR CELL (2020)

Add to Collection
Article Genetics & Heredity

N6-Methyladenosine co-transcriptionally directs the demethylation of histone H3K9me2

Yuan Li et al.

NATURE GENETICS (2020)

Add to Collection
Review Biology

Beyond the RNA-dependent function of LncRNA genes

Tamer Ali et al.

ELIFE (2020)

Add to Collection
Article Multidisciplinary Sciences

Interplay of m(6)A and H3K27 trimethylation restrains inflammation during bacterial infection

Chenglei Wu et al.

SCIENCE ADVANCES (2020)

Add to Collection
Article Cell Biology

Solution structure of the RNA recognition domain of METTL3-METTL14 N6-methyladenosine methyltransferase

Jinbo Huang et al.

PROTEIN & CELL (2019)

Add to Collection
Article Multidisciplinary Sciences

Histone H3 trimethylation at lysine 36 guides m6A RNA modification co-transcriptionally

Huilin Huang et al.

NATURE (2019)

Add to Collection
Review Genetics & Heredity

Chromatin-associated RNAs as facilitators of functional genomic interactions

Xiao Li et al.

NATURE REVIEWS GENETICS (2019)

Add to Collection
Article Multidisciplinary Sciences

Single-base mapping of m6A by an antibody-independent method

Zhang Zhang et al.

SCIENCE ADVANCES (2019)

Add to Collection
Article Biology

The Tudor SND1 protein is an m6A RNA reader essential for replication of Kaposi's sarcoma-associated herpesvirus

Belinda Baquero-Perez et al.

ELIFE (2019)

Add to Collection
Letter Cell Biology

Human MettL3-MettL14 complex is a sequence-specific DNA adenine methyltransferase active on single-strand and unpaired DNA in vitro

Clayton B. Woodcock et al.

CELL DISCOVERY (2019)

Add to Collection
Article Biochemistry & Molecular Biology

A LINE1-Nucleolin Partnership Regulates Early Development and ESC Identity

Michelle Percharde et al.

CELL (2018)

Add to Collection
Article Cell Biology

Zc3h13/Flacc is required for adenosine methylation by bridging the mRNA-binding factor Rbm15/Spenito to the m6A machinery component Wtap/Fl(2)d

Philip Knuckles et al.

GENES & DEVELOPMENT (2018)

Add to Collection
Article Biochemistry & Molecular Biology

Zc3h13 Regulates Nuclear RNA m6A Methylation and Mouse Embryonic Stem Cell Self-Renewal

Jing Wen et al.

MOLECULAR CELL (2018)

Add to Collection
Article Cell Biology

VIRMA mediates preferential m6A mRNA methylation in 3′UTR and near stop codon and associates with alternative polyadenylation

Yanan Yue et al.

CELL DISCOVERY (2018)

Add to Collection
Article Multidisciplinary Sciences

The SMAD2/3 interactome reveals that TGFβ controls m6A mRNA methylation in pluripotency

Alessandro Bertero et al.

NATURE (2018)

Add to Collection
Review Cell Biology

Post-transcriptional gene regulation by mRNA modifications

Boxuan Simen Zhao et al.

NATURE REVIEWS MOLECULAR CELL BIOLOGY (2017)

Add to Collection
Article Cell Biology

m6A mRNA modifications are deposited in nascent pre-mRNA and are not required for splicing but do specify cytoplasmic turnover

Shengdong Ke et al.

GENES & DEVELOPMENT (2017)

Add to Collection
Article Biochemistry & Molecular Biology

hnRNPK Recruits PCGF3/5-PRC1 to the Xist RNA B-Repeat to Establish Polycomb-Mediated Chromosomal Silencing

Greta Pintacuda et al.

MOLECULAR CELL (2017)

Add to Collection
Article Multidisciplinary Sciences

RNA m6A methylation regulates the ultraviolet-induced DNA damage response

Yang Xiang et al.

NATURE (2017)

Add to Collection
Article Multidisciplinary Sciences

Promoter-bound METTL3 maintains myeloid leukaemia by m6A-dependent translation control

Isaia Barbieri et al.

NATURE (2017)

Add to Collection
Article Biochemistry & Molecular Biology

RNA fate determination through cotranscriptional adenosine methylation and microprocessor binding

Philip Knuckles et al.

NATURE STRUCTURAL & MOLECULAR BIOLOGY (2017)

Add to Collection
Article Biology

Polycomb complexes in X chromosome inactivation

Neil Brockdorff

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES (2017)

Add to Collection
Article Biochemistry & Molecular Biology

RNA fate determination through cotranscriptional adenosine methylation and microprocessor binding

Philip Knuckles et al.

NATURE STRUCTURAL & MOLECULAR BIOLOGY (2017)

Add to Collection
Article Cell Biology

Ythdc2 is an N6-methyladenosine binding protein that regulates mammalian spermatogenesis

Phillip J. Hsu et al.

CELL RESEARCH (2017)

Add to Collection
Article Biochemistry & Molecular Biology

Transcription Impacts the Efficiency of mRNA Translation via Co-transcriptional N6-adenosine Methylation

Boris Slobodin et al.

CELL (2017)

Add to Collection
Article Cell Biology

YTHDF3 facilitates translation and decay of N6-methyladenosine-modified RNA

Hailing Shi et al.

CELL RESEARCH (2017)

Add to Collection
Article Multidisciplinary Sciences

m6A RNA methylation promotes XIST-mediated transcriptional repression

Deepak P. Patil et al.

NATURE (2016)

Add to Collection
Article Multidisciplinary Sciences

N6-methyladenosine-dependent regulation of messenger RNA stability

Xiao Wang et al.

NATURE (2014)

Add to Collection
Article Biochemistry & Molecular Biology

A METTL3-METTL14 complex mediates mammalian nuclear RNA N6-adenosine methylation

Jianzhao Liu et al.

NATURE CHEMICAL BIOLOGY (2014)

Add to Collection
Article Biochemistry & Molecular Biology

Structural basis for selective binding of m6A RNA by the YTHDC1 YTH domain

Chao Xu et al.

NATURE CHEMICAL BIOLOGY (2014)

Add to Collection
Article Cell Biology

Perturbation of m6A Writers Reveals Two Distinct Classes of mRNA Methylation at Internal and 5′ Sites

Schraga Schwartz et al.

CELL REPORTS (2014)

Add to Collection
Article Biochemistry & Molecular Biology

ALKBH5 Is a Mammalian RNA Demethylase that Impacts RNA Metabolism and Mouse Fertility

Guanqun Zheng et al.

MOLECULAR CELL (2013)

Add to Collection
Article Biochemistry & Molecular Biology

Comprehensive Analysis of mRNA Methylation Reveals Enrichment in 3′ UTRs and near Stop Codons

Kate D. Meyer et al.

CELL (2012)

Add to Collection
Review Biochemistry & Molecular Biology

Prime, Repair, Restore: The Active Role of Chromatin in the DNA Damage Response

Gaston Soria et al.

MOLECULAR CELL (2012)

Add to Collection
Article Multidisciplinary Sciences

Topology of the human and mouse m6A RNA methylomes revealed by m6A-seq

Dan Dominissini et al.

NATURE (2012)

Add to Collection
Review Cell Biology

Molecular mechanisms and potential functions of histone demethylases

Susanne Marije Kooistra et al.

NATURE REVIEWS MOLECULAR CELL BIOLOGY (2012)

Add to Collection
Review Oncology

Crosstalk between chromatin state and DNA damage response in cellular senescence and cancer

Gabriele Sulli et al.

NATURE REVIEWS CANCER (2012)

Add to Collection
Review Biochemistry & Molecular Biology

Signals and Combinatorial Functions of Histone Modifications

Tamaki Suganuma et al.

ANNUAL REVIEW OF BIOCHEMISTRY, VOL 80 (2011)

Add to Collection
Article Biochemistry & Molecular Biology

N6-Methyladenosine in nuclear RNA is a major substrate of the obesity-associated FTO

Guifang Jia et al.

NATURE CHEMICAL BIOLOGY (2011)

Add to Collection
Review Biochemistry & Molecular Biology

Epigenetic markers and their cross-talk

Stefan Winter et al.

ESSAYS IN BIOCHEMISTRY: EPIGENETICS, DISEASE AND BEHAVIOUR (2010)

Add to Collection
Review Genetics & Heredity

Molecular coupling of DNA methylation and histone methylation

Hideharu Hashimoto et al.

EPIGENOMICS (2010)

Add to Collection
Article Biochemistry & Molecular Biology

Structure and function of histone methylation binding proteins

Melanie A. Adams-Cioaba et al.

BIOCHEMISTRY AND CELL BIOLOGY (2009)

Add to Collection
Review Genetics & Heredity

Linking DNA methylation and histone modification: patterns and paradigms

Howard Cedar et al.

NATURE REVIEWS GENETICS (2009)

Add to Collection
Article Multidisciplinary Sciences

Role of histone H3 lysine 27 methylation in X inactivation

K Plath et al.

SCIENCE (2003)

Add to Collection
Webinars Posters Questions Hubs Funding Journals Papers Connect Collections Reviewers About Us FAQs Mobile App Privacy Policy Terms of Use
© Peeref 2019-2024. All rights reserved.