389 results found
    1. Chromosomes and Gene Expression
    2. Developmental Biology

    SET-9 and SET-26 are H3K4me3 readers and play critical roles in germline development and longevity

    Wenke Wang et al.
    Two SET-domain containing proteins regulate H3K4me3 by their binding to H3K4me3 through their PHD domain and directly regulate expression of a subset of genes.
    1. Chromosomes and Gene Expression

    Caenorhabditis elegans nuclear RNAi factor SET-32 deposits the transgenerational histone modification, H3K23me3

    Lianna Schwartz-Orbach et al.
    H3K23me3 is a RNAi-mediated transgenerationally heritable heterochromatin mark in Caenorhabditis elegans.
    1. Structural Biology and Molecular Biophysics

    Structural basis for histone variant H3tK27me3 recognition by PHF1 and PHF19

    Cheng Dong et al.
    Complex structures of Tudor domains of PHF1/19 with H3tK27me3 provide structural basis for preferential recognition of H3tK27me3 over canonical H3K27me3, implicating that H3tK27me3 might be a physiological ligand of PHF1/19.
    1. Developmental Biology
    2. Chromosomes and Gene Expression

    EED orchestration of heart maturation through interaction with HDACs is H3K27me3-independent

    Shanshan Ai et al.
    During heart maturation, embryonic ectoderm development as a chromatin remodeler triggers transcriptional silencing, while H3K27me3 is a passenger that is not sufficient for gene silencing.
    1. Cell Biology
    2. Chromosomes and Gene Expression

    Epigenetic drift of H3K27me3 in aging links glycolysis to healthy longevity in Drosophila

    Zaijun Ma et al.
    Epigenetic drift of H3K27me3 is one of the molecular mechanisms that contribute to aging, and stimulation of glycolysis promotes metabolic health and longevity.
    1. Genetics and Genomics

    Establishment of H3K9me3-dependent heterochromatin during embryogenesis in Drosophila miranda

    Kevin H-C Wei et al.
    Heterochromatin is established at nucleation sites associated with open chromatin and RNA transcripts and matures into stable domains if they are found near transposable elements targeted by maternally deposited piRNAs.
    1. Chromosomes and Gene Expression
    2. Genetics and Genomics

    ASH1-catalyzed H3K36 methylation drives gene repression and marks H3K27me2/3-competent chromatin

    Vincent T Bicocca et al.
    While SET-2 methylates histone H3K36 during transcription, ASH1 methylates this residue in repressed regions, is important for silencing, and can both positively and negatively influence methylation of histone H3K27.
    1. Developmental Biology
    2. Plant Biology

    Epigenetic reprogramming rewires transcription during the alternation of generations in Arabidopsis

    Michael Borg et al.
    Epigenetic reprogramming of the distinct repressive marks H3K27me3 or H3K9me2 guides the transition between the haploid and diploid life forms that encompass the life cycle of land plants.
    1. Stem Cells and Regenerative Medicine
    2. Chromosomes and Gene Expression

    Polycomb enables primitive endoderm lineage priming in embryonic stem cells

    Robert S Illingworth et al.
    Polycomb enables lineage priming in mouse embryonic stem cells by establishing a barrier to commitment.
    1. Chromosomes and Gene Expression
    2. Genetics and Genomics

    H3K9me3 is required for inheritance of small RNAs that target a unique subset of newly evolved genes

    Itamar Lev et al.
    In Caenorhabditis elegans histone methylation (H3K9me3) controls the synthesis of heritable small RNAs in a gene-specific manner and thus enables 'flagging' of newly-acquired genes.

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