Affinage

H1-4

Histone H1.4 · UniProt P10412

Length
219 aa
Mass
21.9 kDa
Annotated
2026-06-10
36 papers in source corpus 17 papers cited in narrative 19 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 5/5 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

Histone H1.4 is a somatic linker histone that compacts chromatin by binding linker DNA—preferentially GC-rich and unmethylated CpG-rich sequences through its C-terminal domain—and is the only somatic H1 variant that forms H1-H1 polymers on oligonucleosomal arrays (PMID:8286360, PMID:8687390, PMID:7848272). Functional reconstitution shows that H1.4 drives formation of compact, stacked nucleosome structures and supports liquid-liquid/liquid-solid phase separation, with its C-terminal tail engaging linker DNA to limit accessibility (PMID:42173878). Its chromatin-binding behavior is tuned by a dense array of post-translational modifications: Aurora B phosphorylates Ser27 in a metaphase-peaking manner to increase H1.4 mobility and evict HP1, which otherwise reads dimethyl-Lys26 via a phospho-switch (PMID:16127177, PMID:21511733); PKA phosphorylates Ser35 to dissociate H1.4 from mitotic chromatin (PMID:21852232); GCN5 acetylates Lys34 at active promoters to increase mobility and recruit general transcription factors (PMID:22465951); CDK9-dependent Ser187 phosphorylation keeps H1.4 at active transcription start sites in stable association with RNA Polymerase II (PMID:33238524); and SET7/9 methylates C-terminal KAK-motif lysines in a manner gated by PARP1/ARTD1 activity (PMID:23289424). Consistent with these roles, H1.4 loss reprograms nascent transcription and chromatin accessibility at AP-1-bound enhancers and biases hematopoietic differentiation (PMID:41054521, PMID:32391789). C-terminal frameshift mutations that produce stable but functionally aberrant nuclear H1.4 cause the neurodevelopmental Rahman syndrome; these mutants fail to compact chromatin or phase separate, reduce proliferation and accelerate senescence, and in neurons downregulate synaptic-signaling genes and reduce neuronal activity (PMID:31447100, PMID:34788807, PMID:42173878).

Mechanistic history

Synthesis pass · year-by-year structured walk · 14 steps
  1. 1994 Medium

    Established the intrinsic DNA-binding preference of H1.4, showing it recognizes GC-rich linker DNA cooperatively through its C-terminal domain rather than binding DNA indiscriminately.

    Evidence DNA melting, gel-shift, and synthetic C-terminal peptide binding assays

    PMID:8286360

    Open questions at the time
    • No structural basis for sequence preference
    • Cooperativity determinant outside the tested 25-residue peptide not mapped
  2. 1995 Medium

    Linked H1.4 DNA-binding specificity to epigenetic state by showing it preferentially binds unmethylated CpG-rich DNA and inhibits DNA methylation in vitro, distinguishing it functionally from H1c.

    Evidence In vitro methylation, gel retardation, and Southwestern assays with CpG-rich oligonucleotides

    PMID:7848272

    Open questions at the time
    • In vitro only; no cellular demonstration of methylation regulation
    • Mechanism of methyltransferase inhibition unresolved
  3. 1996 Medium

    Identified H1.4 as the unique somatic variant capable of self-polymerization on nucleosomal arrays, implicating it in higher-order chromatin organization, and showed poly(ADP-ribosyl)ation modulates polymer size.

    Evidence Cross-linking, HPLC variant purification, and methyl-accepting assays in native nuclei

    PMID:8687390

    Open questions at the time
    • Functional consequence of polymer formation for chromatin compaction not directly tested in vivo
    • Polymerization interface not mapped
  4. 2002 Medium

    Provided structural rationale for linker DNA engagement by showing the H1e N-terminal peptide forms two amphipathic helices joined by a flexible Gly-Gly hinge that could allow DNA tracking or dual-segment binding.

    Evidence CD spectroscopy and 1H-NMR structure determination in TFE

    PMID:11790831

    Open questions at the time
    • Isolated peptide in non-physiological solvent
    • No structure on nucleosomal substrate
  5. 2005 High

    Defined a phospho-methyl switch on the H1.4 N-terminal tail in which HP1 reads dimethyl-Lys26 and adjacent Ser27 phosphorylation blocks it, coupling H1.4 modification to heterochromatin reader recruitment.

    Evidence In vitro peptide-binding assays with the HP1 Chromo domain and S27 mutagenesis

    PMID:16127177

    Open questions at the time
    • Kinase responsible for S27 not identified in this study
    • In vivo dynamics of the switch not measured here
  6. 2011 High

    Identified the mitotic kinases acting on the H1.4 tail: Aurora B phosphorylates S27 (peaking at metaphase, modulated by K26 methylation) and PKA phosphorylates S35, both reducing H1.4 chromatin binding, connecting the phospho-switch to mitotic chromatin dynamics.

    Evidence In vitro kinase assays, immunofluorescence/immunoblot, FRAP, mutant rescue, and PKA inhibition with compaction readouts

    PMID:21511733 PMID:21852232

    Open questions at the time
    • Phosphatases reversing these marks not identified
    • Interplay between S27 and S35 phosphorylation not resolved
  7. 2012 High

    Connected H1.4 to active transcription by showing GCN5-mediated K34 acetylation marks active promoters, increases H1.4 mobility, and recruits a general transcription factor, recasting linker histone modification as activating rather than purely repressive.

    Evidence In vitro acetylation, ChIP-seq for H1.4K34ac, FRAP, and transcription factor recruitment assays

    PMID:22465951

    Open questions at the time
    • Identity of the recruited GTF interaction surface not fully defined
    • Whether K34ac and other marks co-occur on the same molecule unknown
  8. 2013 Medium

    Mapped SET7/9 methylation of multiple C-terminal KAK-motif lysines on H1.4 and showed PARP1/ARTD1 ribosylation of H3 gates this methylation, linking H1.4 modification to a broader PARP-dependent regulatory network.

    Evidence In vitro methylation and poly(ADP-ribosyl)ation assays with mass spectrometry site mapping

    PMID:23289424

    Open questions at the time
    • No in vivo validation of the methylation sites
    • Functional consequence of C-terminal methylation untested
  9. 2008 Medium

    Demonstrated a host-pathogen role in which H1.4's globular domain binds oligomerized small hepatitis delta antigen and supports HDV replication, the first non-chromatin functional partner identified.

    Evidence TAP-MS, deletion domain mapping, and HDV replication rescue assays

    PMID:18314153

    Open questions at the time
    • Mechanism by which H1.4 promotes HDV replication unclear
    • Single lab, no reciprocal in vivo validation
  10. 2019 Medium

    Established H1.4 C-terminal frameshift mutations as causative of a disease state, showing the stable mutant proteins bind chromatin but disrupt compaction, alter methylation, reduce proliferation, and accelerate senescence.

    Evidence Expression of mutant H1.4 with fractionation, DAPI compaction, cell-cycle, senescence, and methylome assays

    PMID:31447100

    Open questions at the time
    • Mechanistic link from compaction defect to senescence not fully resolved
    • Single lab
  11. 2020 Medium

    Revealed two distinct in vivo roles: pS187-H1.4 (CDK9-dependent) marks active promoters and binds RNA Pol II, while loss of H1.4 biases myeloid differentiation toward an eosinophil-like program, showing subtype-specific regulatory function.

    Evidence pS187 ChIP-seq and RNAPII co-IP in MCF7; genome-wide CRISPR screen and transcriptional/differentiation profiling in PLB-985 and murine bone marrow

    PMID:32391789 PMID:33238524

    Open questions at the time
    • Direct demonstration that CDK9 phosphorylates S187 not shown
    • How H1.4 loss selects lineage outcome mechanistically unclear
  12. 2022 Medium

    Connected the H1.4 C-terminal mutant to the neuronal phenotype of disease by showing it dysregulates ~400 genes, downregulating synaptic and neuropeptide signaling, and reduces neuronal electrical activity.

    Evidence Exogenous WT/mutant H1.4 expression in rat hippocampal neurons with RNA-seq and multielectrode array recording

    PMID:34788807

    Open questions at the time
    • Direct chromatin mechanism at affected neuronal genes not mapped
    • Exogenous overexpression may not model endogenous dosage
  13. 2025 Medium

    Placed H1.4 as a regulator of AP-1-directed enhancers, showing its loss alters chromatin accessibility and enhancer histone marks at extragenic/intronic sites with concordant nascent transcription changes.

    Evidence H1.4 knockout with PRO-seq, ATAC-seq, H3K27ac/H3K4me1 ChIP, and motif analysis

    PMID:41054521

    Open questions at the time
    • Whether H1.4 directly opposes AP-1 binding or acts indirectly unclear
    • Single lab
  14. 2026 High

    Provided the structural and biophysical mechanism of Rahman syndrome, showing a C-terminal frameshift mutant produces extended nucleosome arrays, increased linker DNA accessibility, failed compaction, impaired phase separation, and higher nuclear mobility.

    Evidence In vitro hexanucleosome reconstitution, cryo-EM/structural analysis, FRET, molecular dynamics, FRAP, and MNase digestion

    PMID:42173878

    Open questions at the time
    • How phase-separation loss translates to specific gene dysregulation not directly linked
    • Effect of disease mutant on PTM-mediated regulation untested

Open questions

Synthesis pass · forward-looking unresolved questions
  • It remains unknown how the combinatorial array of H1.4 post-translational modifications is integrated on individual molecules to switch between compaction, phase separation, and active-promoter functions, and how disease mutations perturb this integrated code in specific cell types.
  • No combinatorial PTM analysis on single molecules
  • Phosphatases/demethylases for H1.4 marks unidentified
  • Cell-type-specific rules linking H1.4 dosage to gene programs undefined

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0003677 DNA binding 3 GO:0005198 structural molecule activity 2
Localization
GO:0005694 chromosome 3 GO:0005634 nucleus 2
Pathway
R-HSA-4839726 Chromatin organization 3 R-HSA-74160 Gene expression (Transcription) 3 R-HSA-1640170 Cell Cycle 2
Partners
AURKBGCN5HP1PARP1PRKACARNA POL IISETD7

Evidence

Reading pass · 19 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2005 HP1 binds specifically to dimethylated Lys26 of histone H1.4 via its Chromo domain, and phosphorylation of the neighboring Ser27 prevents this binding, establishing a 'phospho-switch' mechanism. In vitro binding assays with modified H1.4 peptides and HP1 Chromo domain; mutagenesis of S27 The Journal of biological chemistry High 16127177
2011 Aurora B kinase phosphorylates H1.4 specifically at Ser27 in a cell-cycle-regulated manner peaking at metaphase; adjacent K26 dimethylation modulates Aurora B activity toward S27; H1.4 is the only somatic linker histone variant targeted by Aurora B; S27 phosphorylation increases H1.4 mobility and reduces chromatin binding in mitosis. In vitro kinase assays; in vivo phosphorylation analysis by immunofluorescence and immunoblot; FRAP on H1.4 mutants; cell-cycle fractionation Journal of cell science High 21511733
2011 Protein kinase A (PKA) phosphorylates H1.4 at Ser35; this phosphorylation causes H1.4 to dissociate from mitotic chromatin, and an H1.4-S35A mutant cannot rescue mitotic defects after H1.4 depletion; inhibition of PKA increases mitotic chromatin compaction in an H1.4-dependent manner. Mass spectrometry identification of phosphorylation site; in vitro kinase assay; mutant rescue experiments; PKA inhibitor treatment with chromatin compaction readout The Journal of biological chemistry High 21852232
2012 GCN5 acetylates H1.4 at Lys34 (H1.4K34ac); this mark is enriched at promoters of active genes, increases H1.4 mobility (measured by FRAP), and recruits a general transcription factor to stimulate transcription. In vitro acetylation assay with GCN5; ChIP-seq for H1.4K34ac; FRAP of H1.4 mutants; transcription factor recruitment assays Genes & development High 22465951
2013 SET7/9 methylates H1.4 at multiple lysine residues within KAK motifs in the C-terminal domain (K121, K129, K159, K171, K177, K192); ARTD1/PARP1-mediated poly(ADP-ribosyl)ation of H3 enables subsequent SET7/9-dependent methylation of H1.4; H1.4 and H3 compete for SET7/9 methylation. In vitro methylation assays with isolated histones; poly(ADP-ribosyl)ation assays; mass spectrometry identification of methylation sites Epigenetics & chromatin Medium 23289424
2008 Histone H1e (H1.4) physically interacts with the small hepatitis delta antigen (SHDAg) via H1.4's central globular domain; this interaction requires SHDAg oligomerization; N- or C-terminal deletion mutants of H1e inhibit HDV replication, which is rescued by wild-type H1e. Tandem affinity purification/mass spectrometry; domain-mapping by deletion mutagenesis; HDV replication rescue assays Virology Medium 18314153
2019 Frameshift mutations in the C-terminal tail of H1.4 produce stable nuclear proteins that bind chromatin, disrupt proper DNA compaction, are associated with a specific methylation pattern, reduce cell proliferation and S-phase entry, and accelerate cellular senescence. Expression of mutant H1.4 in cells; nuclear fractionation; DAPI staining for chromatin compaction; BrdU/flow cytometry for cell cycle; senescence assays; methylome analysis American journal of human genetics Medium 31447100
2020 Loss of H1.4 (and H1.2) in human PLB-985 cells induces an eosinophil-like transcriptional program and negatively regulates neutrophil lineage differentiation; this subtype-specific effect is confirmed in murine bone marrow stem cells. Genome-wide CRISPR/Cas9 screen; systematic disruption of individual H1 subtypes; transcriptional profiling; murine bone marrow differentiation assays eLife Medium 32391789
2020 Phosphorylated H1.4 at serine 187 (pS187-H1.4) remains associated with active promoters genome-wide (enriched at transcription start sites of estrogen-activated genes), stably interacts with RNA Polymerase II, and is proposed to be phosphorylated by CDK9 as an early event in gene activation. ChIP-seq with pS187-H1.4-specific antibodies in MCF7 cells; co-immunoprecipitation with RNAPII; estradiol induction system International journal of molecular sciences Medium 33238524
2022 Exogenous expression of H1.4 C-terminal frameshift mutant (H1.4 CFT) in rat hippocampal neurons alters expression of ~400 genes (downregulating synaptic communication and neuropeptide signaling genes) and reduces neuronal activity as measured by multielectrode arrays. Exogenous expression of WT or mutant H1.4 in rat hippocampal neurons; genome-wide transcriptome analysis (RNA-seq); multielectrode array recording Human molecular genetics Medium 34788807
2026 A Rahman syndrome frameshift mutation in H1.4's C-terminal domain causes more extended/flexible nucleosome array conformation, enhanced linker DNA accessibility, inability to form compact stacked nucleosome structures, reduced capacity for liquid-liquid and liquid-solid phase separation, and increased H1.4 nuclear mobility; molecular dynamics simulations show the mutated CTD interacts with a shorter linker DNA segment. In vitro reconstitution of hexanucleosomal arrays; cryo-EM/structural analysis; FRET measurements; molecular dynamics simulations; FRAP in cells; micrococcal nuclease digestion Nature communications High 42173878
2025 H1.4 ablation causes robust changes in nascent transcription and gene expression; loss of H1.4 alters chromatin accessibility at enhancer-sized extragenic and intronic regions with concordant changes in H3K27ac/H3K4me1; sites losing accessibility are enriched for AP-1 motifs, placing H1.4 as a regulator of AP-1-directed enhancers. H1.4 knockout; nascent transcription assays (PRO-seq or equivalent); ATAC-seq; ChIP for H3K27ac and H3K4me1; motif analysis iScience Medium 41054521
1994 H1e (H1.4) binds preferentially and cooperatively to GC-rich DNA; a 25-residue C-terminal domain peptide retains GC-rich sequence preference but not cooperativity. DNA melting analysis; gel-mobility-shift assay; synthetic peptide binding experiments Biochemistry Medium 8286360
1996 H1e (H1.4) is the only somatic linker histone variant that forms H1-H1 polymers when bound to oligonucleosomal DNA; poly(ADP-ribosyl)ation of H1e reduces polymer size without displacing it from linker regions. Cross-linking analysis; reverse-phase HPLC purification of H1 variants; methyl-accepting ability assay in native nuclei The Biochemical journal Medium 8687390
1995 H1e (H1.4) variants specifically inhibit in vitro enzymatic DNA methylation and preferentially bind unmethylated CpG-rich DNA compared to H1c; the C-terminal domain mediates preferential binding to CpG-rich sequences. In vitro DNA methylation assay; gel retardation; Southwestern blot with CpG-rich oligonucleotides; competition binding assays The Biochemical journal Medium 7848272
2024 CYP1B1 physically associates with linker histone H1.4 (identified by LC-MS); downregulation of H1.4 is associated with increased chromatin accessibility and higher cell viability after PARP inhibitor treatment in resistant ovarian cancer cells. LC-MS proteomics for CYP1B1 interactors; ATAC-seq; H1.4 knockdown with cell viability readout; micrococcal nuclease digestion Drug resistance updates Low 39395328
2025 Simultaneous knockdown of H1.2, H1.3, H1.4, and H1.5 in K562 cells reverses silencing of unintegrated HIV-1 DNA, resulting in increased viral expression; this effect is specific to HIV-1 and not observed for MLV unintegrated DNA. siRNA knockdown of four H1 variants; RT-qPCR/reporter assay for unintegrated HIV-1 and MLV expression bioRxivpreprint Low
2025 SETDB1 binds to SUMOylated histone H1.2 and H1.4; SUMOylated H1.4 colocalizes with H3K9me3 at repetitive regions of the genome. PLAMseq (TurboID proximity labeling coupled to mass spectrometry and sequencing); SUMOylation mapping bioRxivpreprint Low
2002 The N-terminal domain peptide of histone H1e (residues 15-36) adopts two amphipathic alpha-helices separated by a flexible Gly-Gly motif under helix-stabilizing conditions; the Gly-Gly motif allows a wide range of relative orientations potentially facilitating DNA backbone tracking or simultaneous binding of two DNA segments. CD spectroscopy; 1H-NMR structure calculation in TFE solution Protein science Medium 11790831

Source papers

Stage 0 corpus · 36 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2005 HP1 binds specifically to Lys26-methylated histone H1.4, whereas simultaneous Ser27 phosphorylation blocks HP1 binding. The Journal of biological chemistry 186 16127177
2012 A dual role of linker histone H1.4 Lys 34 acetylation in transcriptional activation. Genes & development 75 22465951
2011 Isoform-specific phosphorylation of human linker histone H1.4 in mitosis by the kinase Aurora B. Journal of cell science 54 21511733
2013 Crosstalk between SET7/9-dependent methylation and ARTD1-mediated ADP-ribosylation of histone H1.4. Epigenetics & chromatin 50 23289424
2019 Aberrant Function of the C-Terminal Tail of HIST1H1E Accelerates Cellular Senescence and Causes Premature Aging. American journal of human genetics 48 31447100
2018 Epigenetics and autism spectrum disorder: A report of an autism case with mutation in H1 linker histone HIST1H1E and literature review. American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics 46 29704315
2020 Frameshift mutations at the C-terminus of HIST1H1E result in a specific DNA hypomethylation signature. Clinical epigenetics 44 31910894
2011 Protein kinase A-mediated serine 35 phosphorylation dissociates histone H1.4 from mitotic chromosome. The Journal of biological chemistry 35 21852232
2005 Characterization of sequence variations in human histone H1.2 and H1.4 subtypes. The FEBS journal 31 16008566
2002 An inducible helix-Gly-Gly-helix motif in the N-terminal domain of histone H1e: a CD and NMR study. Protein science : a publication of the Protein Society 28 11790831
1996 Automated differential leukocyte count in horses, cattle, and cats using the Technicon H-1E hematology system. Veterinary clinical pathology 27 12660982
1994 Preferential binding of H1e histone to GC-rich DNA. Biochemistry 27 8286360
1995 Binding of histone H1e-c variants to CpG-rich DNA correlates with the inhibitory effect on enzymic DNA methylation. The Biochemical journal 23 7848272
2024 CYP1B1 promotes PARPi-resistance via histone H1.4 interaction and increased chromatin accessibility in ovarian cancer. Drug resistance updates : reviews and commentaries in antimicrobial and anticancer chemotherapy 18 39395328
1996 Co-operative interactions of oligonucleosomal DNA with the H1e histone variant and its poly(ADP-ribosyl)ated isoform. The Biochemical journal 17 8687390
2019 HIST1H1E heterozygous protein-truncating variants cause a recognizable syndrome with intellectual disability and distinctive facial gestalt: A study to clarify the HIST1H1E syndrome phenotype in 30 individuals. American journal of medical genetics. Part A 15 31400068
2020 Linker histone H1.2 and H1.4 affect the neutrophil lineage determination. eLife 14 32391789
2020 Site-Specific Phosphorylation of Histone H1.4 Is Associated with Transcription Activation. International journal of molecular sciences 13 33238524
1996 Specific inhibitory effect of H1e histone somatic variant on in vitro DNA-methylation process. Biochemical and biophysical research communications 13 8602826
2008 Histone H1e interacts with small hepatitis delta antigen and affects hepatitis delta virus replication. Virology 10 18314153
2022 Mutations of the histone linker H1-4 in neurodevelopmental disorders and functional characterization of neurons expressing C-terminus frameshift mutant H1.4. Human molecular genetics 7 34788807
2022 Exome sequencing identified a novel HIST1H1E heterozygous protein-truncating variant in a 6-month-old male patient with Rahman syndrome: A case report. Clinical case reports 6 35154720
2015 A dual affinity-tag strategy for the expression and purification of human linker histone H1.4 in Escherichia coli. Protein expression and purification 6 26739785
2022 The Highest Density of Phosphorylated Histone H1 Appeared in Prophase and Prometaphase in Parallel with Reduced H3K9me3, and HDAC1 Depletion Increased H1.2/H1.3 and H1.4 Serine 38 Phosphorylation. Life (Basel, Switzerland) 4 35743829
2013 Exploring the energetics of histone H1.1 and H1.4 duplex DNA interactions. Biophysical chemistry 4 24317196
2023 A case report of a novel HIST1H1E mutation and a review of the bibliography to evaluate the genotype-phenotype correlations. Molecular genetics & genomic medicine 3 37605493
2019 K-RasG12V/Y40C-PI3K/AKT pathway regulates H1.4S35ph through PKA to promote the occurrence and development of osteosarcoma cancer. Artificial cells, nanomedicine, and biotechnology 3 31126199
2004 Development of H1e histone linker-specific antibodies by means of synthetic peptides. The journal of peptide research : official journal of the American Peptide Society 3 14984567
2024 Development of a mouse embryonic stem cell model for investigating the functions of the linker histone H1-4. FEBS open bio 2 38098212
2021 HIST1H1E syndrome with type 2 diabetes. BMJ case reports 2 34290007
2019 Ras-ERK signalling represses H1.4 phosphorylation at serine 36 to promote non-small-cell lung carcinoma cells growth and migration. Artificial cells, nanomedicine, and biotechnology 2 31184227
2025 A Rare Presentation of HIST1H1E Syndrome with Short Stature and Multiple Pituitary Hormone Deficiencies. Journal of clinical research in pediatric endocrinology 1 40444808
2025 Respiratory Involvement in HIST1H1E-Related Rahman Syndrome: A Case of Severe Mixed Apnea. American journal of medical genetics. Part A 1 41358577
2026 A Rahman Syndrome mutation in histone H1.4 disrupts chromatin compaction and phase separation. Nature communications 0 42173878
2025 Ablation of histone H1.4 reveals the focal regulation of AP-1 directed enhancers. iScience 0 41054521
2024 Linker Histone H1.4 Inhibits the Growth, Migration and EMT Process of Non-Small Cell Lung Cancer by Regulating ERK1/2 Expression. Biochemical genetics 0 38472566

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