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Showing TOP6BLTOPOVIBL is a alias.

TOP6BL

Type 2 DNA topoisomerase 6 subunit B-like · UniProt Q8N6T0

Length
511 aa
Mass
57.0 kDa
Annotated
2026-06-10
23 papers in source corpus 11 papers cited in narrative 10 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 6/6 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

TOP6BL (TOPOVIBL) is the obligate partner of SPO11, together forming the TOPOVIL complex that catalyzes the programmed DNA double-strand breaks (DSBs) which initiate meiotic recombination; loss of TOP6BL abolishes meiotic DSBs and arrests gametogenesis (PMID:26917764). Purified recombinant SPO11 and TOP6BL assemble as a monomeric 1:1 complex that, upon dimerization into a 2:2 assembly, cleaves DNA and remains covalently attached to the 5' broken ends; cleavage depends on SPO11 active-site residues and divalent metal ions but is ATP-independent, and TOP6BL itself binds neither ATP nor exhibits ATPase activity, distinguishing the complex biochemically from ancestral topoisomerase VI (PMID:39972129, PMID:39972130, PMID:39972125, PMID:38966985). TOP6BL binds DNA with a preference for branched or bent geometries and increases the affinity of the complex for DNA ends beyond that of SPO11 alone, indicating both a DNA-architecture-sensing role and a post-cleavage end-binding function (PMID:39972129, PMID:39972130, PMID:39972125, PMID:38966985). TOP6BL activity is governed through its central region and through direct interaction with the accessory factor REC114, whose PH domain is bound competitively by TOPOVIBL, IHO1, and ANKRD31, making REC114 a regulatory platform for mutually exclusive meiotic interactions; point mutations that disrupt the TOP6BL–REC114 interaction strongly reduce genome-wide DSB activity, and disruption of TOP6BL self-dimerization or its central region likewise causes meiotic arrest (PMID:36396648, PMID:41211863, PMID:37431931). In humans, autosomal-recessive loss-of-function mutations in TOP6BL abolish meiotic DSB formation and cause meiotic arrest with non-obstructive azoospermia in males and oocyte maturation failure in females, phenotypes recapitulated in equivalent mouse knock-in models (PMID:36732965, PMID:41211863). Separately, CGG-repeat expansion at the 5' end of the gene underlies the folate-sensitive fragile site FRA11A through CpG-island hypermethylation and transcriptional silencing (PMID:18160775).

Mechanistic history

Synthesis pass · year-by-year structured walk · 8 steps
  1. 2016 High

    Established that TOP6BL is a SPO11 partner essential for the initiating event of meiotic recombination, answering whether SPO11 acts alone or within a defined complex.

    Evidence Reciprocal Co-IP and loss-of-function mouse genetics with DSB-formation assay

    PMID:26917764

    Open questions at the time
    • Did not establish the stoichiometry or catalytic mechanism of the complex
    • Did not define TOP6BL's specific contribution distinct from SPO11
  2. 2020 High

    Connected TOP6BL to human disease by showing biallelic loss-of-function causes meiotic arrest and infertility in both sexes, demonstrating conservation of its DSB-initiating role.

    Evidence Whole-exome sequencing of azoospermia/oocyte-failure patients plus mouse knock-in models with DSB and histological readouts

    PMID:36732965

    Open questions at the time
    • Did not resolve which molecular interaction each mutation disrupts
    • Did not address residual partial-function alleles
  3. 2022 High

    Identified REC114 as a direct TOPOVIBL partner and mapped the interacting domains, defining how the catalytic complex is recruited or regulated.

    Evidence Structural domain mapping plus point-mutation knock-in mice with genome-wide DSB monitoring

    PMID:36396648

    Open questions at the time
    • Differential effects between oocytes and spermatocytes not mechanistically explained
    • Did not show how REC114 binding translates into DSB-site selection
  4. 2023 Medium

    Reframed REC114 as a competitive regulatory platform by showing IHO1 binds the same PH-domain surface as TOPOVIBL and ANKRD31, implying mutually exclusive partner exchange.

    Evidence AlphaFold2 modeling combined with biochemical binding assays

    PMID:37431931

    Open questions at the time
    • TOPOVIBL competition inferred from shared surface rather than directly measured
    • In vivo consequence of exchange dynamics not tested
  5. 2024 Medium

    Characterized TOP6BL as a monomeric, ATP-independent DNA-architecture sensor, dissociating it from the ATPase activity of ancestral topoisomerase VI subunits.

    Evidence Purification and in vitro ATP-binding/DNA-binding and structural assays of TOPOVIBLΔC25

    PMID:38966985

    Open questions at the time
    • DNA-geometry preference not validated in vivo
    • Single-lab biochemistry without functional confirmation of bent-DNA sensing
  6. 2024 High

    Provided high-resolution structural insight into DNA end-binding and cleavage determinants of the Spo11 core complex, including variation in the Top6BL homolog.

    Evidence Cryo-EM of yeast Spo11–Rec102–Rec104–Ski8 bound to DNA with yeast functional validation

    PMID:39304764

    Open questions at the time
    • Structure is of yeast homologs, not mammalian TOP6BL
    • Did not capture the catalytically active cleaving state directly
  7. 2025 High

    Achieved full biochemical reconstitution, proving the SPO11-TOP6BL complex is itself the catalytic DSB machine: a 1:1 monomer that dimerizes to a 2:2 assembly, cleaves DNA Mg2+-dependently and ATP-independently, forms covalent 5' attachments, and uses TOP6BL for enhanced DNA-end binding.

    Evidence In vitro reconstitution with purified proteins, active-site and Mg2+-binding mutagenesis, deep sequencing of products, AlphaFold 3 modeling, and knock-in mouse validation across independent labs

    PMID:39972125 PMID:39972129 PMID:39972130

    Open questions at the time
    • Trigger for the monomer-to-dimer transition in vivo not defined
    • How accessory factors gate catalysis in cells not reconstituted
  8. 2025 Medium

    Resolved how distinct patient mutations impair TOP6BL function, separating partner-binding defects from self-dimerization defects and pinpointing the central region as critical.

    Evidence Protein-binding and self-dimerization assays for NOA variants plus mouse central-region deletion with meiotic-arrest phenotype

    PMID:41211863

    Open questions at the time
    • Single-lab functional characterization
    • Mechanism by which self-dimerization promotes DSB activity not structurally resolved

Open questions

Synthesis pass · forward-looking unresolved questions
  • How REC114-mediated partner competition, DNA-architecture sensing, and the monomer-to-dimer transition are coordinated in time and space to select DSB sites in vivo remains open.
  • No in vivo demonstration of TOP6BL bent-DNA sensing driving site choice
  • Regulation of dimerization timing during meiotic prophase unresolved

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0003677 DNA binding 2 GO:0140097 catalytic activity, acting on DNA 2 GO:0140299 molecular sensor activity 1
Localization
GO:0005634 nucleus 2
Pathway
R-HSA-1474165 Reproduction 2 R-HSA-73894 DNA Repair 2
Partners
REC114SPO11
Complex memberships
TOPOVIL (SPO11-TOP6BL) complex

Evidence

Reading pass · 10 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2016 Mouse TOPOVIBL (TOP6BL) physically interacts with SPO11 and forms a complex required for meiotic DNA double-strand break (DSB) formation; loss of TOPOVIBL abolishes meiotic DSBs. Co-immunoprecipitation, mouse genetics (loss-of-function), functional assay for DSB formation Science High 26917764
2022 REC114 is a direct binding partner of TOPOVIBL; their conserved interacting domains were identified by structural analysis. Point mutations in TOPOVIBL that reduce or disrupt REC114 binding strongly reduce DSB activity genome-wide in oocytes and in sub-telomeric regions in spermatocytes, and delay DSB timing in autosomes of spermatocytes. Structural analysis of interacting domains, point-mutation knock-in mice, genome-wide DSB monitoring Nature Communications High 36396648
2020 An autosomal recessive loss-of-function mutation in TOP6BL abolishes meiotic DSB formation and causes meiotic arrest prior to pachytene stage in male patients (non-obstructive azoospermia) and failure of oocyte maturation in female patients; mouse models carrying equivalent mutations recapitulate these defects. Whole-exome sequencing, Sanger confirmation, mouse knock-in models, histological and DSB formation assays Science Bulletin High 36732965
2025 Purified recombinant mouse SPO11 and TOP6BL form a monomeric 1:1 complex in solution. This complex catalyzes DNA double-strand breaks in vitro, forming covalent 5' attachments; cleavage requires SPO11 active-site residues, divalent metal ions, and SPO11 dimerization (2:2 assembly). The SPO11-TOP6BL complex binds DNA ends with higher affinity than SPO11 alone, suggesting a post-cleavage role for TOP6BL. AlphaFold 3 modeling suggests DNA is bent prior to cleavage. In vitro reconstitution with purified recombinant proteins, active-site mutagenesis, DNA cleavage assay, AlphaFold 3 structural modeling, deep sequencing of cleavage products Nature High 39972125 39972129 39972130
2025 In vitro reconstitution shows the mouse SPO11-TOP6BL complex cleaves DNA and covalently attaches to the 5' terminus of DNA breaks. Mg2+ is essential for this DNA-cleavage activity; a SPO11 point mutation disrupting Mg2+ binding abolishes DSB formation in knock-in mice. The SPO11-TOP6BL complex does not require ATP for its cleavage activity, distinguishing it biochemically from the ancestral topoisomerase VI. In vitro biochemical reconstitution, point-mutation knock-in mice, metal-ion dependency assays, ATP-independence assay Nature High 39972125
2024 Purified TOPOVIBL (TOPOVIBLΔC25) is monomeric in solution and does not bind ATP (no ATPase activity), adopts a dynamic conformation, and interacts with DNA with a preference for specific geometries (e.g., branched or bent DNA substrates), suggesting TOPOVIBL senses specific DNA architectures. Protein purification, in vitro biochemical assays (ATP binding, DNA binding), structural analysis (SAXS/SEC-MALS inferred from abstract) Nucleic Acids Research Medium 38966985
2024 Cryo-EM structures of the yeast Spo11 core complex (Spo11–Rec102–Rec104–Ski8) bound to DNA at up to 3.3 Å resolution reveal molecular determinants of DNA end-binding and DNA cleavage preferences, and show unexpected structural variation in homologs of the Top6BL component (Rec102), providing insight into metal-ion roles in DNA binding. Cryo-electron microscopy, functional validation in yeast Nature Structural & Molecular Biology High 39304764
2025 Two TOP6BL variants causing NOA were functionally characterized: p.Arg515Ter impairs binding to both REC114 and SPO11, whereas p.Pro356Arg does not affect protein binding but impairs TOP6BL self-dimerization. Deletion of the TOP6BL central region in mice causes meiotic arrest, confirming the critical role of this intermediate region in spermatogenesis. Protein binding assays (Co-IP/pulldown), self-dimerization assay, mouse knock-in/deletion models with meiotic arrest phenotype Reproduction (Cambridge, England) Medium 41211863
2007 Expansion of a CGG repeat at the 5' end of the C11orf80 (TOP6BL) gene causes the folate-sensitive fragile site FRA11A; this repeat expansion coincides with hypermethylation of the adjacent CpG island and transcriptional silencing of the C11orf80 gene. Molecular cytogenetics, repeat expansion analysis, methylation analysis, family segregation Cytogenetic and Genome Research Medium 18160775
2023 IHO1 directly interacts with the PH domain of REC114 by recognizing the same surface as TOPOVIBL and ANKRD31, suggesting that REC114 acts as a regulatory platform mediating mutually exclusive interactions with TOPOVIBL and other meiotic factors. AlphaFold2 modeling combined with biochemical characterization (binding assays), structural analysis The EMBO Journal Medium 37431931

Source papers

Stage 0 corpus · 23 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2016 The TopoVIB-Like protein family is required for meiotic DNA double-strand break formation. Science (New York, N.Y.) 241 26917764
2022 TOPOVIBL-REC114 interaction regulates meiotic DNA double-strand breaks. Nature communications 36 36396648
2022 Whole-exome sequencing in patients with maturation arrest: a potential additional diagnostic tool for prevention of recurrent negative testicular sperm extraction outcomes. Human reproduction (Oxford, England) 31 35413094
2020 A TOP6BL mutation abolishes meiotic DNA double-strand break formation and causes human infertility. Science bulletin 26 36732965
2022 Evolution and Diversity of the TopoVI and TopoVI-like Subunits With Extensive Divergence of the TOPOVIBL subunit. Molecular biology and evolution 24 36256608
2025 SPO11 dimers are sufficient to catalyse DNA double-strand breaks in vitro. Nature 21 39972130
2007 The molecular basis of the folate-sensitive fragile site FRA11A at 11q13. Cytogenetic and genome research 21 18160775
2025 Reconstitution of SPO11-dependent double-strand break formation. Nature 20 39972129
2025 In vitro reconstitution of meiotic DNA double-strand-break formation. Nature 18 39972125
2023 Characterization of the REC114-MEI4-IHO1 complex regulating meiotic DNA double-strand break formation. The EMBO journal 18 37431931
2024 Cryo-EM structures of the Spo11 core complex bound to DNA. Nature structural & molecular biology 13 39304764
2021 Identifying a cervical cancer survival signature based on mRNA expression and genome-wide copy number variations. Experimental biology and medicine (Maywood, N.J.) 10 34674573
2022 Orchestrating recombination initiation in mice and men. Current topics in developmental biology 9 36681473
2024 The TOPOVIBL meiotic DSB formation protein: new insights from its biochemical and structural characterization. Nucleic acids research 6 38966985
2023 The RNA-binding protein FUS/TLS interacts with SPO11 and PRDM9 and localize at meiotic recombination hotspots. Cellular and molecular life sciences : CMLS 5 36967403
2023 Cryo-EM structure of the Spo11 core complex bound to DNA. bioRxiv : the preprint server for biology 4 37961437
2021 Differential Levels of mRNAs in Normal B Lymphocytes, Monoclonal B Lymphocytosis and Chronic Lymphocytic Leukemia Cells from the Same Family Identify Susceptibility Genes. Oncology and therapy 2 34622420
2024 Reconstitution of SPO11-dependent double-strand break formation. bioRxiv : the preprint server for biology 1 39605552
2026 Disruption of meiotic double-strand break dynamics provokes germline human infertility in both sexes. Journal of assisted reproduction and genetics 0 41644825
2026 Genetic Mutations and Non-Genomic Dysregulation in Human Preimplantation Embryo Arrest. International journal of molecular sciences 0 41828362
2026 Mechanism and regulation of meiotic double-strand break formation in mammals. Trends in biochemical sciences 0 41850994
2025 Is gestational trophoblastic neoplasia more common among women with recurrent hydatidiform moles and biallelic NLRP7 mutations? a 17-years prospective study from India. European journal of obstetrics, gynecology, and reproductive biology 0 40319759
2025 Mechanisms of non-obstructive azoospermia caused by TOP6BL variants. Reproduction (Cambridge, England) 0 41211863

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