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Showing MICOS13MIC13 is a alias.

MICOS13

MICOS complex subunit MIC13 · UniProt Q5XKP0

Length
118 aa
Mass
13.1 kDa
Annotated
2026-06-10
23 papers in source corpus 10 papers cited in narrative 12 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 7/7 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

MICOS13 (QIL1/MIC13/C19orf70) is an inner mitochondrial membrane subunit of the MICOS complex that is strictly required for crista junction formation and normal cristae architecture (PMID:25997101, PMID:27479602). It governs the hierarchical assembly of MICOS by coupling the two structural modules: it is dispensable for the MIC60/MIC19/MIC25 subcomplex but is required for incorporation and stability of the MIC10-containing membrane-sculpting subcomplex (MIC10/MIC26/MIC27), such that its loss collapses MICOS into a residual MIC60 subcomplex with loss of MIC10 (PMID:25997101, PMID:27479602). The yeast ortholog Mic12 plays the equivalent bridging role between the two subcomplexes (PMID:26968360). Membrane insertion of MIC13 depends on an N-terminal GxxxG transmembrane motif, while an internal WN motif is required for its own stability and for its interaction with both the MIC10- and MIC60-subcomplexes (PMID:34271005). Its primary action is stabilization of the MIC10-subcomplex: MIC13 interacts with stomatin-like protein 2 (SLP2) to protect MIC26 and the MIC10-subcomplex from YME1L-mediated degradation, and depleting YME1L in MIC13-knockout cells restores the MIC10-subcomplex, MIC60-MIC10 interaction, and crista junctions (PMID:39720525). Through this assembly role MICOS13 is required for mitochondrial respiratory chain function, with re-expression rescuing respiratory deficiencies in patient cells (PMID:32749073). Loss-of-function mutations in human MICOS13 cause a fatal infantile mitochondrial hepato-encephalopathy with MICOS disassembly, cristae defects, and impaired OXPHOS (PMID:27623147, PMID:27485409, PMID:29618761).

Mechanistic history

Synthesis pass · year-by-year structured walk · 10 steps
  1. 2015 High

    Established that an uncharacterized protein is an obligate subunit of the human MICOS complex, answering whether MICOS assembly requires factors beyond the known MIC60/MIC10 cores.

    Evidence Quantitative AP-MS, siRNA knockdown in human cells and Drosophila, and reciprocal Co-IP

    PMID:25997101

    Open questions at the time
    • Did not resolve whether MIC10 loss reflected failed integration versus instability
    • No structural basis for how QIL1 couples subcomplexes
  2. 2015 Medium

    Distinguished assembly from stability by showing QIL1 is needed to integrate MIC10 into MICOS rather than merely to maintain MIC10 levels.

    Evidence Co-IP after MIC10 overexpression in QIL1-depleted human cells

    PMID:25997101

    Open questions at the time
    • Overexpression rescue is indirect; molecular contact points untested
    • Did not address SAMM50/MIB integration mechanism
  3. 2016 High

    Defined MIC13 as strictly required for crista junction formation and mapped the hierarchical MICOS assembly dependency in human cells.

    Evidence CRISPR/Cas9 knockout with complexome profiling, Co-IP, and electron microscopy

    PMID:27479602

    Open questions at the time
    • Did not identify the residues mediating bridging
    • Crista junction loss without supercomplex disruption left functional consequence partly open
  4. 2016 High

    Confirmed the bridging role is evolutionarily conserved by showing the yeast ortholog Mic12 couples the Mic60 and Mic10 modules.

    Evidence Yeast deletion genetics, Co-IP, and BN-PAGE

    PMID:26968360

    Open questions at the time
    • Yeast subunit composition differs from mammals
    • No structural model of the coupling interface
  5. 2016 High

    Linked MICOS13 to human disease and confirmed causality by showing patient null alleles disassemble MICOS and that re-expression rescues cristae defects.

    Evidence Patient fibroblast analysis with lentiviral rescue, immunoblotting, and EM across independent families

    PMID:27485409 PMID:27623147

    Open questions at the time
    • Tissue-specific basis of hepato-encephalopathy not explained
    • Mechanism connecting cristae loss to bioenergetic failure not dissected
  6. 2018 Medium

    Extended the disease phenotype to liver and muscle tissue, showing a splice-site mutation selectively eliminates the MIC10-MIC26-MIC27-QIL1 subcomplex with severe OXPHOS impairment.

    Evidence Patient tissue immunoblotting, BN-PAGE, EM, and respiratory chain enzyme assays

    PMID:29618761

    Open questions at the time
    • No rescue experiment reported
    • Single patient/lab
  7. 2020 Medium

    Confirmed the causal role of MICOS13 in maintaining respiratory chain function through genetic complementation in patient cells.

    Evidence Patient fibroblasts with lentiviral wild-type re-expression, EM, and respiratory chain complex activity assays

    PMID:32749073

    Open questions at the time
    • Single lab
    • Did not separate cristae structural defect from direct respiratory effects
  8. 2021 High

    Mapped the functional architecture of MIC13 to specific motifs, defining a GxxxG motif for membrane insertion and a WN motif for stability and dual-subcomplex interaction.

    Evidence Systematic deletion-variant expression in MIC13-KO cells with BN-PAGE, Co-IP, and EM

    PMID:34271005

    Open questions at the time
    • No atomic structure of motif-mediated contacts
    • Single lab
  9. 2024 High

    Refined the mechanistic model from direct bridging to subcomplex stabilization by showing MIC13 acts via SLP2 to protect the MIC10-subcomplex from YME1L proteolysis.

    Evidence Multiple genetic KO combinations (MIC13, SLP2, YME1L), Co-IP, BN-PAGE, STED nanoscopy, and EM with functional rescue

    PMID:39720525

    Open questions at the time
    • Precise SLP2-MIC13 interaction interface unresolved
    • How stabilization translates into crista junction geometry not fully defined
  10. 2025 Medium

    Defined the nanoscale molecular neighborhood of MIC13, placing it adjacent to OXPHOS, translocase, ribosomal, and solute carrier machinery.

    Evidence APEX2 proximity biotinylation in KO cells with mass spectrometry, STED nanoscopy, and DAB-EM (preprint)

    PMID:bio_10.1101_2025.05.20.655052

    Open questions at the time
    • Proximity does not establish direct interaction
    • Preprint, single lab, awaits peer review

Open questions

Synthesis pass · forward-looking unresolved questions
  • How MIC13-dependent stabilization of the MIC10-subcomplex is mechanically converted into crista junction formation, and the structural basis of its motif-mediated contacts, remain unresolved.
  • No high-resolution structure of MIC13 within MICOS
  • Mechanistic link between cristae morphology and tissue-specific disease severity unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0060090 molecular adaptor activity 5 GO:0005198 structural molecule activity 2
Localization
GO:0005739 mitochondrion 3
Pathway
R-HSA-1852241 Organelle biogenesis and maintenance 3
Partners
MIC10MIC26MIC27MIC60SLP2YME1L
Complex memberships
MICOS complex

Evidence

Reading pass · 12 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2015 QIL1 (MICOS13/C19orf70) was identified as a novel subunit of the human MICOS complex via systematic proteomic analysis. Its depletion causes MICOS disassembly, resulting in accumulation of a MIC60-MIC19-MIC25 sub-complex and degradation of MIC10, MIC26, and MIC27, indicating QIL1 is required for the stable assembly of the full MICOS complex. Quantitative proteomics (AP-MS), siRNA knockdown in human cells and Drosophila, co-immunoprecipitation eLife High 25997101
2015 Upon QIL1 depletion, overexpressed MIC10 fails to significantly restore its interaction with other MICOS subunits and SAMM50, demonstrating that QIL1 is required for MIC10 integration into the MICOS complex rather than merely for MIC10 stability. Co-immunoprecipitation following MIC10 overexpression in QIL1-depleted cells eLife Medium 25997101
2016 MIC13 is an inner mitochondrial membrane protein that physically interacts with MIC60 (a central MICOS subunit). CRISPR/Cas9 knockout of MIC13 causes complete loss of crista junctions without disrupting respiratory chain supercomplex assembly or mitochondrial network morphology, establishing MIC13 as strictly required for crista junction formation. CRISPR/Cas9 knockout, complexome profiling, co-immunoprecipitation, electron microscopy PloS one High 27479602
2016 MIC13 is required for the assembly of MIC10, MIC26, and MIC27 into the MICOS complex, but is dispensable for formation of the MIC60/MIC19/MIC25 sub-complex, defining the hierarchical dependency within MICOS assembly. CRISPR/Cas9 knockout, complexome profiling, immunoblotting PloS one High 27479602
2016 In the yeast MICOS system, Mic12 (ortholog of MIC13) is required for coupling the two MICOS sub-complexes (Mic60-Mic19 module and Mic10-Mic12-Mic26-Mic27 membrane-sculpting module), while Mic27 promotes stability of Mic10 oligomers. Deletion of Mic12 disrupts MICOS complex formation. Yeast genetics (deletion mutants), co-immunoprecipitation, BN-PAGE Journal of molecular biology High 26968360
2016 QIL1 null alleles in human patients cause MICOS disassembly in fibroblasts, with absence of MIC10 protein while MIC60 remains present. Re-expression of QIL1 rescues cristae defects and promotes re-accumulation of MICOS subunits, confirming QIL1's direct role in MICOS assembly in human disease. Patient fibroblast analysis, lentiviral rescue expression, immunoblotting, electron microscopy eLife High 27623147
2016 QIL1/MIC13 deficiency in patient fibroblasts causes complete loss of MIC10 and QIL1/MIC13 proteins while MIC60 remains, linking MICOS disassembly specifically to the MIC10-containing sub-complex and resulting in aberrant cristae morphology and mitochondrial respiratory dysfunction. Patient fibroblast immunoblotting, electron microscopy, respiratory chain activity assays European journal of human genetics High 27485409
2018 A splice-site mutation in C19orf70/QIL1 causes loss of the MIC10-MIC26-MIC27-QIL1 sub-complex while leaving a partial MICOS complex, resulting in loss of cristae junctions, aberrant cristae structure, and severely impaired OXPHOS activity in liver and muscle tissue. Patient tissue analysis, immunoblotting, BN-PAGE, electron microscopy, respiratory chain enzyme assays Journal of human genetics Medium 29618761
2021 Systematic deletion mutagenesis of MIC13 identified that a GxxxG motif in the N-terminal transmembrane segment is essential for membrane insertion of MIC13 and stability of the MIC10-subcomplex, while an internal WN motif is essential for MIC13 stability, formation of the MIC10-subcomplex, and interaction with both MIC10- and MIC60-subcomplexes, thereby bridging the two MICOS modules. 20-amino-acid deletion variants expressed in MIC13-KO cells, BN-PAGE, co-immunoprecipitation, electron microscopy, immunoblotting Biochimica et biophysica acta. Biomembranes High 34271005
2024 Stomatin-like protein 2 (SLP2) was identified as a key interaction partner of MIC13 and functions as an interaction hub for MICOS subunits, stabilizing MIC26 by protecting it from YME1L-mediated degradation. YME1L depletion in MIC13-KO cells stabilizes the MIC10-subcomplex and restores MIC60-MIC10 interaction and crista junction formation, indicating MIC13's primary role is in MIC10-subcomplex stabilization rather than directly bridging MIC60 and MIC10. Co-immunoprecipitation, genetic KO (MIC13 KO, SLP2 KO, double KO, YME1L depletion), BN-PAGE, STED super-resolution microscopy, electron microscopy iScience High 39720525
2020 Loss of MICOS13 protein in patient fibroblasts results in fewer cristae structures and mitochondrial respiratory chain complex deficiencies; stable lentiviral re-expression of wild-type MICOS13 cDNA rescued respiratory chain complex deficiencies, confirming the causal role of MICOS13 in maintaining mitochondrial respiratory function. Patient fibroblast analysis, lentiviral rescue, electron microscopy, respiratory chain complex activity assays Molecular genetics & genomic medicine Medium 32749073
2025 Proximity biotinylation (APEX2) using MIC13 as bait in MIC13-KO mammalian cells identified 119 common and 50 unique proximity interactors (MINDNet), including OXPHOS proteins, protein translocases of the inner and outer membrane, mitochondrial ribosomal proteins, and solute carrier family transporters, revealing MIC13's nanoscale neighborhood within mitochondria. APEX2 proximity biotinylation in KO cells, mass spectrometry, STED super-resolution nanoscopy, DAB-EM bioRxivpreprint Medium bio_10.1101_2025.05.20.655052

Source papers

Stage 0 corpus · 23 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2015 QIL1 is a novel mitochondrial protein required for MICOS complex stability and cristae morphology. eLife 148 25997101
2016 Mic13 Is Essential for Formation of Crista Junctions in Mammalian Cells. PloS one 69 27479602
2016 QIL1 mutation causes MICOS disassembly and early onset fatal mitochondrial encephalopathy with liver disease. eLife 55 27623147
2016 Mitochondrial hepato-encephalopathy due to deficiency of QIL1/MIC13 (C19orf70), a MICOS complex subunit. European journal of human genetics : EJHG 54 27485409
2016 Distinct Roles of Mic12 and Mic27 in the Mitochondrial Contact Site and Cristae Organizing System. Journal of molecular biology 51 26968360
2018 QIL1-dependent assembly of MICOS complex-lethal mutation in C19ORF70 resulting in liver disease and severe neurological retardation. Journal of human genetics 38 29618761
2009 Novel protein RGPR-p117: its role as the regucalcin gene transcription factor. Molecular and cellular biochemistry 28 19214710
2020 A novel homozygous variant in MICOS13/QIL1 causes hepato-encephalopathy with mitochondrial DNA depletion syndrome. Molecular genetics & genomic medicine 20 32749073
2006 Overexpression of RGPR-p117 enhances regucalcin gene promoter activity in cloned normal rat kidney proximal tubular epithelial cells: involvement of TTGGC motif. Journal of cellular biochemistry 15 16676356
2005 Nuclear localization of a novel protein, RGPR-p117, in cloned normal rat kidney proximal tubular epithelial cells. International journal of molecular medicine 13 16211248
2021 Conserved GxxxG and WN motifs of MIC13 are essential for bridging two MICOS subcomplexes. Biochimica et biophysica acta. Biomembranes 12 34271005
2019 A QIL1 Variant Associated with Ventricular Arrhythmias and Sudden Cardiac Death in the Juvenile Rhodesian Ridgeback Dog. Genes 11 30795627
2017 Involvement of regucalcin gene promoter region-related protein-p117, a transcription factor, in human obesity. Biomedical reports 6 28413634
1985 Cell surface differentiation antigen of human muscle encoded by a gene (MIC12) on chromosome 15. Cytogenetics and cell genetics 6 3979119
2024 SLP2 and MIC13 synergistically coordinate MICOS assembly and crista junction formation. iScience 5 39720525
2023 In Silico Vaccine Design and Expression of the Multi-Component Protein Candidate against the Toxoplasma gondii Parasite from MIC13, GRA1, and SAG1 Antigens. Iranian journal of parasitology 5 37886246
2007 Overexpression of RGPR-p117 induces the decrease in protein and DNA contents in cloned normal rat kidney proximal tubular epithelial NRK52E cells. International journal of molecular medicine 5 17549392
2025 Design and immunological evaluation of a multi-epitope vaccine candidate against Toxoplasma gondii incorporating MIC13, GRA1, and SAG1 antigens in BALB/c mice. Food and waterborne parasitology 4 40546389
2025 Overexpression of RGPR-p117 reveals anticancer effects by regulating multiple signaling pathways in bone metastatic human breast cancer MDA-MB-231 cells. IUBMB life 3 39780531
2022 The overexpressed transcription factor RGPR-p117 suppresses the proliferation of normal rat kidney proximal tubular epithelial NRK-52E cells: Involvement of diverse signaling pathways. Life sciences 3 35835253
2025 The advanced role of the transcription factor RGPR-p117 in cell regulation: Its involvement in transcription, cell growth, and lipid metabolism. International journal of biological macromolecules 1 40907915
2025 MIC13 of Toxoplasma gondii: Potential Gene for Vaccine Candidate-An In Silico Approach. Journal of parasitology research 0 41049564
2025 CRISPR/Cas9-mediated editing of MIC13 in human induced pluripotent stem cells: A model for mitochondrial hepato-encephalopathy. Stem cell research 0 41265250

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