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Scaf1 promotes respiratory supercomplexes and metabolic efficiency in zebrafish.

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cris.virtual.author-orcid0000-0002-0905-6399
cris.virtualsource.author-orcid7faf7a40-c678-4a3d-8d2e-b20c962a1068
cris.virtualsource.author-orcid7eec37a1-7090-4eab-b47c-d7d6a031efaa
cris.virtualsource.author-orcida9488f23-8533-4d78-a7cd-5926a6b7c024
cris.virtualsource.author-orcid79bc2168-817a-44ea-be31-b11af4269ff4
datacite.rightsopen.access
dc.contributor.authorGarcía Poyatos, Carolina
dc.contributor.authorCogliati, Sara
dc.contributor.authorCalvo, Enrique
dc.contributor.authorHernansanz-Agustín, Pablo
dc.contributor.authorLagarrigue, Sylviane
dc.contributor.authorMagni, Ricardo
dc.contributor.authorBotos, Marius-Alexandru
dc.contributor.authorLanga Oliva, Javier
dc.contributor.authorAmati, Francesca
dc.contributor.authorVázquez, Jesús
dc.contributor.authorMercader Huber, Nadia Isabel
dc.contributor.authorEnríquez, José Antonio
dc.date.accessioned2024-10-05T11:51:52Z
dc.date.available2024-10-05T11:51:52Z
dc.date.issued2020-07-03
dc.description.abstractThe oxidative phosphorylation (OXPHOS) system is a dynamic system in which the respiratory complexes coexist with super-assembled quaternary structures called supercomplexes (SCs). The physiological role of SCs is still disputed. Here, we used zebrafish to study the relevance of respiratory SCs. We combined immunodetection analysis and deep data-independent proteomics to characterize these structures and found similar SCs to those described in mice, as well as novel SCs including III2  + IV2 , I + IV, and I + III2  + IV2 . To study the physiological role of SCs, we generated two null allele zebrafish lines for supercomplex assembly factor 1 (scaf1). scaf1-/- fish displayed altered OXPHOS activity due to the disrupted interaction of complexes III and IV. scaf1-/- fish were smaller in size and showed abnormal fat deposition and decreased female fertility. These physiological phenotypes were rescued by doubling the food supply, which correlated with improved bioenergetics and alterations in the metabolic gene expression program. These results reveal that SC assembly by Scaf1 modulates OXPHOS efficiency and allows the optimization of metabolic resources.
dc.description.sponsorshipInstitut für Anatomie
dc.description.sponsorshipInstitut für Anatomie, Entwicklungsbiologie und Regeneration
dc.identifier.doi10.7892/boris.147039
dc.identifier.pmid32496654
dc.identifier.publisherDOI10.15252/embr.202050287
dc.identifier.urihttps://boris-portal.unibe.ch/handle/20.500.12422/55432
dc.language.isoen
dc.publisherEMBO press
dc.relation.ispartofEMBO reports
dc.relation.issn1469-3178
dc.relation.organization5EBDFFD4994748B4B44FD17D5E463CFB
dc.relation.organizationDCD5A442BCD7E17DE0405C82790C4DE2
dc.relation.organizationDCD5A442BD6AE17DE0405C82790C4DE2
dc.relation.schoolDCD5A442C27BE17DE0405C82790C4DE2
dc.subjectOXPHOS super-assembly SCAF1/COX7A2L metabolism mitochondria zebrafish
dc.subject.ddc600 - Technology::610 - Medicine & health
dc.titleScaf1 promotes respiratory supercomplexes and metabolic efficiency in zebrafish.
dc.typearticle
dspace.entity.typePublication
dspace.file.typetext
oaire.citation.issue7
oaire.citation.startPagee50287
oaire.citation.volume21
oairecerif.author.affiliationInstitut für Anatomie, Entwicklungsbiologie und Regeneration
oairecerif.author.affiliationInstitut für Anatomie, Entwicklungsbiologie und Regeneration
oairecerif.author.affiliationInstitut für Anatomie
oairecerif.author.affiliationInstitut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie, Entwicklungsbiologie und Regeneration
oairecerif.author.affiliation2Institut für Anatomie, Entwicklungsbiologie und Regeneration
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unibe.date.licenseChanged2020-12-11 06:31:47
unibe.description.ispublishedpub
unibe.eprints.legacyId147039
unibe.refereedtrue
unibe.subtype.articlejournal

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