Publication:
Cox7a1 controls skeletal muscle physiology and heart regeneration through complex IV dimerization.

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cris.virtual.author-orcid0000-0002-4956-315X
cris.virtual.author-orcid0000-0003-3388-9187
cris.virtual.author-orcid0000-0001-8649-1098
cris.virtual.author-orcid0000-0002-0905-6399
cris.virtualsource.author-orcid55b2e20d-cddd-47a5-9ea4-4fadaf2279b1
cris.virtualsource.author-orcidd859b62c-b0dc-4c81-8824-f971a2ff907f
cris.virtualsource.author-orcid24436e90-0af3-4091-b743-1d6b0af717b4
cris.virtualsource.author-orcid0237537b-30ab-4456-a863-e9990185efae
cris.virtualsource.author-orcid55a846f2-8638-48e3-8e94-c7075eb348bf
cris.virtualsource.author-orcida3fad724-3c08-4467-a358-ce3d7da63bb2
cris.virtualsource.author-orcid07c63486-ee3a-4e33-8520-eaaadbf8dc8b
cris.virtualsource.author-orcid6b9f7e28-8a66-49ee-abac-5a92d89b810b
cris.virtualsource.author-orcide9401515-a542-4d08-a375-8da12fe69df6
cris.virtualsource.author-orcid79bc2168-817a-44ea-be31-b11af4269ff4
datacite.rightsopen.access
dc.contributor.authorGarcía-Poyatos, Carolina
dc.contributor.authorArora, Prateek
dc.contributor.authorCalvo, Enrique
dc.contributor.authordos Santos Marques, Ines Joao
dc.contributor.authorKirschke, Nick
dc.contributor.authorGalardi-Castilla, Maria
dc.contributor.authorLembke, Carla-Sophie
dc.contributor.authorMeer, Marco Daniel
dc.contributor.authorFernández-Montes, Paula
dc.contributor.authorErnst, Alexander Uwe Johann
dc.contributor.authorHaberthür, David
dc.contributor.authorHlushchuk, Ruslan
dc.contributor.authorVázquez, Jesús
dc.contributor.authorVermathen, Peter
dc.contributor.authorEnríquez, José Antonio
dc.contributor.authorMercader Huber, Nadia Isabel
dc.date.accessioned2024-10-26T18:00:31Z
dc.date.available2024-10-26T18:00:31Z
dc.date.issued2024-07-22
dc.description.abstractThe oxidative phosphorylation (OXPHOS) system is intricately organized, with respiratory complexes forming super-assembled quaternary structures whose assembly mechanisms and physiological roles remain under investigation. Cox7a2l, also known as Scaf1, facilitates complex III and complex IV (CIII-CIV) super-assembly, enhancing energetic efficiency in various species. We examined the role of Cox7a1, another Cox7a family member, in supercomplex assembly and muscle physiology. Zebrafish lacking Cox7a1 exhibited reduced CIV2 formation, metabolic alterations, and non-pathological muscle performance decline. Additionally, cox7a1-/- hearts displayed a pro-regenerative metabolic profile, impacting cardiac regenerative response. The distinct phenotypic effects of cox7a1-/- and cox7a2l-/- underscore the diverse metabolic and physiological consequences of impaired supercomplex formation, emphasizing the significance of Cox7a1 in muscle maturation within the OXPHOS system.
dc.description.numberOfPages18
dc.description.sponsorshipInstitut für Anatomie - Topographische & Klinische Anatomie
dc.description.sponsorshipUniversitätsinstitut für Diagnostische und Interventionelle Neuroradiologie (DIN)
dc.description.sponsorshipInstitut für Anatomie
dc.description.sponsorshipInstitut für Anatomie - Entwicklungsbiologie & Regeneration
dc.description.sponsorshipInstitut für Anatomie - MicroCT
dc.description.sponsorshipMicroscopy Imaging Center (MIC)
dc.identifier.doi10.48350/196524
dc.identifier.pmid38701784
dc.identifier.publisherDOI10.1016/j.devcel.2024.04.012
dc.identifier.urihttps://boris-portal.unibe.ch/handle/20.500.12422/177198
dc.language.isoen
dc.publisherElsevier
dc.relation.ispartofDevelopmental cell
dc.relation.issn1878-1551
dc.relation.organizationDCD5A442BCD7E17DE0405C82790C4DE2
dc.relation.organizationDCD5A442BD6AE17DE0405C82790C4DE2
dc.relation.organizationDCD5A442BD6CE17DE0405C82790C4DE2
dc.relation.organizationDCD5A442C011E17DE0405C82790C4DE2
dc.subjectCa(2+) signaling cox7a1 cox7a2l electron transport chain heart regeneration metabolic rewiring mitochondria muscle physiology scaf1 supercomplex assembly zebrafish
dc.subject.ddc600 - Technology::610 - Medicine & health
dc.subject.ddc500 - Science::570 - Life sciences; biology
dc.titleCox7a1 controls skeletal muscle physiology and heart regeneration through complex IV dimerization.
dc.typearticle
dspace.entity.typePublication
dspace.file.typetext
oaire.citation.endPage1841.e10
oaire.citation.issue14
oaire.citation.startPage1824
oaire.citation.volume59
oairecerif.author.affiliationInstitut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliationInstitut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliationInstitut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliationInstitut für Anatomie
oairecerif.author.affiliationInstitut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliationInstitut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliationInstitut für Anatomie - MicroCT
oairecerif.author.affiliationInstitut für Anatomie - Topographische & Klinische Anatomie
oairecerif.author.affiliationUniversitätsinstitut für Diagnostische und Interventionelle Neuroradiologie (DIN)
oairecerif.author.affiliationInstitut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie
oairecerif.author.affiliation2Institut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliation2Institut für Anatomie - Topographische & Klinische Anatomie
oairecerif.author.affiliation2Institut für Anatomie - MicroCT
oairecerif.author.affiliation2Institut für Anatomie - Entwicklungsbiologie & Regeneration
oairecerif.author.affiliation3Institut für Anatomie
unibe.additional.sponsorshipMicroscopy Imaging Center (MIC)
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unibe.date.licenseChanged2024-05-07 00:18:26
unibe.description.ispublishedpub
unibe.eprints.legacyId196524
unibe.refereedtrue
unibe.subtype.articlejournal

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