2024
Disruption of mitochondrial unfolded protein response results in telomere shortening in mouse oocytes and somatic cells
Cozzolino M, Ergun Y, Ristori E, Garg A, Imamoglu G, Seli E. Disruption of mitochondrial unfolded protein response results in telomere shortening in mouse oocytes and somatic cells. Aging 2024, 16: 2047-2060. PMID: 38349865, PMCID: PMC10911389, DOI: 10.18632/aging.205543.Peer-Reviewed Original ResearchConceptsCaseinolytic peptidase PMitochondrial unfolded protein responseUnfolded protein responseTelomere integrityProtein responseGermline deletionSomatic cellsSomatic agingSomatic cell divisionDouble-stranded DNA breaksAged miceTelomere shorteningAssociated with cellular senescenceTelomeric regionsProtein homeostasisAccelerated follicular depletionChromosome stabilityCell divisionMtUPRDNA breaksTelomereAging phenotypesCellular senescenceFollicular depletionMouse oocytes
1992
Duplication/deficiency mapping of situs inversus viscerum (iv), a gene that determines left-right asymmetry in the mouse
McGrath J, Horwich A, Brueckner M. Duplication/deficiency mapping of situs inversus viscerum (iv), a gene that determines left-right asymmetry in the mouse. Genomics 1992, 14: 643-648. PMID: 1427890, DOI: 10.1016/s0888-7543(05)80163-6.Peer-Reviewed Original ResearchConceptsDistal mouse chromosome 12Distal chromosome 12Mouse chromosome 12Deficiency mappingChromosome 12Trisomic progenyLeft-right body axisGenetic map locationDerivative chromosomesLeft-right asymmetryDuplication analysisTelomeric regionsMap locationChromosomal regionsGene complexChromosome 5Recessive mutationsBody axisGenetic linkageNormal copyProximal regionProgenyChromosomesMutationsReciprocal translocation
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