2023
Telomeres cooperate with the nuclear envelope to maintain genome stability
Rai R, Sodeinde T, Boston A, Chang S. Telomeres cooperate with the nuclear envelope to maintain genome stability. BioEssays 2023, 46: e2300184. PMID: 38047499, DOI: 10.1002/bies.202300184.Peer-Reviewed Original ResearchNuclear envelopeGenome stabilityNuclear envelope ruptureKu70/Ku80Homology-directed recombinationMammalian telomeresChromosome stabilityNuclear laminsShelterin componentsProtein TRF2Envelope ruptureRepair proteinsTelomeresRap1Recent findingsProteinFunction resultsRecombinationDNA sensingForm structuresLaminsTRF2Ku80DNAHomeostasis
2017
Structural and functional analyses of the mammalian TIN2-TPP1-TRF2 telomeric complex
Hu C, Rai R, Huang C, Broton C, Long J, Xu Y, Xue J, Lei M, Chang S, Chen Y. Structural and functional analyses of the mammalian TIN2-TPP1-TRF2 telomeric complex. Cell Research 2017, 27: 1485-1502. PMID: 29160297, PMCID: PMC5717407, DOI: 10.1038/cr.2017.144.Peer-Reviewed Original ResearchConceptsShelterin complexTelomeric DNAStructure-based mutagenesis analysisProtein-protein interaction platformRepetitive DNA sequencesTelomere end protectionN-terminal domainMammalian telomeresChromosome endsTelomeric complexNucleoprotein complexesMutagenesis analysisEnd protectionDNA sequencesLike domainHeterodimer bindsTIN2Functional analysisMolecular mechanismsTRF2TPP1Stable assemblyEssential roleTRF1Telomeres
2010
SNMIB/Apollo protects leading‐strand telomeres against NHEJ‐mediated repair
Lam YC, Akhter S, Gu P, Ye J, Poulet A, Giraud‐Panis M, Bailey SM, Gilson E, Legerski RJ, Chang S. SNMIB/Apollo protects leading‐strand telomeres against NHEJ‐mediated repair. The EMBO Journal 2010, 29: 2230-2241. PMID: 20551906, PMCID: PMC2905253, DOI: 10.1038/emboj.2010.58.Peer-Reviewed Original ResearchMeSH KeywordsAminopeptidasesAnimalsAtaxia Telangiectasia Mutated ProteinsCell Cycle ProteinsChromosomesDipeptidyl-Peptidases and Tripeptidyl-PeptidasesDNA DamageDNA RepairDNA-Binding ProteinsEmbryo, MammalianExodeoxyribonucleasesFibroblastsMiceMice, KnockoutProtein Serine-Threonine KinasesSerine ProteasesShelterin ComplexTelomereTelomere-Binding ProteinsTripeptidyl-Peptidase 1Tumor Suppressor ProteinsConceptsMouse embryo fibroblastsNull mouse embryo fibroblastsNon-homologous end-joining pathwayLeading-strand DNA synthesisExonuclease functionSNM1B/ApolloDNA double-strand breaksDNA damage responseEnd-joining pathwayDouble-strand breaksMammalian telomeresUncapped telomeresNuclease domainNuclease familyDamage responseDNA replicationTelomeric endTelomeresNuclease activity
2006
Pot1 Deficiency Initiates DNA Damage Checkpoint Activation and Aberrant Homologous Recombination at Telomeres
Wu L, Multani AS, He H, Cosme-Blanco W, Deng Y, Deng JM, Bachilo O, Pathak S, Tahara H, Bailey SM, Deng Y, Behringer RR, Chang S. Pot1 Deficiency Initiates DNA Damage Checkpoint Activation and Aberrant Homologous Recombination at Telomeres. Cell 2006, 126: 49-62. PMID: 16839876, DOI: 10.1016/j.cell.2006.05.037.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Cycle ProteinsCells, CulturedCellular SenescenceChromosome AberrationsDNA DamageDNA RepairDNA-Binding ProteinsGene SilencingGenes, cdcGenomic InstabilityMiceMice, KnockoutNuclear ProteinsProtein IsoformsRecombination, GeneticSequence HomologyShelterin ComplexSister Chromatid ExchangeTelomereTelomere-Binding ProteinsConceptsAberrant homologous recombinationHomologous recombinationTelomere sister chromatid exchangeDNA damage checkpoint activationOverall genomic stabilityTelomere length regulationDNA damage machineryDNA damage responseT-loop structureChromosomal end protectionMammalian telomeresPOT1 proteinsTelomere integrityCheckpoint activationGenomic stabilityLength regulationMouse genomeDamage responseEnd protectionReplicative senescenceDNA breaksRich overhangTelomeresChromosomal instabilityConditional deletion