2023
Pot1b −/− tumors activate G-quadruplex-induced DNA damage to promote telomere hyper-elongation
Takasugi T, Gu P, Liang F, Staco I, Chang S. Pot1b −/− tumors activate G-quadruplex-induced DNA damage to promote telomere hyper-elongation. Nucleic Acids Research 2023, 51: 9227-9247. PMID: 37560909, PMCID: PMC10516629, DOI: 10.1093/nar/gkad648.Peer-Reviewed Original ResearchConceptsDNA damage responseDamage responseReplication protein A (RPA) complexDependent DNA damage responseTelomere length homeostasisTelomere maintenance mechanismLength homeostasisTelomerase recruitmentPOT1 proteinsHuman POT1Mouse genomeLength maintenanceFunction disruptsReplicative immortalityTelomeresPOT1 mutationsDNA damageHuman cancersLonger telomeresPOT1bMaintenance mechanismsSerial transplantationA complexesSimilar mechanismMutations
2021
Distinct functions of POT1 proteins contribute to the regulation of telomerase recruitment to telomeres
Gu P, Jia S, Takasugi T, Tesmer VM, Nandakumar J, Chen Y, Chang S. Distinct functions of POT1 proteins contribute to the regulation of telomerase recruitment to telomeres. Nature Communications 2021, 12: 5514. PMID: 34535663, PMCID: PMC8448735, DOI: 10.1038/s41467-021-25799-7.Peer-Reviewed Original ResearchConceptsDNA damage responseTelomerase recruitmentPOT1 proteinsDamage responseATR-dependent DNA damage responseNon-homologous end-joining DNA repair pathwayRecruitment of telomeraseC-strand fillAmino acidsDNA repair pathwaysUnique amino acidsTEN1 (CST) complexTelomere extensionCTC1-STN1Stable heterodimerRepair pathwaysC-terminusDistinct functionsPOT1bPOT1aTelomeresC-strandG-strandTPP1Protein
2018
CTC1‐STN1 coordinates G‐ and C‐strand synthesis to regulate telomere length
Gu P, Jia S, Takasugi T, Smith E, Nandakumar J, Hendrickson E, Chang S. CTC1‐STN1 coordinates G‐ and C‐strand synthesis to regulate telomere length. Aging Cell 2018, 17: e12783. PMID: 29774655, PMCID: PMC6052479, DOI: 10.1111/acel.12783.Peer-Reviewed Original Research
2016
Sister chromatid telomere fusions, but not NHEJ-mediated inter-chromosomal telomere fusions, occur independently of DNA ligases 3 and 4
Liddiard K, Ruis B, Takasugi T, Harvey A, Ashelford K, Hendrickson E, Baird D. Sister chromatid telomere fusions, but not NHEJ-mediated inter-chromosomal telomere fusions, occur independently of DNA ligases 3 and 4. Genome Research 2016, 26: 588-600. PMID: 26941250, PMCID: PMC4864465, DOI: 10.1101/gr.200840.115.Peer-Reviewed Original ResearchConceptsFusion eventsLarge-scale genomic rearrangementsCancer genome evolutionDNA ligase 3Nonhomologous end-joining repairTelomere fusion eventsDNA ligase 1DNA ligase 4High-throughput sequence analysisEnd-joining repairGenome evolutionDistinct mutational signaturesGenomic lociTelomere fusionCheckpoint controlSister chromatidsStable genomeCell divisionLigase 1Ligase 3Alternative NHEJNonhomologous endSingle-molecule levelClassical NHEJGenomic rearrangements