2022
Cellular recovery after prolonged warm ischaemia of the whole body
Andrijevic D, Vrselja Z, Lysyy T, Zhang S, Skarica M, Spajic A, Dellal D, Thorn SL, Duckrow RB, Ma S, Duy PQ, Isiktas AU, Liang D, Li M, Kim SK, Daniele SG, Banu K, Perincheri S, Menon MC, Huttner A, Sheth KN, Gobeske KT, Tietjen GT, Zaveri HP, Latham SR, Sinusas AJ, Sestan N. Cellular recovery after prolonged warm ischaemia of the whole body. Nature 2022, 608: 405-412. PMID: 35922506, PMCID: PMC9518831, DOI: 10.1038/s41586-022-05016-1.Peer-Reviewed Original ResearchConceptsSingle-nucleus transcriptomic analysesSpecific gene expression patternsCellular recoveryGene expression patternsCellular processesMammalian cellsTranscriptomic analysisLarge mammalsExpression patternsCellular repair processesCell deathComprehensive resourceUnderappreciated potentialPhysiological challengesTissue integrityRepair processSpecific changesPorcine brainMammalsOrgansMultiple organs
1995
Frequent T:A→G:C transversions in X-irradiated mouse cells
Yuan J, Yeasky T, Rhee M, Glazer P. Frequent T:A→G:C transversions in X-irradiated mouse cells. Carcinogenesis 1995, 16: 83-88. PMID: 7834808, DOI: 10.1093/carcin/16.1.83.Peer-Reviewed Original ResearchConceptsMammalian cellsMouse cellsC transversionRadiation-induced point mutationsLambda phage shuttle vectorPoint mutationsMutation reporter geneRecoverable lambda phage shuttle vectorDistinctive mutational signaturesUnique mutational spectrumPattern of mutationsReporter geneSpontaneous mutationsShuttle vectorCellular repair processesMultiple copiesMutational signaturesPolymerase betaMouse fibroblastsMutationsMutational spectrumTransversionsRepair processCellsPossible role
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