Cellerino Associated Research Group

Publications

2018

  • The age-regulated zinc finger factor ZNF367 is a new modulator of neuroblast proliferation during embryonic neurogenesis.
    Naef V, Monticelli S, Corsinovi D, Mazzetto MT, Cellerino A, Ori M
    Sci Rep 2018, 8(1), 11836
  • Long-lived rodents reveal signatures of positive selection in genes associated with lifespan.
    Sahm A, Bens M, Szafranski K, Holtze S, Groth M, Görlach M, Calkhoven C, Müller C, Schwab M, Kraus J, Kestler HA, Cellerino A, Burda H, Hildebrandt T, Dammann P, Platzer M
    PLoS Genet 2018, 14(3), e1007272
  • The microRNA miR-21 Is a Mediator of FGF8 Action on Cortical COUP-TFI Translation.
    Terrigno M, Bertacchi M, Pandolfini L, Baumgart M, Calvello M, Cellerino A, Studer M, Cremisi F
    Stem Cell Reports 2018, 11(3), 756-69
  • Corrigendum: Regulation of microRNA expression in the neuronal stem cell niches during aging of the short-lived annual fish Nothobranchius furzeri.
    Terzibasi Tozzini E, Savino A, Ripa R, Battistoni G, Baumgart M, Cellerino A
    Front Cell Neurosci 2018, 12, 227 Erratum for Front Cell Neurosci 2014 volume 8 page 51
  • Limited scope for reproductive senescence in wild populations of a short-lived fish.
    Vrtílek M, Žák J, Blažek R, Polačik M, Cellerino A, Reichard M
    Naturwissenschaften 2018, 105(11-12), 68

2017

  • A miRNA catalogue and ncRNA annotation of the short-living fish Nothobranchius furzeri.
    Baumgart* M, Barth* E, Savino A, Groth M, Koch P, Petzold A, Arisi I, Platzer M, Marz* M, Cellerino* A
    BMC Genomics 2017, 18(1), 693 * equal contribution
  • Repeated intra-specific divergence in lifespan and ageing of African annual fishes along an aridity gradient.
    Blažek R, Polačik M, Kačer P, Cellerino A, Řežucha R, Methling C, Tomášek O, Syslová K, Tozzini ET, Albrecht T, Vrtílek M, Reichard M
    Evolution Int J Org Evolution 2017, 71(2), 386-402
  • What have we learned on aging from omics studies?
    Cellerino A, Ori A
    Semin Cell Dev Biol 2017, 70, 177-89
  • Age-dependent increase of oxidative stress regulates microRNA-29 family preserving cardiac health.
    Heid* J, Cencioni* C, Ripa* R, Baumgart* M, Atlante S, Milano G, Scopece A, Kuenne C, Guenther S, Azzimato V, Farsetti A, Rossi G, Braun T, Pompilio G, Martelli F, Zeiher AM, Cellerino** A, Gaetano** C, Spallotta** F
    Sci Rep 2017, 7(1), 16839 * equal contribution, ** co-senior authors
  • MicroRNA miR-29 controls a compensatory response to limit neuronal iron accumulation during adult life and aging.
    Ripa R, Dolfi L, Terrigno M, Pandolfini L, Savino A, Arcucci V, Groth M, Terzibasi Tozzini E, Baumgart M, Cellerino A
    BMC Biol 2017, 15(1), 9