Forschungsgruppe Englert

Publikationen

2023

  • Establishing the auxin-inducible degron system for Wilms tumor protein 1 degradation in zebrafish
    Hopfenmüller V
    Dissertation 2023, Jena, Germany
  • Generation of a transparent killifish line through multiplex CRISPR/Cas9mediated gene inactivation.
    Krug J, Perner B, Albertz C, Mörl H, Hopfenmüller VL, Englert C
    Elife 2023, 12, e81549
  • Rapid Genotyping of Nothobranchius furzeri Embryos, Larvae, and Adult Fish via High-Resolution Melt Analysis (HRMA).
    Krug J, Richter A, Englert C
    Cold Spring Harb Protoc 2023, 2023(8), 107744
  • The Tgf-β family member Gdf6Y determines the male sex in Nothobranchius furzeri by suppressing oogenesis-inducing genes
    Richter A, Mörl H, Thielemann M, Kleemann M, Geißen R, Schwarz R, Albertz C, Koch P, Petzold A, Groth M, Hartmann N, Herpin A, Englert C
    bioRxiv 2023, 10.1101/2023.05.26.542338
  • Explaining variation in individual aging, its sources, and consequences: A comprehensive conceptual model of human aging.
    Rothermund K, Englert C, Gerstorf D
    Gerontology 2023, 69(12), 1437-47
  • The African killifish: A short-lived vertebrate model to study the biology of sarcopenia and longevity.
    Ruparelia AA, Salavaty A, Barlow CK, Lu Y, Sonntag C, Hersey L, Eramo MJ, Krug J, Reuter H, Schittenhelm RB, Ramialison M, Cox A, Ryan MT, Creek DJ, Englert C, Currie PD
    Aging Cell 2023, 23(1), e13862
  • Adapting the pantograph limb: Differential robustness of fore- and hindlimb kinematics against genetically induced perturbation in the neural control networks and its evolutionary implications.
    Schnerwitzki D, Englert C, Schmidt M
    Zoology (Jena) 2023, 157, 126076
  • Characterization of myc mutants in the short-lived killifish Nothobranchius furzeri
    Zhang Z
    Dissertation 2023, Jena, Germany

2022

  • Preface to Current Topics in Cellular Aging
    Englert C
    In: Current Topics in Cellular Aging, Selected articles published by MDPI, Cells 2022, MDPI - Multidisciplinary Digital
  • The Wilms Tumor Gene wt1a Contributes to Blood-Cerebrospinal Fluid Barrier Function in Zebrafish.
    Hopfenmüller* VL, Perner* B, Reuter H, Bates TJD, Große A, Englert C
    Front Cell Dev Biol 2022, 9, 809962 * equal contribution