Browsing by Author Mackovski, Nikolce

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Issue DateTitleAuthor(s)Citation
2017Calpain inhibition is protective in machado`joseph disease zebrafish due to induction of autophagyBecker, Thomas; Goldsbury, Claire; Mackovski, Nikolce; Nicholson, Garth; Rinkwitz, Silke; Watchon, Maxinne; Cole, Nicholas; Laird, Angela; Svahn, Adam; Yuan, Kristy; School of Medical Sciences: Brain and Mind Centre; School of Medical Sciences: Brain and Mind Centre; Concord Clinical School: ANZAC Research Institute; Concord Clinical School: ANZAC Research Institute; School of Medical Sciences: Brain and Mind Centre; Concord Clinical School: ANZAC Research InstituteCalpain inhibition is protective in machado`joseph disease zebrafish due to induction of autophagy, Journal of Neuroscience, vol.37, 32, 2017,pp 7782-7794
2016Tissue-specific models of spinal muscular atrophy confirm a critical role of SMN in motor neurons from embryonic to adult stagesBecker, Thomas; Giacomotto, Jean Georges Marie; Laird, Angela Susan; Mackovski, Nikolce; Rinkwitz, Silke; School of Medical Sciences: Brain and Mind Centre; School of Medical Sciences: Brain and Mind Centre; School of Medical Sciences: Brain and Mind Centre; Concord Clinical School: ANZAC Research Institute; School of Medical Sciences: Brain and Mind CentreTissue-specific models of spinal muscular atrophy confirm a critical role of SMN in motor neurons from embryonic to adult stages, Human Molecular Genetics, vol.25, 9, 2016,pp 1728-1738
2016Tissue-specific models of spinal muscular atrophy confirm a critical role of SMN in motor neurons from embryonic to adult stagesBecker, Thomas; Giacomotto, Jean Georges Marie; Laird, Angela Susan; Mackovski, Nikolce; Rinkwitz, Silke; School of Medical Sciences: Brain and Mind Centre; School of Medical Sciences: Brain and Mind Centre; School of Medical Sciences: Brain and Mind Centre; Concord Clinical School: ANZAC Research Institute; School of Medical Sciences: Brain and Mind CentreTissue-specific models of spinal muscular atrophy confirm a critical role of SMN in motor neurons from embryonic to adult stages, Human Molecular Genetics, vol.25, 9, 2016,pp 1728-1738