Nereo Kalebic
- Research Group Leader, Kalebic Group
Nereo Kalebic è un Group Leader presso il Centro di Neurogenomica. Ha conseguito la laurea in Biologia Molecolare presso l’Università di Zagabria in Croazia nel 2007. Nel 2012 ha completato il dottorato in Biologia Molecolare presso il Laboratorio Europeo di Biologia Molecolare (EMBL) e l’Università di Heidelberg. Durante il dottorato, Nereo ha studiato il ruolo delle modificazioni post-traduzionali dei microtubuli nello sviluppo e nella funzione del sistema nervoso. Dal 2013 al 2019 ha svolto ricerche post-dottorato nel gruppo di Wieland Huttner presso il Max Planck Institute of Molecular Cell Biology and Genetics di Dresda studiando lo sviluppo e l’evoluzione della neocorteccia umana. L’attuale ricerca di Nereo si concentra sui meccanismi biologici molecolari e cellulari alla base dello sviluppo della neocorteccia umana e sulle sue implicazioni per l’evoluzione umana e i disturbi del neurosviluppo.
Email: nereo.kalebic[at]fht.org
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Pubblicazioni
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01/2022 - Frontiers in Neuroscience
Roots of the Malformations of Cortical Development in the Cell Biology of Neural Progenitor Cells
The cerebral cortex is a structure that underlies various brain functions, including cognition and language. Mammalian cerebral cortex starts developing during the embryonic period with the neural progenitor cells generating neurons. Newborn neurons migrate along progenitors’ radial processes from the site of their origin in the germinal zones to the cortical plate, where they mature […]
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09/2021 - Development
Inheritance and flexibility of cell polarity: a clue for understanding human brain development and evolution
Cell polarity is fundamentally important for understanding brain development. Here, we hypothesize that the inheritance and flexibility of cell polarity during neocortex development could be implicated in neocortical evolutionary expansion. Molecular and morphological features of cell polarity may be inherited from one type of progenitor cell to the other and finally transmitted to neurons. Furthermore, […]
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04/2021 - Frontiers
The Ferret as a Model System for Neocortex Development and Evolution
The neocortex is the largest part of the cerebral cortex and a key structure involved in human behavior and cognition. Comparison of neocortex development across mammals reveals that the proliferative capacity of neural stem and progenitor cells and the length of the neurogenic period are essential for regulating neocortex size and complexity, which in turn […]
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10/2020 - Neuron
Serotonin Receptor 2A Activation Promotes Evolutionarily Relevant Basal Progenitor Proliferation in the Developing Neocortex.
Evolutionary expansion of the mammalian neocortex (Ncx) has been linked to increased abundance and proliferative capacity of basal progenitors (BPs) in the subventricular zone during development. BP proliferation is governed by both intrinsic and extrinsic signals, several of which have been identified. However, a role of neurotransmitters, a canonical class of extrinsic signaling molecules, in […]
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08/2020 - Trends in Neuroscience
Basal Progenitor Morphology and Neocortex Evolution
The evolutionary expansion of the neocortex is thought to be largely the consequence of an increase in the proliferative capacity of a specific class of neural progenitors called basal progenitors (BPs). Here we propose that BP morphology is a key cell biological feature underlying the increase in BP proliferative capacity. During neocortical expansion, BPs show […]
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