Sandra Siegert, Ph.D.
Affiliations: | 2015- | Life Sciences | Institute of Science and Technology (IST) Austria |
Area:
microglia neuron interactionWebsite:
https://ist.ac.at/en/research/siegert-group/Google:
"Sandra Siegert"Mean distance: 14.42 (cluster 11) | S | N | B | C | P |
Parents
Sign in to add mentor| Barbara Schnierle | research assistant | 2005 | Paul Ehrlich Institute |
| Botond M. Roska | grad student | 2005-2010 | Friedrich Miescher Institute |
| Li-Huei Tsai | post-doc | 2011-2015 | MIT |
Children
Sign in to add trainee| Verena Schmied | grad student | 2018- | Institute of Science and Technology (IST) Austria |
| Florianne Evelien Schoot | grad student | 2018- | Institute of Science and Technology (IST) Austria |
| Natalie Gutman-Oezgen | grad student | 2019- | Institute of Science and Technology (IST) Austria |
| Medina Korkut-Demirbas | grad student | 2023- | Institute of Science and Technology (IST) Austria |
| Gloria Colombo | grad student | 2017-2022 | Institute of Science and Technology (IST) Austria |
| Rouven Schulz | grad student | 2017-2022 | Institute of Science and Technology (IST) Austria |
| Rajeshwari Meli | post-doc | 2016-2018 | Institute of Science and Technology (IST) Austria |
| Balint Nagy | post-doc | 2017-2021 | Institute of Science and Technology (IST) Austria |
| Margaret E. Maes | post-doc | 2018-2023 | Institute of Science and Technology (IST) Austria |
| Ryan John A | post-doc | 2019-2023 | Institute of Science and Technology (IST) Austria |
| Alessandro Venturino | research scientist | 2016- |
Collaborators
Sign in to add collaborator| Mark F. Bear | collaborator | MIT, Picower Institute | ||
| (Microglia, ketamine, PNN, ocular-dominance plasticity) | ||||
BETA: Related publications
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Publications
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| Maes ME, Colombo G, Schoot Uiterkamp FE, et al. (2023) Mitochondrial network adaptations of microglia reveal sex-specific stress response after injury and UCP2 knockout. Iscience. 26: 107780 |
| Michalska JM, Lyudchik J, Velicky P, et al. (2023) Imaging brain tissue architecture across millimeter to nanometer scales. Nature Biotechnology |
| Hübschmann V, Korkut-Demirbaş M, Siegert S. (2022) Assessing human iPSC-derived microglia identity and function by immunostaining, phagocytosis, calcium activity, and inflammation assay. Star Protocols. 3: 101866 |
| Colombo G, Cubero RJA, Kanari L, et al. (2022) A tool for mapping microglial morphology, morphOMICs, reveals brain-region and sex-dependent phenotypes. Nature Neuroscience. 25: 1379-1393 |
| Schulz R, Korkut-Demirbaş M, Venturino A, et al. (2022) Chimeric GPCRs mimic distinct signaling pathways and modulate microglia responses. Nature Communications. 13: 4728 |
| Bartalska K, Hübschmann V, Korkut-Demirbaş M, et al. (2022) A systematic characterization of microglia-like cell occurrence during retinal organoid differentiation. Iscience. 25: 104580 |
| Venturino A, Siegert S. (2021) Minimally invasive protocols and quantification for microglia-mediated perineuronal net disassembly in mouse brain. Star Protocols. 2: 101012 |
| Maes ME, Wögenstein GM, Colombo G, et al. (2021) Optimizing AAV2/6 microglial targeting identified enhanced efficiency in the photoreceptor degenerative environment. Molecular Therapy. Methods & Clinical Development. 23: 210-224 |
| Venturino A, Schulz R, De Jesús-Cortés H, et al. (2021) Microglia enable mature perineuronal nets disassembly upon anesthetic ketamine exposure or 60-Hz light entrainment in the healthy brain. Cell Reports. 36: 109313 |
| Maes ME, Colombo G, Schulz R, et al. (2019) Targeting microglia with lentivirus and AAV: Recent advances and remaining challenges. Neuroscience Letters. 707: 134310 |