Sven Falk
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Adult neurogenesis requires Smad4-mediated bone morphogenic protein signaling in stem cells
D Colak, T Mori, MS Brill, A Pfeifer, S Falk, C Deng, R Monteiro, ...
Journal of Neuroscience 28 (2), 434-446, 2008
Brain area-specific effect of TGF-β signaling on Wnt-dependent neural stem cell expansion
S Falk, H Wurdak, LM Ittner, F Ille, G Sumara, MT Schmid, K Draganova, ...
Cell stem cell 2 (5), 472-483, 2008
Wnt/BMP signal integration regulates the balance between proliferation and differentiation of neuroepithelial cells in the dorsal spinal cord
F Ille, S Atanasoski, S Falk, LM Ittner, D Märki, S Büchmann-Møller, ...
Developmental biology 304 (1), 394-408, 2007
Direct pericyte-to-neuron reprogramming via unfolding of a neural stem cell-like program
M Karow, JG Camp, S Falk, T Gerber, A Pataskar, M Gac-Santel, ...
Nature neuroscience 21 (7), 932-940, 2018
Glial control of neurogenesis
S Falk, M Götz
Current opinion in neurobiology 47, 188-195, 2017
The centrosome protein AKNA regulates neurogenesis via microtubule organization
G Camargo Ortega, S Falk, PA Johansson, E Peyre, L Broix, SK Sahu, ...
Nature 567 (7746), 113-117, 2019
Time-specific effects of spindle positioning on embryonic progenitor pool composition and adult neural stem cell seeding
S Falk, S Bugeon, J Ninkovic, GA Pilz, MP Postiglione, H Cremer, ...
Neuron 93 (4), 777-791. e3, 2017
Spatial centrosome proteome of human neural cells uncovers disease-relevant heterogeneity
AC O’Neill, F Uzbas, G Antognolli, F Merino, K Draganova, A Jäck, ...
Science 376 (6599), eabf9088, 2022
Stage-and area-specific control of stem cells in the developing nervous system
S Falk, L Sommer
Current opinion in genetics & development 19 (5), 454-460, 2009
Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features
J Karpf, P Unichenko, N Chalmers, F Beyer, MT Wittmann, J Schneider, ...
Nature Neuroscience 25 (12), 1626-1638, 2022
Smad4 and Trim33/Tif1γ redundantly regulate neural stem cells in the developing cortex
S Falk, E Joosten, V Kaartinen, L Sommer
Cerebral cortex 24 (11), 2951-2963, 2014
Trnp1 organizes diverse nuclear membrane‐less compartments in neural stem cells
M Esgleas, S Falk, I Forné, M Thiry, S Najas, S Zhang, A Mas‐Sanchez, ...
The EMBO journal 39 (16), e103373, 2020
Repetitive injury and absence of monocytes promote astrocyte self‐renewal and neurological recovery
L Lange Canhos, M Chen, S Falk, B Popper, T Straub, M Götz, S Sirko
Glia 69 (1), 165-181, 2021
Centrosomal microtubule nucleation regulates radial migration of projection neurons independently of polarization in the developing brain
S Vinopal, S Dupraz, E Alfadil, T Pietralla, S Bendre, M Stiess, S Falk, ...
Neuron 111 (8), 1241-1263. e16, 2023
Cellular identity through the lens of direct lineage reprogramming
S Falk, D Han, M Karow
Current Opinion in Genetics & Development 70, 97-103, 2021
The transcriptional co‐activator Yap1 promotes adult hippocampal neural stem cell activation
W Fan, J Jurado‐Arjona, G Alanis‐Lobato, S Péron, C Berger, ...
The EMBO journal 42 (11), e110384, 2023
Dynamic X-chromosomal reactivation enhances female brain resilience
S Kaeseberg, M Bertin, R Menon, E Gabassi, H Todorov, S Frank, ...
bioRxiv, 2023.06. 17.545424, 2023
Natural and forced neurogenesis: similar and yet different?
S Falk, M Karow
Cell and Tissue Research 371, 181-187, 2018
Absence of the RING domain in MID1 results in patterning defects in the developing human brain
S Frank, E Gabassi, S Käseberg, M Bertin, L Zografidou, D Pfeiffer, ...
Life Science Alliance 7 (4), 2024
Human induced pluripotent stem cell-derived pericytes as scalable and editable source to study direct lineage reprogramming into induced neurons
R Menon, L Petrucci, B Lohrer, J Zhang, M Schulze, C Schichor, B Winner, ...
Cellular Reprogramming 25 (5), 212-223, 2023
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