Team publications Davy
Dihydrofolate reductase activity controls neurogenic transitions in the developing neocortex
Control of G2 Phase duration by CDC25B modulates the switch from direct to indirect neurogenesis in the neocortex.
Journal of Neuroscience
Heterogeneity in the size of the apical surface of cortical progenitors
Transcriptome profiling of the Olig2-expressing astrocyte subtype reveals their unique molecular signature.
Efnb2 haploinsufficiency induces early gap junction plaque disassembly and endocytosis in the cochlea
Brain Res Bull.
Inhibition of DHFR targets the self-renewing potential of brain tumor initiating cells
Population dynamics and neuronal polyploidy in the developing neocortex
Cerebral Cortex Communications
EphrinB2 paces neuronal production in the developing neocortex
BMC Dev Biol
Impact of Metabolic Pathways and Epigenetics on Neural Stem Cells.
Ca2+-dependent transcriptional repressors KCNIP and regulation of prognosis genes in glioblastoma.
Frontiers in Molecular Neuroscience
Quiescence status of glioblastoma stem-like cells involves remodelling of Ca2+ signalling and mitochondrial shape.
Crosstalk between one carbon metabolism, eph signaling and histone methylation promotes neural stem cells differentiation
Developmental Upregulation of Ephrin-B1 Silences Sema3C/Neuropilin-1 Signaling during Post-crossing Navigation of Corpus Callosum Axons.
Eph/Ephrin Signaling Controls Progenitor Identities In The Ventral Spinal Cord
EPH-ective control of cytokinesis
Eph-mediated tyrosine phosphorylation of Citron Kinase controls abscission
J. Cell Biol
2016 Aug .
p57(Kip2) knock-in mouse reveals CDK-independent contribution in the development of Beckwith-Wiedemann syndrome.
J. Pathol. 239(3):250-61
EphrinB2 sharpens lateral motor column division in the developing spinal cord.
Neural Dev. 10: 25.
(2015) Direct transdifferentiation and integration into cochlear hair cell layers by inhibition of ephrin-B2 signalling.
Nat. Comm. 6:7017.
Beyond boundaries: Eph/ephrin signaling in neurogenesis.
Cell Adhes. Mig. (Review) 8: 349-359.
Cortical abnormalities and non-spatial learning deficits in a mouse model of CranioFrontoNasal Syndrome.
PLOS ONE. 9:e88325.
Eph:ephrin-B1 signaling controls fasciculation of motor and sensory axons
Dev. Biol. 383: 264-274
Ephrin-B1 maintains apical adhesion of neural progenitors
Development. 140: 2082-2092.
Ephrin-B1 is a novel component of the lateral membrane of the cardiomyocyte and is essential for the stability of cardiac tissue architecture.
Circ. Res. 110:688-700.
Expression and mis-expression of Eph receptors and ephrins.
Cell Adhes. Mig. (Review) 6: 131-137.
Generation of a transgenic mouse line expressing ephrin-B2 in endothelial cells.
Ephrin-B1 reverse signaling controls a post-transcriptional feedback mechanism via miR-124.
Mol. Cell. Biol. 30: 2508-2517.
Ephrin–B2 controls VEGF–induced angiogenesis and lymphangiogenesis.
Eph/ephrin signaling: Networks.
Genes Dev. (review) 22: 416-29.