about
Nuclear localization of the mitochondrial factor HIGD1A during metabolic stressVoltage-gated potassium channel EAG2 controls mitotic entry and tumor growth in medulloblastoma via regulating cell volume dynamicsA centrosomal Cdc20-APC pathway controls dendrite morphogenesis in postmitotic neuronsA regulatory network involving Foxn4, Mash1 and delta-like 4/Notch1 generates V2a and V2b spinal interneurons from a common progenitor poolDevelopment of NG2 neural progenitor cells requires Olig gene functionOligodendrocyte lineage genes (OLIG) as molecular markers for human glial brain tumorsA small-molecule smoothened agonist prevents glucocorticoid-induced neonatal cerebellar injuryMyelin gene regulatory factor is a critical transcriptional regulator required for CNS myelinationHypomyelinating leukodystrophies: translational research progress and prospectsProtein kinase C-associated kinase (PKK), a novel membrane-associated, ankyrin repeat-containing protein kinaseExpression pattern of the transcription factor Olig2 in response to brain injuries: implications for neuronal repair.Phosphorylation state of Olig2 regulates proliferation of neural progenitorsThe central nervous system-restricted transcription factor Olig2 opposes p53 responses to genotoxic damage in neural progenitors and malignant gliomaA genome-wide screen for spatially restricted expression patterns identifies transcription factors that regulate glial developmentDlx1 and Dlx2 control neuronal versus oligodendroglial cell fate acquisition in the developing forebrainCerebellar cortical lamination and foliation require cyclin A2A FOXO-Pak1 transcriptional pathway controls neuronal polarityEvolving concepts of gliogenesis: a look way back and ahead to the next 25 yearsSix3 promotes the formation of ectopic optic vesicle-like structures in mouse embryosSmaller inner ear sensory epithelia in Neurog 1 null mice are related to earlier hair cell cycle exitDysregulation of the Wnt pathway inhibits timely myelination and remyelination in the mammalian CNSThe Role of the Neurointensive Care Nursery for Neonatal Encephalopathy.Identification of molecular compartments and genetic circuitry in the developing mammalian kidneyCNS-resident glial progenitor/stem cells produce Schwann cells as well as oligodendrocytes during repair of CNS demyelination.Extensive migration of young neurons into the infant human frontal lobeAblation of NG2 proteoglycan leads to deficits in brown fat function and to adult onset obesity.Cerebellar 'transcriptome' reveals cell-type and stage-specific expression during postnatal development and tumorigenesis.A Sequentially Priming Phosphorylation Cascade Activates the Gliomagenic Transcription Factor Olig2.Neurotoxic reactive astrocytes are induced by activated microglia.An amino terminal phosphorylation motif regulates intranuclear compartmentalization of Olig2 in neural progenitor cells.Dexamethasone destabilizes Nmyc to inhibit the growth of hedgehog-associated medulloblastomaOligodendrocyte-encoded HIF function couples postnatal myelination and white matter angiogenesis.Developmental genetics of vertebrate glial-cell specification.Pro-neural miR-128 is a glioma tumor suppressor that targets mitogenic kinases.Corridors of migrating neurons in the human brain and their decline during infancy.Oligodendrocyte PTEN is required for myelin and axonal integrity, not remyelinationMalignant glioma: genetics and biology of a grave matter.Molecular diversity of astrocytes with implications for neurological disorders.Origin of oligodendrocytes in the subventricular zone of the adult brain.Postnatal growth of the human pons: a morphometric and immunohistochemical analysis.
P50
Q21133540-D620E0D7-BF41-4E68-9C8E-338737DCB54EQ24294672-51650FA2-0A2A-4DF8-BDC1-0AFEEEF41DE9Q24321502-1D891E0E-C33B-42E6-8211-0B621086A729Q24338675-FC0A5846-B9F1-4EEE-8C73-4752E52BA20BQ24546061-A5AB7E65-36E4-4F65-9EBE-680741613E11Q24555202-065C48D6-4663-4ED1-A450-C3EA5BDE2254Q24607445-1320D506-05D8-4681-B9DC-50CD3135BEBBQ24657511-DA7BEF61-D1F9-40BD-B0F8-12CADF149CCDQ27012678-BD7E0BDC-D2A0-4BB4-BE30-B26837F972EFQ28207788-BF8F470B-A10D-4FD8-BC4F-DF594E70CC83Q28285265-56B39AE2-3843-4569-9F0D-1F9040191765Q28306707-8B0C5D22-E1F1-4CC2-8062-BB67E640AC5FQ28307211-6546DE6A-8573-4917-88A7-092471D85517Q28507109-B9925BD1-E5C9-4F82-AF0F-59CE2BCE862FQ28507166-A184ACDF-3082-4706-9434-B6C1F78E8309Q28539415-F305D3DE-A4D2-4687-9F7A-0430DEB81C24Q28569856-6EAF89AB-897C-4119-A7FE-5D8B95CF2F34Q28583264-712002C7-3F3D-4064-9FD7-F4A4C349CDADQ28585074-EADC1A59-81DE-4020-9A61-903C2E9CF65BQ28585974-4613D7D7-159B-4CEC-BA0C-ADDEE4125EF5Q28589814-F65A3397-9573-4ED0-B709-28DE9A0F5C3CQ30248495-A51B8E6E-C437-4D6F-B768-AA52928E9CEBQ30419294-C9A9BF9B-39D6-449B-AD5A-13AD7983BBD9Q30559101-EE030BA9-205F-4389-A46A-2C19FD55F5A7Q30851577-D22624A5-6FC8-4B74-A4D0-43176054D775Q31047365-017E0BA3-5060-499B-913F-C734E4CD3146Q33256932-9B566A8A-0D48-49AA-BF47-98CF7DC5FE68Q33571714-7CB9A963-B941-4378-BBAE-B560CE8F0574Q33602850-FE51155E-9BF1-4F75-8A29-555F57A97185Q33770410-31FF9589-A969-4445-820A-E283A4F3F064Q33959062-CD520AE9-DE44-4BFD-B58E-A26E4ECC5BADQ34111842-80348C50-091F-4916-BE96-02F422ED405DQ34149150-FA30C35B-607B-47EF-8A73-146B88319E8EQ34159409-87A9C3A0-9BBA-4F4C-B9A6-1F7612712480Q34220792-B26CE89F-1086-4BF1-9F38-8DEAD2A5F591Q34253257-38F8F8BF-83D4-4FAE-BD58-FAB68F322954Q34272357-E2145AE6-BE9E-4400-A7B2-5F692E2E9C5CQ34375615-BF2E43F9-5F2D-463B-B30E-0C99079D8457Q34551388-C6E03960-0E26-43CA-8A1C-E1021620878EQ34735253-4C388905-2B7C-45A3-9F1C-DC604B76922A
P50
description
researcher ORCID ID = 0000-0002-0079-0060
@en
wetenschapper
@nl
name
David H Rowitch
@ast
David H Rowitch
@en
David H Rowitch
@nl
type
label
David H Rowitch
@ast
David H Rowitch
@en
David H Rowitch
@nl
prefLabel
David H Rowitch
@ast
David H Rowitch
@en
David H Rowitch
@nl
P108
P108
P21
P31
P496
0000-0002-0079-0060