| scholarly article | Q13442814 |
| P50 | author | Jean-François Brunet | Q58514344 |
| Christo Goridis | Q67488065 | ||
| Alexandre Pattyn | Q73145260 | ||
| P2093 | author name string | Hirsch M | |
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 10 | |
| P304 | page(s) | 1349-1358 | |
| P577 | publication date | 2000-04-01 | |
| P1433 | published in | Development | Q3025404 |
| P1476 | title | Control of hindbrain motor neuron differentiation by the homeobox gene Phox2b | |
| P478 | volume | 127 |
| Q37472322 | A developmental and genetic classification for midbrain-hindbrain malformations |
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| Q35591780 | ARIX gene polymorphisms in patients with congenital superior oblique muscle palsy |
| Q34170561 | Brainstem respiratory oscillators develop independently of neuronal migration defects in the Wnt/PCP mouse mutant looptail |
| Q37571080 | Breathing with phox2b |
| Q30357260 | Cellular and Molecular Underpinnings of Neuronal Assembly in the Central Auditory System during Mouse Development. |
| Q30488004 | Chick Lrrn2, a novel downstream effector of Hoxb1 and Shh, functions in the selective targeting of rhombomere 4 motor neurons |
| Q55519465 | Cholinergic differentiation occurs early in mouse sympathetic neurons and requires Phox2b. |
| Q50624483 | Combinatorial analysis of developmental cues efficiently converts human pluripotent stem cells into multiple neuronal subtypes. |
| Q34123574 | Congenital abnormalities of cranial nerve development: overview, molecular mechanisms, and further evidence of heterogeneity and complexity of syndromes with congenital limitation of eye movements. |
| Q35964537 | Coordinated temporal and spatial control of motor neuron and serotonergic neuron generation from a common pool of CNS progenitors. |
| Q35669445 | Crossing the border: molecular control of motor axon exit |
| Q43999174 | Cyclin-dependent kinase 5/p35 contributes synergistically with Reelin/Dab1 to the positioning of facial branchiomotor and inferior olive neurons in the developing mouse hindbrain. |
| Q28265834 | Defective respiratory rhythmogenesis and loss of central chemosensitivity in Phox2b mutants targeting retrotrapezoid nucleus neurons |
| Q35453975 | Deterministic HOX patterning in human pluripotent stem cell-derived neuroectoderm |
| Q47375368 | Dynamic expression of RGS4 in the developing nervous system and regulation by the neural type-specific transcription factor Phox2b. |
| Q30359827 | Dynamic expression of transcription factor Brn3b during mouse cranial nerve development |
| Q41700743 | Dysregulation of locus coeruleus development in congenital central hypoventilation syndrome |
| Q33835242 | Embryonic development of selectively vulnerable neurons in Parkinson's disease. |
| Q33719831 | Epibranchial ganglia orchestrate the development of the cranial neurogenic crest |
| Q28508554 | Eya1 and Six1 are essential for early steps of sensory neurogenesis in mammalian cranial placodes |
| Q28360662 | Formation of brainstem (nor)adrenergic centers and first-order relay visceral sensory neurons is dependent on homeodomain protein Rnx/Tlx3 |
| Q27310250 | Functional Diversification of Motor Neuron-specific Isl1 Enhancers during Evolution |
| Q37335277 | Generation of spinal motor neurons from human fetal brain-derived neural stem cells: role of basic fibroblast growth factor |
| Q48102533 | Hindbrain interneurons and axon guidance signaling critical for breathing |
| Q30466680 | Homeoprotein Phox2b commands a somatic-to-visceral switch in cranial sensory pathways |
| Q28472970 | Hox paralog group 2 genes control the migration of mouse pontine neurons through slit-robo signaling |
| Q35617882 | Hoxb1 functions in both motoneurons and in tissues of the periphery to establish and maintain the proper neuronal circuitry |
| Q37397243 | ISL1-based LIM complexes control Slit2 transcription in developing cranial motor neurons. |
| Q36739761 | Identification of Phox2b-regulated genes by expression profiling of cranial motoneuron precursors. |
| Q47908899 | Induction of a parafacial rhythm generator by rhombomere 3 in the chick embryo. |
| Q37728150 | Ionic mechanisms of central CO(2) chemosensitivity |
| Q36885615 | Lateral line, otic and epibranchial placodes: developmental and evolutionary links? |
| Q38011006 | Maintaining differentiated cellular identity |
| Q28511004 | Mash1 and Math3 are required for development of branchiomotor neurons and maintenance of neural progenitors |
| Q64094612 | Molecular Profiling Defines Evolutionarily Conserved Transcription Factor Signatures of Major Vestibulospinal Neuron Groups |
| Q35841010 | Motor axon exit from the mammalian spinal cord is controlled by the homeodomain protein Nkx2.9 via Robo-Slit signaling |
| Q38262891 | Motor neurons and the generation of spinal motor neuron diversity |
| Q34473957 | Nkx2.2 and Nkx2.9 are the key regulators to determine cell fate of branchial and visceral motor neurons in caudal hindbrain |
| Q28512715 | Nkx6-1 controls the identity and fate of red nucleus and oculomotor neurons in the mouse midbrain |
| Q52884470 | Nonsense pathogenic variants in exon 1 of PHOX2B lead to translational reinitiation in congenital central hypoventilation syndrome. |
| Q40929170 | Novel neuropathologic findings in the Haddad syndrome. |
| Q30493548 | PHOX2A regulation of oculomotor complex nucleogenesis |
| Q34517627 | Phox2b influences the development of a caudal dopaminergic subset |
| Q34695393 | Precraniate origin of cranial motoneurons. |
| Q28584836 | Reciprocal gene replacements reveal unique functions for Phox2 genes during neural differentiation. |
| Q30430121 | Retrotrapezoid nucleus and parafacial respiratory group |
| Q36676206 | Serotonergic transcriptional networks and potential importance to mental health |
| Q30657194 | Shox2 is required for the proper development of the facial motor nucleus and the establishment of the facial nerves |
| Q47664505 | Structural and functional differences in PHOX2B frameshift mutations underlie isolated or syndromic congenital central hypoventilation syndrome. |
| Q58743516 | Sympathetic tales: subdivisons of the autonomic nervous system and the impact of developmental studies |
| Q28592757 | T-Box transcription factor Tbx20 regulates a genetic program for cranial motor neuron cell body migration |
| Q89259652 | Talking back: Development of the olivocochlear efferent system |
| Q28512755 | Teashirt 3 regulates development of neurons involved in both respiratory rhythm and airflow control |
| Q36359357 | The mouse Wnt/PCP protein Vangl2 is necessary for migration of facial branchiomotor neurons, and functions independently of Dishevelled |
| Q38070334 | The role of genetic and epigenetic alterations in neuroblastoma disease pathogenesis |
| Q34544958 | The sacral autonomic outflow is sympathetic. |
| Q36585875 | The splicing regulator PTBP1 controls the activity of the transcription factor Pbx1 during neuronal differentiation. |
| Q36841205 | Transcription factors define the neuroanatomical organization of the medullary reticular formation |
| Q40013052 | Trim11 increases expression of dopamine beta-hydroxylase gene by interacting with Phox2b. |
| Q30497143 | Turning heads: development of vertebrate branchiomotor neurons |
| Q36900418 | Understanding the rhythm of breathing: so near, yet so far. |
| Q37621018 | Vascular endothelial growth factor controls neuronal migration and cooperates with Sema3A to pattern distinct compartments of the facial nerve |
| Q48361312 | Vesicular glutamate transporter 2 is required for central respiratory rhythm generation but not for locomotor central pattern generation. |
| Q41767007 | olig2-Expressing hindbrain cells are required for migrating facial motor neurons |
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