| scholarly article | Q13442814 |
| P50 | author | Weilan Ye | Q64667962 |
| P2093 | author name string | A Rosenthal | |
| J L Rubenstein | |||
| K Shimamura | |||
| M A Hynes | |||
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| P433 | issue | 5 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | dopamine | Q170304 |
| P304 | page(s) | 755-766 | |
| P577 | publication date | 1998-05-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | FGF and Shh signals control dopaminergic and serotonergic cell fate in the anterior neural plate | |
| P478 | volume | 93 |
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| Q27310383 | Capture of neuroepithelial-like stem cells from pluripotent stem cells provides a versatile system for in vitro production of human neurons |
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| Q47262338 | Cografting astrocytes improves cell therapeutic outcomes in a Parkinson's disease model |
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| Q38098494 | Deep homology of arthropod central complex and vertebrate basal ganglia |
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| Q34761864 | Dosage of Fgf8 determines whether cell survival is positively or negatively regulated in the developing forebrain |
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| Q54967971 | Effects of Passage Number and Differentiation Protocol on the Generation of Dopaminergic Neurons from Rat Bone Marrow-Derived Mesenchymal Stem Cells. |
| Q43679034 | Effects of retinoic acid upon eye field morphogenesis and differentiation |
| Q28574309 | Effects on differentiation of embryonic ventral midbrain progenitors by Lmx1a, Msx1, Ngn2, and Pitx3 |
| Q48464838 | Efficient Conversion of Spermatogonial Stem Cells to Phenotypic and Functional Dopaminergic Neurons via the PI3K/Akt and P21/Smurf2/Nolz1 Pathway. |
| Q40876310 | Efficient generation of midbrain and hindbrain neurons from mouse embryonic stem cells. |
| Q44658178 | Elimination of serotonergic cells induces a marked increase in generation of dopaminergic neurons from mesencephalic precursors |
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| Q34087216 | Embryonic stem cells go dopaminergic |
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| Q44796512 | Generation of embryonic stem cells and transgenic mice expressing green fluorescence protein in midbrain dopaminergic neurons |
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| Q37282822 | Midbrain dopaminergic neuron fate specification: Of mice and embryonic stem cells |
| Q38100525 | Midbrain dopaminergic neurons: a review of the molecular circuitry that regulates their development. |
| Q44530700 | Moderate alcohol exposure compromises neural tube midline development in prenatal brain. |
| Q37535559 | Molecular basis for catecholaminergic neuron diversity |
| Q46567732 | Molecular interactions coordinating the development of the forebrain and face. |
| Q35014585 | Molecular marker differences relate to developmental position and subsets of mesodiencephalic dopaminergic neurons |
| Q35209059 | Molecular mechanisms controlling the development of dopaminergic neurons |
| Q35092303 | Molecular mechanisms of selective dopaminergic neuronal death in Parkinson's disease |
| Q35586624 | Molecular mechanisms underlying midbrain dopamine neuron development and function |
| Q28729265 | Molecular organization and timing of Wnt1 expression define cohorts of midbrain dopamine neuron progenitors in vivo |
| Q48197340 | Molecular players in the development and maintenance of mesencephalic dopamine systems |
| Q34261909 | Molecular regulation of striatal development: a review. |
| Q37465584 | Monorail/Foxa2 regulates floorplate differentiation and specification of oligodendrocytes, serotonergic raphé neurones and cranial motoneurones |
| Q36599922 | Morphogen to mitogen: the multiple roles of hedgehog signalling in vertebrate neural development |
| Q30467171 | Morphological and functional midbrain phenotypes in Fibroblast Growth Factor 17 mutant mice detected by Mn-enhanced MRI |
| Q33665800 | Motor neuron vulnerability and resistance in amyotrophic lateral sclerosis |
| Q27928032 | Multi-compartmental biomaterial scaffolds for patterning neural tissue organoids in models of neurodevelopment and tissue regeneration |
| Q41897447 | Multiple roles of beta-catenin in controlling the neurogenic niche for midbrain dopamine neurons. |
| Q34185965 | Neural plate patterning: upstream and downstream of the isthmic organizer |
| Q44782717 | Neural precursor cells derived from human embryonic brain retain regional specificity |
| Q36041751 | Neural stem cells: progenitors or panacea? |
| Q36503816 | Neural subtype specification from embryonic stem cells |
| Q33733717 | Neurogenetics of the cerebellar system. |
| Q24595870 | Neuronal patterning by BMPs: a requirement for GDF7 in the generation of a discrete class of commissural interneurons in the mouse spinal cord |
| Q43828157 | Neuronal promoter of human aromatic L-amino acid decarboxylase gene directs transgene expression to the adult floor plate and aminergic nuclei induced by the isthmus |
| Q35681491 | Neurorestoration in Parkinson's disease by cell replacement and endogenous regeneration |
| Q33688067 | New prospects for human stem-cell therapy in the nervous system |
| Q28594518 | Nigrostriatal innervation is preserved in Nurr1-null mice, although dopaminergic neuron precursors are arrested from terminal differentiation |
| Q37058701 | Of rodents and humans: A comparative review of the neurobehavioral effects of early life SSRI exposure in preclinical and clinical research |
| Q34264915 | Oligodendrocyte development in the spinal cord and telencephalon: common themes and new perspectives |
| Q34026921 | On the range of hedgehog signaling |
| Q53204300 | Onecut transcription factors are required for the second phase of development of the A13 dopaminergic nucleus in the mouse. |
| Q46941800 | Ongoing sonic hedgehog signaling is required for dorsal midline formation in the developing forebrain |
| Q37735795 | Ontogeny of substantia nigra dopamine neurons. |
| Q46562616 | Ontogeny of tyrosine hydroxylase mRNA expression in mid- and forebrain: neuromeric pattern and novel positive regions. |
| Q39838576 | Ontogeny-recapitulating generation and tissue integration of ES cell-derived Purkinje cells. |
| Q28506963 | Otx dose-dependent integrated control of antero-posterior and dorso-ventral patterning of midbrain |
| Q37838914 | Otx genes in neurogenesis of mesencephalic dopaminergic neurons |
| Q28550104 | Otx2 Requires Lmx1b to Control the Development of Mesodiencephalic Dopaminergic Neurons |
| Q48515364 | Otx2 controls identity and fate of glutamatergic progenitors of the thalamus by repressing GABAergic differentiation. |
| Q24297619 | Over-expression of alpha-synuclein in human neural progenitors leads to specific changes in fate and differentiation |
| Q36549267 | Oxygen Tension Within the Neurogenic Niche Regulates Dopaminergic Neurogenesis in the Developing Midbrain |
| Q38057859 | Parkinson's disease: from genetics to treatments |
| Q22337080 | Peptidergic agonists of activity-dependent neurotrophic factor protect against prenatal alcohol-induced neural tube defects and serotonin neuron loss |
| Q34118080 | Persistent dopamine functions of neurons derived from embryonic stem cells in a rodent model of Parkinson disease |
| Q34172684 | Pet-1 ETS gene plays a critical role in 5-HT neuron development and is required for normal anxiety-like and aggressive behavior. |
| Q37735797 | Phenotype, compartmental organization and differential vulnerability of nigral dopaminergic neurons. |
| Q38295627 | Phenotypic differentiation during migration of dopaminergic progenitor cells to the olfactory bulb. |
| Q28594955 | Pitx3 activates mouse tyrosine hydroxylase promoter via a high-affinity binding site |
| Q44408466 | Pitx3 is required for motor activity and for survival of a subset of midbrain dopaminergic neurons |
| Q28588138 | Pitx3 regulates tyrosine hydroxylase expression in the substantia nigra and identifies a subgroup of mesencephalic dopaminergic progenitor neurons during mouse development |
| Q77891971 | Plasticity and stem cells in the vertebrate nervous system |
| Q37269000 | Pleiotropic function of FGF-4: its role in development and stem cells |
| Q36804572 | Potential application of embryonic stem cells in Parkinson's disease: drug screening and cell therapy |
| Q43542067 | Prenatal alcohol exposure retards the migration and development of serotonin neurons in fetal C57BL mice |
| Q50550801 | Primary cilia are critical for Sonic hedgehog-mediated dopaminergic neurogenesis in the embryonic midbrain. |
| Q48895003 | Prolonged membrane depolarization enhances midbrain dopamine neuron differentiation via epigenetic histone modifications. |
| Q28138668 | Prospects for new restorative and neuroprotective treatments in Parkinson's disease |
| Q50454566 | Reducing glypican-4 in ES cells improves recovery in a rat model of Parkinson's disease by increasing the production of dopaminergic neurons and decreasing teratoma formation. |
| Q64943344 | Reelin controls the positioning of brainstem serotonergic raphe neurons. |
| Q24314633 | Regionally specified human neural progenitor cells derived from the mesencephalon and forebrain undergo increased neurogenesis following overexpression of ASCL1 |
| Q34121992 | Regionally-specified second trimester fetal neural stem cells reveals differential neurogenic programming |
| Q32061713 | Regulation of retinal ganglion cell production by Sonic hedgehog. |
| Q38619768 | Regulation of the development of tectal neurons and their projections by transcription factors Brn3a and Pax7. |
| Q40833719 | Regulation of the tyrosine hydroxylase and dopamine beta-hydroxylase genes by the transcription factor AP-2. |
| Q47701725 | Regulatory analysis of the mouse Fgf3 gene: control of embryonic expression patterns and dependence upon sonic hedgehog (Shh) signalling |
| Q92481835 | Replacing what's lost: a new era of stem cell therapy for Parkinson's disease |
| Q39976608 | Repression of Fgf signaling by sprouty1-2 regulates cortical patterning in two distinct regions and times |
| Q36860046 | Retinoid acid specifies neuronal identity through graded expression of Ascl1. |
| Q39897306 | Role of Nurr1 and Ret in inducing rat embryonic neural precursors to dopaminergic neurons |
| Q49135878 | Role of Nurr1 in the Generation and Differentiation of Dopaminergic Neurons from Stem Cells. |
| Q57771862 | Role of Otx transcription factors in brain development |
| Q44427111 | SHH and FGF8 play distinct roles during development of noradrenergic neurons in the locus coeruleus of the zebrafish |
| Q34109406 | Selection Based on FOXA2 Expression Is Not Sufficient to Enrich for Dopamine Neurons From Human Pluripotent Stem Cells |
| Q37037504 | Selection of embryonic stem cell-derived enhanced green fluorescent protein-positive dopamine neurons using the tyrosine hydroxylase promoter is confounded by reporter gene expression in immature cell populations |
| Q30304529 | Serotonergic neurons transiently require a midline-derived FGF signal |
| Q28754770 | Shared developmental mechanisms pattern the vertebrate gill arch and paired fin skeletons |
| Q35865749 | Shh signaling guides spatial pathfinding of raphespinal tract axons by multidirectional repulsion |
| Q36366889 | Signaling by bone morphogenetic proteins directs formation of an ectodermal signaling center that regulates craniofacial development. |
| Q40796007 | Signals from the ventral midline and isthmus regulate the development of Brn3.0-expressing neurons in the midbrain |
| Q33889250 | Sim1 is a novel regulator in the differentiation of mouse dorsal raphe serotonergic neurons |
| Q28594387 | Smoothened mutants reveal redundant roles for Shh and Ihh signaling including regulation of L/R symmetry by the mouse node |
| Q40644925 | Sonic hedgehog and FGF8 collaborate to induce dopaminergic phenotypes in the Nurr1-overexpressing neural stem cell |
| Q40799364 | Sonic hedgehog facilitates dopamine differentiation in the presence of a mesencephalic glial cell line. |
| Q28572747 | Sonic hedgehog regulates adult neural progenitor proliferation in vitro and in vivo |
| Q35485792 | Sorting the wheat from the chaff in dopamine neuron-based cell therapies. |
| Q34460286 | Spatial and temporal requirements for sonic hedgehog in the regulation of thalamic interneuron identity |
| Q36672240 | Specification and differentiation of serotonergic neurons |
| Q34718055 | Specification of catecholaminergic and serotonergic neurons. |
| Q33540125 | Specification of dopaminergic and serotonergic neurons in the vertebrate CNS. |
| Q47136847 | Specification of murine ground state pluripotent stem cells to regional neuronal populations. |
| Q41650135 | Specification of neurotransmitter identity by Phox2 proteins in neural crest stem cells |
| Q45297477 | Stem and progenitor cell-based therapy of the human central nervous system. |
| Q36729785 | Stem cell myths |
| Q90175398 | Stem cell therapy for Parkinson's disease: safety and modeling |
| Q37041593 | Stem cells expanded from the human embryonic hindbrain stably retain regional specification and high neurogenic potency |
| Q37002530 | Stem cells in development of therapeutics for Parkinson's disease: a perspective |
| Q34657608 | Stem cells in the treatment of Parkinson's disease. |
| Q34649735 | Stem-cell-based strategies for the treatment of Parkinson's disease |
| Q40381244 | Stromal cell-derived inducing activity, Nurr1, and signaling molecules synergistically induce dopaminergic neurons from mouse embryonic stem cells. |
| Q26827511 | Subset specification of central serotonergic neurons |
| Q48229313 | Sustained interactive Wnt and FGF signaling is required to maintain isthmic identity |
| Q36041628 | Tectonic‑1 contributes to the growth and migration of prostate cancer cells in vitro |
| Q50658399 | Telencephalic neural precursor cells show transient competence to interpret the dopaminergic niche of the embryonic midbrain. |
| Q35813916 | Teleostean and mammalian forebrains contrasted: Evidence from genes to behavior |
| Q36922947 | Temporal and spatial requirements of Smoothened in ventral midbrain neuronal development |
| Q38536402 | Temporally controlled modulation of FGF/ERK signaling directs midbrain dopaminergic neural progenitor fate in mouse and human pluripotent stem cells |
| Q28645883 | The ETS domain factor Pet-1 is an early and precise marker of central serotonin neurons and interacts with a conserved element in serotonergic genes |
| Q102220922 | The Mouse Dorsal Raphe Nucleus as Understood by Temporal Fgf8 Lineage Analysis |
| Q39381816 | The Multiple Roles of FGF Signaling in the Developing Spinal Cord. |
| Q35584090 | The developmental role of serotonin: news from mouse molecular genetics |
| Q48566256 | The dopamine D2 receptor regulates the development of dopaminergic neurons via extracellular signal-regulated kinase and Nurr1 activation. |
| Q41970350 | The duration of Fgf8 isthmic organizer expression is key to patterning different tectal-isthmo-cerebellum structures |
| Q39928191 | The embryonic midbrain directs neuronal specification of embryonic stem cells at early stages of differentiation |
| Q28590677 | The endothelial-cell-derived secreted factor Egfl7 regulates vascular tube formation |
| Q36611483 | The engrailed transcription factors and the mesencephalic dopaminergic neurons. |
| Q34299883 | The evolving concept of a stem cell: entity or function? |
| Q38200738 | The lifelong maintenance of mesencephalic dopaminergic neurons by Nurr1 and engrailed |
| Q51300028 | The neurotoxicity of DE-71: effects on neural development and impairment of serotonergic signaling in zebrafish larvae. |
| Q34730592 | The role of astroglia on the survival of dopamine neurons. |
| Q26801864 | The role of dopaminergic and serotonergic systems in neurodevelopmental disorders: a focus on epilepsy and seizure susceptibility |
| Q34828148 | The role of microRNAs in human neural stem cells, neuronal differentiation and subtype specification |
| Q33861795 | The role of transcription factor Pitx3 in dopamine neuron development and Parkinson's disease |
| Q35095750 | The roles of Hedgehogs and Fibroblast Growth Factors in eye development and retinal cell rescue. |
| Q48270999 | The serotonergic phenotype is acquired by converging genetic mechanisms within the zebrafish central nervous system |
| Q41710059 | The seven-transmembrane receptor smoothened cell-autonomously induces multiple ventral cell types |
| Q35161067 | Timing of Sonic hedgehog and Gli1 expression segregates midbrain dopamine neurons |
| Q38257305 | Transcriptional comparison of human induced and primary midbrain dopaminergic neurons |
| Q28588303 | Transcriptional repression coordinates the temporal switch from motor to serotonergic neurogenesis |
| Q44495486 | Transforming growth factor-beta(s) are essential for the development of midbrain dopaminergic neurons in vitro and in vivo. |
| Q37014769 | Transplanted dopamine neurons derived from primate ES cells preferentially innervate DARPP-32 striatal progenitors within the graft. |
| Q61804246 | Treatment of Parkinson's Disease through Personalized Medicine and Induced Pluripotent Stem Cells |
| Q45020492 | Tyrosine hydroxylase induction by basic fibroblast growth factor and cyclic AMP analogs in striatal neural stem cells: role of ERK1/ERK2 mitogen-activated protein kinase and protein kinase C. |
| Q39085008 | Understanding Parkinson's Disease through the Use of Cell Reprogramming |
| Q34435136 | Variation of serotonergic gene expression: neurodevelopment and the complexity of response to psychopharmacologic drugs |
| Q36982676 | Ventral specification and perturbed boundary formation in the mouse midbrain in the absence of Hedgehog signaling |
| Q46829388 | Visualization of monoaminergic neurons and neurotoxicity of MPTP in live transgenic zebrafish |
| Q35618872 | Vitamin C facilitates dopamine neuron differentiation in fetal midbrain through TET1- and JMJD3-dependent epigenetic control manner |
| Q28505281 | Wnt antagonism of Shh facilitates midbrain floor plate neurogenesis |
| Q52323008 | Wnt signal activation induces midbrain specification through direct binding of the beta-catenin/TCF4 complex to the EN1 promoter in human pluripotent stem cells. |
| Q28118756 | Wnt1-lmx1a forms a novel autoregulatory loop and controls midbrain dopaminergic differentiation synergistically with the SHH-FoxA2 pathway |
| Q28587554 | Wnt5a cooperates with canonical Wnts to generate midbrain dopaminergic neurons in vivo and in stem cells |
| Q30480781 | Wnt5a-treated midbrain neural stem cells improve dopamine cell replacement therapy in parkinsonian mice |
| Q37347197 | Zebrafish Hagoromo mutants up-regulate fgf8 postembryonically and develop neuroblastoma |
| Q34660824 | Zebrafish homologue irx1a is required for the differentiation of serotonergic neurons |
| Q44240668 | Zinc finger protein too few controls the development of monoaminergic neurons |
| Q28587845 | p57(Kip2) cooperates with Nurr1 in developing dopamine cells |
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