The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration - Wikidata - wikimedia - TriplyDB

The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

http://www.wikidata.org/entity/Q40018715

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Ascl1a regulates Müller glia dedifferentiation and retinal regeneration through a Lin-28-dependent, let-7 microRNA signalling pathway A primer for morpholino use in zebrafish.Regeneration of Zebrafish CNS: Adult Neurogenesis MASH1/Ascl1a leads to GAP43 expression and axon regeneration in the adult CNS Müller glial cell-dependent regeneration of the neural retina: An overview across vertebrate model systems Inhibition of the TGFβ Pathway Enhances Retinal Regeneration in Adult Zebrafish Acheate-scute like 1 (Ascl1) is required for normal delta-like (Dll) gene expression and notch signaling during retinal development Neurog2 controls the leading edge of neurogenesis in the mammalian retina Regulated reprogramming in the regeneration of sensory receptor cells.Identification of the molecular signatures integral to regenerating photoreceptors in the retina of the zebra fish Labelling and targeted ablation of specific bipolar cell types in the zebrafish retina.Notch and Wnt signaling mediated rod photoreceptor regeneration by Müller cells in adult mammalian retina.Pax6a and Pax6b are required at different points in neuronal progenitor cell proliferation during zebrafish photoreceptor regeneration.The zebrafish galectin Drgal1-l2 is expressed by proliferating Müller glia and photoreceptor progenitors and regulates the regeneration of rod photoreceptors.Retinal regeneration in adult zebrafish requires regulation of TGFβ signaling.Müller glia: Stem cells for generation and regeneration of retinal neurons in teleost fish Reactive microglia and macrophage facilitate the formation of Müller glia-derived retinal progenitors.Conditional gene expression and lineage tracing of tuba1a expressing cells during zebrafish development and retina regeneration.The inhibitor of phagocytosis, O-phospho-L-serine, suppresses Müller glia proliferation and cone cell regeneration in the light-damaged zebrafish retina.Lens and retina regeneration: new perspectives from model organisms.Glucocorticoid receptors in the retina, Müller glia and the formation of Müller glia-derived progenitors.Zinc-binding domain-dependent, deaminase-independent actions of apolipoprotein B mRNA-editing enzyme, catalytic polypeptide 2 (Apobec2), mediate its effect on zebrafish retina regeneration.Excitotoxic brain injury in adult zebrafish stimulates neurogenesis and long-distance neuronal integration.Repressing notch signaling and expressing TNFα are sufficient to mimic retinal regeneration by inducing Müller glial proliferation to generate committed progenitor cells.Radial glia and neural progenitors in the adult zebrafish central nervous system.Embryonic stem cell-derived microvesicles induce gene expression changes in Müller cells of the retina.Genetics of photoreceptor degeneration and regeneration in zebrafish.Müller glial cell reprogramming and retina regeneration.Characteristics of rod regeneration in a novel zebrafish retinal degeneration model using N-methyl-N-nitrosourea (MNU)Ascl1a/Dkk/beta-catenin signaling pathway is necessary and glycogen synthase kinase-3beta inhibition is sufficient for zebrafish retina regeneration The rod photoreceptor lineage of teleost fish.The visual system of zebrafish and its use to model human ocular diseases.Development and neurogenic potential of Müller glial cells in the vertebrate retina.FGF signaling regulates rod photoreceptor cell maintenance and regeneration in zebrafish.HB-EGF is necessary and sufficient for Müller glia dedifferentiation and retina regeneration Injury-dependent Müller glia and ganglion cell reprogramming during tissue regeneration requires Apobec2a and Apobec2b Characterization of multiple light damage paradigms reveals regional differences in photoreceptor loss.Notch Signaling Activates Stem Cell Properties of Müller Glia through Transcriptional Regulation and Skp2-mediated Degradation of p27Kip1.Transgenic expression of the proneural transcription factor Ascl1 in Müller glia stimulates retinal regeneration in young mice.Stat3 defines three populations of Müller glia and is required for initiating maximal müller glia proliferation in the regenerating zebrafish retina

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The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

http://www.wikidata.org/entity/Q40018715

description

2008 nî lūn-bûn

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2008年論文

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2008年论文

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2008年论文

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2008年论文

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name

The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

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type

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The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

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prefLabel

The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

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JNEUROSCI.4853-07.2008

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Journal of Neuroscience

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The proneural basic helix-loop-helix gene ascl1a is required for retina regeneration

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P2093

Blake V Fausett

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Daniel Goldman

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Jessica D Gumerson

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P2860

Late-stage neuronal progenitors in the retina are radial Müller glia that function as retinal stem cells

Modulation of the notch signaling by Mash1 and Dlx1/2 regulates sequential specification and differentiation of progenitor cell types in the subcortical telencephalon

Mash1 regulates neurogenesis in the ventral telencephalon

Mash1 activates a cascade of bHLH regulators in olfactory neuron progenitors

Cones regenerate from retinal stem cells sequestered in the inner nuclear layer of adult goldfish retina.

Induction of alpha1-tubulin gene expression during development and regeneration of the fish central nervous system.

Müller glia are a potential source of neural regeneration in the postnatal chicken retina.

Molecular characterization of retinal stem cells and their niches in adult zebrafish

Notch signalling in Drosophila: three ways to use a pathway.

The proneural gene ascl1a is required for endocrine differentiation and cell survival in the zebrafish adenohypophysis.

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1109-1117

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scholarly article

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10.1523/JNEUROSCI.4853-07.2008

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2800945

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