Identification of distinct ChAT⁺ neurons and activity-dependent control of postnatal SVZ neurogenesis. - Wikidata - wikimedia - TriplyDB

Identification of distinct ChAT⁺ neurons and activity-dependent control of postnatal SVZ neurogenesis.

Identification of distinct ChAT⁺ neurons and activity-dependent control of postnatal SVZ neurogenesis.

http://www.wikidata.org/entity/Q34004415

about

Adult Neurogenesis and Gliogenesis: Possible Mechanisms for Neurorestoration Exosomes as Novel Regulators of Adult Neurogenic Niches Alzheimer's disease: Targeting the Cholinergic System A mosaic world: puzzles revealed by adult neural stem cell heterogeneity Neurovascular EGFL7 regulates adult neurogenesis in the subventricular zone and thereby affects olfactory perception.Adult neural stem cells stake their ground.ChAT-positive neurons participate in subventricular zone neurogenesis after middle cerebral artery occlusion in mice.Alpha-7 Nicotinic Receptor Signaling Pathway Participates in the Neurogenesis Induced by ChAT-Positive Neurons in the Subventricular Zone.Interleukin-1 and acute brain injury.Cholinergic Enhancement of Cell Proliferation in the Postnatal Neurogenic Niche of the Mammalian Spinal Cord.Atracurium Besylate and other neuromuscular blocking agents promote astroglial differentiation and deplete glioblastoma stem cells Essential oils from two Allium species exert effects on cell proliferation and neuroblast differentiation in the mouse dentate gyrus by modulating brain-derived neurotrophic factor and acetylcholinesterase.Discerning Neurogenic vs. Non-Neurogenic Postnatal Lateral Ventricular Astrocytes via Activity-Dependent Input.The multifaceted subventricular zone astrocyte: From a metabolic and pro-neurogenic role to acting as a neural stem cell Estradiol Facilitates Functional Integration of iPSC-Derived Dopaminergic Neurons into Striatal Neuronal Circuits via Activation of Integrin α5β1 Mice Lacking M1 and M3 Muscarinic Acetylcholine Receptors Have Impaired Odor Discrimination and Learning.Illuminating the role of cholinergic signaling in circuits of attention and emotionally salient behaviors Subventricular zone progenitors in time and space: generating neuronal diversity It takes a village: constructing the neurogenic niche.Cholinergic modulation of the hippocampal region and memory function.Sleep and oligodendrocyte functions.Adult Mammalian Neural Stem Cells and Neurogenesis: Five Decades Later.The Adult Ventricular-Subventricular Zone (V-SVZ) and Olfactory Bulb (OB) Neurogenesis.Cholinergic Circuit Control of Postnatal Neurogenesis.Neural Stem Cell Plasticity: Advantages in Therapy for the Injured Central Nervous System Neuronal Activity in Ontogeny and Oncology.Structural and resting-state MRI detects regional brain differences in young and mid-age healthy APOE-e4 carriers compared with non-APOE-e4 carriers.Explant Methodology for Analyzing Neuroblast Migration.The Cholinergic System Modulates Memory and Hippocampal Plasticity via Its Interactions with Non-Neuronal Cells.Neurotransmitter-mediated activity spatially controls neuronal migration in the zebrafish cerebellum.Space Invaders: Brain Tumor Exploitation of the Stem Cell Niche.Being a Neural Stem Cell: A Matter of Character But Defined by the Microenvironment.Neural stem cells and adult brain fatty acid metabolism: Lessons from the 3xTg model of Alzheimer's disease.Hypothalamic regulation of regionally distinct adult neural stem cells and neurogenesis.ChAT me up: how neurons control stem cells.Glioblastoma Stem Cells and Their Microenvironment.Uncovering inherent cellular plasticity of multiciliated ependyma leading to ventricular wall transformation and hydrocephalus.Sex Steroids and Adult Neurogenesis in the Ventricular-Subventricular Zone.An Active Role for Neurons in Glioma Progression: Making Sense of Scherer's Structures.Muscarinic receptor MR signaling prevents efficient remyelination by human and mouse oligodendrocyte progenitor cells

P2860

Q26746037-2038E9A8-51FC-457E-895C-E6395A5D70BD Q26772836-9F974BB7-8DBE-427F-BEC8-37B114086001 Q28070135-8BFDCED0-DAC9-4AD5-B8C9-B4DFEEB68157 Q28076963-6499B2DC-568B-4BBE-94B7-BC3AD49BE3E5 Q33861405-FFF5999E-0A23-447B-AB45-18C97DAD8B71 Q34372142-3B56B521-52AA-4C1E-AA07-EFABE57F22A2 Q34539893-74BB5854-E356-420C-8350-79CF4BBA8DD4 Q34557214-9CB33386-081E-4943-8006-B321617150DA Q35056860-8206D328-E8A2-4DF6-B0A6-4F2615156551 Q35650612-5F60DF05-72A5-452D-8201-611DECC86A10 Q35843761-613DAB73-A452-409F-87A7-1649A7657BC7 Q36181479-454F3241-5261-46D1-A2FE-DDF3DDDA6443 Q36723550-9A292862-FEE3-4B37-9326-E59D90C33897 Q36768009-C7ED18DB-749F-4D61-8679-7C9EA6E0282F Q36805014-8CF92CB7-6E67-4895-AF57-3FB8310DF5DA Q37619999-DC1C9EA3-A221-4B77-81B3-BC43886D6D8F Q38266880-A62DBD50-E30A-4FF1-9434-4955F77339E5 Q38310095-BAD9BF15-E777-4002-BA3B-14CCB5FBCCCD Q38364752-43917046-ADDD-4205-AFFF-2E85CBADFAC8 Q38372480-CDBAC130-87EE-4B9A-B8E8-2B186CEBBE62 Q38395568-6D5F7F5E-909B-4A71-972B-9665C875E1C5 Q38597817-DF895803-D49B-422E-8C88-F041266D6676 Q38798880-24EB597C-1BCB-4D39-A8F3-DB06147312C9 Q38911338-1F02F0B5-83C0-4FF0-A57C-2AC226588C3C Q39335873-5125201D-8C6D-4BFF-95DC-FB5FC8C9EED7 Q39441395-065083CA-5291-40A6-A879-FF2CE185C57C Q39958025-638F1864-78AB-4773-BD44-CC1268B88B8A Q40115701-51449D66-13EB-4F82-BB9D-EF94D2CA353C Q45931909-1AA27391-EE02-4E0A-9720-13BAB471A627 Q47200771-14F2CE03-BBE8-485C-A0E3-8F2D49F1B217 Q47901080-5CCF0331-CE2E-4AA9-AAEF-B012248A5EDB Q47933391-D58349FE-701B-4719-A0D3-B0BE93A77403 Q48033206-D8EDEC21-0E8B-4BB7-9FD2-0DAA7A1D517F Q48270508-13E09716-70F3-4551-B83E-92EB1A5C238E Q48696110-23BEC631-00CA-4006-8816-EADA2D25D419 Q50076163-CC78CF3E-5CA1-4374-9B15-CA5759942B38 Q52562778-D446DC27-E6E3-436E-A389-2394B6524128 Q52568350-F89E6F3C-EAF1-45AC-9310-2EFB60B3011D Q55457014-53CC34CC-C275-44ED-B8B9-80D3F519B05A Q57986078-345C2354-9A97-420B-9323-C923183D68A0

P2860

Identification of distinct ChAT⁺ neurons and activity-dependent control of postnatal SVZ neurogenesis.

http://www.wikidata.org/entity/Q34004415

description

2014 nî lūn-bûn

@nan

2014 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2014 թվականի հունիսին հրատարակված գիտական հոդված

@hy

2014年の論文

@ja

2014年論文

@yue

2014年論文

@zh-hant

2014年論文

@zh-hk

2014年論文

@zh-mo

2014年論文

@zh-tw

2014年论文

@wuu

name

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@ast

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@en

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@nl

type

label

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@ast

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@en

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@nl

prefLabel

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@ast

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@en

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@nl

P1433

Q34004415-A01954F9-72AE-40AC-B781-53E27F98760D

P1476

Q34004415-AE37CF99-69C5-485D-986C-15A56CC70052

P2093

Q34004415-1AF6B243-A21E-4CAD-901E-43F2A0875897

Q34004415-78705D95-39B0-4D3D-BE07-EF3F0635F866

Q34004415-CEDF6CEC-B03C-44E1-9239-3AD340F65FBA

P2860

Q34004415-0445DA44-C870-440E-8E71-001ACFC23558

Q34004415-06D68A54-B559-4B5C-A1E9-1D93CE2A18F6

Q34004415-0897AB3D-E97B-4A3D-8120-F33FD46E6862

Q34004415-23761463-9C51-4BA7-A6F3-4564FF2E2BC3

Q34004415-2E03B57B-A77C-415B-AE0D-4BE48D6FB438

Q34004415-312C53C0-5C0C-47E7-AFF4-DF4065258FDB

Q34004415-36380A26-F07B-45A7-9180-1A4FB6246616

Q34004415-3A145CA1-66A8-4C13-BD54-5FAFD17972C4

Q34004415-3D0B220A-45E8-48B2-AB39-A0116BC8EA17

Q34004415-402CA15A-D499-40A1-9664-F22999C09B9F

P2888

Q34004415-BC1E621B-7C19-4F44-890C-C2D62D7D0407

P304

Q34004415-7D58408A-EE85-4F26-843D-24574E38BF26

P31

Q34004415-1D44BEC4-D093-4AAA-9C96-316B6309540D

P356

Q34004415-B6735B82-C365-41C4-8013-677A4895D696

P407

Q34004415-6085A4B3-F17B-420D-A452-ACFA3A3FD15F

P433

Q34004415-ECEEBC9C-8BA7-4B18-B531-00DB4A7BB5E2

P478

Q34004415-50FC79F5-D1AA-46E4-8428-DFAE4DF11551

P50

Q34004415-964E0CEE-908A-4B6F-847C-4350F8FB5A34

P577

Q34004415-77E14DA8-D7AB-443B-8C6C-40B56C59D038

P5875

Q34004415-CC527DDA-7619-4175-B095-735DCA868128

P698

Q34004415-B6468E2A-B378-4291-8DD3-156104C3B443

P932

Q34004415-3D221E38-68F2-463A-B4E3-0FDE8538DB54

P356

P1433

Nature Neuroscience

P1476

Identification of distinct ChA ...... of postnatal SVZ neurogenesis.

@en

P2093

Brent Asrican

http://www.w3.org/2001/XMLSchema#string

Chay T Kuo

http://www.w3.org/2001/XMLSchema#string

Erica Rodriguez

http://www.w3.org/2001/XMLSchema#string

P2860

A beta-arrestin 2 signaling complex mediates lithium action on behavior

AnkyrinG. A new ankyrin gene with neural-specific isoforms localized at the axonal initial segment and node of Ranvier

Phenotypic and functional characterization of adult brain neuropoiesis.

The glial nature of embryonic and adult neural stem cells

AnkyrinG is required for clustering of voltage-gated Na channels at axon initial segments and for normal action potential firing

Cellular composition and three-dimensional organization of the subventricular germinal zone in the adult mammalian brain

Striatal cholinergic interneurons display activity-related phosphorylation of ribosomal protein S6

Roles of neurotransmitter in synapse formation: development of neuromuscular junctions lacking choline acetyltransferase

Postnatal deletion of Numb/Numblike reveals repair and remodeling capacity in the subventricular neurogenic niche

A gene expression atlas of the central nervous system based on bacterial artificial chromosomes

P2888

P304

934-942

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NN.3734

http://www.w3.org/2001/XMLSchema#string

P407

P433

7

http://www.w3.org/2001/XMLSchema#string

P478

17

http://www.w3.org/2001/XMLSchema#string

P50

Patricia Paez-Gonzalez

P577

2014-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

262783179

http://www.w3.org/2001/XMLSchema#string

P698

24880216

http://www.w3.org/2001/XMLSchema#string

P932

4122286

http://www.w3.org/2001/XMLSchema#string