Neural progenitors organize in small-world networks to promote cell proliferation
about
How Does Transcranial Magnetic Stimulation Influence Glial Cells in the Central Nervous System?Calcium signaling in neocortical developmentUnprecedented cell-selection using ultra-quick freezing combined with aquaporin expressionRe-membering the body: applications of computational neuroscience to the top-down control of regeneration of limbs and other complex organsMinireview: the impact of antenatal therapeutic synthetic glucocorticoids on the developing fetal brainAcetylcholine released by endothelial cells facilitates flow-mediated dilatationThe G protein-coupled receptor GPR157 regulates neuronal differentiation of radial glial progenitors through the Gq-IP3 pathwayNetwork analysis of time-lapse microscopy recordings.Caveolin-1 regulates genomic action of the glucocorticoid receptor in neural stem cells.Transient muscarinic and glutamatergic stimulation of neural stem cells triggers acute and persistent changes in differentiation.Improved estimation and interpretation of correlations in neural circuitsEmergence of rich-club topology and coordinated dynamics in development of hippocampal functional networks in vitro.Neurons forming optic glomeruli compute figure-ground discriminations in DrosophilaCO2-evoked release of PGE2 modulates sighs and inspiration as demonstrated in brainstem organotypic culture.Connexins: junctional and non-junctional modulators of proliferation.Mapping genes for calcium signaling and their associated human genetic disorders.Encoding and decoding time in neural development.Phosphorylation of residues inside the SNARE complex suppresses secretory vesicle fusionThe Endothelium Solves Problems That Endothelial Cells Do Not Know Exist.The building of the neocortex with non-hyperpolarizing neurotransmitters.Identification and dynamic regulation of tight junction protein expression in human neural stem cells.Flow Shear Stress Enhances the Proliferative Potential of Cultured Radial Glial Cells Possibly Via an Activation of Mechanosensitive Calcium Channel.Small-world networks of spontaneous Ca(2+) activity.Gap junction proteins in the blood-brain barrier control nutrient-dependent reactivation of Drosophila neural stem cells.Mesenchymal stem cell differentiation: Control by calcium-activated potassium channels.Comparative Analysis of Spontaneous and Stimulus-Evoked Calcium Transients in Proliferating and Differentiating Human Midbrain-Derived Stem Cells.Heterogeneity and nearest-neighbor coupling can explain small-worldness and wave properties in pancreatic islets.Secretagogin protects Pdx1 from proteasomal degradation to control a transcriptional program required for β cell specification.In vivo two-photon imaging of the embryonic cortex reveals spontaneous ketamine-sensitive calcium activity
P2860
Q26752587-48B0FEC6-1913-47F9-A938-E0BA0EC7DA17Q27004295-20EF517C-4260-4AB5-9DED-037F180FDCC0Q27324336-C1751426-1A18-4774-914E-F18A695C6CDDQ28084675-C2EF2DFE-FD3C-461F-B6F4-09D037688429Q28085262-B4CF999A-E5DA-442D-AAC5-54F7CBD1B697Q28817402-41D57007-7C7D-4F86-BA8E-5568325060D0Q28854391-74889839-914D-4947-A97E-E263FA2098EBQ30587114-47803CEC-D5CB-4E79-8F43-C620F9434D7FQ33899866-8ABC7ECB-88DA-45D3-BBAF-5EC112B09F5CQ34122870-5C6693FA-15A4-43A0-8213-8F1F8BDEF528Q35235172-99E727C1-D53F-4F23-B6C9-D384F7FBB95FQ35307501-39DCCF60-71FB-42E1-9C6E-1D0C5A01032AQ35598738-7E1A154C-8834-49C1-81CC-8FD5D9D4004EQ37152945-F49AF22B-2190-413E-8451-D7A275E091CBQ38303074-CB076F39-7CC3-4535-B327-BEC49A313C4AQ38434454-C959500D-E5CA-42D3-A488-FAF4AB42FB4BQ38691234-3A5AAA4D-4266-456C-B342-C8BFE6F840FBQ38758747-DEF7D45B-4C05-42F3-9481-D8C10800B5F9Q39141751-76BCBAB0-B516-4591-BD98-844FABF22A92Q39170149-26CDDA77-5DA1-4748-8BC1-DC913366462EQ41601556-DF60A3D4-FB99-4FC7-B380-791ECD8E450DQ42044214-68B0F556-1FF3-4D54-9347-38F90F78B8A0Q42188705-6968D50D-DA26-4364-8306-0AB59B9B0F08Q42271735-319910BE-07EA-464B-92AB-DB20472E8B03Q46325883-B67DD588-0004-44D5-AEDB-D645BB606262Q48187550-9FEA0F45-CF3C-4732-A176-5A61510AADB5Q51308772-E7B70B30-79EF-48D9-BEBC-6C28610EA1D9Q55460789-618679C9-8C9D-451D-91BE-EFB035C6BA6DQ58099033-79B979D7-A416-4D50-8C66-B330EC3B4DCF
P2860
Neural progenitors organize in small-world networks to promote cell proliferation
description
2013 nî lūn-bûn
@nan
2013 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Neural progenitors organize in small-world networks to promote cell proliferation
@ast
Neural progenitors organize in small-world networks to promote cell proliferation
@en
type
label
Neural progenitors organize in small-world networks to promote cell proliferation
@ast
Neural progenitors organize in small-world networks to promote cell proliferation
@en
prefLabel
Neural progenitors organize in small-world networks to promote cell proliferation
@ast
Neural progenitors organize in small-world networks to promote cell proliferation
@en
P2093
P2860
P50
P356
P1476
Neural progenitors organize in small-world networks to promote cell proliferation
@en
P2093
Evanthia Nanou
Hampus Sunner
Henrike Planert
Paola Rebellato
Shaimaa Abdelhady
P2860
P304
P356
10.1073/PNAS.1220179110
P407
P50
P577
2013-04-01T00:00:00Z