about
A split horseradish peroxidase for the detection of intercellular protein-protein interactions and sensitive visualization of synapsesSidekick 2 directs formation of a retinal circuit that detects differential motionReconstruction of genetically identified neurons imaged by serial-section electron microscopyLabeled lines in the retinotectal system: markers for retinorecipient sublaminae and the retinal ganglion cell subsets that innervate them.Formation of lamina-specific synaptic connections.Synaptic localization and function of Sidekick recognition molecules require MAGI scaffolding proteinsSidekicks: synaptic adhesion molecules that promote lamina-specific connectivity in the retina.Dscam and Sidekick proteins direct lamina-specific synaptic connections in vertebrate retina.Synaptic adhesion molecules.Expanding the Ig superfamily code for laminar specificity in retina: expression and role of contactinsMuscle-type Identity of Proprioceptors Specified by Spatially Restricted Signals from Limb Mesenchyme.Two Pairs of ON and OFF Retinal Ganglion Cells Are Defined by Intersectional Patterns of Transcription Factor ExpressionMolecular basis of sidekick-mediated cell-cell adhesion and specificityMany paths to synaptic specificity.Interspecific comparisons reveal conserved features of the Drosophila Toll protein.Retinal ganglion cells with distinct directional preferences differ in molecular identity, structure, and central projections.Molecular identification of a retinal cell type that responds to upward motion.Versican in the developing brain: lamina-specific expression in interneuronal subsets and role in presynaptic maturation.Heterophilic Type II Cadherins Are Required for High-Magnitude Synaptic Potentiation in the Hippocampus.The winged-helix transcription factor CWH-3 is expressed in developing neural crest cells.Visual projection map specified by topographic expression of transcription factors in the retina.Tissue variation of two large chondroitin sulfate proteoglycans (PG-M/versican and PG-H/aggrecan) in chick embryos.Reporter-nanobody fusions (RANbodies) as versatile, small, sensitive immunohistochemical reagents.Roles of DSCAM in axonal decussation and fasciculation of chick spinal interneurons.Cadherins Interact With Synaptic Organizers to Promote Synaptic Differentiation.High-speed volumetric imaging of neuronal activity in freely moving rodentsThe dynamics of compartmentalization of embryonic muscle by extracellular matrix moleculesThe distribution of mesenchyme proteoglycan (PG-M) during wing bud outgrowthTarget-independent diversification and target-specific projection of chemically defined retinal ganglion cell subsetsLamina-specific expression of adhesion molecules in developing chick optic tectumLamina-specific cues guide outgrowth and arborization of retinal axons in the optic tectumHeterophilic Type II Cadherins Are Required for High-Magnitude Synaptic Potentiation in the HippocampusAuthor Correction: High-speed volumetric imaging of neuronal activity in freely moving rodentsCadherin Combinations Recruit Dendrites of Distinct Retinal Neurons to a Shared Interneuronal ScaffoldWide-Area All-Optical Neurophysiology in Acute Brain Slices
P50
Q28276002-6C411A5A-4112-4CFF-8D9B-FBCD45E1384DQ28507965-DB0A761B-439B-40C0-927F-E2F2B9F048C7Q28828988-31E58F9D-88AB-4534-BD95-7084ADF11080Q33257771-24F30282-BBF2-4B50-B06F-E13935D4595BQ33540105-B6907A7F-E4EB-479D-BC81-192AE2BAF31CQ33824536-BC9250B3-B68A-4FC6-A6F6-A0BB3566D0D9Q34149486-EAF11776-D77A-419F-8986-3E8FFEEAC1A9Q34740491-75BC1F71-2594-4EC7-A4F9-EED4F4500FFFQ35547383-BDF94BB7-4319-4D18-9C2E-A179883BBC31Q36370798-B65AEEE8-ABA4-4CC9-B43D-6A3C36346FF5Q36521492-0086675E-FC87-4286-95E1-BFD63F80A2A5Q36957864-C431B373-282F-4200-84E2-F9249F4E65C2Q37301519-79408A4B-F08B-401E-A5A7-FE68F7CC7106Q37540187-B63A0869-D6CF-409C-8FC8-F54A04BB92ACQ42602253-FF4E967D-59B1-4A19-BA43-920983F1BA70Q42746095-B8D8323C-EA14-4C2D-8266-683E33AA1111Q46681174-4D1C38E0-0D0E-4540-BC51-07D2B53239D6Q46703440-85EE2363-5679-49BD-8BBE-7F4817DE8528Q47731019-312BAEDE-C201-4B18-9755-DD8F546B486BQ47808672-30B384D4-47CF-4B5B-AEB1-7F54CE3D2010Q48061151-B432EAA4-991E-447E-9630-CC808349411FQ48294889-7678FEFC-105B-4FA2-A2A4-862A198E65CFQ50026240-48E57E4B-3E71-44B3-BAA8-9A22F2920CF8Q50434678-6C5B5E6A-282C-4655-A863-0D23FF8DA2B0Q55333151-2D7CFE39-7BEE-49D9-8482-E48EB7D24AAEQ59440895-C6535A93-FCAA-48A7-9321-65F31D31ACF6Q67956915-42FB8D73-2B4E-4022-A82B-A45508A57CDFQ68509259-05FA0F7D-BC40-4068-B848-094131366C67Q70953098-1CB6A163-C0AC-45FD-AED7-1152DC052FD3Q72334913-07C4FF3B-B2FB-4C34-9FD7-01D096F10889Q72572205-6ADCAE6F-6D7E-4BEE-AA95-D9D27C6BDCCCQ88557345-8F26D46B-2705-47FB-BB69-904B41C45241Q88768165-EDDB7466-E8E0-4DD4-BD89-D4092A5CD557Q91346175-49193F70-3202-474D-8519-A25F40E66CAFQ92885657-55A4D37C-18C2-4166-AB77-B5A7DADFF1D3
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Masahito Yamagata
@ast
Masahito Yamagata
@en
Masahito Yamagata
@es
Masahito Yamagata
@nl
Masahito Yamagata
@sl
type
label
Masahito Yamagata
@ast
Masahito Yamagata
@en
Masahito Yamagata
@es
Masahito Yamagata
@nl
Masahito Yamagata
@sl
prefLabel
Masahito Yamagata
@ast
Masahito Yamagata
@en
Masahito Yamagata
@es
Masahito Yamagata
@nl
Masahito Yamagata
@sl
P106
P2038
Masahito_Yamagata
P21
P214
2122148997676859870003
P31
P496
0000-0001-8193-2931
P569
2000-01-01T00:00:00Z