A screen of cell-surface molecules identifies leucine-rich repeat proteins as key mediators of synaptic target selection
about
sameAs
On the Teneurin track: a new synaptic organization molecule emergesPlexins function in epithelial repair in both Drosophila and zebrafish.An unbiased expression screen for synaptogenic proteins identifies the LRRTM protein family as synaptic organizersAlcohol-induced histone acetylation reveals a gene network involved in alcohol toleranceTwigs into branches: how a filopodium becomes a dendrite.A cell surface interaction network of neural leucine-rich repeat receptors.An extracellular interactome of immunoglobulin and LRR proteins reveals receptor-ligand networks.Leucine-rich repeat transmembrane proteins instruct discrete dendrite targeting in an olfactory mapTrans-synaptic adhesions between netrin-G ligand-3 (NGL-3) and receptor tyrosine phosphatases LAR, protein-tyrosine phosphatase delta (PTPdelta), and PTPsigma via specific domains regulate excitatory synapse formationFine tuning cellular recognition: The function of the leucine rich repeat (LRR) trans-membrane protein, LRT, in muscle targeting to tendon cells.Ten-a affects the fusion of central complex primordia in Drosophila.Mutation of Elfn1 in mice causes seizures and hyperactivity.Ectopic expression screen identifies genes affecting Drosophila mesoderm development including the HSPG Trol.Assessing the role of cell-surface molecules in central synaptogenesis in the Drosophila visual system.Toll receptors instruct axon and dendrite targeting and participate in synaptic partner matching in a Drosophila olfactory circuitHeritable variation in courtship patterns in Drosophila melanogaster.Positive regulation of neocortical synapse formation by the Plexin-D1 receptorExtracellular leucine-rich repeat proteins are required to organize the apical extracellular matrix and maintain epithelial junction integrity in C. elegansTrans-synaptic Teneurin signalling in neuromuscular synapse organization and target choice.unfulfilled interacting genes display branch-specific roles in the development of mushroom body axons in Drosophila melanogasterDauer-specific dendrite arborization in C. elegans is regulated by KPC-1/FurinControl of Synaptic Connectivity by a Network of Drosophila IgSF Cell Surface ProteinsIg Superfamily Ligand and Receptor Pairs Expressed in Synaptic Partners in Drosophila.TMEM184b Promotes Axon Degeneration and Neuromuscular Junction Maintenance.The cell surface receptor Tartan is a potential in vivo substrate for the receptor tyrosine phosphatase Ptp52F.Cell adhesion, the backbone of the synapse: "vertebrate" and "invertebrate" perspectives.High-throughput genetic screen for synaptogenic factors: identification of LRP6 as critical for excitatory synapse development.Molecular mechanisms of synaptic specificity.Design principles of insect and vertebrate visual systems.Setting up presynaptic structures at specific positions.Genetic dissection of synaptic specificityProtein coadaptation and the design of novel approaches to identify protein-protein interactions.Development of larval motor circuits in Drosophila.Specification of synaptic connectivity by cell surface interactions.The Drosophila Hox gene Ultrabithorax acts in both muscles and motoneurons to orchestrate formation of specific neuromuscular connections.Neural immunoglobulin superfamily interaction networks.Dpr-DIP matching expression in Drosophila synaptic pairs.The Drosophila immunoglobulin gene turtle encodes guidance molecules involved in axon pathfinding.Predicting RNA hyper-editing with a novel tool when unambiguous alignment is impossible.Lapsyn controls branch extension and positioning of astrocyte-like glia in the Drosophila optic lobe.
P2860
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
P248
Q27028029-A848030F-6E4E-4605-9D53-49DB54CAB042Q27334767-B65F5320-EE15-4342-8FA1-E5CFDA7DE3DAQ28508414-8693629C-D718-41BA-AEB4-5A9D45CC55A8Q28536909-B4D786C9-01BE-4BCF-AF75-2576FAA05A1CQ30477226-FF9BB20D-7D08-490B-8D6F-E8D0F19592D7Q30485804-EFC8F737-F384-4387-A355-D1731888E2B3Q30543807-7F986829-A125-43E0-97B3-4D5AED43E13FQ33677247-9EB20F44-D322-4142-85AC-A33DC314D87FQ33810171-C59343A7-C024-40D3-8E7C-C0DDB61050B0Q34110983-A90513E7-EADA-489B-8092-5334D3F381CCQ34600127-C08EF170-04C4-4E0C-8B77-DB480BBA3097Q35060316-E6F9F61A-3C4C-4FF7-997B-348B22BDCDBBQ35061957-DF23A4D1-EC73-4C57-8E85-19F97197631CQ35080609-6EFBCA2F-9210-4B17-A3C2-8F97E2A51FDCQ35153142-25519153-CDE5-458D-A86E-BD7DA50D1086Q35330202-1278AC81-3FD5-4A81-8C7E-4E6A3D13E694Q35733091-6C1A5982-9CD7-4306-811E-F46633B74747Q35741923-22F3DBB6-7224-4128-AE29-12E639F94DD5Q35888419-9BBC1412-9943-425C-8C1A-2576634D4590Q36080479-82D92EA0-2FCD-4FB3-B386-BF9286464FB0Q36351654-45FC3F43-0DE5-47F9-AE28-BE682BE61B15Q36483084-96DD8D99-9F28-4A27-858B-7F9C324AFEBCQ36720921-C31C5763-6ECA-48D2-8D05-90E8186A935EQ36840516-39DE2FDD-7F9A-42ED-8D60-575BEEE2006BQ37233379-598FEF16-A2C6-4941-A285-5508E8E556E5Q37412638-75D53C9B-C75D-46C0-BFE9-1A4E798F9437Q37583883-FA92D4A9-2B93-410D-942E-6502535838D9Q37647075-8C51D568-8FE5-4D54-83B7-F92E4A50BE24Q37732854-AB6B0C77-9D6B-4C7F-85F5-9B76FDC61ABAQ37752781-21AA54E4-9088-4B8A-A63B-04CBAE6E1FEDQ37810689-5537703A-A904-4EE4-B20C-E9F29D616B5DQ37864610-8798748B-4E8A-410F-A2FC-559C1C17AA40Q38004619-76A3B4D5-FB68-4258-927F-7927C9DA4D79Q38666104-66171A65-3A50-447A-B080-A7FD1E13CC50Q39134669-06DB77AB-925D-494F-B5BA-6E4E77EDAEF1Q39338634-3A198196-CE1E-48A4-A0F5-E40396F7967AQ39566929-C15B1342-DCCC-4AD4-9EC4-17D94BD42C81Q39811677-FFEF0BF8-9D33-41D2-BDE3-A2CF229772C1Q40965059-B1AC9CFC-97D6-43E5-9B3F-C614167A9772Q41488617-1EBAC17E-5463-4008-9428-63FD0D637524
P2860
A screen of cell-surface molecules identifies leucine-rich repeat proteins as key mediators of synaptic target selection
description
2008 nî lūn-bûn
@nan
2008 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
A screen of cell-surface molec ...... s of synaptic target selection
@ast
A screen of cell-surface molec ...... s of synaptic target selection
@en
A screen of cell-surface molec ...... s of synaptic target selection
@nl
type
label
A screen of cell-surface molec ...... s of synaptic target selection
@ast
A screen of cell-surface molec ...... s of synaptic target selection
@en
A screen of cell-surface molec ...... s of synaptic target selection
@nl
prefLabel
A screen of cell-surface molec ...... s of synaptic target selection
@ast
A screen of cell-surface molec ...... s of synaptic target selection
@en
A screen of cell-surface molec ...... s of synaptic target selection
@nl
P2093
P2860
P3181
P1433
P1476
A screen of cell-surface molec ...... s of synaptic target selection
@en
P2093
Amy Cording
Kaushiki Menon
Misako Taniguchi
Mitsuhiko Kurusu
P2860
P304
P3181
P356
10.1016/J.NEURON.2008.07.037
P407
P50
P577
2008-09-01T00:00:00Z