about
Cloning of the first sn1-DAG lipases points to the spatial and temporal regulation of endocannabinoid signaling in the brainInter-residue distances derived from fold contact propensities correlate with evolutionary substitution costsButyrophilin-like 1 encodes an enterocyte protein that selectively regulates functional interactions with T lymphocytesLoss of retrograde endocannabinoid signaling and reduced adult neurogenesis in diacylglycerol lipase knock-out miceGanglioside inhibition of neurite outgrowth requires Nogo receptor function: identification of interaction sites and development of novel antagonistsTranscriptional basis for the inhibition of neural stem cell proliferation and migration by the TGFβ-family member GDF11A dynamical approach to contact distance based protein structure determination.Regional effects of endocannabinoid, BDNF and FGF receptor signalling on neuroblast motility and guidance along the rostral migratory stream.SPIEDw: a searchable platform-independent expression database web toolVNAR single-domain antibodies specific for BAFF inhibit B cell development by molecular mimicryThe COX-2 inhibitors, meloxicam and nimesulide, suppress neurogenesis in the adult mouse brain.A searchable cross-platform gene expression database reveals connections between drug treatments and disease.Pharmacogenomic identification of small molecules for lineage specific manipulation of subventricular zone germinal activity.Fascin regulates the migration of subventricular zone-derived neuroblasts in the postnatal brain.Drug repositioning: an opportunity to develop novel treatments for Alzheimer's disease.Receptors for myelin inhibitors: Structures and therapeutic opportunities.Butyrophilins: an emerging family of immune regulators.The diacylglycerol lipases: structure, regulation and roles in and beyond endocannabinoid signallingA diacylglycerol lipase-CB2 cannabinoid pathway regulates adult subventricular zone neurogenesis in an age-dependent manner.Drug repositioning in Alzheimer's disease.A novel live cell assay to measure diacylglycerol lipase α activityDementia in Down's syndrome.The molecular basis of the cooperation between EGF, FGF and eCB receptors in the regulation of neural stem cell function.Endocannabinoids regulate the migration of subventricular zone-derived neuroblasts in the postnatal brain.Down-regulation of diacylglycerol lipase-alpha during neural stem cell differentiation: identification of elements that regulate transcription.The fibroblast growth factor receptor acid box is essential for interactions with N-cadherin and all of the major isoforms of neural cell adhesion molecule.Protein folding pathways and state transitions described by classical equations of motion of an elastic network model.Overcoming the inhibitors of myelin with a novel neurotrophin strategy.Dimeric versions of two short N-cadherin binding motifs (HAVDI and INPISG) function as N-cadherin agonists.BDNF regulates neuronal sensitivity to endocannabinoids.A dimeric version of the short N-cadherin binding motif HAVDI promotes neuronal cell survival by activating an N-cadherin/fibroblast growth factor receptor signalling cascade.Regulated endosomal trafficking of Diacylglycerol lipase alpha (DAGLα) generates distinct cellular pools; implications for endocannabinoid signaling.The Effect of an Online Cognitive Training Package in Healthy Older Adults: An Online Randomized Controlled Trial.Associations between ZnT3, tau pathology, agitation, and delusions in dementiaShape complementarity at protein interfaces via global docking optimisationAssay and Inhibition of the Purified Catalytic Domain of Diacylglycerol Lipase BetaMyostatin inhibition slows muscle atrophy in rodent models of amyotrophic lateral sclerosisA complementary peptide approach applied to the design of novel semaphorin/neuropilin antagonistsTargeted repositioning identifies drugs that increase fibroblast growth factor 20 production and protect against 6-hydroxydopamine-induced nigral cell loss in ratsAlzheimer's Disease Progression in the 5×FAD Mouse Captured with a Multiplex Gene Expression Array
P50
Q24299523-DABE4538-FD0B-4AE4-AB98-62AAC955B961Q24791643-B306E48A-95BC-4082-8ABE-9C047632E51CQ28591232-AA42F5F2-E9CE-4FA2-AB85-0896B899BBDAQ28591248-97E7506A-E4B6-4FDE-AB46-B9400B855CECQ28771761-88ADEE00-D085-4D77-9C4E-F4510D475B3BQ30009525-E64C49DA-657C-4BAD-9F3D-BC04CE865889Q30409550-06FF9D82-463E-4EAF-A9DF-4129C6024665Q30620218-7F8B395A-5EC1-4221-8070-3AFFAF7C6C34Q31143078-3901265C-2B38-4394-8600-464DA193AB92Q33688370-F929013A-2268-4912-8D28-79320583710EQ33730618-A2F8C4DB-15D9-4A0C-B58D-F7BA50ACCB3BQ34123013-8A99A25C-81FC-4EE8-BE62-FF5EADDBA7F3Q36325309-DBB2F2ED-3D95-407B-B44A-5BDA7081252FQ37041527-7E7D7B78-9324-4A86-9B89-5F8A706FC567Q37279999-AA31433C-A8BC-472F-A93C-A0D20BE75527Q37556801-D4740785-B6B3-411E-B3F1-188536983FC5Q37949750-BC549C9B-6775-4EFF-855E-7B9D15202A40Q38056396-2B961E84-1E19-49CF-B613-B66074E78D5EQ38289958-DE8256AC-A6E3-4E86-9BF0-C8C0A3A8B3ACQ38472165-728EF04A-3CBD-4FF5-8610-F94D5335DB5BQ38783231-CD4F25A7-84AB-489A-8C92-59D2C68420C0Q38865366-882BEA0C-C091-4C18-A917-5227B6E1A2E5Q39255877-9388F857-9564-4B6F-822F-B679CEF4CE5FQ39575184-C890B8AF-F484-49D5-9349-5586F3EDDE33Q39792412-9D35A2CB-F70C-4D3B-9AB9-29886422E576Q40226973-80514341-7054-4C72-A626-2914BA2FBE1AQ41454411-C621C2DF-8797-4274-A7E2-AC3A7A47CC53Q42823060-B1BAD50B-B446-47D1-8131-F17818986098Q42823328-9E0B1870-B207-459F-91B2-B88EF6937A28Q43264175-1659AF2B-5DA0-4F1C-B24F-30257C5F9D7DQ47664944-D69F93A9-D362-4645-837D-3A2D17DD5E80Q48530277-D3964547-23D8-4434-9AF2-00A9E071531BQ50550729-CAA4927C-EF44-4EAD-B124-FA8EC316098CQ57916516-D131D9D5-9400-42C6-920D-6506297DC570Q59399311-F3CAF3F2-22C2-4687-814C-B59195D99BF2Q59399313-FF7826B3-C1A1-4736-B6D8-7F11A46F8FEBQ59399318-0406E58D-4E08-4CF3-BFC1-990A0409A0BDQ59399320-AE6A745E-326D-44EC-813E-209D73F9423DQ64764542-D1E3BF32-C930-4C6D-8056-F853A6C16C9BQ91093488-4B35C2FB-8010-42A3-8038-BA6ECB8D283F
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Gareth Williams
@ast
Gareth Williams
@en
Gareth Williams
@es
Gareth Williams
@nl
type
label
Gareth Williams
@ast
Gareth Williams
@en
Gareth Williams
@es
Gareth Williams
@nl
prefLabel
Gareth Williams
@ast
Gareth Williams
@en
Gareth Williams
@es
Gareth Williams
@nl
P106
P1153
56446072000
P21
P31
P496
0000-0001-9205-4943