about
Role of the Retromer Complex in Neurodegenerative DiseasesLysosomal protein trafficking in Giardia lamblia: common and distinct featuresReceptor binding peptides for target-selective delivery of nanoparticles encapsulated drugsThe genetics and neuropathology of Alzheimer's diseaseMechanisms and genetic determinants regulating sterol absorption, circulating LDL levels, and sterol elimination: implications for classification and disease riskSpadin, a sortilin-derived peptide, targeting rodent TREK-1 channels: a new concept in the antidepressant drug design.Emerging roles of ARHGAP33 in intracellular trafficking of TrkB and pathophysiology of neuropsychiatric disorders.Focal Adhesion Kinase-Dependent Role of the Soluble Form of Neurotensin Receptor-3/Sortilin in Colorectal Cancer Cell DissociationSortilin is associated with breast cancer aggressiveness and contributes to tumor cell adhesion and invasionInsulin responsiveness of glucose transporter 4 in 3T3-L1 cells depends on the presence of sortilinIncreased Brain Neurotensin and NTSR2 Lead to Weak Nociception in NTSR3/Sortilin Knockout MiceLysosomal sorting receptors are essential for secretory granule biogenesis in Tetrahymena.Sortilin Fragments Deposit at Senile Plaques in Human CerebrumCirculating sortilin level as a potential biomarker for coronary atherosclerosis and diabetes mellitusC-terminus of progranulin interacts with the beta-propeller region of sortilin to regulate progranulin trafficking.Gene expression analysis of children with acute hematogenous osteomyelitis caused by Methicillin-resistant Staphylococcus aureus: correlation with clinical severity of illnessFish oil and fenofibrate prevented phosphorylation-dependent hepatic sortilin 1 degradation in Western diet-fed mice.Impairement of HT29 Cancer Cells Cohesion by the Soluble Form of Neurotensin Receptor-3.Sortilin: an unusual suspect in cholesterol metabolism: from GWAS identification to in vivo biochemical analyses, sortilin has been identified as a novel mediator of human lipoprotein metabolism.Secretion of a foreign protein from budding yeasts is enhanced by cotranslational translocation and by suppression of vacuolar targeting.Sortilin participates in light-dependent photoreceptor degeneration in vivo.Genome-wide screen identifies rs646776 near sortilin as a regulator of progranulin levels in human plasma.A membrane proximal helix in the cytosolic domain of the human APP interacting protein LR11/SorLA deforms liposomes.BACE1 retrograde trafficking is uniquely regulated by the cytoplasmic domain of sortilin.A Bovine Lymphosarcoma Cell Line Infected with Theileria annulata Exhibits an Irreversible Reconfiguration of Host Cell Gene Expression.Meta-analysis of the association between variants in SORL1 and Alzheimer disease.Genome-wide profiling of the activity-dependent hippocampal transcriptome.Sortilin associates with transforming growth factor-beta family proteins to enhance lysosome-mediated degradation.Elucidating molecular phenotypes caused by the SORL1 Alzheimer's disease genetic risk factor using human induced pluripotent stem cells.Insulin resistance induces posttranslational hepatic sortilin 1 degradation in mice.Losing balance: Hardy-Weinberg disequilibrium as a marker for recurrent loss-of-heterozygosity in cancerCalcineurin and Sorting-Related Receptor with A-Type Repeats Interact to Regulate the Renal Na⁺-K⁺-2Cl⁻ CotransporterNeurotensin and its receptors in the control of glucose homeostasis.The endosomal protein-sorting receptor sortilin has a role in trafficking α-1 antitrypsinTetrahymena thermophila: a divergent perspective on membrane traffic.Independent and epistatic effects of variants in VPS10-d receptors on Alzheimer disease risk and processing of the amyloid precursor protein (APP)SORCS1 contributes to the development of renal disease in rats and humans.A comprehensive study of the genetic impact of rare variants in SORL1 in European early-onset Alzheimer's diseaseSaturated fatty acids activate ERK signaling to downregulate hepatic sortilin 1 in obese and diabetic mice.The anti-apoptotic role of neurotensin.
P2860
Q26766012-A61B6630-572E-4A02-AA47-DB6E6DC4C2E0Q26824156-554FF0C8-2B94-4C96-854F-978B2E63FECAQ26849241-A6112C02-0391-492C-8EDE-D6F3D4FB90E4Q26998097-5BB0BBE2-13A5-401D-8343-F69C6803A30AQ27003094-C41D9C2A-0AC7-475E-9EC5-D3ACD406D5D0Q27324635-ACF637C3-EBDB-43AE-B4FE-BEA8DA45F0DAQ27333743-CFE3CCA0-91D8-4B09-8272-59631CB5E9E4Q28067118-27EEAE47-0A3D-4E19-8346-EBB16E27658EQ28260431-25A001AC-E6F3-4A27-91B7-483B789361E9Q28297062-6CAC11B8-2499-4502-8F6F-BD13862EE456Q28818966-834C64C9-62FB-4A38-8EF6-890F99C840DEQ30557161-A08E5A39-4ED1-4CC4-8285-D25B95B590DDQ33770251-93A28528-E21D-46EE-879A-B111E8060CD0Q33921756-189FD98E-EEF3-41F7-82A7-C26E88FC4363Q33941320-2021CAF1-9C0D-472A-B40F-4CC3D6DF56FEQ33975433-B680AB73-2227-4BAC-9FF1-D279ADE36AFEQ34070479-B18F80C8-B56C-40B4-AC8D-A9A9C3B838FCQ34170538-444E5E04-A5CD-47F0-B383-9544FA760F0CQ34175578-957182C3-F0BB-4204-ACCD-ECC88B6CDA7FQ34252124-B57F7F72-2CBB-4297-93C1-FFA63381717BQ34257346-E9F85D8D-C1EE-4B2D-82B9-E6696C193A48Q34381669-BE62564A-835F-4986-BAF8-A272B8F70CA1Q34566636-8058904F-29FF-42CE-A2AA-7F7871E194F7Q34752500-9DEAC2FD-58B6-490E-A6FB-0ABD67F578BFQ34806004-118E06D2-BF52-4C01-9052-F9DF70F9480BQ34913294-A736E5AD-2D1A-4014-8CC7-013046D36795Q35023002-5DB7D1E8-C805-4FF8-ADCC-FBA915D28357Q35065290-7338A75B-7590-40C1-8F63-D3608283F530Q35306023-19F02787-8861-4D6B-80A0-B6BEFC5E6DB4Q35561045-B7F70B82-484C-4A5B-81D6-6C61B490EA36Q35565689-50692984-493E-4618-BFE0-6C677A2F9885Q36417867-A9A33682-57AA-44D1-ABAB-105FCE3F7552Q36449538-EC0BF1B5-FF39-4B50-9F94-E0BE404CF6D4Q36466323-F1B85334-16B6-4C9F-95EC-23912F692D80Q36481874-643CF29B-D79C-45F0-8544-C5A7352A9C5FQ36894249-6796DF0A-EB7D-4790-B2BE-95F6FC36465BQ37093820-6FD6AA29-9832-4280-8A80-2C8B69ACA203Q37099304-06B7D07E-7CA8-4E08-892D-40790AD75575Q37163044-8EA86E37-B84E-479F-9BF3-38DE990C47BCQ37679210-4396FE32-F535-4AB1-B817-8FA52975C8BE
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 12 May 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The Vps10p-domain receptor family.
@en
The Vps10p-domain receptor family.
@nl
type
label
The Vps10p-domain receptor family.
@en
The Vps10p-domain receptor family.
@nl
prefLabel
The Vps10p-domain receptor family.
@en
The Vps10p-domain receptor family.
@nl
P2860
P1476
The Vps10p-domain receptor family
@en
P2093
Guido Hermey
P2860
P2888
P304
P356
10.1007/S00018-009-0043-1
P50
P577
2009-05-12T00:00:00Z