about
Emerging Functions of RANKL in Lymphoid TissuesAPP binds DR6 to trigger axon pruning and neuron death via distinct caspasesActivity of soluble OX40 ligand is enhanced by oligomerization and cell surface immobilizationStructure of the extracellular domains of human and Xenopus Fn14: implications in the evolution of TWEAK and Fn14 interactionsEvolutionarily divergent herpesviruses modulate T cell activation by targeting the herpesvirus entry mediator cosignaling pathwayTWEAK binding to the Fn14 cysteine-rich domain depends on charged residues located in both the A1 and D2 modulesA coreceptor interaction between the CD28 and TNF receptor family members B and T lymphocyte attenuator and herpesvirus entry mediatorGeneration of immune responses against hepatitis C virus by dendritic cells containing NS5 protein-coated microparticlesSignaling mechanisms in tumor necrosis factor alpha-induced death of microvascular endothelial cells of the corpus luteumProstaglandin F2alpha- and FAS-activating antibody-induced regression of the corpus luteum involves caspase-8 and is defective in caspase-3 deficient miceNeutrophils in Cancer: Two Sides of the Same CoinPrinciples of antibody-mediated TNF receptor activationThe TNF-family cytokine TL1A: from lymphocyte costimulator to disease co-conspiratorMembrane trafficking of death receptors: implications on signallingMultimeric soluble CD40 ligand and GITR ligand as adjuvants for human immunodeficiency virus DNA vaccines.Structure, interactions, and dynamics of the RING domain from human TRAF6Assembly and structural properties of glucocorticoid-induced TNF receptor ligand: Implications for functionEvolution of GITRL immune function: Murine GITRL exhibits unique structural and biochemical properties within the TNF superfamilySolution structure of the cysteine-rich domain in Fn14, a member of the tumor necrosis factor receptor superfamily1.8 Å structure of murine GITR ligand dimer expressed inDrosophila melanogasterS2 cellsBiochemical and Structural Characterization of the Human TL1A Ectodomain ,The Structure of the Trimer of Human 4-1BB Ligand Is Unique among Members of the Tumor Necrosis Factor SuperfamilyDecoy Strategies: The Structure of TL1A:DcR3 ComplexRANKL Employs Distinct Binding Modes to Engage RANK and the Osteoprotegerin Decoy ReceptorThe Roles of CD137 Signaling in AtherosclerosisTargeting the T-cell co-stimulatory CD27/CD70 pathway in cancer immunotherapy: rationale and potentialDisabling of receptor activator of nuclear factor-kappaB (RANK) receptor complex by novel osteoprotegerin-like peptidomimetics restores bone loss in vivoTargeting tumour-initiating cells with TRAIL based combination therapy ensures complete and lasting eradication of multiple myeloma tumours in vivoIdentification of a new murine tumor necrosis factor receptor locus that contains two novel murine receptors for tumor necrosis factor-related apoptosis-inducing ligand (TRAIL)B and T lymphocyte attenuator regulates T cell activation through interaction with herpesvirus entry mediatorShedding of the p75NTR neurotrophin receptor is modulated by lipid raftsGalectin-9 controls the therapeutic activity of 4-1BB-targeting antibodiesPreparation of a functional fluorescent human Fas ligand extracellular domain derivative using a three-dimensional structure guided site-specific fluorochrome conjugationThe structural basis of hyper IgM deficiency - CD40L mutations.The role of tumor necrosis factor receptor superfamily members in mammalian brain development, function and homeostasisTNF superfamily: a growing saga of kidney injury modulators.Apoptosis-related genes change their expression with age and hearing loss in the mouse cochlea.BAFF, APRIL, TWEAK, BCMA, TACI and Fn14 proteins are related to human glioma tumor grade: immunohistochemistry and public microarray data meta-analysis.Data for the crystal structure of APRIL-BAFF-BAFF heterotrimer.Precise mapping of the CD95 pre-ligand assembly domain.
P2860
Q21131222-4D3E1C23-BF45-4F19-BAC0-58A9E92CA896Q22251088-1B6C4DB5-A285-4242-B6DD-7AE3198B9735Q24318411-523311E0-D30F-41B2-9B5A-85C06ABE2F18Q24320262-0A165F53-013D-4760-A78B-0F14402846F5Q24532119-2E9AD002-BD9F-4CDF-8A29-1FD2B125B62BQ24553352-AC86381F-1AA2-4E70-9293-36B6B0440F37Q24557522-CD155E41-8A1E-4E7A-A9B0-11325CD7CE89Q24652467-CB2A05D9-8EFD-43B7-BA17-525D4BF386CAQ24805983-E3E4F1A8-5A29-413F-81F7-357044108EE5Q24806392-E2A9FB98-07B8-485B-A5FF-47406FBD25B9Q26773072-E5CEAE03-D9E3-4B38-A8E4-2AA4F57BD22BQ26796270-9E8E7ADE-FEFC-4CF3-BCC3-69B54B36169EQ26799347-40AFCD20-3642-45CA-A852-9C5547F1FE88Q26852802-6704BB0E-E3B9-41CE-B2DA-70E9F9FBAAD5Q27472925-F2642FEC-ADD4-4E50-8A7D-18777A247E8BQ27643921-8948F99A-F537-4CBE-B869-1DC0BAC13DCFQ27649143-0B73A123-05A3-47B7-819E-B6C2A4C7694FQ27649498-5B259B8D-A60D-4F73-B94A-5F4CB9654CE8Q27653928-F076733D-C7D2-4B82-BE71-A0C16FA20301Q27655169-40554835-A3FA-4CB7-BFDE-55935DA0272BQ27655906-989305A3-9888-4E29-9D7E-E78747D7246DQ27658762-21B0F63F-BE33-4734-AA40-574E0B35E29CQ27666869-2A6DDD5F-4888-4622-A4D6-0B5BF9CF1EF9Q27674275-0D843776-56C3-4635-A47D-11DE55EB69E8Q28076613-BBFB9113-AE79-4EAC-965B-02EBF89DD880Q28083873-B2AE3304-2743-497B-B4E1-2CFDA881879EQ28191731-2EC28BEE-4A24-4A0E-9C81-797C6BBDD646Q28483760-D96B99F2-C8AE-4394-9649-3EF42DD5EE10Q28505264-F033D05B-AF11-4D45-900D-0B43D2F5D22DQ28506619-5641973F-55DD-42D7-A9AE-DFA0A9B69979Q28577816-8281BFFE-51BD-4637-B174-71050B7873ABQ28656460-5F3CE52E-448D-4EA0-A813-ED6B4AB8218DQ28831051-B71E637E-F6E4-4F16-A38D-19C99D7F6E17Q30359929-F8D13FF1-D29F-45F5-8A0B-49AB299B5D93Q30463364-08CAB99D-3D86-4B10-89EA-AC48E0B123BDQ30479123-42615ABC-0C2A-4231-8A68-3E44AC1A2D23Q30482886-432DEC7A-F25C-47E4-86F1-F56757D532CBQ30724766-F1FD158E-B967-4B93-B1AF-385868879AB1Q31044624-A5706C4F-4E7D-44B6-9208-B9F0FD9B03E4Q31104620-C59574A5-6FFC-4214-B4D4-2A53C6D7A2D6
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
The molecular architecture of the TNF superfamily.
@ast
The molecular architecture of the TNF superfamily.
@en
The molecular architecture of the TNF superfamily.
@nl
type
label
The molecular architecture of the TNF superfamily.
@ast
The molecular architecture of the TNF superfamily.
@en
The molecular architecture of the TNF superfamily.
@nl
prefLabel
The molecular architecture of the TNF superfamily.
@ast
The molecular architecture of the TNF superfamily.
@en
The molecular architecture of the TNF superfamily.
@nl
P1476
The molecular architecture of the TNF superfamily.
@en
P2093
Jean-Luc Bodmer
P356
10.1016/S0968-0004(01)01995-8
P577
2002-01-01T00:00:00Z