Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
about
Functional evaluation of DC-SIGN monoclonal antibodies reveals DC-SIGN interactions with ICAM-3 do not promote human immunodeficiency virus type 1 transmissionDynamic populations of dendritic cell-specific ICAM-3 grabbing nonintegrin-positive immature dendritic cells and liver/lymph node-specific ICAM-3 grabbing nonintegrin-positive endothelial cells in the outer zones of the paracortex of human lymph nodDirect Delivery of Antigens to Dendritic Cells via Antibodies Specific for Endocytic Receptors as a Promising Strategy for Future TherapiesWest Nile Virus Discriminates between DC-SIGN and DC-SIGNR for Cellular Attachment and InfectionAcylation determines the toll-like receptor (TLR)-dependent positive versus TLR2-, mannose receptor-, and SIGNR1-independent negative regulation of pro-inflammatory cytokines by mycobacterial lipomannanA murine DC-SIGN homologue contributes to early host defense against Mycobacterium tuberculosisWidely divergent biochemical properties of the complete set of mouse DC-SIGN-related proteinsFunctional comparison of mouse CIRE/mouse DC-SIGN and human DC-SIGNTranscriptomic and proteomic insights into innate immunity and adaptations to a symbiotic lifestyle in the gutless marine worm Olavius algarvensisAssociation of SIGNR1 with TLR4-MD-2 enhances signal transduction by recognition of LPS in gram-negative bacteria.HIV-1 gp120 mannoses induce immunosuppressive responses from dendritic cells.The very low density lipoprotein receptor attenuates house dust mite-induced airway inflammation by suppressing dendritic cell-mediated adaptive immune responsesCD209a expression on dendritic cells is critical for the development of pathogenic Th17 cell responses in murine schistosomiasisCharacterization of DC-SIGN/R interaction with human immunodeficiency virus type 1 gp120 and ICAM molecules favors the receptor's role as an antigen-capturing rather than an adhesion receptorCNS myelin induces regulatory functions of DC-SIGN-expressing, antigen-presenting cells via cognate interaction with MOGNew monoclonal anti-mouse DC-SIGN antibodies reactive with acetone-fixed cellsNovel member of the CD209 (DC-SIGN) gene family in primatesAdjuvant effects elicited by novel oligosaccharide variants of detoxified meningococcal lipopolysaccharides on Neisseria meningitidis recombinant PorA protein: a comparison in mice.A novel adhesion pathway that regulates dendritic cell trafficking and T cell interactions.Dectin-1 is essential for reverse transcytosis of glycosylated SIgA-antigen complexes by intestinal M cellsThe C-type lectin SIGN-R1 mediates uptake of the capsular polysaccharide of Streptococcus pneumoniae in the marginal zone of mouse spleen.Microbial stimulation fully differentiates monocytes to DC-SIGN/CD209(+) dendritic cells for immune T cell areas.Pathogens target DC-SIGN to influence their fate DC-SIGN functions as a pathogen receptor with broad specificity.Difference in fine specificity to polysaccharides of Candida albicans mannoprotein between mouse SIGNR1 and human DC-SIGNMouse plasmacytoid cells: long-lived cells, heterogeneous in surface phenotype and function, that differentiate into CD8(+) dendritic cells only after microbial stimulusMacrophages control the retention and trafficking of B lymphocytes in the splenic marginal zone.SIGN-R1 contributes to protection against lethal pneumococcal infection in mice.Cooperative stimulation of dendritic cells by Cryptococcus neoformans mannoproteins and CpG oligodeoxynucleotidesRole of the mannose receptor in a murine model of Cryptococcus neoformans infectionThe C-Type Lectin Receptor SIGNR3 Binds to Fungi Present in Commensal Microbiota and Influences Immune Regulation in Experimental Colitis.Identification of a receptor required for the anti-inflammatory activity of IVIG.Carbohydrate-mediated targeting of antigen to dendritic cells leads to enhanced presentation of antigen to T cells.LECT2 drives haematopoietic stem cell expansion and mobilization via regulating the macrophages and osteolineage cells.Role of phosphatidylinositol mannosides in the interaction between mycobacteria and DC-SIGN.Toll-like receptor 2 and DC-SIGNR1 differentially regulate suppressors of cytokine signaling 1 in dendritic cells during Mycobacterium tuberculosis infection.Glycobiology of immune responsesC-type lectins with a sweet spot for Mycobacterium tuberculosis.Novel roles of DC-SIGNR in colon cancer cell adhesion, migration, invasion, and liver metastasis.Lactobacillus reuteri Surface Mucus Adhesins Upregulate Inflammatory Responses Through Interactions With Innate C-Type Lectin Receptors.Mycobacterium Tuberculosis Infection and Inflammation: what is Beneficial for the Host and for the Bacterium?
P2860
Q24537674-354CB9EC-52B8-45CA-814A-96242714BF54Q24672274-85326021-F26C-42CC-A8B5-B9F9F515137CQ26752558-61903506-DCC5-4898-A40C-D1E405FE4DDBQ27472821-A64EC09D-A1EE-4D86-A048-039538CEC2BAQ28235685-476515CE-40BC-4227-B5EE-0E6802BC6853Q28512458-48834297-C56C-4028-AFC5-47527A7172C0Q28588192-5E63034A-0648-4A84-B414-010575134C42Q28590922-8CBF156F-9762-44C5-9A75-47758CDBB9E9Q28820962-29440A8D-B82A-41EE-9F15-679E34FE5070Q30990374-82E3D978-DEB1-433E-A5C5-56ECEA84440AQ33305012-EF769032-A1E7-4EA7-8BEA-2AF5CCAD2FAAQ33593881-272A89D6-492D-4727-8056-729A125C6DDFQ33647423-643B359D-DD83-4795-BA54-379089C21DAFQ33724347-331BDA23-AD09-43B1-B2D8-F26E83A2C5A9Q33826854-BAB5F9C8-8407-4D37-9488-D78715729E38Q34077117-35DF6666-61D7-489F-8FF5-230085971E80Q34461404-AD833671-7592-4873-8B8E-A92AEB8D9A2FQ34783257-5AE2C924-2C21-4C0A-94ED-C7C6BD49107EQ34862136-164330A0-B422-4DAF-88B4-5AA9DA89F45CQ34998132-A44C0039-6A17-444E-BB39-8DB2B84169F4Q35122158-5F609436-AC7B-4769-810B-7E32F9D47F0AQ35148879-E06DB19D-A773-4D3A-B785-826F3450951CQ35219295-F156A343-6C06-4288-9941-9853D2DFD6EDQ35944007-DD21F808-B936-4893-AA56-8778DC172296Q36371026-10C0C212-2596-4157-A71B-AEA343F43C32Q36371307-CD848078-CD1D-4BB1-80CB-4791A2A11560Q36399613-DD99BA2F-71B8-42E7-AFDA-EBFC36AD986AQ36544402-ED80BBB3-AEFA-4CEB-99EF-C61E74576CC7Q36710580-7D4B8A58-9C63-4A23-890F-234DBE204472Q37015604-389CFC39-54BC-411C-9C84-DC52D9A561BBQ37018736-28E1AE08-F093-4F5A-BA4D-B2610885FF84Q37238598-760B7248-D98E-4253-B3A4-1C2DBE9FBAFAQ37261120-AC997EC8-A11B-4FF3-BD90-1FBA6AE040B1Q37355846-D8FC2CAF-191F-4640-A190-3BBCCDC18356Q37377600-FC28222E-6473-4CC0-96EF-BBC4243ADC8BQ37448685-24D03C89-7E5B-4B29-9958-BF7D3DE71130Q37490137-EA3A0271-20B1-4CB4-9B1A-F122768F5FB3Q37597080-9F72E02F-3425-4FF2-AD7F-E072FDC391C4Q37683190-6245A00C-C967-4ACE-A308-04ADCE9161F1Q37891772-AB5A67D2-493D-4E11-9B78-4AC839710405
P2860
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
description
2001 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2001
@ast
im Oktober 2001 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2001/10/01)
@sk
vědecký článek publikovaný v roce 2001
@cs
wetenschappelijk artikel (gepubliceerd op 2001/10/01)
@nl
наукова стаття, опублікована в жовтні 2001
@uk
مقالة علمية (نشرت في أكتوبر 2001)
@ar
name
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@ast
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@en
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@nl
type
label
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@ast
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@en
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@nl
prefLabel
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@ast
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@en
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@nl
P2093
P2860
P921
P3181
P356
P1476
Five mouse homologues of the human dendritic cell C-type lectin, DC-SIGN
@en
P2093
K Matsubara
K Takahara
R M Steinman
P2860
P304
P3181
P356
10.1093/INTIMM/13.10.1283
P577
2001-10-01T00:00:00Z