Expression of a mannosyl-fucosyl receptor for endocytosis on cultured primary macrophages and their hybrids.
about
ERGIC-53, a membrane protein of the endoplasmic reticulum-Golgi intermediate compartment, is identical to MR60, an intracellular mannose-specific lectin of myelomonocytic cellsLysosomal enzyme binding to mouse P388D1 macrophage membranes lacking the 215-kDa mannose 6-phosphate receptor: evidence for the existence of a second mannose 6-phosphate receptorBreaking tolerance to thyroid antigens: changing concepts in thyroid autoimmunityLocal opsonization by secreted macrophage complement components. Role of receptors for complement in uptake of zymosanInteraction of West Nile virus with primary murine macrophages: role of cell activation and receptors for antibody and complementProduction of glucocerebrosidase with terminal mannose glycans for enzyme replacement therapy of Gaucher's disease using a plant cell systemMannose receptor and its putative ligands in normal murine lymphoid and nonlymphoid organs: In situ expression of mannose receptor by selected macrophages, endothelial cells, perivascular microglia, and mesangial cells, but not dendritic cellsCandida albicans suppresses nitric oxide generation from macrophages via a secreted moleculeRoles of CR3 and mannose receptors in the attachment and ingestion of Leishmania donovani by human mononuclear phagocytes.Purification and cDNA cloning of porcine brain GDP-L-Fuc:N-acetyl-beta-D-glucosaminide alpha1-->6fucosyltransferase.Interaction of human monocytes, macrophages, and polymorphonuclear leukocytes with zymosan in vitro. Role of type 3 complement receptors and macrophage-derived complement.Phagocytosis of aged human neutrophils by macrophages is mediated by a novel "charge-sensitive" recognition mechanismThe effects of macrophage source on the mechanism of phagocytosis and intracellular survival of Leishmania.Monoclonal antibody affinity purification of a Leishmania membrane glycoprotein and its inhibition of leishmania-macrophage binding.Differential infection of mononuclear phagocytes by Francisella tularensis: role of the macrophage mannose receptor.In situ immune autoradiographic identification of cells in heart tissues of mice with coxsackievirus B3-induced myocarditis.Phosphomannosyl-derivatized beads detect a receptor involved in lymphocyte homingMurine fetal liver macrophages bind developing erythroblasts by a divalent cation-dependent hemagglutinin.Polymeric carriers for gene delivery: chitosan and poly(amidoamine) dendrimers.Down-regulation of mannosyl receptor-mediated endocytosis and antigen F4/80 in bacillus Calmette-Guérin-activated mouse macrophages. Role of T lymphocytes and lymphokines.Receptor-mediated entry of beta-glucuronidase into the parasitophorous vacuoles of macrophages infected with Leishmania mexicana amazonensis.Opsonin-independent ligation of Fc gamma receptors. The 3G8-bearing receptors on neutrophils mediate the phagocytosis of concanavalin A-treated erythrocytes and nonopsonized Escherichia coli.Clinical and experimental aspects of viral myocarditis.Antileishmanial drug targeting through glycosylated polymers specifically internalized by macrophage membrane lectins.TSH Receptor Cleavage Into Subunits and Shedding of the A-Subunit; A Molecular and Clinical Perspective.Roles of complement and complement receptor type 3 in phagocytosis of Listeria monocytogenes by inflammatory mouse peritoneal macrophages.Differences in uptake of mycobacteria by human monocytes: a role for complement.Influence of yeast mannan on release of myeloperoxidase by human neutrophils: determination of structural features of mannan required for formation of myeloperoxidase-mannan-neutrophil complexesFluorescent pegylated nanoparticles demonstrate fluid-phase pinocytosis by macrophages in mouse atherosclerotic lesions.Bmh1p (14-3-3) mediates pathways associated with virulence in Candida albicans.Cell-surface receptors on macrophages and dendritic cells for attachment and entry of influenza virus.In vitro synthesis of carbohydrate-binding proteins by human leucocytes.The Mannose Receptor Is Involved in the Phagocytosis of Mycobacteria-Induced Apoptotic Cells.PstS-1, the 38-kDa Mycobacterium tuberculosis glycoprotein, is an adhesin, which binds the macrophage mannose receptor and promotes phagocytosis.Analysis of differentiation and transformation of cells by lectins.Endogenous lectins and drug targeting.Glycosylation directs targeting and activation of cystatin f from intracellular and extracellular sources.Inhibition of blood clearance and hepatic tissue binding of Escherichia coli by liver lectin-specific sugars and glycoproteins.Role of complement component C1q in phagocytosis of Listeria monocytogenes by murine macrophage-like cell lines.Interactions between the mannose receptor and thyroid autoantigens.
P2860
Q24315414-AB47A85F-58AA-47FC-8B37-DD6B0F6BDF42Q24609876-3577C321-E672-45F3-9E75-5A0D86BA3118Q26852013-F93672B3-D60F-4A43-BB24-BD978AC744C9Q27485069-EF4A6D00-3939-4B20-A157-CDF09D0927B4Q27486803-D59AD5F9-E760-4104-A1B0-77623B3D2A78Q27644895-3404E777-2DEE-492B-9F69-580CD92FD6CCQ28137872-4CD32144-6115-4AD8-BDF9-D1846680E4D1Q28538140-8DE25808-6720-4A36-B932-FBD816D23DCDQ30451086-689F3E3F-1D02-48BD-888C-D13AD6C45132Q34406765-AF5AB275-023C-4CD0-832A-9A79FB12DB31Q34570428-CBCD27FA-C407-40F5-A283-44C47C97E6F9Q34579030-C44C883F-623B-4834-A859-E087E6A35652Q35256144-801F4998-12E5-49E2-99E9-C64C925F2DAAQ35584110-B9AC4F4A-4AAB-4C74-93D9-9ADE882864ACQ35783099-75186C9F-6980-4CBF-B8A0-BDFB29FCF8C8Q35856321-7504BF78-BE9A-4017-A881-FFF8E3BC9316Q36216483-E6168F62-E192-424C-9892-F649AE6E2A73Q36218742-4BA2B110-6BF8-4E93-B335-48DC8C4BDE8CQ36316919-063B5F51-453C-4567-B651-518BDE4C966DQ36346597-450DB881-DB05-404D-A81B-B6CB845B150CQ36347817-7828D755-4E22-4E19-A6BF-7EC04C23BD95Q36354233-E4A00195-7E76-4C34-8876-99174BE06F28Q36635072-5A9B0049-2DCC-4D30-A77E-BA424BE23879Q36757841-1BEC7159-7E41-4E94-80E5-A7FD16D0C61BQ36773013-A172ACD6-DEB5-4B1B-A304-743CB09B9190Q36966913-A2354924-A681-483F-AE35-696A40F33DFAQ36998652-EDF6FB68-2BBA-49FC-9F75-77C436187964Q37098371-91F76470-7B26-4153-A920-5A98E02FA319Q37170756-2E5ECE9E-EF82-41E0-9ED0-14BA7B873D7EQ37409376-3F6A52C7-86F2-4F12-A4CF-5AE706AF0335Q37962296-1D7F4CFE-0728-4633-BF3A-15DCA4B29513Q38351085-837D23A8-F0A0-4A97-A442-33807A9B658EQ38758260-B548F69C-B1D7-4435-A133-2D150D9B8F3AQ38943642-DA1386BC-572B-4078-86FE-7AD5DE3804CBQ39563845-698767AE-06DC-471F-9528-E06E1390A98CQ39573069-50EFF672-2CDE-4C74-9107-2DECB3844B97Q39887626-E3F7159B-D44B-4067-83C1-99945D2C1FD0Q40177540-E110F677-3D8C-46EA-8413-A7668581FA84Q40268528-C93CD675-CDA7-4DC3-B9EB-B85020063620Q40470173-440448F9-3703-4416-9DCE-9552B1659436
P2860
Expression of a mannosyl-fucosyl receptor for endocytosis on cultured primary macrophages and their hybrids.
description
1982 nî lūn-bûn
@nan
1982年の論文
@ja
1982年論文
@yue
1982年論文
@zh-hant
1982年論文
@zh-hk
1982年論文
@zh-mo
1982年論文
@zh-tw
1982年论文
@wuu
1982年论文
@zh
1982年论文
@zh-cn
name
Expression of a mannosyl-fucos ...... macrophages and their hybrids.
@en
type
label
Expression of a mannosyl-fucos ...... macrophages and their hybrids.
@en
prefLabel
Expression of a mannosyl-fucos ...... macrophages and their hybrids.
@en
P2860
P356
P1476
Expression of a mannosyl-fucos ...... macrophages and their hybrids.
@en
P2093
P2860
P356
10.1083/JCB.93.1.49
P407
P577
1982-04-01T00:00:00Z