Intracellular movement of cell surface receptors after endocytosis: resialylation of asialo-transferrin receptor in human erythroleukemia cells.
about
Intracellular movement of two mannose 6-phosphate receptors: return to the Golgi apparatusRab11 regulates the compartmentalization of early endosomes required for efficient transport from early endosomes to the trans-golgi networkCell surface recycling in yeast: mechanisms and machineriesClonal sketches of the immune responseRapid transport of internalized P-selectin to late endosomes and the TGN: roles in regulating cell surface expression and recycling to secretory granules.The cytoplasmic domain of P-selectin contains a sorting determinant that mediates rapid degradation in lysosomesAGAP2 regulates retrograde transport between early endosomes and the TGNTryptophan- and dileucine-based endocytosis signals in the neonatal Fc receptor.Use of a mutant cell line to study the kinetics and function of O-linked glycosylation of low density lipoprotein receptorsAssociation of human transferrin receptor with GABARAP.Rapid endocytosis of the cystic fibrosis transmembrane conductance regulator chloride channel.Transferrin receptor 2: evidence for ligand-induced stabilization and redirection to a recycling pathway.Transferrin receptors recycle to cis and middle as well as trans Golgi cisternae in Ig-secreting myeloma cellsMembrane traffic in animal cells: cellular glycoproteins return to the site of Golgi mannosidase I.Rapid analytical and preparative isolation of functional endosomes by free flow electrophoresisChinese hamster ovary cell mutants with temperature-sensitive defects in endocytosis. I. Loss of function on shifting to the nonpermissive temperature.Identification and characterization of a mouse cell mutant defective in the intracellular transport of glycoproteinsTwo integral membrane proteins located in the cis-middle and trans-part of the Golgi system acquire sialylated N-linked carbohydrates and display different turnovers and sensitivity to cAMP-dependent phosphorylation.Brefeldin A redistributes resident and itinerant Golgi proteins to the endoplasmic reticulumDistinct transport vesicles mediate the delivery of plasma membrane proteins to the apical and basolateral domains of MDCK cells.Selective reentry of recycling cell surface glycoproteins to the biosynthetic pathway in human hepatocarcinoma HepG2 cellsIn polarized MDCK cells basolateral vesicles arise from clathrin-gamma-adaptin-coated domains on endosomal tubulesAn endocytosed TGN38 chimeric protein is delivered to the TGN after trafficking through the endocytic recycling compartment in CHO cells.Chimeric forms of furin and TGN38 are transported with the plasma membrane in the trans-Golgi network via distinct endosomal pathwaysEndocytosis and recycling of the T3-T cell receptor complex. The role of T3 phosphorylation.Evidence for nonvectorial, retrograde transferrin trafficking in the early endosomes of HEp2 cells.Low density lipoprotein receptor and cation-independent mannose 6-phosphate receptor are transported from the cell surface to the Golgi apparatus at equal rates in PC12 cells.The 17-residue transmembrane domain of beta-galactoside alpha 2,6-sialyltransferase is sufficient for Golgi retention.Retrograde traffic in the biosynthetic-secretory route.Processing of hemojuvelin requires retrograde trafficking to the Golgi in HepG2 cells.Cystic fibrosis transmembrane conductance regulator activation stimulates endosome fusion in vivoRab4 and cellubrevin define different early endosome populations on the pathway of transferrin receptor recycling.Synthesis and trafficking of prion proteins in cultured cells.Wortmannin alters the transferrin receptor endocytic pathway in vivo and in vitro.Intracellular pools of transferrin receptors result from constitutive internalization of unoccupied receptors.Multiple routes of protein transport from endosomes to the trans Golgi network.Transcytotic pathway for blood-borne protein through the blood-brain barrier.Intracellular class II HLA antigens are accessible to transferrin-neuraminidase conjugates internalized by receptor-mediated endocytosisTrans-Golgi reticulum.Retrograde transport: two (or more) roads diverged in an endosomal tree?
P2860
Q24679792-57DFE52B-9336-499E-B84D-57E10AB93FF2Q24681074-BDD7D1C7-940E-4C9C-B359-F27FF27E9D69Q28078528-2E6F006F-C0E3-42FE-BED7-461FC868915FQ28289165-D3F8EC76-C16A-42D3-9156-7F412437499FQ30306202-DF2F7556-BB69-4002-BCD6-8569EE70B408Q30442254-F6C3331A-33B5-46E3-AD55-C2E5591D2084Q30495216-CD69C4D0-4C4B-441B-AFEE-5823EED30C9EQ31628526-CD442D78-BD98-4D21-A5A6-405741C039E7Q33581525-8D91AD07-4B03-4A7D-85A9-89C43F39E93BQ34127297-8DF9AB5C-8452-458C-849F-3A6C7058DED0Q35399378-B775532F-FDD9-4DE2-BF11-DDE79408FD80Q35650838-D1F97AAB-C3C7-452B-9EEE-185C97B72E0EQ36212993-9CDB9F8D-E383-4922-A4FB-68B9DE724E38Q36213073-380341EF-9EFA-40CF-A04F-1389ED939D4CQ36215953-B07C39AD-32E4-4ECC-99AE-3B1B9A5951B3Q36216643-BFCBB1F0-4C5B-4494-8EAF-E0C875122586Q36217466-23196915-28B0-4441-8D11-0EE1FC8DADB6Q36218092-718C5284-1660-44E6-BD3D-95437E04D6F4Q36220222-9CD8C028-314D-45F6-AD87-8D12B84177DFQ36223778-84C19D5D-00B5-4AB2-AD52-4DD1E7604B94Q36235863-834BD233-9DA8-44A9-A33F-969484F6729EQ36255343-193D47FE-0CBA-487B-98D6-97F1C35EB481Q36255652-833CA00A-D5AC-488A-AA15-1BCA5B8D5FADQ36301546-1ABB8BEC-762A-4E56-AD38-0931931841FFQ36353522-3729B196-0736-4584-8ADA-DD62547D8C57Q36382394-AA79CD2B-2831-47F2-B382-D1803C825D9EQ36531164-5C582502-24C8-4359-8DBD-199F2CCE7EE6Q36531267-BDCB0ABC-0B7B-4D22-AF98-F3AA369D68E1Q37083291-58B05810-DCD0-479D-8DD9-3D1338CF3D84Q37109363-08F456C5-AE15-4427-87F0-E95A1B55C760Q37241950-3BE4391D-3DE0-4513-88E2-7C2201C2DB87Q37356004-3B87B6EE-09FA-4BE4-8561-B34262966672Q37373585-5A0875F8-20AE-4262-B5A5-0F6222AD6F38Q37379940-3BB1607B-F3D2-4361-BD51-27C904886850Q37397288-A6991BC2-247D-439F-A0AE-632E4A850993Q37455399-CC687F97-7771-4B2F-AE36-ABAEE2CA0282Q37484109-7BB6581B-38FF-4DEB-ADAD-721DEF254F8CQ37557662-96C9A91D-6253-4FEC-BD2E-F44804004CEAQ37638812-CC0CBFB2-5E63-48CC-98AC-52685331F57BQ37861301-5E9F6892-60DB-4761-8EC9-C632C67E7062
P2860
Intracellular movement of cell surface receptors after endocytosis: resialylation of asialo-transferrin receptor in human erythroleukemia cells.
description
1985 nî lūn-bûn
@nan
1985年の論文
@ja
1985年論文
@yue
1985年論文
@zh-hant
1985年論文
@zh-hk
1985年論文
@zh-mo
1985年論文
@zh-tw
1985年论文
@wuu
1985年论文
@zh
1985年论文
@zh-cn
name
Intracellular movement of cell ...... n human erythroleukemia cells.
@ast
Intracellular movement of cell ...... n human erythroleukemia cells.
@en
type
label
Intracellular movement of cell ...... n human erythroleukemia cells.
@ast
Intracellular movement of cell ...... n human erythroleukemia cells.
@en
prefLabel
Intracellular movement of cell ...... n human erythroleukemia cells.
@ast
Intracellular movement of cell ...... n human erythroleukemia cells.
@en
P2860
P356
P1476
Intracellular movement of cell ...... n human erythroleukemia cells.
@en
P2093
M D Snider
O C Rogers
P2860
P304
P356
10.1083/JCB.100.3.826
P407
P577
1985-03-01T00:00:00Z