Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
about
Intracellular movement of two mannose 6-phosphate receptors: return to the Golgi apparatusGlycoproteins of the lysosomal membraneCharacterization of a temperature-sensitive vertebrate clathrin heavy chain mutant as a tool to study clathrin-dependent events in vivoThe E1 glycoprotein of an avian coronavirus is targeted to the cis Golgi complex.The distribution of 215-kilodalton mannose 6-phosphate receptors within cis (heavy) and trans (light) Golgi subfractions varies in different cell types.Rapid fragmentation and reorganization of Golgi membranes during frustrated phagocytosis of immobile immune complexes by macrophages.Transferrin receptors recycle to cis and middle as well as trans Golgi cisternae in Ig-secreting myeloma cellsRapid redistribution of clathrin onto macrophage plasma membranes in response to Fc receptor-ligand interaction during frustrated phagocytosis.Cytoplasmic domains of cellular and viral integral membrane proteins substitute for the cytoplasmic domain of the vesicular stomatitis virus glycoprotein in transport to the plasma membrane.Lysosomal delivery of the major myelin glycoprotein in the absence of myelin assembly: posttranslational regulation of the level of expression by Schwann cellsKinetics of intracellular transport and sorting of lysosomal membrane and plasma membrane proteins.Antibodies to rat pancreas Golgi subfractions: identification of a 58-kD cis-Golgi protein.Distinctive populations of basement membrane and cell membrane heparan sulfate proteoglycans are produced by cultured cell linesThe endosomal concentration of a mannose 6-phosphate receptor is unchanged in the absence of ligand synthesis.Polarized secretion of lysosomal enzymes: co-distribution of cation-independent mannose-6-phosphate receptors and lysosomal enzymes along the osteoclast exocytic pathway.Studies on the mechanisms of autophagy: maturation of the autophagic vacuole.TMEM106B, the risk gene for frontotemporal dementia, is regulated by the microRNA-132/212 cluster and affects progranulin pathways.Role for phosphatidylinositol 3-kinase in the sorting and transport of newly synthesized lysosomal enzymes in mammalian cells.Phospholipase A(2) antagonists inhibit nocodazole-induced Golgi ministack formation: evidence of an ER intermediate and constitutive cycling.TLR2 synergizes with both TLR4 and TLR9 for induction of the MyD88-dependent splenic cytokine and chemokine response to Streptococcus pneumoniae.Accumulation of coated vesicles bearing mannose 6-phosphate receptors for lysosomal enzymes in the Golgi region of I-cell fibroblastsReduced clearance of proteins labeled with diisopropylfluorophosphate in portacaval-shunted ratsMolecular characterization of aspartylglucosaminidase, a lysosomal hydrolase upregulated during strobilation in the moon jellyfish, Aurelia aurita.TGN exit of the cation-independent mannose 6-phosphate receptor does not require acid hydrolase binding.Regulation of late endosomal/lysosomal maturation and trafficking by cortactin affects Golgi morphology.Chemotaxis and cell motility in the cellular slime molds.Cathepsin D precursors in clathrin-coated organelles from human fibroblasts.Possible pathways for lysosomal enzyme delivery.Mannose-6-phosphate receptors for lysosomal enzymes cycle between the Golgi complex and endosomes.Is movement of mannose 6-phosphate-specific receptor triggered by binding of lysosomal enzymes?Differences in the endosomal distributions of the two mannose 6-phosphate receptors.Epithelial polyanion (podocalyxin) is found on the sides but not the soles of the foot processes of the glomerular epithelium.Effect of cations and temperature on kinetics of desmin assemblyRepolarization of Na+-K+ pumps during establishment of epithelial monolayers.Determination of the critical concentration required for desmin assemblyLectin histochemistry on squamous metaplasia in different epithelial tumors of dogs.Temperature- and acceptor-specificity of cell-free vesicular transfer from transitional endoplasmic reticulum to the cis Golgi apparatus.Cell surface expression of the 300 kDa mannose-6-phosphate receptor by activated T lymphocytes.Studies on the internalization mechanism of cationic cell-penetrating peptides.
P2860
Q24679792-D017EB3E-9514-49DD-BE80-8CE195481D03Q28307167-488DDA5D-2509-477A-ACFC-1F2F382224BCQ33654200-9CE8686B-42DD-43BE-9432-945648D019F8Q33782199-D9B7DBFB-3E3E-4995-8223-69E94B853E17Q34378128-73C6EE53-414E-4027-BB82-1957CF402BF4Q35816072-A31B0BC1-318F-4D31-AFFA-C6A4EC020D6EQ36212993-6A06D46D-2AC8-4379-A3B2-0E3DA29B950AQ36214269-C38444C1-9BA0-4152-B36E-4275FAB5CFE1Q36215113-EA1AD30C-26F0-49CE-902D-798C51B7BB74Q36216344-284E0E76-CAE5-41F9-B627-912A25CE4DC7Q36217696-A784230E-D1DE-45BD-9C9E-9CBE798CFEDCQ36217772-EAFDD382-4CEC-4104-AA27-B211BA3EAFF2Q36218000-CD0006AA-3FA5-4414-A8C8-3CD1DEEFB02DQ36218068-665539C4-2228-43FF-B4BC-833C89A638B0Q36219001-BA4449A9-72CE-40D1-96DB-5E3092BD1822Q36223083-E3D4ABC4-E6C5-4E83-A55A-D33EF458035AQ36247028-C6FCC623-254E-4FE2-9428-E6FB215B9667Q36382633-F44F466D-8993-4CA0-AF5B-6DFCF945641EQ36950906-0A065AC5-A774-4CA6-9277-AA45CB242A4FQ37214782-DF224818-90F6-4EA1-A711-CB821DB8E790Q37563383-D1234AFE-5169-4071-978F-5D08EFBD3CBAQ37724262-59ACA5B0-04EA-4746-9AAB-60BDE273D91CQ38403987-AD687F3E-6CD8-45EF-87EB-CD67EB4117BAQ38917657-654AF3C6-D14E-4F80-8E0A-3C4BFB7B88B6Q39275928-059D914A-3BFB-44E6-8A3D-D93669AE8D70Q39745400-8397D191-F274-4092-B8C2-8CE42004C8DFQ41479759-9CB38B4F-DF51-4A53-B7E7-DA556D87C081Q41494255-660A2761-7B15-4277-A468-A2144062E24DQ41510082-F96720B6-276B-4C3C-8989-3CFEFFF62727Q41518527-710BA631-38CF-4288-B2E0-55D38AC3F6A3Q41551657-B445AD5C-0FCD-449A-A260-6C6F7BAB9F5CQ41898213-1DAE9CBF-974D-4A17-A000-15CE62FFF486Q41901767-7ABADFE0-C595-4C2A-8039-6623EA75653FQ41945206-1EC4391D-C49E-4A2D-BA93-190F85652C0BQ42171872-D31FDD12-EB5B-44FE-B2AE-ABC3D98D93C9Q42466563-12CC782A-95B4-4D29-B970-37F5582976BAQ42795659-269ED2F5-F968-4885-A302-BB0492C73948Q43742831-31C88881-1BAE-4E23-BF04-DCC85B63E882Q44463875-1E906095-226A-4977-A927-95AFC17BB2DC
P2860
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
description
1984 nî lūn-bûn
@nan
1984年の論文
@ja
1984年論文
@yue
1984年論文
@zh-hant
1984年論文
@zh-hk
1984年論文
@zh-mo
1984年論文
@zh-tw
1984年论文
@wuu
1984年论文
@zh
1984年论文
@zh-cn
name
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@ast
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@en
type
label
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@ast
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@en
prefLabel
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@ast
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@en
P2093
P2860
P356
P1476
Redistribution of mannose-6-phosphate receptors induced by tunicamycin and chloroquine.
@en
P2093
E Constantinescu
M G Farquhar
P2860
P304
P356
10.1083/JCB.99.1.320
P407
P433
P577
1984-07-01T00:00:00Z