Modulation of cell surface heparan sulfate structure by growth of cells in the presence of chlorate.
about
The cysteine-rich domain of human ADAM 12 supports cell adhesion through syndecans and triggers signaling events that lead to beta1 integrin-dependent cell spreadingRequirements for sulfate transport and the diastrophic dysplasia sulfate transporter in fibronectin matrix assemblyStimulation of DNA synthesis and cell proliferation of human mammary myoepithelial-like cells by hepatocyte growth factor/scatter factor depends on heparan sulfate proteoglycans and sustained phosphorylation of mitogen-activated protein kinases p42/Reduced glycosaminoglycan sulfation diminishes the agrin signal transduction pathwayHeparin-inhibitable lectin activity of the filamentous hemagglutinin adhesin of Bordetella pertussisRegulation of zebrafish skeletogenesis by ext2/dackel and papst1/pinscher.The anticancer activity of lytic peptides is inhibited by heparan sulfate on the surface of the tumor cells.A27L protein mediates vaccinia virus interaction with cell surface heparan sulfate.A single mutation in the E2 glycoprotein important for neurovirulence influences binding of sindbis virus to neuroblastoma cellsThe major fimbrial subunit of Bordetella pertussis binds to sulfated sugarsInteraction of Escherichia coli heat-stable enterotoxin B with cultured human intestinal epithelial cellsMelanoma Cell Adhesion and Migration Is Modulated by the Uronyl 2-O Sulfotransferase.Repression of myogenic differentiation by aFGF, bFGF, and K-FGF is dependent on cellular heparan sulfateGlycan antagonists and inhibitors: a fount for drug discovery.Re-examination of CD91 function in GRP94 (glycoprotein 96) surface binding, uptake, and peptide cross-presentation.6-o- and N-sulfated syndecan-1 promotes baculovirus binding and entry into Mammalian cells.Characterization of wise protein and its molecular mechanism to interact with both Wnt and BMP signals.Hepatocyte growth factor/scatter factor binds to small heparin-derived oligosaccharides and stimulates the proliferation of human HaCaT keratinocytes.Location of N-unsubstituted glucosamine residues in heparan sulfate.Cell surface heparan sulfate proteoglycans are involved in the binding of Hsp90α and Hsp90β to the cell plasma membrane.Drug-Mediated Regulation of Glycosaminoglycan Biosynthesis.Role of cell surface glycosaminoglycans of human T cells in human immunodeficiency virus type-1 (HIV-1) infection.Involvement of wound-associated factors in rat brain astrocyte migratory response to axonal injury: in vitro simulation.Hemagglutination and proteoglycan binding by the Lyme disease spirochete, Borrelia burgdorferiEffect of brefeldin A on heparan sulphate biosynthesis in Madin-Darby canine kidney cellsReceptor-mediated transcytosis of lactoferrin through the blood-brain barrier.Preparation of a novel functional hydrogel consisting of sulfated glucoside-bearing polymer: activation of basic fibroblast growth factor.Effect of long-term treatment of 3T3-L1 adipocytes with chlorate on the synthesis, glycosylation, intracellular transport and secretion of lipoprotein lipase.Cysteine-rich domain of human ADAM 12 (meltrin alpha) supports tumor cell adhesionHeparin-binding EGF-like growth factor stimulation of smooth muscle cell migration: dependence on interactions with cell surface heparan sulfateThe N-terminal Arg2, Arg3 and Arg4 of human lactoferrin interact with sulphated molecules but not with the receptor present on Jurkat human lymphoblastic T-cells.Effects of zinc on cell proliferation and proteoglycan characteristics of epiphyseal chondrocytes.Sodium fluoride induces changes on proteoglycans synthesized by avian osteoblasts in culture.Cellular heparan sulfate participates in the metabolism of prions.Integrins and heparan sulfate proteoglycans on hepatic stellate cells (HSC) are novel receptors for HSC-derived exosomes.Heparin-binding epidermal growth factor-like growth factor: p91 activation induction of plasminogen activator/inhibitor, and tubular morphogenesis in human microvascular endothelial cells.Presence of N-unsubstituted glucosamine units in native heparan sulfate revealed by a monoclonal antibody.Autoantibodies in Human Diabetic Depression Inhibit Adult Neural Progenitor Cells In vitro and Induce Depressive-Like Behavior in Rodents.
P2860
Q24669779-FC1498A7-694B-49E1-B323-E6A8AC4341CAQ24684889-386CFBD6-A595-4C6D-9CD2-541503AFFA83Q28140519-BEA9AC42-D222-447A-9394-9B4AF48EAD6CQ28290198-F5F6214C-9701-41BC-93A6-85C3ECCA1041Q30451204-D90D86CD-E0CC-4F26-B2B5-602FFCF92BE9Q33354947-24DBC3B5-F4EC-4850-BD6B-0F64E99F1B7DQ33467561-746A6221-20BF-4246-96EA-9C5738100CCEQ34070135-E2D549C5-01B7-4FF5-AFA7-8DE7396E189AQ34340083-BD8E3038-FDFE-4047-992A-821279F71BEDQ35505198-67E01423-110A-4385-A359-E0B640AE2743Q35552683-B2C1B431-C1CC-47F3-9552-366F9B48FEF4Q36255478-75BEA646-9197-4FE0-A2FB-A5B41C77CA19Q36531625-EB184910-1BE8-4938-B783-931ACFABCC52Q37027396-C1DE4F93-444B-4CB2-921B-267EF5EBADADQ37029458-8035F11B-6D6C-4C3B-A1F4-14560EE90BFEQ37252596-B9BB5F1E-CBBC-4522-9370-EAA43812BD22Q37371753-BF64A1F9-7CA5-4684-846A-33810A1885F7Q38292865-43A971D1-93D7-4142-AB83-3B098FF86543Q38362109-4A847277-B2FA-4961-A884-D3F34FDD053DQ38813123-559EF03B-33C5-447E-8694-6A632C6E99E1Q39060517-D3D77F5F-E221-48FB-8B82-8E005128322FQ39318713-C7FA900B-26F3-4C32-B3CB-54E12350431EQ39759229-5DC87A41-A37E-40F5-A856-F8F51ED52F02Q39821422-7C0510E4-B1AD-4EAA-BE3D-CE452B0CE8A9Q40749911-3CAEE24A-CBA6-4D80-B3C4-9AAEE315BFC4Q40969107-F57E1ABF-0CFC-4228-9EE0-EF4970C6D2BBQ41026319-5A76A09F-95ED-4327-BD82-3EB6EB123107Q41775005-1C755C7A-C566-4216-8C6B-6D5D233F3A16Q42048950-631F2FDD-AA4E-4577-B674-336F6896ACC8Q42769676-835F7997-DD37-4410-9B2D-4B33FA54B81CQ42988360-50E3EEC7-0875-4097-9D25-C0ADB18C4477Q43704450-BA6C56F3-5CEB-4A18-950C-47A4B00C23E5Q43825431-6E2CA12C-4AC6-408D-ADA0-ACEE58CD0BFCQ44519369-8108C8D4-F271-4362-8DA2-D2FC4BCA3767Q46088331-2183D8AD-02D8-4FA8-A0F0-97CEF535008DQ54526368-0D241BB2-6394-4595-84B7-ECFC004FB59DQ54598050-AD77358D-40C0-47DF-90E9-BE5EDB647C78Q54968510-7C62D138-45DC-4373-823F-34447CD828D2
P2860
Modulation of cell surface heparan sulfate structure by growth of cells in the presence of chlorate.
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
1989年论文
@zh
1989年论文
@zh-cn
name
Modulation of cell surface hep ...... s in the presence of chlorate.
@en
Modulation of cell surface hep ...... s in the presence of chlorate.
@nl
type
label
Modulation of cell surface hep ...... s in the presence of chlorate.
@en
Modulation of cell surface hep ...... s in the presence of chlorate.
@nl
prefLabel
Modulation of cell surface hep ...... s in the presence of chlorate.
@en
Modulation of cell surface hep ...... s in the presence of chlorate.
@nl
P2093
P356
P1433
P1476
Modulation of cell surface hep ...... s in the presence of chlorate.
@en
P2093
P304
P356
10.1021/BI00446A021
P407
P577
1989-10-01T00:00:00Z