scholarly article | Q13442814 |
P50 | author | Kai Simons | Q880181 |
Suzanne Eaton | Q65068820 | ||
P2093 | author name string | Eaton S | |
Rietveld A | |||
Neutz S | |||
P2860 | cites work | A RAPID METHOD OF TOTAL LIPID EXTRACTION AND PURIFICATION | Q25939000 |
Functional rafts in cell membranes | Q27860768 | ||
Identification of a palmitic acid-modified form of human Sonic hedgehog | Q28271228 | ||
Cholesterol modification of hedgehog signaling proteins in animal development | Q28291005 | ||
Hedgehog patterning activity: role of a lipophilic modification mediated by the carboxy-terminal autoprocessing domain | Q28609824 | ||
Sorting of GPI-anchored proteins to glycolipid-enriched membrane subdomains during transport to the apical cell surface | Q29547857 | ||
Lipid domain structure of the plasma membrane revealed by patching of membrane components | Q29620204 | ||
Cholesterol-induced fluid-phase immiscibility in membranes | Q30439907 | ||
Interaction of cholesterol with various glycerophospholipids and sphingomyelin | Q30453917 | ||
Complex cellular and subcellular regulation of notch expression during embryonic and imaginal development of Drosophila: implications for notch function | Q33531897 | ||
Insect glycolipids | Q34003242 | ||
Lipid sorting in epithelial cells | Q34048821 | ||
The differential miscibility of lipids as the basis for the formation of functional membrane rafts. | Q34067848 | ||
Cysteine3 of Src family protein tyrosine kinase determines palmitoylation and localization in caveolae | Q36382857 | ||
Molecular order and dynamics of phosphatidylcholine bilayer membranes in the presence of cholesterol, ergosterol and lanosterol: a comparative study using 2H-, 13C- and 31P-NMR spectroscopy | Q36679885 | ||
Organization of G proteins and adenylyl cyclase at the plasma membrane | Q36945617 | ||
Identification of detergent-resistant plasma membrane microdomains in dictyostelium: enrichment of signal transduction proteins | Q37386044 | ||
Intracellular lipid heterogeneity caused by topology of synthesis and specificity in transport. Example: sphingolipids. | Q40463720 | ||
Characterization of proteins in detergent-resistant membrane complexes from Madin-Darby canine kidney epithelial cells | Q41260059 | ||
Glycosphingolipid-enriched, detergent-insoluble complexes in protein sorting in epithelial cells | Q41546751 | ||
Structure of detergent-resistant membrane domains: does phase separation occur in biological membranes? | Q41641699 | ||
Cholesterol is required for surface transport of influenza virus hemagglutinin | Q41816953 | ||
Comparative studies of metabolism of 4-desmethyl, 4-monomethyl and 4,4-dimethyl sterols in Manduca sexta | Q42067237 | ||
Lipids of plasma membranes of monkey and hamster kidney cells and of parainfluenza virions grown in these cells | Q43677327 | ||
Plasma membrane lipids and parainfluenza virus assembly | Q45822448 | ||
Distinct morphogenetic functions of similar small GTPases: Drosophila Drac1 is involved in axonal outgrowth and myoblast fusion | Q46580381 | ||
Tout-velu is a Drosophila homologue of the putative tumour suppressor EXT-1 and is needed for Hh diffusion | Q47072416 | ||
Teratogen-mediated inhibition of target tissue response to Shh signaling | Q48004971 | ||
Enzyme-catalyzed oxidation of cholesterol in mixed phospholipid monolayers reveals the stoichiometry at which free cholesterol clusters disappear | Q48467912 | ||
Two dimensional then layer chromatographic separation of polar lipids and determination of phospholipids by phosphorus analysis of spots | Q48919839 | ||
Hedgehog, transmitted along retinal axons, triggers neurogenesis in the developing visual centers of the Drosophila brain | Q48943844 | ||
P433 | issue | 17 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | membrane raft | Q424178 |
P304 | page(s) | 12049-12054 | |
P577 | publication date | 1999-04-01 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Association of sterol- and glycosylphosphatidylinositol-linked proteins with Drosophila raft lipid microdomains. | |
P478 | volume | 274 |
Q28586729 | A direct requirement for Hedgehog signaling for normal specification of all ventral progenitor domains in the presumptive mammalian spinal cord |
Q40014716 | A fluorescent sphingolipid binding domain peptide probe interacts with sphingolipids and cholesterol-dependent raft domains |
Q34202987 | A genome-wide RNAi screen identifies regulators of cholesterol-modified hedgehog secretion in Drosophila |
Q44854684 | A stomatin and a degenerin interact in lipid rafts of the nervous system of Caenorhabditis elegans |
Q37377697 | Acyltransferases for secreted signalling proteins (Review). |
Q40215390 | Alkaline phosphatases are involved in the response of Aedes aegypti larvae to intoxication with Bacillus thuringiensis subsp. israelensis Cry toxins |
Q52594365 | Argosomes: membrane fragments on the run. |
Q39939099 | Association of dengue virus NS1 protein with lipid rafts |
Q34341238 | Asymmetric requirement for cholesterol in receptor-bearing but not envelope-bearing membranes for fusion mediated by ecotropic murine leukemia virus |
Q33923831 | BMP, Wnt and Hedgehog signals: how far can they go? |
Q34156599 | Caveolins and cellular cholesterol balance |
Q37174361 | Ceramidase regulates synaptic vesicle exocytosis and trafficking |
Q34330339 | Ceramide phosphoethanolamine biosynthesis in Drosophila is mediated by a unique ethanolamine phosphotransferase in the Golgi lumen |
Q35854971 | Ceramide transfer protein function is essential for normal oxidative stress response and lifespan |
Q47887087 | Characterization of a novel alanine-rich protein located in surface microdomains in Trypanosoma brucei |
Q44586590 | Characterization of free endogenous C14 and C16 sphingoid bases from Drosophila melanogaster |
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Q83227315 | Cholesterol accessibility at the ciliary membrane controls hedgehog signaling |
Q33860525 | Cholesterol in signal transduction |
Q34809793 | Cholesterol modification of Hedgehog family proteins |
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Q34470153 | Gene expression patterns and sequence polymorphisms associated with mosquito resistance to Bacillus thuringiensis israelensis toxins |
Q35917743 | Glutamate-binding affinity of Drosophila metabotropic glutamate receptor is modulated by association with lipid rafts. |
Q30493377 | Glycolipid trafficking in Drosophila undergoes pathway switching in response to aberrant cholesterol levels |
Q37950975 | Glycosphingolipids in signaling and development: from liposomes to model organisms. |
Q47072413 | Glycosphingolipids with extended sugar chain have specialized functions in development and behavior of Drosophila |
Q42044327 | Glycosylation patterns are sexually dimorphic throughout development of the olfactory system in Manduca sexta |
Q34427662 | Glycyrrhetic acid synergistically enhances β₂-adrenergic receptor-Gs signaling by changing the location of Gαs in lipid rafts |
Q47071002 | Hedgehog movement is regulated through tout velu-dependent synthesis of a heparan sulfate proteoglycan |
Q42052312 | Heliothis virescens and Manduca sexta lipid rafts are involved in Cry1A toxin binding to the midgut epithelium and subsequent pore formation |
Q37432054 | Heparan sulfate and transglutaminase activity are required for the formation of covalently cross-linked hedgehog oligomers |
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Q43159909 | Heparan sulfate-modulated, metalloprotease-mediated sonic hedgehog release from producing cells |
Q36726706 | Hitch-hiking between cells on lipoprotein particles. |
Q33860443 | How cholesterol modulates the signal |
Q24302262 | Identification of a family of animal sphingomyelin synthases |
Q35150740 | Identification of a family of fatty-acid-speciated sonic hedgehog proteins, whose members display differential biological properties |
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