about
Control of membrane fusion mechanism by lipid composition: predictions from ensemble molecular dynamicsEvidence for a role of SNX16 in regulating traffic between the early and later endosomal compartmentsA unique C-terminal domain allows retention of matrix metalloproteinase-27 in the endoplasmic reticulumThe Phox homology (PX) domain, a new player in phosphoinositide signallingStructural organization of the endoplasmic reticulum.Small molecule modulation of Smoothened activityStarD7 mediates the intracellular trafficking of phosphatidylcholine to mitochondriaModulation of the bilayer thickness of exocytic pathway membranes by membrane proteins rather than cholesterolConnexin channels and phospholipids: association and modulationInhibition of Hedgehog signaling by direct binding of cyclopamine to SmoothenedMembrane contact sites, gateways for lipid homeostasisConsequences of membrane topographyOSBP-related proteins: liganding by glycerophospholipids opens new insight into their functionExogenous ether lipids predominantly target mitochondriaStructure and mechanism of an active lipid-linked oligosaccharide flippaseDirected evolution of a sphingomyelin flippase reveals mechanism of substrate backbone discrimination by a P4-ATPase.Nonvesicular sterol movement from plasma membrane to ER requires oxysterol-binding protein-related proteins and phosphoinositidesDiacylglycerol kinase alpha regulates the secretion of lethal exosomes bearing Fas ligand during activation-induced cell death of T lymphocytesRegulation of cholesterol homeostasis in macrophages and consequences for atherosclerotic lesion developmentSequential synthesis and methylation of phosphatidylethanolamine promote lipid droplet biosynthesis and stability in tissue culture and in vivoP4 ATPases: flippases in health and diseaseMitochondrial glycerol-3-phosphate acyltransferase-deficient mice have reduced weight and liver triacylglycerol content and altered glycerolipid fatty acid compositionMethodologies for the analysis of instantaneous lipid diffusion in MD simulations of large membrane systems.Continuity of Monolayer-Bilayer Junctions for Localization of Lipid Raft Microdomains in Model MembranesCoordinated lipid transfer between the endoplasmic reticulum and the Golgi complex requires the VAP proteins and is essential for Golgi-mediated transport.Mechanism of constitutive export from the golgi: bulk flow via the formation, protrusion, and en bloc cleavage of large trans-golgi network tubular domains.Clustering and lateral concentration of raft lipids by the MAL protein.Diacylglycerol kinase α regulates the formation and polarisation of mature multivesicular bodies involved in the secretion of Fas ligand-containing exosomes in T lymphocytesThe composition of West Nile virus lipid envelope unveils a role of sphingolipid metabolism in flavivirus biogenesis.Lipid-bilayer-assisted two-dimensional self-assembly of DNA origami nanostructures.Protein kinase D1/2 is involved in the maturation of multivesicular bodies and secretion of exosomes in T and B lymphocytesOptical recording of fast neuronal membrane potential transients in acute mammalian brain slices by second-harmonic generation microscopy.Arabidopsis genes involved in acyl lipid metabolism. A 2003 census of the candidates, a study of the distribution of expressed sequence tags in organs, and a web-based database.The ATP binding cassette multidrug transporter LmrA and lipid transporter MsbA have overlapping substrate specificities.Sphingomyelin functions as a novel receptor for Helicobacter pylori VacA.Roles of specific membrane lipid domains in EGF receptor activation and cell adhesion molecule stabilization in a developing olfactory system.Anchoring dipalmitoyl phosphoethanolamine to nanoparticles boosts cellular uptake and fluorine-19 magnetic resonance signalA genome-wide survey of maize lipid-related genes: candidate genes mining, digital gene expression profiling and co-location with QTL for maize kernel oil.Interaction of synaptotagmin with lipid bilayers, analyzed by single-molecule force spectroscopy.Detergent-resistant microdomains determine the localization of sigma-1 receptors to the endoplasmic reticulum-mitochondria junction.
P2860
Q21145657-23204E01-09C5-4D66-B6A5-ABC3A8E27F00Q24305485-CA2CE92E-347B-4D2A-8DAA-28FBE9B8B8BCQ24337565-67107CB0-0E3F-42C9-9F17-9C27137C2457Q24533547-5F2E44C1-06E1-480C-A04D-7DC8E315BCD7Q24538821-DDE3F6F5-5652-421C-9400-5F5A6595D34FQ24540343-65E3DA32-F23F-4D6A-8BA0-590EA00B788BQ24616552-E7BDB47D-A91E-43CE-9204-9B263F13C29BQ24633942-7903E0AD-E2F9-4538-B0B4-B0FA3E83A703Q24645921-B37802A6-59CD-42A4-98F8-8DBD48F2E28FQ24682703-B2B0E23C-6CC3-4452-8287-C67272AD0474Q26999991-F11E353A-F44D-4577-BE5B-CAC534C83541Q27004108-2CED4706-63D4-487E-8DF9-0C4A3FD3B23FQ27011239-676AF105-7AE7-4C10-81DB-F2E074CA04FAQ27309030-C6A89831-428F-4DAC-B8FA-30D95FD5790EQ27701786-BF5FBAF9-59E9-48C0-91A5-A5EE95BD4923Q27934053-4BB8C286-149C-4055-93DF-E43678723765Q27939970-439C0070-0703-468B-B024-660DD9005F14Q28248440-6816CA3F-A646-44A1-9FC6-575F7503EC4CQ28260242-0944F998-114B-4CB8-927A-6DCFD4756C56Q28308138-EB823ADB-B6F3-490B-95B5-FEC78D239DCBQ28397755-F7E64F6F-43F7-4C36-917D-4B6D8FCB441FQ28513654-EC4E0578-F829-45CD-A650-EE5B89741A13Q28654438-5DFFD200-4843-4AB2-A97D-51686762FC75Q28833283-D915E0F5-BD28-4C1E-B620-0ABC0C7F4508Q30483267-B29C71F0-4FBA-4656-8281-902ED7C75283Q30486978-95C95B11-AD17-4FCC-8BB7-63A8E50A8E44Q30491705-6C6985EC-0F95-422F-B0DE-5D286A9ECE65Q30502333-E03F66A0-A717-4103-A6F1-B6A7AD7CF0D0Q30588461-AEDD4596-E34E-40F9-B933-E235B4D6ECFFQ30663797-6C2368EE-6DD8-4661-A8F3-EFE2C61D7B3BQ30735300-5D731BFC-362F-4A55-9318-2422674C3640Q30859072-4FF95C69-98EC-470A-BD40-00A1BDE8769FQ33187381-3F93F15D-3AB0-4550-A271-8098F0D465FFQ33187645-56EE86CF-F4A0-42F9-964B-6059B12224F8Q33337132-3E02ABBD-2081-43E3-AB59-92DD4441AD3AQ33507260-76C191B0-DF5F-4765-BAC0-8E23A410AAC6Q33556363-D21D9F21-45AF-4C99-8760-977A6B6B042AQ33625205-5BFFA574-71EA-4B63-BE88-4F0B9FB7841FQ33722877-9C218C7E-7529-46C8-B702-53B5B86ADB91Q33754855-C9E8A339-8502-4B32-A6F8-E7ADA931D021
P2860
description
2001 nî lūn-bûn
@nan
2001 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
How proteins move lipids and lipids move proteins.
@ast
How proteins move lipids and lipids move proteins.
@en
How proteins move lipids and lipids move proteins.
@nl
type
label
How proteins move lipids and lipids move proteins.
@ast
How proteins move lipids and lipids move proteins.
@en
How proteins move lipids and lipids move proteins.
@nl
prefLabel
How proteins move lipids and lipids move proteins.
@ast
How proteins move lipids and lipids move proteins.
@en
How proteins move lipids and lipids move proteins.
@nl
P356
P1476
How proteins move lipids and lipids move proteins
@en
P2093
van der Sluijs P
P2888
P304
P356
10.1038/35080071
P577
2001-07-01T00:00:00Z
P5875
P6179
1007736774