Lipids and cholesterol as regulators of traffic in the endomembrane system. - Wikidata - wikimedia - TriplyDB

Lipids and cholesterol as regulators of traffic in the endomembrane system.

Lipids and cholesterol as regulators of traffic in the endomembrane system.

http://www.wikidata.org/entity/Q36006296

about

Plant protein glycosylation Expanding proteostasis by membrane trafficking networks Mechanisms and genetic determinants regulating sterol absorption, circulating LDL levels, and sterol elimination: implications for classification and disease risk The SUN protein Mps3 is required for spindle pole body insertion into the nuclear membrane and nuclear envelope homeostasis Getting membrane proteins on and off the shuttle bus between the endoplasmic reticulum and the Golgi complex Low-Dose, Long-Wave UV Light Does Not Affect Gene Expression of Human Mesenchymal Stem Cells Using multifocal plane microscopy to reveal novel trafficking processes in the recycling pathway.Enteroviruses harness the cellular endocytic machinery to remodel the host cell cholesterol landscape for effective viral replication.Targeting the endoplasmic reticulum with a membrane-interactive luminescent ruthenium(ii) polypyridyl complex†Electronic supplementary information (ESI) available: Experimental details, characterization of 2 and Fig. S1-S6. See DOI: 10.1039/c3sc5172 Arabidopsis ribosomal proteins control vacuole trafficking and developmental programs through the regulation of lipid metabolism.Fluorescent in situ visualization of sterols in Arabidopsis roots.Deficiency of a Niemann-Pick, type C1-related protein in toxoplasma is associated with multiple lipidoses and increased pathogenicity.Models for Golgi traffic: a critical assessment Membranes in balance: mechanisms of sphingolipid homeostasis.Photohighlighting approaches to access membrane dynamics of the Golgi apparatus Cholesterol in brain disease: sometimes determinant and frequently implicated.LTP-triggered cholesterol redistribution activates Cdc42 and drives AMPA receptor synaptic delivery Ganglioside biochemistry The antifungal drug itraconazole inhibits vascular endothelial growth factor receptor 2 (VEGFR2) glycosylation, trafficking, and signaling in endothelial cells Apicobasal domain identities of expanding tubular membranes depend on glycosphingolipid biosynthesis Biogenesis of the lysosome-derived vacuole containing Coxiella burnetii.CLN3 loss disturbs membrane microdomain properties and protein transport in brain endothelial cells.Crystallization around solid-like nanosized docks can explain the specificity, diversity, and stability of membrane microdomains.Sub-compartmental organization of Golgi-resident N-glycan processing enzymes in plants Mechanisms of protein retention in the Golgi.Glycosphingolipid functions Golgi glycosylation and human inherited diseases.Nuclear envelope insertion of spindle pole bodies and nuclear pore complexes.Roles of ceramide and sphingolipids in pancreatic β-cell function and dysfunction.Sphingolipid homeostasis in the endoplasmic reticulum and beyond.Cholesterol as a co-solvent and a ligand for membrane proteins.Impaired endo-lysosomal membrane integrity accelerates the seeding progression of α-synuclein aggregates.Membrane Curvature and Lipid Composition Synergize To Regulate N-Ras Anchor Recruitment.Membrane curvature regulates ligand-specific membrane sorting of GPCRs in living cells.PLCγ1 participates in protein transport and diacylglycerol production triggered by cargo arrival at the Golgi.The differential palmitoylation states of N-Ras and H-Ras determine their distinct Golgi subcompartment localizations.Organelle biogenesis in the endoplasmic reticulum.A major fraction of glycosphingolipids in model and cellular cholesterol-containing membranes is undetectable by their binding proteins.A cholesterol consensus motif is required for efficient intracellular transport and raft association of a group 2 HA from influenza virus.Phospholipid synthesis participates in the regulation of diacylglycerol required for membrane trafficking at the Golgi complex.

P2860

Q26766564-F3BB85F3-6262-48C2-AE79-A8C10C466C1A Q26824651-0D808688-C660-4A77-B0F7-32EF54AAEB87 Q27003094-C01D4014-433B-4D0A-AAE0-6041CA5AD6CC Q27335565-3BDADA49-F5EE-42F2-947F-CEF7B49AD60B Q28066509-7985C0B1-BC2B-44BA-9EA9-F5E1754FE8D7 Q28548585-E378B6D4-F507-4B61-819C-0C3DA528F915 Q30539163-F6B3C5F3-DB37-4A72-876F-E254758A66E6 Q30552405-C8FBD850-1316-4B73-982A-4C0CF89C9AD4 Q30884078-FC6AC8E1-15CA-424E-A513-E208CB8C4B77 Q33359748-C1D56518-E6EC-4F7B-A74D-7BD0A5269164 Q33848893-0230931A-3048-498C-8C92-0CAE116EB56C Q34102702-3645BBBA-03E9-491B-9CF5-96908234AFA8 Q34211660-CABC3541-7AF0-463D-B311-A1936F286D34 Q34330398-927E535E-1D51-456B-94FD-7FE75AA42207 Q34532226-B362670A-19F5-433E-802E-F4C3A29CFAF0 Q34621446-7EDFFABE-0864-455E-A19A-77B05FA3D0A0 Q35184462-80D309DF-796B-46B9-9D8E-A51459C5355B Q35361488-872B055E-76A9-4E37-AAE1-D9CC511A8222 Q35626139-1509127A-89CA-4EE5-BC55-C65C272194CF Q35643927-00D8A446-1651-4056-935C-795C4775D718 Q36338469-A725AEBA-E4D4-43F9-B900-D01567D7AB68 Q37309514-1A34D9F8-4B3D-4CA9-A3E3-C8FBE70AD545 Q37618993-197BF62C-C57F-4973-A299-66AD2A50B284 Q37838613-2659027B-4FD2-4A2A-AC87-A94F18BA2590 Q37869708-28AC53D1-7C79-4B90-B2AA-FA15BC48CD79 Q37873655-014FFA99-0C68-468F-B7D2-CA96A15E5E8C Q37895036-D8DDDAA7-172F-40E0-897F-FA586565AFEE Q38008910-783AFA74-31B5-4DB2-B57A-FD94FFA8F5D7 Q38030857-DDFE0A0F-1888-4B4C-B747-DE7AF0196A3D Q38094869-8E6ACAD2-9274-4A2B-81D5-DBC9ADE41594 Q38155118-63C47A93-3E29-4DB1-9FE1-ACAB509C32BC Q38631574-0676C659-8A5A-4FAF-A501-3FFF6908A209 Q38664174-4CC69405-990A-417B-A8B0-20945D2C6CAF Q38798552-702222FA-F810-43FF-8AB1-5AE19E786E91 Q38930543-60F86348-B398-4AA9-A5B6-0083AB3B2851 Q38962669-1F2D9316-D92C-4567-9DE5-765419A6F4EA Q39438848-BA247B56-C51D-4F1B-A3E9-2D4FA54412EC Q42078905-B33CBD29-24F1-4B7C-B1D5-866C72345CCB Q42183262-121EA162-FD26-4BCD-9AAE-ECDA51210275 Q42270235-908587BA-1739-4613-8E6C-08A89FFC0114

P2860

Lipids and cholesterol as regulators of traffic in the endomembrane system.

http://www.wikidata.org/entity/Q36006296

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

2010年论文

@zh

2010年论文

@zh-cn

name

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@ast

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@en

type

label

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@ast

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@en

prefLabel

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@ast

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@en

P1433

Q36006296-921F1E06-A7B1-4730-BC1B-BDB6CA98C30D

P1476

Q36006296-3688635D-6ED9-45B2-84FB-2895281F731A

P2093

Q36006296-5602E7A3-AA8C-467D-9BB1-AF4F312C0EA4

P2860

Q36006296-01E00EAE-5F92-4C4E-A28D-92C73F2D33B7

Q36006296-03C27A25-69AC-46B5-9D2B-42AFC1678B40

Q36006296-044FA098-A41F-4B85-BBE3-43DE70B90A36

Q36006296-057F030F-2523-4D6F-9624-EEEE6E25F435

Q36006296-08891702-4CD0-458F-94AF-78257E4928AE

Q36006296-08BE3743-0ABF-4BF4-B5A6-2673A58ABC7F

Q36006296-0EE8ABA9-C981-42AA-9495-CBCED2B7A3F0

Q36006296-10DD30A6-5359-4626-954E-BFB387276E36

Q36006296-12683D9B-98DF-4486-B774-4C141FABDF5A

Q36006296-1362E203-2E68-48DB-9378-1B0B87CB0EBD

P304

Q36006296-A245BAFA-E090-4B24-AAE0-BA36941F5509

P31

Q36006296-7161B804-51BA-4212-BA64-4E5ACF316ECD

P356

Q36006296-377C9E48-02E8-4046-A93A-53DBA693ADEF

P478

Q36006296-23F27462-9EEE-4B2D-8DAF-607C8919E183

P50

Q36006296-DE7BE453-1070-4278-A919-0AD23F072038

P577

Q36006296-9C9E4829-7A7D-40AB-A0D7-D99011788B9E

P5875

Q36006296-CAAE02B9-D9B7-417B-B79B-C229BE2A0206

P698

Q36006296-6B5FAD66-50BE-4B33-92B4-127E712A35BB

P932

Q36006296-351CA0F7-633A-4A78-9D9D-BE3324BFDA2D

P356

ANNUREV.BIOPHYS.093008.131357

P1433

Annual Review of Biophysics

P1476

Lipids and cholesterol as regulators of traffic in the endomembrane system.

@en

P2093

Robert D Phair

http://www.w3.org/2001/XMLSchema#string

P2860

Brefeldin A acts to stabilize an abortive ARF-GDP-Sec7 domain protein complex: involvement of specific residues of the Sec7 domain

An investigation of the role of transmembrane domains in Golgi protein retention

Brefeldin A: insights into the control of membrane traffic and organelle structure

Cholesterol feedback: from Schoenheimer's bottle to Scap's MELADL

Membrane lipids: where they are and how they behave

Maintenance of Golgi structure and function depends on the integrity of ER export

Phase behavior of lipid mixtures

A role for giantin in docking COPI vesicles to Golgi membranes

Spatial partitioning of secretory cargo from Golgi resident proteins in live cells.

Sar1p N-terminal helix initiates membrane curvature and completes the fission of a COPII vesicle.

P304

559-578

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1146/ANNUREV.BIOPHYS.093008.131357

http://www.w3.org/2001/XMLSchema#string

P478

39

http://www.w3.org/2001/XMLSchema#string

P50

Jennifer Lippincott-Schwartz

P577

2010-01-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

41654907

http://www.w3.org/2001/XMLSchema#string

P698

20192772

http://www.w3.org/2001/XMLSchema#string

P932

3366628

http://www.w3.org/2001/XMLSchema#string