about
fatty acid transportbile acid and bile salt transportphospholipid transportceramide transportlipopolysaccharide transportlipid transport across blood brain barrierpolymyxin transportintracellular lipid transportlipid translocationsterol transportlipid transport involved in lipid storageintestinal lipid absorptionlipid antigen transportacylglycerol transportglycolipid transportisoprenoid transportsphingoid long-chain base transportintermembrane lipid transferlipid export from celllipid import into cell
P279
Apolipoprotein A1Low density lipoprotein receptorAPOBApolipoprotein BVery low density lipoprotein receptorAPOC1Apolipoprotein C-ILipopolysaccharide binding proteinSigma non-opioid intracellular receptor 1Apolipoprotein A-IAPOC3Apolipoprotein C-IIIAPOC4Apolipoprotein C-IVTranslocator proteinAPOC2Predicted gene 44805ATP-binding cassette, sub-family B (MDR/TAP), member 4Phospholipid transfer proteinAPODApolipoprotein C1Very low density lipoprotein receptorCeramide transporter 1ATPase phospholipid transporting 10A (putative)ATPase phospholipid transporting 10B (putative)ATPase phospholipid transporting 11AATPase phospholipid transporting 11CATPase phospholipid transporting 10D (putative)ATPase phospholipid transporting 11B (putative)Sphingolipid transporter 1 (putative)Complement factor H related 4Anoctamin 9Anoctamin 4Anoctamin 6Anoctamin 7Anoctamin 3ARV1 homolog, fatty acid homeostasis modulatorPhosphatidylinositol transfer protein cytoplasmic 1Sterol carrier protein 2Steroidogenic acute regulatory protein
P682
Increased choline kinase activity and elevated phosphocholine levels in human colon cancerMutations in the transporter ABCA12 are associated with lamellar ichthyosis type 2Candidate genes associated with the effect of rosiglitazone on glycemic control and cardiovascular system in the treatment of type 2 diabetes mellitusLenz-Majewski syndrome: How a single mutation leads to complex changes in lipid metabolismMmpL Proteins in Physiology and Pathogenesis ofRab39a and Rab39b Display Different Intracellular Distribution and Function in Sphingolipids and Phospholipids Transport
P921
Q14864580-55BF789E-D33C-4FBD-9E2F-9B9614A322EAQ14865026-F852AFAD-454A-431B-B31D-DC9AF77C19C4Q14872721-BD8B0665-A07E-49DC-AE82-E9D2203206CBQ14881704-90526244-1BFE-4C52-B872-50F0FA6893D8Q14907572-31A8FE14-8C61-4EAE-9768-3916464AE80DQ21120133-FBB066A0-C2AF-4ABC-8212-6C12BC252367Q22290196-766F1011-A674-42A0-A193-22E936422BD6Q22290305-0D67CD3D-A57A-4E3F-9773-1D9C236ABA92Q22290354-606F5163-6050-4987-9FE5-6946F6B11DB9Q22290450-B1175DB5-918D-400E-89E5-86023CFC2FE2Q22290453-CEAF79E8-6830-4278-95B0-CF410867994AQ22290457-DC147BFE-8791-4814-9ECA-6B0F1BADAD53Q22292435-FBD30B38-66A4-4C67-92F0-A89D55128104Q22292437-F83F0F3C-BC1C-43D3-BE2F-46A50E9894DCQ22292444-2526E869-8B0D-42F0-BCAE-FD0A58E54196Q22292452-23FBD27E-61A9-4913-8D34-0F30009802F5Q26252387-309B5522-2B57-40CE-9851-DBBBCE85F2E4Q29573157-19A76664-8E57-4853-8DCB-7CEB9A537502Q66986434-747F6BB9-90CE-4BA8-952B-D156853F2779Q66986436-65ED05D7-F501-4983-858F-CFBE7C0DA227
P279
Q1316030-5D369527-88F2-4512-A6B6-AD0D28CA9719Q14872730-83C55B02-9C19-4771-ACCA-71319E21DFA4Q14890615-525AAC8E-953C-4B69-95C2-9DE03177C43CQ14890657-30FF9583-EDAE-4DBB-BD75-EF81E8BB14F7Q14901298-4C1FA64B-08A8-40D7-B4D4-EB5A7A9A3214Q14904550-75565A64-8A74-494E-85FC-B2F7DB6E5011Q14904553-068EAE9E-A0F7-4DCE-B674-9F7D964B4D4BQ14907580-761C8548-6DB6-48EA-84D7-DD12DA646DBAQ14907853-68AD182F-DFAB-4A96-9121-E8C1342F0E1BQ14910072-2B0196B4-7FDE-4EC1-B857-421748A5D358Q14910515-678EEB86-1277-4596-A796-4DDEE204893EQ14910554-4A5D53E3-8D12-471C-9069-BA683B034F39Q14910554-53E4E348-3C26-4CC1-A539-B0C6E61C24E7Q14910792-3A2B900C-B825-4866-AE24-C498DFEFE986Q14910813-8180CD3C-4740-4A41-9217-6659F7F62034Q14913479-1AB1361B-840D-46BE-B8F9-A14903536FB3Q14916272-46A1F764-A2A4-4E33-B83D-971B368986D3Q14916274-C248ED21-053F-43DE-91FD-249CAF291B1DQ15315987-2DC5B8A0-EB53-4BFF-9D77-CD68D114A92CQ1724405-CA6E6E19-0086-4BDE-8C2E-4330CFDD98B3Q18247781-B9EF7800-D241-420C-AECB-D4049EB9888BQ1977297-3AC3FB3C-9053-487E-959F-8E8558A3A755Q1979313-5FE8828B-4C2C-4DFD-80AD-BFE707D6F784Q21096462-0E4331E5-3090-4A9C-B27C-2406E4BFF6EEQ21097472-4B0E5808-E2B4-4706-AAD8-428723496555Q21097480-D8B46804-1E67-4CB5-9D86-FDE3A765A551Q21097518-F9F9404C-5A71-48D4-B3A0-FAC7A0405288Q21097536-91DDABF1-ACF1-4A53-A3B1-AB92D658CF79Q21097555-C1FF79A5-3094-4C62-8C00-2DBBD92BD050Q21097557-604B8D7C-E660-444C-AE0B-5C4AB7979C95Q21100300-01B04365-17C6-4E80-A93B-A65BED8A3725Q21103092-8DFE0EC8-FB5D-4784-A51C-4FEF0AA13487Q21105121-51E72778-056C-4E72-B66A-D74646BB21C8Q21105161-1DA22F76-2448-415F-A723-84AF265E290FQ21105169-A2DF4DF9-03E1-40BA-B990-EDCA3F00EA7EQ21105179-CFD7780E-0767-4BC0-BC92-90F2488D8FEBQ21105208-3BD3C72F-A175-4235-9F3C-3F107872183DQ21105285-B748883D-F1F2-4D2A-8B63-0939662CE6FCQ21105392-CFADD218-F6FD-4DB2-BD44-183BB4951975Q21106734-65122880-8303-4FA6-A9EF-449B0C5B4A7C
P682
description
The directed movement of lipid ...... ringly, in an aqueous solvent.
@en
biologisch proces
@nl
name
lipid transport
@en
lipidtransport
@nn
type
label
lipid transport
@en
lipidtransport
@nn
altLabel
GO:0006869
@en
GO:0006869
@nn
prefLabel
lipid transport
@en
lipidtransport
@nn
P2888
P527
P686
GO:0006869