Fatty acid transport protein expression in human brain and potential role in fatty acid transport across human brain microvessel endothelial cells.
about
SLC27 fatty acid transport proteinsModulatory Effects of Gut Microbiota on the Central Nervous System: How Gut Could Play a Role in Neuropsychiatric Health and DiseasesRole of docosahexaenoic acid in the modulation of glial cells in Alzheimer's diseaseWhy does brain metabolism not favor burning of fatty acids to provide energy? Reflections on disadvantages of the use of free fatty acids as fuel for brainRegulation of Ketone Body Metabolism and the Role of PPARĪ±Comparative Studies of Vertebrate Platelet Glycoprotein 4 (CD36)Serum-borne bioactivity caused by pulmonary multiwalled carbon nanotubes induces neuroinflammation via blood-brain barrier impairmentAn evolutionary perspective on Elovl5 fatty acid elongase: comparison of Northern pike and duplicated paralogs from Atlantic salmonApolipoprotein E isoform-specific effects on lipoprotein receptor processing.Parkin in the regulation of fat uptake and mitochondrial biology: emerging links in the pathophysiology of Parkinson's disease.Ketosis, ketogenic diet and food intake control: a complex relationship.Effect of one month duration ketogenic and non-ketogenic high fat diets on mouse brain bioenergetic infrastructure.Pathways of polyunsaturated fatty acid utilization: implications for brain function in neuropsychiatric health and disease.Control of brain development, function, and behavior by the microbiomeFatty acid transport proteins, implications in physiology and diseaseExpression Profiling of Solute Carrier Gene Families at the Blood-CSF Barrier.Gut Microbiota Regulate Motor Deficits and Neuroinflammation in a Model of Parkinson's Disease.Role of fatty acid transport protein 4 in oleic acid-induced glucagon-like peptide-1 secretion from murine intestinal L cells.Human hippocampal energy metabolism is impaired during cognitive activity in a lipid infusion model of insulin resistance.Possible relationship between common genetic variation and white matter development in a pilot study of preterm infantsRelationship between central and peripheral fatty acids in humansAltered gut microbiota in Rett syndrome.Non-Neuronal Cells in the Hypothalamic Adaptation to Metabolic SignalsLipid Processing in the Brain: A Key Regulator of Systemic Metabolism.The multiple roles of fatty acid handling proteins in brain.Synaptic Membrane Synthesis in Rats Depends on Dietary Sufficiency of Vitamin C, Vitamin E, and Selenium: Relevance for Alzheimer's Disease.Fatty acid transporting proteins: Roles in brain development, aging, and stroke.Roles and regulation of ketogenesis in cultured astroglia and neurons under hypoxia and hypoglycemiaOleic Acid in the Ventral Tegmental Area Inhibits Feeding, Food Reward, and Dopamine Tone.Neuronal Lipid Metabolism: Multiple Pathways Driving Functional Outcomes in Health and Disease.Study of formation of green eggshell color in ducks through global gene expression.Retinal energy demands control vascular supply of the retina in development and disease: The role of neuronal lipid and glucose metabolism.Alzheimer's disease hypothesis and related therapies.Oleic Acid and Hydroxytyrosol Inhibit Cholesterol and Fatty Acid Synthesis in C6 Glioma Cells.2-Chlorohexadecanoic acid induces ER stress and mitochondrial dysfunction in brain microvascular endothelial cells.Development of nanoemulsion for efficient brain parenteral delivery of cefuroxime: designs, characterizations, and pharmacokinetics.
P2860
Q24601518-37D53BB4-BFF9-484B-92A9-AE9FD4EF28C0Q26749210-B6C9594A-750B-42E5-BAEF-228A94E49846Q26766462-1B08D3B9-FC3B-4C07-B9C4-7B3129FC0872Q26825140-93FA7CC0-6244-4F95-A2DF-F7CD69401D78Q28073224-F112B7EE-C34C-4907-84CF-4CD8DA2DFD4EQ28659435-9066019D-145C-44D9-82CA-A5F04902B47FQ28950553-3F2070A3-925F-4C9F-92BC-9F117D54C1ABQ30419751-6F838564-08DA-459C-B841-CBEEEE383AB7Q33112703-E5D2631A-A2B5-4F08-A219-6070EC8BCE60Q34119144-822A2176-B79C-4AA4-98BF-0FD5C05B016AQ34463765-D36AF227-2C30-490C-9C2B-AD9FF0CF392AQ35061793-A4329D4E-FC9A-4600-9C0B-3F825BAC112DQ35117457-24C696BF-5E36-451E-936D-62F5992064A4Q35631733-B3524A70-6339-40FE-B825-C6A60D31F880Q35742713-12DEAEA8-B54D-445A-B9F7-B1E39D1E987BQ36186589-4AE018AD-70EE-432B-A5A0-354EC7BF60D4Q36212145-E21266A7-87D9-40B0-808C-329F5B03E5CAQ36312437-4D90C3FE-6610-4080-9D18-FF226C633A6CQ36713129-91056F5D-99AE-4B37-B5AF-C1ABAA1D7951Q36768181-FFE709C1-669B-46DA-9090-3183AE6C9D4CQ36921968-04668168-8881-46D8-B064-2228903369E9Q37139967-05BB3DC1-2E52-455D-BF4D-9CD9CF1E15F8Q37712631-567C4B62-D328-4A3E-BAA3-26F035E13AFFQ37736008-5D0B8740-0E7A-4311-AEA5-2E6FB135FEA2Q38051630-7D11DA8D-CB7A-4208-910E-A6F3CCEE6EF1Q38734121-32259007-0FDB-4854-8FBD-208143F810EDQ39273375-0A937D39-6C41-4D57-AAAA-F5A057016878Q41889974-D6B99188-A93B-48A6-9BFC-B6D606FE4C7EQ47323954-FFA6C91A-649F-406B-AF24-6E7D065693D5Q49334640-35C1D524-0407-4710-A77F-C10F74C33391Q49347296-4B556C7A-741F-45E5-83BB-99B9742D91A7Q49632281-90E80F32-35C3-4ED2-A241-A7DE2DBA0B83Q49762112-23AFEE67-4980-4247-8C94-89FB07411D95Q49784908-FE8F3BDC-9B09-4DF9-A2A1-D62F84C56CA7Q50136719-9EFED800-16B2-4859-A6A3-D087BEA63208Q55240752-B1F84927-21DA-4B41-B43E-D3111CF7EB27
P2860
Fatty acid transport protein expression in human brain and potential role in fatty acid transport across human brain microvessel endothelial cells.
description
2011 nĆ® lÅ«n-bĆ»n
@nan
2011幓ć®č«ę
@ja
2011幓č«ę
@yue
2011幓č«ę
@zh-hant
2011幓č«ę
@zh-hk
2011幓č«ę
@zh-mo
2011幓č«ę
@zh-tw
2011幓č®ŗę
@wuu
2011幓č®ŗę
@zh
2011幓č®ŗę
@zh-cn
name
Fatty acid transport protein e ...... microvessel endothelial cells.
@en
type
label
Fatty acid transport protein e ...... microvessel endothelial cells.
@en
prefLabel
Fatty acid transport protein e ...... microvessel endothelial cells.
@en
P2093
P2860
P921
P1476
Fatty acid transport protein e ...... microvessel endothelial cells.
@en
P2093
Donald W Miller
Grant M Hatch
Ryan W Mitchell
P2860
P304
P356
10.1111/J.1471-4159.2011.07245.X
P407
P577
2011-03-31T00:00:00Z