Uptake of individual free fatty acids by skeletal muscle and liver in man.
about
Free Fatty acids and their metabolism affect function and survival of podocytesGender differences in regional fatty acid metabolism before and after meal ingestionTraining affects muscle phospholipid fatty acid composition in humans.Elevated plasma free fatty acids increase cardiovascular risk by inducing plasma biomarkers of endothelial activation, myeloperoxidase and PAI-1 in healthy subjectsRole of free fatty acids and insulin in determining free fatty acid and lipid oxidation in man.Effect of physiologic hyperinsulinemia on glucose and lipid metabolism in cirrhosis.Free fatty acids in the presence of high glucose amplify monocyte inflammation via Toll-like receptors.Palmitate and glycerol kinetics during brief starvation in normal weight young adult and elderly subjectsGlucose and free fatty acid metabolism in non-insulin-dependent diabetes mellitus. Evidence for multiple sites of insulin resistanceRelationship between insulin-mediated glucose disposal and lipid metabolism in man.The use of stable-isotopically labeled oleic acid to interrogate lipid assembly in vivo: assessing pharmacological effects in preclinical speciesLipids promote survival, proliferation, and maintenance of differentiation of rat liver sinusoidal endothelial cells in vitro.Elucidation of functions of human cytochrome P450 enzymes: identification of endogenous substrates in tissue extracts using metabolomic and isotopic labeling approachesAssociations of erythrocyte palmitoleic acid with adipokines, inflammatory markers, and the metabolic syndrome in middle-aged and older Chinese.Kinetics of saturated, monounsaturated, and polyunsaturated fatty acids in humans.Effects of aging on basal fat oxidation in obese humans.Epinephrine plasma thresholds for lipolytic effects in man: measurements of fatty acid transport with [l-13C]palmitic acidLipid transport in the human newborn. Palmitate and glycerol turnover and the contribution of glycerol to neonatal hepatic glucose output.Plasma acetate turnover and oxidationPhysical inactivity differentially alters dietary oleate and palmitate trafficking.Differences in partitioning of meal fatty acids into blood lipid fractions: a comparison of linoleate, oleate, and palmitate.Hepatic fatty acid trafficking: multiple forks in the roadSusceptibility of podocytes to palmitic acid is regulated by fatty acid oxidation and inversely depends on acetyl-CoA carboxylases 1 and 2.Oxidative stress and calcium dysregulation by palmitate in type 2 diabetes.Plasma lipoproteins and the synthesis and turnover of plasma triglyceride in normal and genetically obese micePACSIN2 accelerates nephrin trafficking and is up-regulated in diabetic kidney disease.β-Arrestin Recruitment and Biased Agonism at Free Fatty Acid Receptor 1.Effect of glucose on plasma concentrations of individual non-esterified fatty acids of non-diabetic and insulin-independent diabetic men.[In vivo incorporation of labeled palmitic and oleic acids into skeletal muscle lipids of normal and thyroidectomized rats during swimming]Splanchnic and leg exchange of glucose, amino acids, and free fatty acids during exercise in diabetes mellitus.Free fatty acid metabolism of leg muscles during exercise in patients with obliterative iliac and femoral artery disease before and after reconstructive surgery.Inhibition of hepatic ketogenesis by tumor necrosis factor-alpha in rats.Effect of glucagon on hepatic fatty acid oxidation and ketogenesis in conscious dogs.Quantitative analysis of metabolism of hepatic triglyceride in ethanol-treated rats.The irreversible disposal rate of free fatty acids in the plasma of fed and starved rats.Improved insulin sensitivity after weight loss and exercise training is mediated by a reduction in plasma fatty acid mobilization, not enhanced oxidative capacity.Novel experimental protocol to increase specific plasma nonesterified fatty acids in humans.Endurance training has little effect on active muscle free fatty acid, lipoprotein cholesterol, or triglyceride net balances.Fatty acid reesterification but not oxidation is increased by oral contraceptive use in women.On the suppression of plasma nonesterified fatty acids by insulin during enhanced intravascular lipolysis in humans.
P2860
Q27001123-BB1CC2CF-E44C-430B-BE82-0F4FF54640C3Q28367825-965E16E2-4D0D-47B4-B9B6-8900D9278E8DQ31837887-8DB23D59-D916-4A35-AF65-4AB3CAE3299BQ33723943-C36F3D93-D65A-4EDE-ACFB-6875E27F3096Q34175102-00985386-0DCC-4CC1-BB07-2C35A8BA18F4Q34193422-699CBFF7-87A5-4B28-907E-40E709A40D74Q34501763-BCD14ADC-B9F6-44E0-995E-AE29CA547615Q34541402-532AB29F-9054-4721-BC0C-16E1BD8F10E1Q34577169-E32EE590-A1F7-4DD9-B7CC-29E4C6ECA520Q34624238-FB19B060-3893-4F3C-8F5F-D50EDEC78FEFQ34955865-66D74D5B-01B2-45D8-8344-7BDFE6887B22Q35780887-7DA750FE-F2CC-4741-88D9-067C6ED5E0DAQ35968168-7D5F9D76-8E27-4BD6-A0DC-25B09C338CDDQ36317134-56349DC4-C51B-4E18-994C-2C07DD9681C9Q36635262-B346B3DE-31F3-434B-BEA6-D1BDEB0E1850Q36861364-66EABF46-1A95-4B1A-A24F-6AB7F9B072DFQ37000183-37853C05-C614-40E6-8EAC-642EC48654A5Q37015767-5F1E22C4-D78A-4FE5-808F-3FD2E0E0996BQ37041201-CF5AC23E-9DE1-4448-B036-EC8B46539930Q37066890-D7914765-2F96-42F3-824E-98A44539D25DQ37086416-CF90D88D-9577-42D3-BC0B-48161FE3D0E2Q37296476-0062E73E-A53A-4603-ABD0-D25EA70CF87EQ37575477-DE7C6EE5-7097-43BE-8D6B-9190556AE387Q37680068-EC227B30-982C-4966-965F-E3EA297681C7Q38361623-60628045-919F-4B06-A221-E7AD6FA9402FQ38760772-1D1404A8-27E3-4672-BEA7-328572A17A50Q38855180-0A2AB193-A8BD-4E1B-9E10-5D1115857A15Q39106184-2F76E51B-2AC9-46EE-A966-2F8E993B1553Q39452773-BB82F716-5A33-4971-866A-1312E1F4F21AQ40369843-4F430C7E-128B-48BE-BC13-A19FCACEBDF7Q40528144-91103B99-2DBC-47CF-9F98-A8940F95102AQ41101537-CD0AE818-1F9D-4A15-B0B8-A2479B8BDB28Q41719555-544BBEED-28BB-49A9-A4C1-67DB485C6993Q41786201-8015E14D-45ED-46F1-B755-FFB7EEEE7974Q42559286-689659A9-71BB-4B80-B48D-E5DDD6DD4D06Q43282332-3F551060-7CD6-4FBA-899B-CCDC46BC9884Q44185359-F2A95DD2-411D-41E9-B186-874BE2EBB70AQ46087649-78BC2734-43F2-475E-8229-303F97E7C56EQ46123267-B3DCE161-2FD8-4559-B8E7-5689FA66B814Q46561618-4F8DD806-478D-49E0-B050-28EA235F083F
P2860
Uptake of individual free fatty acids by skeletal muscle and liver in man.
description
1972 nî lūn-bûn
@nan
1972 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1972 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1972年の論文
@ja
1972年論文
@yue
1972年論文
@zh-hant
1972年論文
@zh-hk
1972年論文
@zh-mo
1972年論文
@zh-tw
1972年论文
@wuu
name
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@ast
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@en
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@nl
type
label
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@ast
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@en
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@nl
prefLabel
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@ast
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@en
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@nl
P2093
P2860
P356
P1476
Uptake of individual free fatty acids by skeletal muscle and liver in man.
@en
P2093
P2860
P304
P356
10.1172/JCI107043
P407
P50
P577
1972-09-01T00:00:00Z