| scholarly article | Q13442814 |
| P356 | DOI | 10.1194/JLR.M800535-JLR200 |
| P8608 | Fatcat ID | release_3bivc3kyivghlcaw4anbu2mepu |
| P3181 | OpenCitations bibliographic resource ID | 1301163 |
| P932 | PMC publication ID | 2724792 |
| P698 | PubMed publication ID | 19429947 |
| P50 | author | Dolors Serra Cucurull | Q41464641 |
| Caroline Mauvezin | Q56544489 | ||
| Celia Garcia Martinez | Q70457302 | ||
| P2093 | author name string | Maria Guitart | |
| Fausto G Hegardt | |||
| Guillermina Asins | |||
| David Sebastián | |||
| Anna M Gómez-Foix | |||
| Josep M Orellana-Gavaldà | |||
| P2860 | cites work | Observations on the affinity for carnitine, and malonyl-CoA sensitivity, of carnitine palmitoyltransferase I in animal and human tissues. Demonstration of the presence of malonyl-CoA in non-hepatic tissues of the rat | Q24529850 |
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| Inactivation of fatty acid transport protein 1 prevents fat-induced insulin resistance in skeletal muscle | Q28586493 | ||
| FATP1 is an insulin-sensitive fatty acid transporter involved in diet-induced obesity | Q28588041 | ||
| FATP1 channels exogenous FA into 1,2,3-triacyl-sn-glycerol and down-regulates sphingomyelin and cholesterol metabolism in growing 293 cells | Q28610402 | ||
| The mitochondrial carnitine palmitoyltransferase system. From concept to molecular analysis | Q29618429 | ||
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| Is membrane transport of FFA mediated by lipid, protein, or both? Mechanisms and regulation of protein-mediated cellular fatty acid uptake: molecular, biochemical, and physiological evidence | Q36753522 | ||
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| Fatty acid oxidation in cardiac and skeletal muscle mitochondria is unaffected by deletion of CD36. | Q41831699 | ||
| A null mutation in skeletal muscle FAT/CD36 reveals its essential role in insulin- and AICAR-stimulated fatty acid metabolism | Q42507613 | ||
| Insulin causes fatty acid transport protein translocation and enhanced fatty acid uptake in adipocytes | Q42520490 | ||
| Human skeletal muscle malonyl-CoA at rest and during prolonged submaximal exercise | Q42556342 | ||
| Fatty acid transport protein 1 and long-chain acyl coenzyme A synthetase 1 interact in adipocytes | Q42807030 | ||
| Substitution of alanine for serine 250 in the murine fatty acid transport protein inhibits long chain fatty acid transport | Q42825339 | ||
| Membrane topology of the murine fatty acid transport protein 1. | Q42826967 | ||
| Banting lecture 2001: dysregulation of fatty acid metabolism in the etiology of type 2 diabetes | Q43833528 | ||
| Insulin induces the translocation of the fatty acid transporter FAT/CD36 to the plasma membrane | Q43852638 | ||
| Characterization of the Acyl-CoA synthetase activity of purified murine fatty acid transport protein 1. | Q44560677 | ||
| Fiber type- and fatty acid composition-dependent effects of high-fat diets on rat muscle triacylglyceride and fatty acid transporter protein-1 content | Q44998201 | ||
| Transgenic expression of fatty acid transport protein 1 in the heart causes lipotoxic cardiomyopathy | Q45200908 | ||
| FATP1 localizes to mitochondria and enhances pyruvate dehydrogenase activity in skeletal myotubes. | Q46053661 | ||
| The Charcot-Marie-Tooth type 2A gene product, Mfn2, up-regulates fuel oxidation through expression of OXPHOS system | Q46437005 | ||
| Identification of fatty acid translocase on human skeletal muscle mitochondrial membranes: essential role in fatty acid oxidation | Q46748005 | ||
| Topological and functional analysis of the rat liver carnitine palmitoyltransferase 1 expressed in Saccharomyces cerevisiae | Q47895898 | ||
| Structural and functional genomics of the CPT1B gene for muscle-type carnitine palmitoyltransferase I in mammals | Q48304204 | ||
| 14CO2 production is no adequate measure of [14C]fatty acid oxidation. | Q51633725 | ||
| Malonyl-CoA content and fatty acid oxidation in rat muscle and liver in vivo. | Q52890560 | ||
| Effects of increased fat availability on fat-carbohydrate interaction during prolonged exercise in men. | Q55067498 | ||
| Exercise diminishes the activity of acetyl-CoA carboxylase in human muscle | Q58108348 | ||
| Biochemical and functional differences in rat liver mitochondrial subpopulations obtained at different gravitational forces | Q71783092 | ||
| Fatty acid transporters (FABPpm, FAT, FATP) in human muscle | Q73362276 | ||
| Muscle-specific overexpression of FAT/CD36 enhances fatty acid oxidation by contracting muscle, reduces plasma triglycerides and fatty acids, and increases plasma glucose and insulin | Q78239684 | ||
| Coimmunoprecipitation of FAT/CD36 and CPT I in skeletal muscle increases proportionally with fat oxidation after endurance exercise training | Q83275986 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 9 | |
| P921 | main subject | mitochondrion | Q39572 |
| fatty acid | Q61476 | ||
| skeletal muscle cell | Q66505052 | ||
| P304 | page(s) | 1789-1799 | |
| P577 | publication date | 2009-05-09 | |
| P1433 | published in | Journal of Lipid Research | Q6295449 |
| P1476 | title | Novel role of FATP1 in mitochondrial fatty acid oxidation in skeletal muscle cells | |
| P478 | volume | 50 |
| Q86482733 | Activated peroxisomal fatty acid metabolism improves cardiac recovery in ischemia-reperfusion |
| Q28509384 | Activation of AMP-activated protein kinase signaling pathway by adiponectin and insulin in mouse adipocytes: requirement of acyl-CoA synthetases FATP1 and Acsl1 and association with an elevation in AMP/ATP ratio |
| Q35598561 | Activation of AMPKα2 Is Not Required for Mitochondrial FAT/CD36 Accumulation during Exercise |
| Q38211152 | Acyl-CoA metabolism and partitioning |
| Q28647005 | Acyl-coenzyme A synthetases in metabolic control |
| Q41588254 | Betaine affects muscle lipid metabolism via regulating the fatty acid uptake and oxidation in finishing pig. |
| Q36093051 | Ca2+ Binding/Permeation via Calcium Channel, CaV1.1, Regulates the Intracellular Distribution of the Fatty Acid Transport Protein, CD36, and Fatty Acid Metabolism |
| Q39439403 | Chromatin recruitment of activated AMPK drives fasting response genes co-controlled by GR and PPARα. |
| Q39945009 | Chronic subordination stress selectively downregulates the insulin signaling pathway in liver and skeletal muscle but not in adipose tissue of male mice |
| Q33526750 | Compensatory increases in nuclear PGC1alpha protein are primarily associated with subsarcolemmal mitochondrial adaptations in ZDF rats |
| Q89868844 | Comprehensive analysis of long non-coding RNAs and mRNAs in skeletal muscle of diabetic Goto-Kakizaki rats during the early stage of type 2 diabetes |
| Q35625960 | Delineating the role of alterations in lipid metabolism to the pathogenesis of inherited skeletal and cardiac muscle disorders: Thematic Review Series: Genetics of Human Lipid Diseases |
| Q50982159 | Effect of Maternal Obesity on Placental Lipid Metabolism. |
| Q35986725 | Effect of marine omega 3 fatty acids on methylmercury-induced toxicity in fish and mammalian cells in vitro. |
| Q44856319 | Effects of dietary n-6:n-3 PUFA ratio on fatty acid composition, free amino acid profile and gene expression of transporters in finishing pigs |
| Q51341140 | Effects of supplementation with branched-chain amino acids to low-protein diets on expression of genes related to lipid metabolism in skeletal muscle of growing pigs. |
| Q34123675 | Enhanced fatty acid oxidation and FATP4 protein expression after endurance exercise training in human skeletal muscle |
| Q38034467 | Exercise- and training-induced upregulation of skeletal muscle fatty acid oxidation are not solely dependent on mitochondrial machinery and biogenesis |
| Q35999424 | FABP4 reversed the regulation of leptin on mitochondrial fatty acid oxidation in mice adipocytes |
| Q39372988 | FAD-dependent lysine-specific demethylase-1 regulates cellular energy expenditure |
| Q34483100 | Fatp1 deficiency affects retinal light response and dark adaptation, and induces age-related alterations. |
| Q33654802 | Fatty acid transport protein 1 (FATP1) localizes in mitochondria in mouse skeletal muscle and regulates lipid and ketone body disposal |
| Q26749062 | Genetic Variation of Fatty Acid Oxidation and Obesity, A Literature Review |
| Q34110605 | Increased FAT/CD36 cycling and lipid accumulation in myotubes derived from obese type 2 diabetic patients |
| Q54600757 | Increasing skeletal muscle fatty acid transport protein 1 (FATP1) targets fatty acids to oxidation and does not predispose mice to diet-induced insulin resistance. |
| Q35634632 | Inflammatory and Metabolic Alterations of Kager's Fat Pad in Chronic Achilles Tendinopathy. |
| Q41861087 | Inhibition of L-carnitine biosynthesis and transport by methyl-γ-butyrobetaine decreases fatty acid oxidation and protects against myocardial infarction |
| Q37970188 | Lipid metabolism in skeletal muscle: generation of adaptive and maladaptive intracellular signals for cellular function |
| Q33849841 | Lower Expression of SLC27A1 Enhances Intramuscular Fat Deposition in Chicken via Down-Regulated Fatty Acid Oxidation Mediated by CPT1A. |
| Q41151970 | Metabolic heterogeneity of idiopathic pulmonary fibrosis: a metabolomic study |
| Q28567616 | Mitochondrial carnitine palmitoyltransferase 1a (CPT1a) is part of an outer membrane fatty acid transfer complex |
| Q34425240 | Overexpressed FATP1, ACSVL4/FATP4 and ACSL1 increase the cellular fatty acid uptake of 3T3-L1 adipocytes but are localized on intracellular membranes |
| Q28589893 | Palmoplantar keratoderma along with neuromuscular and metabolic phenotypes in Slurp1-deficient mice |
| Q35562803 | Peroxisome proliferator-activated receptor γ (PPARγ) mediates a Ski oncogene-induced shift from glycolysis to oxidative energy metabolism |
| Q38357539 | Peroxisome-mitochondria interplay and disease. |
| Q37143818 | Redundant roles of the phosphatidate phosphatase family in triacylglycerol synthesis in human adipocytes |
| Q24337941 | Regulation of cardiolipin biosynthesis by fatty acid transport protein-1 IN HEK 293 cells |
| Q98177996 | SOCS2 Inhibits Mitochondrial Fatty Acid Oxidation via Suppressing LepR/JAK2/AMPK Signaling Pathway in Mouse Adipocytes |
| Q38723657 | The blood-brain barrier fatty acid transport protein 1 (FATP1/SLC27A1) supplies docosahexaenoic acid to the brain, and insulin facilitates transport |
| Q37397352 | α-MSH and Foxc2 promote fatty acid oxidation through C/EBPβ negative transcription in mice adipose tissue |
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