| scholarly article | Q13442814 |
| P50 | author | Steven A. Farber | Q54305358 |
| P2093 | author name string | Juliana Debrito Carten | |
| Mary Katherine Bradford | |||
| P2860 | cites work | Human very-long-chain acyl-CoA synthetase: cloning, topography, and relevance to branched-chain fatty acid metabolism | Q22009362 |
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| Use of multi-photon laser-scanning microscopy to describe the distribution of xenobiotic chemicals in fish early life stages | Q33199453 | ||
| Study on characterization of the complexes of FUS1/hIL-12 with cationic liposome | Q33693092 | ||
| Vascular lipid accumulation, lipoprotein oxidation, and macrophage lipid uptake in hypercholesterolemic zebrafish | Q33709903 | ||
| Diet-induced obesity in zebrafish shares common pathophysiological pathways with mammalian obesity | Q33723579 | ||
| Lipid droplets as ubiquitous fat storage organelles in C. elegans | Q33766875 | ||
| Actions of pancreatic lipase on esters in emulsions | Q33969968 | ||
| The triglyceride lipases of the pancreas | Q34161117 | ||
| Purification and preliminary characterization of 2-monoacylglycerol acyltransferase from rat intestinal villus cells | Q34198940 | ||
| I-FABP expression alters the intracellular distribution of the BODIPY C16 fatty acid analog | Q34799179 | ||
| Zebrafish fat-free is required for intestinal lipid absorption and Golgi apparatus structure | Q36468243 | ||
| A novel fluorescent ceramide analogue for studying membrane traffic in animal cells: accumulation at the Golgi apparatus results in altered spectral properties of the sphingolipid precursor | Q36529931 | ||
| Development and physiological regulation of intestinal lipid absorption. I. Development of intestinal lipid absorption: cellular events in chylomicron assembly and secretion | Q36818124 | ||
| Intestinal lipid absorption | Q37216738 | ||
| Non invasive high resolution in vivo imaging of alpha-naphthylisothiocyanate (ANIT) induced hepatobiliary toxicity in STII medaka | Q37299662 | ||
| The control and consequences of bacterial fermentation in the human colon | Q37455596 | ||
| Zebrafish fat-free, a novel Arf effector, regulates phospholipase D to mediate lipid and glucose metabolism | Q38341146 | ||
| Live cell multicolor imaging of lipid droplets with a new dye, LD540. | Q39797768 | ||
| Microsomal triglyceride transfer protein is required for yolk lipid utilization and absorption of dietary lipids in zebrafish larvae | Q40194045 | ||
| Liver fatty acid-binding protein colocalizes with peroxisome proliferator activated receptor alpha and enhances ligand distribution to nuclei of living cells | Q40583952 | ||
| Of flies and fishes | Q40639559 | ||
| Pancreatic lipase/colipase-mediated triacylglycerol hydrolysis is required for cholesterol transport from lipid emulsions to intestinal cells | Q40958782 | ||
| Palmitic acid and linoleic acid metabolism in Caco-2 cells: different triglyceride synthesis and lipoprotein secretion. | Q41397313 | ||
| Genetic analysis of digestive physiology using fluorescent phospholipid reporters. | Q43612432 | ||
| Influence of the diet on the portal and lymph transport of decanoic acid in rats. Simultaneous study of its mucosal catabolism | Q44054879 | ||
| Unique and conserved aspects of gut development in zebrafish. | Q44346088 | ||
| Characterization of the Acyl-CoA synthetase activity of purified murine fatty acid transport protein 1. | Q44560677 | ||
| Intestinal growth and differentiation in zebrafish | Q45225840 | ||
| Polygenic control of Caenorhabditis elegans fat storage | Q47069497 | ||
| Larval zebrafish as a model for glucose metabolism: expression of phosphoenolpyruvate carboxykinase as a marker for exposure to anti-diabetic compounds | Q47073495 | ||
| Developmental expression and nutritional regulation of a zebrafish gene homologous to mammalian microsomal triglyceride transfer protein large subunit | Q47073699 | ||
| Inhibition of Jagged-mediated Notch signaling disrupts zebrafish biliary development and generates multi-organ defects compatible with an Alagille syndrome phenocopy | Q47073959 | ||
| Mutations affecting development of zebrafish digestive organs. | Q47074049 | ||
| Intestinal fatty acid binding protein gene expression reveals the cephalocaudal patterning during zebrafish gut morphogenesis | Q47863556 | ||
| Fuel partitioning and food intake: role for mitochondrial fatty acid transport | Q48907752 | ||
| Triacylglycerol synthesis by purified triacylglycerol synthetase of rat intestinal mucosa. Role of acyl-CoA acyltransferase. | Q50760769 | ||
| Portal venous transport of long-chain fatty acids absorbed from rat intestine. | Q51658025 | ||
| Dietary control of triglyceride and phospholipid synthesis in rat liver slices | Q51670344 | ||
| Characterization of Ca2+-dependent phospholipase A2 activity during zebrafish embryogenesis. | Q52176222 | ||
| Characterization of a BODIPY-labeled {fl}uorescent fatty acid analogue. Binding to fatty acid-binding proteins, intracellular localization, and metabolism | Q57843931 | ||
| Imaging Lipids in Living Cells | Q58537936 | ||
| Rapid isolation of a triacylglycerol synthetase complex from rat intestinal mucosa | Q70105806 | ||
| Mechanism of sonication of aqueous egg yolk lecithin dispersions and nature of the resultant particles | Q70455305 | ||
| Delayed effects of early nutrition with cholesterol plus saturated or polyunsaturated fatty acids on intestinal morphology and transport function in the rat | Q70480908 | ||
| Portal vein evaluation with US: comparison to angiography combined with CT arterial portography | Q71555958 | ||
| Uptake and compartmentalization of fluorescent lipid analogs in larval Schistosoma mansoni | Q72133656 | ||
| [Kinetic study of the action of pancreatic lipase on emulsified triglycerides. Enzymology assay in heterogeneous medium] | Q72609980 | ||
| Intestinal lymph as pathway for transport of absorbed fatty acids of different chain lengths | Q75790561 | ||
| The quantitative significance of the lymphatic pathway in transport of absorbed fatty acids | Q80701426 | ||
| THE RISE OF GENETICS. II | Q80946329 | ||
| On getting there from here | Q82714730 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | fatty acid | Q61476 |
| visualization | Q451553 | ||
| Danio rerio | Q169444 | ||
| P304 | page(s) | 276-285 | |
| P577 | publication date | 2011-09-21 | |
| P1433 | published in | Developmental Biology | Q3025402 |
| P1476 | title | Visualizing digestive organ morphology and function using differential fatty acid metabolism in live zebrafish | |
| P478 | volume | 360 |
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| Q30560524 | Acyl-CoA synthetase 3 promotes lipid droplet biogenesis in ER microdomains |
| Q52893307 | An HPLC-CAD/fluorescence lipidomics platform using fluorescent fatty acids as metabolic tracers. |
| Q38301880 | Animal model of Sar1b deficiency presents lipid absorption deficits similar to Anderson disease. |
| Q52628078 | Blocking fatty acid-fueled mROS production within macrophages alleviates acute gouty inflammation. |
| Q36597443 | Cannabinoid receptor signaling regulates liver development and metabolism |
| Q35802879 | Challenges in understanding psychiatric disorders and developing therapeutics: a role for zebrafish. |
| Q36253681 | Could a swimming creature inform us on intestinal diseases? Lessons from zebrafish |
| Q28468698 | Defining hepatic dysfunction parameters in two models of fatty liver disease in zebrafish larvae |
| Q36147491 | Dual-channel in-situ optical imaging system for quantifying lipid uptake and lymphatic pump function |
| Q39364235 | Endoplasmic Reticulum Lipid Flux Influences Enterocyte Nuclear Morphology and Lipid-dependent Transcriptional Responses. |
| Q37137783 | Ethanol metabolism and oxidative stress are required for unfolded protein response activation and steatosis in zebrafish with alcoholic liver disease |
| Q84597380 | Hepatic stellate cells and cirrhosis: fishing for cures |
| Q83225289 | High fat diet induces microbiota-dependent silencing of enteroendocrine cells |
| Q41232821 | High-fat Feeding Paradigm for Larval Zebrafish: Feeding, Live Imaging, and Quantification of Food Intake. |
| Q37265227 | Imaging vertebrate digestive function and lipid metabolism in vivo |
| Q37731174 | Intestinal epithelial cell caveolin 1 regulates fatty acid and lipoprotein cholesterol plasma levels |
| Q30633324 | Lactobacillus rhamnosus lowers zebrafish lipid content by changing gut microbiota and host transcription of genes involved in lipid metabolism |
| Q47165156 | Lipid Uptake, Metabolism, and Transport in the Larval Zebrafish. |
| Q36197682 | Lxr-driven enterocyte lipid droplet formation delays transport of ingested lipids. |
| Q36454308 | Microbiota regulate intestinal absorption and metabolism of fatty acids in the zebrafish |
| Q36708833 | Microgavage of zebrafish larvae |
| Q38222590 | Mitochondrial metabolism, reactive oxygen species, and macrophage function-fishing for insights |
| Q35821041 | Multiplex Conditional Mutagenesis Using Transgenic Expression of Cas9 and sgRNAs |
| Q47323954 | Oleic Acid in the Ventral Tegmental Area Inhibits Feeding, Food Reward, and Dopamine Tone |
| Q35377599 | Plexin D1 determines body fat distribution by regulating the type V collagen microenvironment in visceral adipose tissue |
| Q41701618 | Rapid analysis of hypolipidemic drugs in a live zebrafish assay |
| Q33650363 | Role of Intestinal LXRα in Regulating Post-prandial Lipid Excursion and Diet-Induced Hypercholesterolemia and Hepatic Lipid Accumulation. |
| Q35951647 | Small zebrafish in a big chemical pond. |
| Q27333515 | Sox9b is a key regulator of pancreaticobiliary ductal system development |
| Q88460791 | Stat3 Regulates Liver Progenitor Cell-Driven Liver Regeneration in Zebrafish |
| Q33792421 | Studying Lipid Metabolism and Transport During Zebrafish Development |
| Q27010291 | Studying non-alcoholic fatty liver disease with zebrafish: a confluence of optics, genetics, and physiology |
| Q35243611 | Synthesis of 3,8-dichloro-6-ethyl-1,2,5,7-tetramethyl-BODIPY from an asymmetric dipyrroketone and reactivity studies at the 3,5,8-positions |
| Q98734596 | Systems Analysis of Biliary Atresia Through Integration of High-Throughput Biological Data |
| Q36905214 | Targeted overexpression of CKI-insensitive cyclin-dependent kinase 4 increases functional β-cell number through enhanced self-replication in zebrafish |
| Q92321823 | The LipoGlo reporter system for sensitive and specific monitoring of atherogenic lipoproteins |
| Q36320734 | The Vital Dye CDr10b Labels the Zebrafish Mid-Intestine and Lumen. |
| Q36981804 | The expanding role of fish models in understanding non-alcoholic fatty liver disease |
| Q30388942 | Using fluorescent lipids in live zebrafish larvae: From imaging whole animal physiology to subcellular lipid trafficking. |
| Q50425163 | Using zebrafish to model liver diseases-Where do we stand? |
| Q36129524 | Visualization of lipid metabolism in the zebrafish intestine reveals a relationship between NPC1L1-mediated cholesterol uptake and dietary fatty acid |
| Q50424238 | Wnt/β-catenin signaling controls intrahepatic biliary network formation in zebrafish by regulating Notch activity |
| Q47578726 | Zebrafish abcb11b mutant reveals novel strategies to restore bile excretion impaired by bile salt export pump deficiency. |
| Q90260846 | Zebrafish as a Model to Study Cholestatic Liver Diseases |
| Q35144039 | Zebrafish as a model for apolipoprotein biology: comprehensive expression analysis and a role for ApoA-IV in regulating food intake |
| Q33814268 | Zebrafish yolk lipid processing: a tractable tool for the study of vertebrate lipid transport and metabolism |
| Q26796338 | Zebrafish: an important tool for liver disease research |
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