Lipid Essentials Literature - Highlights - 2019

This list was created by means of a weekly literature search with a highly subjective scan to select those papers that appeared helpful to me for updating the Lipid Essentials or Blog pages on this site. They are mainly review articles dealing with the chemistry, occurrence and biochemistry of lipids, and the nutritional/clinical literature is under-represented here. Please note that I may only select references from journals to which I have direct access, or will have access after a period specified by the journal (usually 6 to 24 months). References are listed alphabetically by the first author.

References for the next month are added at approximately monthly intervals by merging with the existing references. The most recent references of all will be found in the web page - "this month's references".

Abraham, A., Kattoor, A.J., Saldeen, T. and Mehta, J.L. Vitamin E and its anticancer effects. Crit. Rev. Food Sci. Nutr., 59, 2831-2838 (2019); DOI.
Aerts, J.M.F.G., Artola, M., van Eijk, M., Ferraz, M.J. and Boot, R.G. Glycosphingolipids and infection. Potential new therapeutic avenues. Front. Cell Developm. Biol., 7, 324 (2019); DOI.
Aerts, J.M.F.G., Kuo, C.L., Lelieveld, L.T., Boer, D.E.C., van der Lienden, M.J.C., Overkleeft, H.S. and Artola, M. Glycosphingolipids and lysosomal storage disorders as illustrated by Gaucher disease. Curr. Opinion Chem. Biol., 53, 204-215 (2019); DOI.
Afonso, C.B. and Spickett, C.M. Lipoproteins as targets and markers of lipoxidation. Redox Biol., 23, 101066 (2019); DOI.
Ahmad, T.R. and Haeusler, R.A. Bile acids in glucose metabolism and insulin signalling - mechanisms and research needs. Nature Rev. Endocrin., 15, 701-712 (2019); DOI.
Alché, J.D. A concise appraisal of lipid oxidation and lipoxidation in higher plants. Redox Biol., 23, 101136 (2019); DOI.
Ali, I., Conrad, R.J., Verdin, E. and Ott, M. Lysine acetylation goes global: from epigenetics to metabolism and therapeutics. Chem. Rev., 118, 340-376 (2018); DOI.
Anand, S., Samuel, M., Kumar, S. and Mathivanan, S. Ticket to a bubble ride: Cargo sorting into exosomes and extracellular vesicles. Biochim. Biophys. Acta, Proteins, Proteomics, 1867, 140203 (2019); DOI.
Anaokar, S., Kodali, R., Jonik, B., Renne, M.F., Brouwers, J.F.H.M., Lager, I., de Kroon, A.I.P.M. and Patton-Vogt, J. The glycerophosphocholine acyltransferase Gpc1 is part of a phosphatidylcholine (PC)-remodeling pathway that alters PC species in yeast. J. Biol. Chem., 294, 1189-1201 (2019); DOI.
Angeli, J.P.F., Miyamoto, S. and Schulze, A. Ferroptosis: the greasy side of cell death. Chem. Res. Toxicol., 32, 362-369 (2019); DOI.
Aranda-Caño, L., Sánchez-Calvo, B., Begara-Morales, J.C., Chaki, M., Mata-Pérez, C., Padilla, M.N., Valderrama, R. and Barroso, J.B. Post-translational modification of proteins mediated by nitro-fatty acids in plants: nitroalkylation. Plants-Basel, 8, 82 (2019); DOI.
Arhab, Y., Abousalham, A. and Noiriel, A. Plant phospholipase D mining unravels new conserved residues important for catalytic activity. Biochim. Biophys. Acta, 1864, 688-703 (2019); DOI.
Arnal-Levron, M., Chen, Y.N., Greimel, P., Calevro, F., Gaget, K., Riols, F., Batut, A., Bertrand-Michel, J., Hullin-Matsuda, F., Olkkonen, V.M., Delton, I. and Luquain-Costaz, C. Bis(monoacylglycero)phosphate regulates oxysterol binding protein-related protein 11 dependent sterol trafficking. Biochim. Biophys. Acta, 1864, 1247-1257 (2019); DOI.
Asan, A., Skoko, J.J., Woodcock, C.-S.C., Wingert, B.M., Woodcock, S.R., Normolle, D., Huang, Y., Stark, J.M., Camacho, C.J., Freeman, B.A. and Neumann, C.A. Electrophilic fatty acids impair RAD51 function and potentiate the effects of DNA-damaging agents on growth of triple-negative breast cells. J. Biol. Chem., 294, 397-404 (2019); DOI.
Astudillo, A.M., Balboa, M.A. and Balsinde, J. Selectivity of phospholipid hydrolysis by phospholipase A(2) enzymes in activated cells leading to polyunsaturated fatty acid mobilization. Biochim. Biophys. Acta, 1864, 772-783 (2019); DOI.
Augenstreich, J., Haanappel, E., Ferré, G., Czaplicki, G., Jolibois, F., Destainville, N., Guilhot, C., Milon, A., Astarie-Dequeker, C. and Chavent, M. The conical shape of DIM lipids promotes Mycobacterium tuberculosis infection of macrophages. Proc. Natl. Acad. Sci. USA, 116, 25649-25658 (2019); DOI.
Avallone, R., Vitale, G. and Bertolotti, M. Omega-3 fatty acids and neurodegenerative diseases: new evidence in clinical trials. Int. J. Mol. Sci., 20, 4240 (2019); DOI.
Axmann, M., Strobl, W.M., Plochberger, B. and Stangl, H. Cholesterol transfer at the plasma membrane. Atherosclerosis, 290, 111-117 (2019); DOI.
Azizi, S.A., Kathayat, R.S. and Dickinson, B.C. Activity-based sensing of S-depalmitoylases: chemical technologies and biological discovery. Acc. Chem. Res., 52, 3029-3038 (2019); DOI.
Bacellar, I.O.L. and Baptista, M.S. Mechanisms of photosensitized lipid oxidation and membrane permeabilization. ACS Omega, 4, 21636-21646 (2019); DOI.
Baiocchi, L., Zhou, T.H., Liangpunsakul, S., Lenci, I., Santopaolo, F., Meng, F.Y., Kennedy, L., Glaser, S., Francis, H. and Alpini, G. Dual role of bile acids on the biliary epithelium: friend or foe? Int. J. Mol. Sci., 20, 1869 (2019); DOI.
Balboa, M.A., de Pablo, N., Meana, C. and Balsinde, J. The role of lipins in innate immunity and inflammation. Biochim. Biophys. Acta, 1864, 1328-1337 (2019); DOI.
Balleza, D., Alessandrini, A. and Garcia, M.J.B. Role of lipid composition, physicochemical interactions, and membrane mechanics in the molecular actions of microbial cyclic lipopeptides. J. Membrane Biol., 252, 131-157 (2019); DOI.
Barbosa, A.D., Lim, K., Mari, M., Edgar, J.R., Gal, L., Sterk, P., Jenkins, B.J., Koulman, A., Savage, D.B., Schuldiner, M., Reggiori, F., Wigge, P.A. and Siniossoglou, S. Compartmentalized synthesis of triacylglycerol at the inner nuclear membrane regulates nuclear organization. Develop. Cell, 50, 755-766.E6 (2019); DOI.
Barneda, D., Cosulich, S., Stephens, L. and Hawkins, P. How is the acyl chain composition of phosphoinositides created and does it matter? Biochem. Soc. Trans., 47, 1291-1305 (2019); DOI.
Bastin, J. and Djouadi, F. Dysfunctions of mitochondrial fatty acid beta-oxidation: rare diseases and common diseases. Med. Sci., 35, 779-786 (2019); DOI.
Battista, N., Bari, M. and Bisogno, T. N-Acyl amino acids: metabolism, molecular targets, and role in biological processes. Biomolecules, 9, 822 (2019); DOI.
Bazinet, R.P., Bernoud-Hubac, N. and Lagarde, M. How the plasma lysophospholipid and unesterified fatty acid pools supply the brain with docosahexaenoic acid. Prostaglandins Leukotrienes Essential Fatty Acids, 142, 1-3 (2019); DOI.
Beccaccioli, M., Reverberi, M. and Scala, V. Fungal lipids: biosynthesis and signalling during plant-pathogen interaction. Front. Biosci.-Landmark, 24, 172-185 (2019); DOI.
Beggiato, S., Tomasini, M.C. and Ferraro, L. Palmitoylethanolamide (PEA) as a potential therapeutic agent in Alzheimer's disease. Front. Pharm., 10, 821 (2019); DOI.
Beigneux, A.P. and 17 others Lipoprotein lipase is active as a monomer. PNAS, 116, 6319-6328 (2019); DOI.
Birringer, M. and Lorkowski, S. Vitamin E: Regulatory role of metabolites. IUBMB Life, 71, 479-486 (2019); DOI.
Biringer, R.G. The role of eicosanoids in Alzheimer's disease. Int. J. Environm. Res. Public Health, 16, 2560 (2019); DOI.
Birukov, K.G. and Oskolkova, O.V. The good and bad faces of oxidized phospholipids: friends or foes of vascular endothelium? Eur. J. Lipid Sci. Technol., 1800497 (2019); DOI.
Bitorina, A.V., Oligschlaeger, Y., Ronit Shiri-Sverdlov, R. and Theys, J. Low profile high value target: The role of OxLDL in cancer. Biochim. Biophys. Acta, 1864, 158518 (2019); DOI.
Bolla, J.R., Agasid, M.T., Mehmood, S. and Robinson, C.V. Membrane protein-lipid interactions probed using mass spectrometry. Annu. Rev. Biochem., 88, 85-111 (2019); DOI.
Bolus, W.R. and Hasty, A.H. Contributions of innate type 2 inflammation to adipose function. J. Lipid Res., 60, 1698-1709 (2019); DOI.
Bottai, D., Adami, R. and Ghidoni, R. The crosstalk between glycosphingolipids and neural stem cells. J. Neurochem., 148, 698-711 (2019); DOI.
Bozelli, J.C. and Epand, R.M. Role of membrane shape in regulating the phosphatidylinositol cycle at contact sites. Chem. Phys. Lipids, 221, 24-29 (2019); DOI.
Bozelli, J.C. and Epand, R.M. Specificity of acyl chain composition of phosphatidylinositols. Proteomics, 19, e1900138 (2019); DOI.
Brachtendorf, S., El-Hindi, K. and Grösch, S. Ceramide synthases in cancer therapy and chemoresistance. Prog. Lipid Res., 74, 160-185 (2019); DOI.
Breiden, B. and Sandhoff, K. Lysosomal glycosphingolipid storage diseases. Annu. Rev. Biochem. 88, 461-485 (2019); DOI.
Brown, E.M. and 20 others. Bacteroides-derived sphingolipids are critical for maintaining intestinal homeostasis and symbiosis. Cell Host Microbe 25, 668–680.e7 (2019); DOI.
Brown, R.B. Phospholipid packing defects and oxysterols in atherosclerosis: Dietary prevention and the French paradox. Biochimie, 167, 145-151 (2019); DOI.
Bryant, J.M. and Blind, R.D. Signaling through non-membrane nuclear phosphoinositide binding proteins in human health and disease. J. Lipid Res., 60, 299-311 (2019); DOI.
Burstyn-Cohen, T. and Maimon, A. TAM receptors, phosphatidylserine, inflammation, and cancer. Cell Commun. Signal., 17, 156 (2019); DOI.
Caillaud, M.C. Anionic lipids: a pipeline connecting key players of plant cell division. Front. Plant Sci., 10, 419 (2019); DOI.
Calzada, E., Avery, E., Sam, P.N., Modak, A., Wang, C.Y., McCaffery, J.M., Han, X.L., Alder, N.N. and Claypool, S.M. Phosphatidylethanolamine made in the inner mitochondrial membrane is essential for yeast cytochrome bc(1) complex function. Nature Commun., 10, 1432 (2019); DOI.
Campaña, M.B., Irudayanathan, F.J., Davis, T.R., McGovern-Gooch, K.R., Loftus,R., Ashkar, M., Escoffery, N., Navarro, M., Sieburg, M.A., Nangia, S. and Hougland, J.L. The ghrelin O-acyltransferase structure reveals a catalytic channel for transmembrane hormone acylation. J. Biol. Chem., 294, 14166-14174 (2019); DOI.
Cao, J.K., Kaplan, J. and Stella, N. ABHD6: its place in endocannabinoid signaling and beyond. Trends Pharm. Sci., 40, 267-277 (2019); DOI.
Carman G.M. and Gil-Soo Han, G.-S. Fat-regulating phosphatidic acid phosphatase: a review of its roles and regulation in lipid homeostasis. J. Lipid Res., 60, 2-6 (2019); DOI.
Carmona, R., Barrena, S. and Munoz-Chapuli, R. Retinoids in stellate cells: development, repair, and regeneration. J. Dev. Biol., 7, 10 (2019); DOI.
Carobbio, S., Guenantin, AC., Samuelson, I., Bahri, M. and Vidal-Puig, A. Brown and beige fat: From molecules to physiology and pathophysiology. Biochim. Biophys. Acta, 1864, 37-50 (2019); DOI.
Carreira, A.C., Santos, T.C., Lone, M.A., Zupančič, E., Lloyd-Evans, E., Almeida, R.F.M., Hornemann, T. and Silva, L.C. Mammalian sphingoid bases: Biophysical, physiological and pathological properties. Prog. Lipid Res., 75, 100988 (2019); DOI.
Castano, E., Yildirim, S., Faberova, V., Krausova, A., Ulicna, L., Paprckova, D., Sztacho, M. and Hozak, P. Nuclear phosphoinositides-versatile regulators of genome functions. Cells, 8, 649 (2019); DOI.
Casares, D., Escribá, P.V. and Rosselló, C.A. Membrane lipid composition: effect on membrane and organelle structure, function and compartmentalization and therapeutic avenues. Int. J. Mol. Sci., 20, 2167 (2019); DOI.
Cassim, A.M., Gouguet, P., Gronnier, J., Laurent, N., Germain, V., Grison, M., Boutté, Y., Gerbeau-Pissot, P., Simon-Plas, F. and Mongrand, S. Plant lipids: Key players of plasma membrane organization and function. Prog. Lipid Res., 73, 1-27 (2019); DOI.
Cavdarli, S., Dewald, J.H., Yamakawa, N., Guérardel, Y., Terme, M., Le Doussal, J.-M., Delannoy, P. and Groux-Degroot, S. Identification of 9-O-acetyl-N-acetylneuraminic acid (Neu5,9Ac2) as main O-acetylated sialic acid species of GD2 in breast cancer cells. Glycoconjugate J., 36, 79-90 (2019); DOI.
Cavdarli, S., Groux-Degroote, S. and Delannoy, P. Gangliosides: the double-edge sword of neuro-ectodermal derived tumors. Biomolecules, 9, 311 (2019); DOI.
Cernikova, L., Faso, C. and Hehl, A.B. Roles of phosphoinositides and their binding proteins in parasitic protozoa. Trends Parasitol., 35, 996-1008 (2019); DOI.
Chakraborty, T., Toth, R. and Gacser, A. Eicosanoid production by Candida parapsilosis and other pathogenic yeasts. Virulence, 10, 970-975 (2019); DOI.
Chanda, D., Neumann, D. and Glatz, J.F.C. The endocannabinoid system: Overview of an emerging multi-faceted therapeutic target. Prostaglandins Leukotrienes Essential Fatty Acids, 140, 51-56 (2019); DOI.
Chehade, M.H., Pelosi, L., Fyfe, C.D., Loiseau, L., Rascalou, B., Brugiere, S., Kazemzadeh, K., Vo, C.D.T., Ciccone, L., Aussel, L., Coute, Y., Fontecave, M., Barras, F., Lombard, M. and Pierrel, F. A soluble metabolon synthesizes the isoprenoid lipid ubiquinone. Cell Chem. Biol., 26, 482-492.e7 (2019); DOI.
Cheng, X.L. and Smith, J.C. Biological membrane organization and cellular signaling. Chem. Rev., 119, 5849-5880 (2019); DOI.
Cheon, D., Lee, W.C., Lee, Y., Lee, J.-Y. and Kim, Y. Structural basis of branched-chain fatty acid synthesis by Propionibacterium acnes ?-ketoacyl acyl carrier protein synthase. Biochem. Biophys. Res. Commun., 509, 322-332 (2019); DOI.
Cherpokova, D., Jouvene, C.C., Libreros, S., Deroo, E.P., Chu, L., de la Rosa, X., Norris, P.C., Wagner, D.D. and Serhan, C.N. Resolvin D4 attenuates the severity of pathological thrombosis in mice. Blood, 134, 1458-1468 (2019); DOI.
Chitraju, C., Walther, T.C. and Farese, R.V. The triglyceride synthesis enzymes DGAT1 and DGAT2 have distinct and overlapping functions in adipocytes. J. Lipid Res., 60, 1112-1120 (2019); DOI.
Chondronikola, M. and Sidossis, L.S. Brown and beige fat: From molecules to physiology. Biochim. Biophys. Acta, 1864, 91-103 (2019); DOI.
Chua, B.A., Ngo, J.A., Situ K. and Morizono, K. Roles of phosphatidylserine exposed on the viral envelope and cell membrane in HIV-1 replication. Cell Comm. Signal., 17, 132 (2019); DOI.
Chung, T. How phosphoinositides shape autophagy in plant cells. Plant Sci., 281, 146-158 (2019); DOI.
Civra, A., Leoni, V., Caccia, C., Sottemano, S., Tonetto, P., Coscia, A., Peila, C., Moro, G.E., Gaglioti, P., Bertino, E., Poli, G. and Lembo, D. Antiviral oxysterols are present in human milk at diverse stages of lactation. J. Steroid Biochem. Mol. Biol., 193, 105424 (2019); DOI.
Clements, T., Ndlovu, T., Khan, S. and Khan, W. Biosurfactants produced by Serratia species: Classification, biosynthesis, production and application. Appl. Microbiol. Biotechn., 103, 589-602 (2019); DOI.
Cogolludo, A., Villamor, E., Perez-Vizcaino, F. and Moreno, L. Ceramide and regulation of vascular tone. Int. J. Mol. Sci., 20, 411 (2019); DOI.
Coleman, R.A. It takes a village: channeling fatty acid metabolism and triacylglycerol formation via protein interactomes. J. Lipid Res., 60, 490-497 (2019); DOI.
Cordeiro, A.V., Silva, V.R.R., Pauli, J.R., da Silva, A.S.R., Cintra, D.E., Moura, L.P. and Ropelle, E.R. The role of sphingosine-1-phosphate in skeletal muscle: Physiology, mechanisms, and clinical perspectives. J. Cell. Physiol., 234, 10047-10059 (2019); DOI.
Cornejo-Castillo, F.M. and Zehr, J.P. Hopanoid lipids may facilitate aerobic nitrogen fixation in the ocean. Proc. Natl. Acad. Sci. USA, 116, 18269-18271 (2019); DOI.
Corradi, V., Sejdiu, B.I., Mesa-Galloso, H., Abdizadeh, H., Noskov, S.Y., Marrink, S.J. and Tieleman, D.P. Emerging diversity in lipid-protein interactions. Chem. Rev., 119, 5775-5848 (2019); DOI.
Crescente, M., Menke, L., Chan, M.V., Armstrong, P.C. and Warner, T.D. Eicosanoids in platelets and the effect of their modulation by aspirin in the cardiovascular system (and beyond). Brit. J. Pharm., 176, 988-999 (2019); DOI.
Cuypers, M.G., Subramanian, C., Gullett, J.M., Frank, M.W., White, S.W. and Rock, C.O. Acyl-chain selectivity and physiological roles of Staphylococcus aureus fatty acid-binding proteins. J. Biol. Chem., 294, 38-49 (2019); DOI.
Dalli, J. and Serhan, C.N. Identification and structure elucidation of the pro-resolving mediators provides novel leads for resolution pharmacology. Brit. J. Pharm., 176, 1024-1037 (2019); DOI.
Daruich, A., Picard, E., Boatright, J.H. and Behar-Cohen, F. The bile acids urso- and tauroursodeoxycholic acid as neuroprotective therapies in retinal disease. Mol. Vision, 25, 610-624 (2019); URL.
Dartt, D.A., Hodges, R.R. and Serhan, C.N. Immunoresolvent resolvin D1 maintains the health of the ocular surface. In Role Of Bioactive Lipids In Cancer, Inflammation And Related Diseases, (Editors: Honn, K.V. and Zeldin, D.C.), Adv. Exp. Med. Biol., 1161, 13-25 (2019); DOI.
Darwesh, A.M., Sosnowski, D.K., Lee, T.Y.T., Keshavarz-Bahaghighat, H. and Seubert, J.M. Insights into the cardioprotective properties of n-3 PUFAs against ischemic heart disease via modulation of the innate immune system. Chem.-Biol. Interact., 308, 20-44 (2019); DOI.
de Bus, I., Witkamp, R., Zuilhof, H., Albada, B. and Balvers, M. The role of n-3 PUFA-derived fatty acid derivatives and their oxygenated metabolites in the modulation of inflammation. Prostaglandins Other Lipid Mediators, 144, 106351 (2019); DOI.
de Bus, I., Zuilhof, H., Witkamp, R., Balvers, M. and Albada, B. Novel COX-2 products of n-3 polyunsaturated fatty acid-ethanolamine-conjugates identified in RAW264.7 macrophages J. Lipid Res., 60, 1829-1840 (2019); DOI.
de Diego, I., Peleg, S. and Fuchs, B. The role of lipids in aging-related metabolic changes. Chem. Phys. Lipids, 222, 59-69 (2019); DOI.
de Dios Alché, J. A concise appraisal of lipid oxidation and lipoxidation in higher plants, Redox Biol., 23, 101136 (2019); DOI.
De Santis, M.C., Gulluni, F., Campa, C.C., Martini, M. and Hirsch, E. Targeting PI3K signaling in cancer: Challenges and advances. Biochim. Biophys. Acta, Rev. Cancer, 1871, 361-366 (2019); DOI.
Deng, M., Guo, H., Tam, J.W., Johnson, B.M., Brickey, W.J., New, J.S., Lenox, A., Shi, H., Golenbock, D.T., Koller, B.H., McKinnon, K.P., Beutler, B. and Ting, J.P.-Y. Platelet-activating factor (PAF) mediates NLRP3-NEK7 inflammasome induction independently of PAFR. J. Exp. Med., 216, 2838-2853 (2019); DOI.
Desai, R. and Campanella, M. Exploring mitochondrial cholesterol signalling for therapeutic intervention in neurological conditions. Brit. J. Pharm., 176, 4284-4292 (2019); DOI.
Dewulf, J.P., Gerin, I., Rider, M.H., Veiga-da-Cunha, M., Van Schaftingen, E. and Bommer, G.T. The synthesis of branched-chain fatty acids is limited by enzymatic decarboxylation of ethyl- and methylmalonyl-CoA. Biochem. J., 476, 2427-2447 (2019); DOI.
Di Costanzo, F., Di Dato, V., Ianora, A. and Romano, G. Prostaglandins in marine organisms: a review. Marine Drugs, 17, 428 (2019); DOI.
Di Lorenzo, F., De Castro, C., Silipo, A. and Molinaro, A. Lipopolysaccharide structures of Gram-negative populations in the gut microbiota and effects on host interactions. FEMS Microbiol. Rev., 43, 257-272 (2019); DOI.
Diarte-Añazco, E.M.G., Méndez-Lara, K.A., Pérez, A., Alonso, N., Blanco-Vaca, F. and Julve, J. Novel insights into the role of HDL-associated sphingosine-1-phosphate in cardiometabolic diseases. Int. J. Mol. Sci., 20, 6273 (2019); DOI.
Dias, I.H.K., Borah, K., Amin, B., Griffiths, H.R., Sassi, K., Lizard, G., Iriondo, A. and Martinez-Lage, P. Localisation of oxysterols at the sub-cellular level and in biological fluids. J. Steroid Biochem. Mol. Biol., 193, 105426 (2019); DOI.
Dickie, E.A., Young, S.A. and Smith, T.K. Substrate specificity of the neutral sphingomyelinase from Trypanosoma brucei. Parasitology, 146, 604-616 (2019); DOI.
Diehl, P. and 20 others Lysophosphatidylcholine is a major component of platelet microvesicles promoting platelet activation and reporting atherosclerotic plaque instability. Thromb. Haemost., 119, 1295-1310 (2019); DOI.
Dixit, D., Okuniewska, M. and Schwab, S.R. Secrets and lyase: Control of sphingosine 1-phosphate distribution. Immun. Rev., 289, 173-185 (2019); DOI.
Do, K.V., Kautzmann, M.-A.I., Jun, B., Gordon, W.C., Nshimiyimana, R., Yang, R., Petasis, N.A. and Bazan, N.G. Elovanoids counteract oligomeric beta-amyloid-induced gene expression and protect photoreceptors. PNAS, 116, 24317-24325 (2019); DOI.
Dodge, G.J., Patel, A., Jaremko, K.L., McCammon, J.A., Smith, J.L. and Burkart, M.D. Structural and dynamical rationale for fatty acid unsaturation in Escherichia coli. PNAS, 116, 6775-6783 (2019); DOI.
Dodson, M., Castro-Portuguez, R. and Zhang, D.D. NRF2 plays a critical role in mitigating lipid peroxidation and ferroptosis. Redox Biol., 23, 101107 (2019); DOI.
Don-Doncow, N., Zhang, Y., Matuskova, H. and Meissner, A. The emerging alliance of sphingosine-1-phosphate signalling and immune cells: from basic mechanisms to implications in hypertension. Brit. J. Pharm., 176, 1989-2001 (2019); DOI.
Donkers, J.M., Abbing, R.L.P.R. and van de Graaf, S.F.J. Developments in bile salt based therapies: A critical overview. Biochem. Pharm., 161, 1-13 (2019); DOI.
Dore, E. and Boilard, E. Roles of secreted phospholipase A(2) group IIA in inflammation and host defense. Biochim. Biophys. Acta, 1864, 789-802 (2019); DOI.
Drouin, G., Rioux, V. and Legrand, P. The n-3 docosapentaenoic acid (DPA): A new player in the n-3 long chain polyunsaturated fatty acid family. Biochimie, 159, 36-48 (2019); DOI.
Duarte, S., Melo, T., Domingues, R., Alché , J.D. and Pérez-Sala, D. Insight into the cellular effects of nitrated phospholipids: Evidence for pleiotropic mechanisms of action. Free Rad. Biol. Med., 144, 192-202 (2019); DOI.
Dubey, K.K.D., Sharma, G. and Kumar, A. Conjugated linolenic acids: implication in cancer. J. Agric. Food Chem., 67, 6091-6101 (2019); DOI.
Duc, D., Vigne, S. and Pot, C. Oxysterols in autoimmunity. Int. J. Mol. Sci., 20, 4522 (2019); DOI.
Dunlap, C.A., Bowman, M.J. and Rooney, A.P. Iturinic lipopeptide diversity in the Bacillus subtilis species group - important antifungals for plant disease biocontrol applications. Front. Microbiol., 10, 1794 (2019); DOI.
Dunn, T.M., Tifft, C.J. and Proia, R.L. A perilous path: the inborn errors of sphingolipid metabolism. J. Lipid Res., 60, 475-483 (2019); DOI.
El Jamal, A., Bougault, C., Mebarek, S., Magne, D., Cuvillier, O. and Brizuel, L. The role of sphingosine 1-phosphate metabolism in bone and joint pathologies and ectopic calcification. Bone, 130, 115087 (2019); DOI.
Elhassanny, A.E.M., Ladin, D.A., Soliman, E., Albassam, H., Morris, A., Kobet, R., Thayne, K., Burns, C., Danell, A.S. and Van Dross, R. Prostaglandin D2-ethanolamide induces skin cancer apoptosis by suppressing the activity of cellular antioxidants. Prostaglandins Other Lipid Mediators, 142, 9-23 (2019); DOI.
Elmenier, F.M., Lasheen, D.S. and Abouzid, K.A.M. Phosphatidylinositol 3 kinase (PI3K) inhibitors as new weapon to combat cancer. Eur. J. Med. Chem., 183, 111718 (2019); DOI.
Elwakeel, E., Brüne, B. and Weigert, A. PGE2 in fibrosis and cancer: Insights into fibroblast activation. Prostaglandins Other Lipid Mediators, 143, 106339 (2019); DOI.
Emont, M.P., Kim, D.I. and Wu, J. Development, activation, and therapeutic potential of thermogenic adipocytes. Biochim. Biophys. Acta, 1864, 13-19 (2019); DOI.
Erturk-Hasdemir, D., Oh, S.F., Okan, N.A., Stefanetti, G., Gazzaniga, F.S., Seeberger, P.H., Plevy, S.E. and Kasper, D.L. Symbionts exploit complex signaling to educate the immune system. Proc. Natl. Acad. Sci. USA, 116, 26157-26166 (2019); DOI.
Esser-von Bieren, J. Eicosanoids in tissue repair. Immun. Cell Biol., 97, 279-288 (2019); DOI.
Falomir-Lockhart, L.J., Cavazzutti, G.F., Gimenez, E. and Toscani, A.M. Fatty acid signaling mechanisms in neural cells: fatty acid receptors. Front. Cell. Neurosci., 13, 162 (2019); DOI.
Fan, P.X., Leong, B.J. and Last, R.L. Tip of the trichome: evolution of acylsugar metabolic diversity in Solanaceae. Curr. Opinion Plant Biol., 49, 8-16 (2019); DOI.
Fan, R., Koehler, K. and Chung, S. Adaptive thermogenesis by dietary n-3 polyunsaturated fatty acids: Emerging evidence and mechanisms. Biochim. Biophys. Acta, 1864, 59-70 (2019); DOI.
Fang, Z., Pyne, S. and Pyne, N.J. Ceramide and sphingosine 1-phosphate in adipose dysfunction. Prog. Lipid Res., 74, 145-159 (2019); DOI.
Farmer, E.E. and Goossens, A. Jasmonates: what allene oxide synthase does for plants . J. Exp. Botany, 70, 3373-3378 (2019); DOI.
Fatima, S., Hu, X.J., Gong, R.H., Huang, C.H., Chen, M.T., Wong, H.L.X., Bian, Z.X. and Kwan, H.Y. Palmitic acid is an intracellular signaling molecule involved in disease development. Cell. Mol. Life Sci., 76, 2547-2557 (2019); DOI.
Fattori, V., Pinho-Ribeiro, FA., Staurengo-Ferrari, L., Borghi, S.M., Rossaneis, A.C., Casagrande, R. and Verri, W.A. The specialised pro-resolving lipid mediator maresin 1 reduces inflammatory pain with a long-lasting analgesic effect. Brit. J. Pharm., 176, 1728-1744 (2019); DOI.
Fazzari, M., Vitturi, D.A., Woodcock, S.R., Salvatore, S.R., Freeman, B.A. and Schopfer, F.J. Electrophilic fatty acid nitroalkenes are systemically transported and distributed upon esterification to complex lipids. J. Lipid Res., 60, 388-399 (2019); DOI.
Fekry, M.I., Xiao, Y., Berg, J.Z. and Guengerich, F.P. A role for the orphan human cytochrome P450 2S1 in polyunsaturated fatty acid omega-1 hydroxylation using an untargeted metabolomic approach. Drug Metab. Disposition, 47, 1325-1332 (2019); DOI.
Fellin, R. and Manzato, E. Lipoprotein-X fifty years after its original discovery. Nutr. Metab. Cardiovasc. Dis., 29, 4-8 (2019); DOI.
Ferchaud-Roucher, V., Kramer, A., Silva, E., Pantham, P., Weintraub, S.T., Jansson, T. and Powell, T.L. A potential role for lysophosphatidylcholine in the delivery of long chain polyunsaturated fatty acids to the fetal circulation. Biochim. Biophys. Acta, 1864, 394-402 (2019); DOI.
Ferré , G., Louet, M., Saurel, O., Delort, B., Czaplicki, G., M'Kadmi, C., Damian, M., Renault, P., Cantel, S., Gavara, L., Demange, P., Marie, J., Fehrentz, J.A., Floquet, N., Milon, A. and Banères, J.L. Structure and dynamics of G protein-coupled receptor-bound ghrelin reveal the critical role of the octanoyl chain. Proc. Natl. Acad. Sci. USA, 116, 17525-17530 (2019); DOI.
Fleming, I. New lipid mediators in retinal angiogenesis and retinopathy. Front. Pharm., 10, 739 (2019); DOI.
Flores, A., Ramirez-Franco, J., Desplantes, R., Debreux, K., Ferracci, G., Wernert, F., Blanchard, M.P., Maulet, Y., Youssouf, F., Sangiardi, M., Iborra, C., Popoff, M.R., Seagar, M., Fantini, J., Leveque, C. and El Far, O. Gangliosides interact with synaptotagmin to form the high-affinity receptor complex for botulinum neurotoxin B. PNAS, 116, 18098-18108 (2019); DOI.
Forcina, G.C. and Dixon, S.J. GPX4 at the crossroads of lipid homeostasis and ferroptosis. Proteomics, 19, e1800311 (2019); DOI.
Fujikawa, K., Nomura, K., Nishiyama, K. and Shimamoto, K. Novel glycolipid involved in membrane protein integration: structure and mode of action. J. Synth. Org. Chem. Japan, 77, 1096-1105 (2019); DOI.
Funcke, J.B. and Scherer, P.E. Beyond adiponectin and leptin: adipose tissue-derived mediators of inter-organ communication. J. Lipid Res., 60, 1648-1697 (2019); DOI.
Furukawa, K., Ohmi, Y., Ohkawa, Y., Bhuiyan, R.H., Zhang, P., Tajima, O., Hashimoto, N., Hamamura, K. and Furukawa, K. New era of research on cancer-associated glycosphingolipids. Cancer Sci., 110, 1544-1551 (2019); DOI.
Gallego-Garcia, A., Monera-Girona, A.J., Pajares-Martinez, E., Bastida-Martinez, E., Perez-Castano, R., Iniesta, A.A., Fontes, M., Padmanabhan, S. and Elias-Arnanz, M. A bacterial light response reveals an orphan desaturase for human plasmalogen synthesis. Science, 366, 128-132 (2019); DOI.
Gamba, P., Staurenghi, E., Testa, G., Giannelli, S., Sotte, B. and Leonarduzzi, G. A crosstalk between brain cholesterol oxidation and glucose metabolism in Alzheimer's disease. Front. Neurosci., 13, 556 (2019); DOI.
Gao, M., Huang, X., Song, B.-L. and Yang, H. The biogenesis of lipid droplets: Lipids take center stage. Prog. Lipid Res., 75, 100989 (2019); DOI.
Garcia-Vilanova, A., Chan, J. and Torrelles, J.B. Underestimated manipulative roles of Mycobacterium tuberculosis cell envelope glycolipids during infection. Front. Immun., 10, 2909 (2019); DOI.
Garic, D., De Sanctis, J.B., Shah, J., Dumut, D.C. and Radzioch, D. Biochemistry of very-long-chain and long-chain ceramides in cystic fibrosis and other diseases: The importance of side chain. Prog. Lipid Res., 74, 130-144 (2019); DOI.
Gasulla, F., García-Plazaol, J.I., López-Pozo, M. and Fernández-Marín, B. Evolution, biosynthesis and protective roles of oligogalactolipids: Key molecules for terrestrial photosynthesis? Environm. Exp. Bot., 164, 135-148 (2019); DOI.
Gegotek, A. and Skrzydlewska, E. Biological effect of protein modifications by lipid peroxidation products. Chem. Phys. Lipids, 221, 46-52 (2019); DOI.
Genva, M., Akong, F.O., Andersson, M.X., Deleu, M., Lins, L. and Fauconnier, M.L. New insights into the biosynthesis of esterified oxylipins and their involvement in plant defense and developmental mechanisms. Phytochem. Rev., 18, 343-358 (2019); DOI.
Ghosh, S., Iadarola, D.M., Ball, W.B. and Gohil, V.M. Mitochondrial dysfunctions in Barth syndrome. IUBMB Life, 71, 791-801 (2019); DOI.
Gianazza, E., Brioschi, M., Fernandez, A.M. and Banfi, C. Lipoxidation in cardiovascular diseases. Redox Biol., 23, 101119 (2019); DOI.
Gill, S., Catchpole, R. and Forterre, P. Extracellular membrane vesicles in the three domains of life and beyond. FEMS Microbiol. Rev., 43, 273-303 (2019); DOI.
Gilligan, M.M., Gartung, A., Sulciner, M.L., Norris, P.C., Sukhatme, V.P., Bielenberg, D.R., Huang, S., Kieran, M.W., Serhan, C.N. and Panigrahy, D. Aspirin-triggered proresolving mediators stimulate resolution in cancer. PNAS, 116, 6292-6297 (2019); DOI.
Gilroy, D.W. and Bishop-Bailey, D. Lipid mediators in immune regulation and resolution. Brit. J. Pharm., 176, 1009-1023 (2019); DOI.
Giménez-Bastida, J.A., Boeglin, W.E., Boutaud, O., Malkowski, M.G. and Schneider, C. Residual cyclooxygenase activity of aspirin-acetylated COX-2 forms 15R-prostaglandins that inhibit platelet aggregation. FASEB J., 33, 1033-1041 (2019); DOI.
Girona, J., Amigo, N., Ibarretxe, D., Plana, N., Rodriguez-Borjabad, C., Heras, M., Ferre, R., Gil, M., Correig, X. and Masana, L. HDL triglycerides: a new marker of metabolic and cardiovascular risk. Int. J. Mol. Sci., 20, 3151 (2019); DOI.
Girotti, A.W. and Korytowski, W. Cholesterol peroxidation as a special type of lipid oxidation in photodynamic systems. Photochem. Photobiol., 95, 73-82 (2019); DOI.
Goñi, F.M. 'Rafts': A nickname for putative transient nanodomains. Chem. Phys. Lipids, 218, 34-39 (2019); DOI.
Goossens, J.F. and Bailly, C. Ursodeoxycholic acid and cancer: From chemoprevention to chemotherapy. Pharmacol. Therapeut., 203, 107396 (2019); DOI.
Govindarajah, N., Clifford, R., Bowden, D., Sutton, P.A., Parsons, J.L. and Vimalachandran, D. Sphingolipids and acid ceramidase as therapeutic targets in cancer therapy. Critical Rev. Oncol. Hematol., 138, 104-111 (2019); DOI.
Grabner, G.F, and 21 others. Metabolic disease and ABHD6 alter the circulating bis(monoacylglycerol)phosphate profile in mice and humans. J. Lipid Res., 60, 1020-1031 (2019); DOI.
Grabon, A., Bankaitis, V.A. and McDermott, M.I. The interface between phosphatidylinositol transfer protein function and phosphoinositide signaling in higher eukaryotes. J. Lipid Res., 60, 242-268 (2019); DOI.
Grassi, S., Chiricozzi, E., Mauri, L., Sonnino, S. and Prinetti, A. Sphingolipids and neuronal degeneration in lysosomal storage disorders. J. Neurochem., 148, 600-611 (2019); DOI.
Grassi, S., Mauri, L., Prioni, S., Cabitta, L., Sonnino, S., Prinetti, A. and Giussani, P. Sphingosine 1-phosphate receptors and metabolic enzymes as druggable targets for brain diseases. Front. Pharm., 10, 807 (2019); DOI.
Greber, K.E., Zielinska, J., Nierzwicki, L., Ciura, K., Kawczak, P., Nowakowska, J., Baczek, T. and Sawicki, W. Are the short cationic lipopeptides bacterial membrane disruptors? Structure-Activity Relationship and molecular dynamic evaluation. Biochim. Biophys. Acta, Biomembranes, 1861, 93-99 (2019); DOI.
Grevengoed, T.J., Trammell, S.A.J., McKinney, M.K., Petersen, N., Cardone, R.L., Svenningsen, J.S., Ogasawara, D., Nexøe-Larsen, C.C., Knop, F.K., Schwartz, T.W., Kibbey, R.G., Cravatt, B.F. and Gillum, M.P. N-acyl taurines are endogenous lipid messengers that improve glucose homeostasis. Proc. Natl. Acad. Sci. USA, 116, 24770-24778 (2019); DOI.
Griffiths, W.J. and Wang, Y.Q. Oxysterol research: a brief review. Biochem. Soc. Trans., 47, 517-526 (2019); DOI.
Gu, L., Saha, S.T., Thomas, J. and Kaur, M. Targeting cellular cholesterol for anticancer therapy. FEBS J., 286, 4192-4208 (2019); DOI.
Guan, L., Denkert, N., Eisa, A., Lehmann, M., Sjuts, I., Weiberg, Arne., Soll, J., Meinecke, M. and Schwenkert, S. JASSY, a chloroplast outer membrane protein required for jasmonate biosynthesis. PNAS, 116, 10568-10575 (2019); DOI.
Guichardant, M., Véricel, E. and Lagarde, M. Biological relevance of double lipoxygenase products of polyunsaturated fatty acids, especially within blood vessels and brain. Biochimie, 159, 55-58 (2019); DOI.
Guillocheau, E., Legrand, P. and Rioux, V. Benefits of natural dietary trans fatty acids towards inflammation, obesity and type 2 diabetes: defining the n-7 trans fatty acid family. OCL, 26, 46 (2019); DOI.
Guo, Q., Liu, L. and Barkla, B.J. Membrane lipid remodeling in response to salinity. Int. J. Mol. Sci., 20, 4264 (2019); DOI.
Gurunathan, S., Kang, M.H., Jeyaraj, M., Qasim, M. and Kim, J.H. Review of the isolation, characterization, biological function, and multifarious therapeutic approaches of exosomes. Cells, 8, 307 (2019); DOI.
Gutbrod, K., Romer, J. and Dörmann, P. Phytol metabolism in plants. Prog. Lipid Res., 74, 1-17 (2019); DOI.
Häfner, A.-K., Kahnt, A.S. and Steinhilber, D. Beyond leukotriene formation - The noncanonical functions of 5-lipoxygenase. Prostaglandins Other Lipid Mediators, 142, 24-32 (2019); DOI.
Hala, M. and Zarsky, V. Protein prenylation in plant stress responses. Molecules, 24, 3906 (2019); DOI.
Hale, B.J., Fernandez, R.F., Kim, S.Q., Diaz, V.D., Jackson, S.N., Liu, L., Brenna, J.T., Hermann, B.P., Geyer, C.B. and Ellis, J.M. Acyl-CoA synthetase 6 enriches seminiferous tubules with the n-3 fatty acid docosahexaenoic acid and is required for male fertility in the mouse. J. Biol. Chem., 294, 14394-14405 (2019); DOI.
Hammels, I., Binczek, E., Schmidt-Soltau, I., Jenke, B., Thomas, A., Vogel, M., Thevis, M., Filipova, D., Papadopoulos, S. and Stoffel, W. Novel CB1-ligands maintain homeostasis of the endocannabinoid system in omega3- and omega6-long-chain-PUFA deficiency. J. Lipid Res., 60, 1396-1409 (2019); DOI.
Hammond, N., Munkacsi, A.B. and Sturley, S.L. The complexity of a monogenic neurodegenerative disease: More than two decades of therapeutic driven research into Niemann-Pick type C disease. Biochim. Biophys. Acta, 1864, 1109-1123 (2019); DOI.
Hansen, H.S. and Vana, V. Non-endocannabinoid N-acylethanolamines and 2-monoacylglycerols in the intestine. Brit. J. Pharm., 176, 1443-1454 (2019); DOI.
Hansen, T.V., Vik, A. and Serhan, C.N. The protectin family of specialized pro-resolving mediators: potent immunoresolvents enabling innovative approaches to target obesity and diabetes. Front. Pharm., 9, 1582 (2019); DOI.
Hara, S., Yoda, E., Sasaki, Y., Nakatani, Y. and Kuwata, H. Calcium-independent phospholipase A(2)gamma (iPLA(2)gamma) and its roles in cellular functions and diseases. Biochim. Biophys. Acta, 1864, 861-868 (2019); DOI.
Hashimoto, K. Role of soluble epoxide hydrolase in metabolism of PUFAs in psychiatric and neurological disorders. Front. Pharm., 10, 36 (2019); DOI.
Hedtke, V. and Bakovic, M. Choline transport for phospholipid synthesis: An emerging role of choline transporter-like protein 1. Exp. Biol. Med., 244, 655-662 (2019); DOI.
Heil, C.S., Wehrheim, S.S., Paithankar, K.S. and Grininger, M. Fatty acid biosynthesis: Chain length regulation and control. Chembiochem, 20, 2298-2321 (2019); DOI.
Heitz, T., Smirnova, E., Marquis, V. and Poirier, L. Metabolic control within the jasmonate biochemical pathway. Plant Cell Physiol., 60, 2621-2628 (2019); DOI.
Hernández-Saavedra, D. and Stanford, K.I. The regulation of lipokines by environmental factors. Nutrients, 11, 2422 (2019); DOI.
Hirabayashi, T., Murakami, M. and Kihara, A. The role of PNPLA1 in omega-O-acylceramide synthesis and skin barrier function. Biochim. Biophys. Acta, 1864, 869-879 (2019); DOI.
Hirano, T. and Sato, M.H. Diverse physiological functions of FAB1 and phosphatidylinositol 3,5-bisphosphate in plants. Front. Plant Sci., 10, 274 (2019); DOI.
Hisano, Y. and Hla, T. Bioactive lysolipids in cancer and angiogenesis. Pharmacol. Therapeut., 193, 91-98 (2019); DOI.
Hölzl, G. and Dörmann, P. Chloroplast lipids and their biosynthesis. Annu. Rev. Plant Biol., 70, 51-81 (2019); DOI.
Honda, T. and Kabashima, K. Prostanoids and leukotrienes in the pathophysiology of atopic dermatitis and psoriasis. Int. Immun., 31, 589-595 (2019); DOI.
Hopiavuori, B.R., Anderson, R.E. and Agbaga, M.P. ELOVL4: Very long-chain fatty acids serve an eclectic role in mammalian health and function. Prog. Retinal Eye Res., 69, 137-158 (2019); DOI.
Hosseini, V., Dani, C., Geranmayeh, M.H., Mohammadzadeh, F., Ahmad, S.N.S. and Darabi, M. Wnt lipidation: Roles in trafficking, modulation, and function. J. Cell. Physiol., 234, 8040-8054 (2019); DOI.
Hougland, J.L. Ghrelin octanoylation by ghrelin O-acyltransferase: Unique protein biochemistry underlying metabolic signaling. Biochem. Soc. Trans., 47, 169-178 (2019); DOI.
Hu, A. and Song, B.L. The interplay of Patched, Smoothened and cholesterol in Hedgehog signaling. Curr. Opinion Cell Biol., 61, 31-38 (2019); DOI.
Huby, E., Napier, J.A., Baillieul, F., Michaelson, L.V. and Dhondt-Cordelier, S. Sphingolipids: towards an integrated view of metabolism during the plant stress response. New Phytologist, 15597 (2019); DOI.
Hui, D.Y. Group 1B phospholipase A(2) in metabolic and inflammatory disease modulation. Biochim. Biophys. Acta, 1864, 784-788 (2019); DOI.
Hwang, S.M., Chung, G., Kim, Y.H. and Park, C.K. The role of maresins in inflammatory pain: function of macrophages in wound regeneration. Int. J. Mol. Sci., 20, 5849 (2019); DOI.
Ijuin, T. Phosphoinositide phosphatases in cancer cell dynamics-Beyond PI3K and PTEN. Seminars Cancer Biol., 59, 50-65 (2019); DOI.
Indellicato, R. and Trinchera, M. The link between Gaucher disease and Parkinson's disease sheds light on old and novel disorders of sphingolipid metabolism. Int. J. Mol. Sci., 20, 3304 (2019); DOI.
Intapad, S. Sphingosine-1-phosphate signaling in blood pressure regulation. Am. J. Physiol., Renal Physiol., 317, E638-E640 (2019); DOI.
Ishihara, T., Yoshida, M. and Arita, M. Omega-3 fatty acid-derived mediators that control inflammation and tissue homeostasis. Int. Immun., 31, 559-567 (2019); DOI.
Jayasinghe, S.U., Tankeu, A.T. and Amati, F. Reassessing the role of diacylglycerols in insulin resistance. Trends Endocrinol. Metab., 30, 618-635 (2019); DOI.
Jeong, H., Choi, S.K., Ryu, C.M. and Park, S.H. Chronicle of a soil bacterium: Paenibacillus polymyxa E681 as a tiny guardian of plant and human health. Front. Microbiol., 10, 467 (2019); DOI.
Jiang, K.Q., Dong, C.Y., Yin, Z.L., Li, R., Wang, Q. and Wang, L.M. The critical role of exosomes in tumor biology. J. Cell. Biochem., 120, 6820-6832 (2019); DOI.
Jiang, W. and Ji, M. Receptor tyrosine kinases in PI3K signaling: The therapeutic targets in cancer. Seminars Cancer Biol., 59, 3-22 (2019); DOI.
Jiao, H.Z., Yin, Y. and Liu, Z.F. Structures of the mitochondrial CDP-DAG synthase Tam41 suggest a potential lipid substrate pathway from membrane to the active site. Structure, 27, 1258-1269e4 (2019); DOI.
Jimenez-Alemana, G.H., Almeida-Trapp, M., Fernández-Barbero, G., Gimenez-Ibaneza, S., Reichelt, M., Vadassery, J., Mithöferd, A., Caballero, J., Boland, W. and Solano, R. Omega hydroxylated JA-Ile is an endogenous bioactive jasmonate that signals through the canonical jasmonate signaling pathway. Biochim. Biophys. Acta, 1864, 158520 (2019); DOI.
Jimenez-Rojo, N. and Riezman, H On the road to unraveling the molecular functions of ether lipids. FEBS Letts, 593, 2378-2389 (2019); DOI.
Jin, U., Park, S.J. and Park, S.M. Cholesterol metabolism in the brain and its association with Parkinson's disease. Exp. Neurobiol., 28, 554-567 (2019); DOI.
Jo-Watanabe, A., Okuno, T. and Yokomizo, T. The role of leukotrienes as potential therapeutic targets in allergic disorders. Int. J. Mol. Sci., 20, 3580 (2019); DOI.
Joffre, C., Rey, C. and Laye, S. n-3 Polyunsaturated fatty acids and the resolution of neuroinflammation. Front. Pharm., 10, 1022 (2019); DOI.
Jones, R.D., Liao, J., Tong, X., Xu, D.D., Sun, L.Y., Li, H.N. and Yang, G.Y. Epoxy-oxylipins and soluble epoxide hydrolase metabolic pathway as targets for NSAID-induced gastroenteropathy and inflammation-associated carcinogenesis. Front. Pharm., 10, 731 (2019); DOI.
Jové, M., Pradas, I., Dominguez-Gonzalez, M., Ferrer, I. and Pamplona, R. Lipids and lipoxidation in human brain aging. Mitochondrial ATP-synthase as a key lipoxidation target. Redox Biol., 23, 101082 (2019); DOI.
Kaffe, E., Magkrioti, C. and Aidinis, V. Deregulated lysophosphatidic acid metabolism and signaling in liver cancer. Cancers, 11, 1626 (2019); DOI.
Karpisheh, V., Nikkhoo, A., Hojjat-Farsangi, M., Namdar, A., Azizi, G., Ghalamfarsa, G., Sabz, G., Yousefi, M., Yousefi, B. and Jadidi-Niaragh, F. Prostaglandin E2 as a potent therapeutic target for treatment of colon cancer. Prostaglandins Other Lipid Mediators, 144, 106338 (2019); DOI.
Kay, J.G. and Fairn, G.D. Distribution, dynamics and functional roles of phosphatidylserine within the cell. Cell Commun. Signal., 17, 126 (2019); DOI.
Kennelly, J.P., van der Veen, J.N., Nelson, R.C., Leonard, K.-A., Havinga, R., Buteau, J., Kuipers, F. and Jacobs, R.L. Intestinal de novo phosphatidylcholine synthesis is required for dietary lipid absorption and metabolic homeostasis. J. Lipid Res., 59, 1695-1708 (2018); DOI.
Khoo, N.K.H. and Schopfer, F.J. Nitrated fatty acids: from diet to disease. Curr. Opinion Physiol., 9, 67-72 (2019); DOI.
Kiriyama, Y. and Nochi, H. The biosynthesis, signaling, and neurological functions of bile acids. Biomolecules, 9, 232 (2019); DOI.
Kita, Y., Shindou, H. and Shimizu, T. Cytosolic phospholipase A(2) and lysophospholipid acyltransferases. Biochim. Biophys. Acta, 1864, 838-845 (2019); DOI.
Kodani, S.D. and Morisseau, C. Role of epoxy-fatty acids and epoxide hydrolases in the pathology of neuro-inflammation. Biochimie, 159, 59-65 (2019); DOI.
Koerner, C.M., Roberts, B.S. and Neher, S.B. Endoplasmic reticulum quality control in lipoprotein metabolism. Mol. Cell. Endocrin., 498, 110547 (2019); DOI.
Koike, K., Berdyshev, E.V., Mikosz, A.M., Bronova, I.A., Bronoff, A.S., Jung, J.P., Beatman, E.L., Ni, K., Cao, D.T., Scruggs, A.K., Serban, K.A. and Petrache, I. Role of glucosylceramide in lung endothelial cell fate and emphysema. Am. J. Respiratory Critical Care Med., 200, 1113-1125 (2019); DOI.
Kolar, M.J., Konduri, S., Chang, T., Wang, H., McNerlin, C., Ohlsson, L., Härröd, M., Siegel, D. and Saghatelian, A. Linoleic acid esters of hydroxy linoleic acids are anti-inflammatory lipids found in plants and mammals. J. Biol. Chem., 294, 10698-10707 (2019); DOI.
Kong, J.H., Siebold, C. and Rohatgi, R. Biochemical mechanisms of vertebrate hedgehog signaling. Development, 146, dev166892 (2019); DOI.
Kono, N. and Arai, H. Platelet-activating factor acetylhydrolases: An overview and update. Biochim. Biophys. Acta, 1864, 922-931 (2019); DOI.
Korbecki, J. and Bajdak-Rusinek, K. The effect of palmitic acid on inflammatory response in macrophages: an overview of molecular mechanisms. Inflam. Res., 68, 915-932 (2019); DOI.
Kornilov, A., Kennedy, P.D., Aldrovandi, M., Watson, A.J.A., Hinz, C., Harless, B., Colombo, J., Maxey, K.M., Tyrrell, V.J., Simon, M., Aggarwal, V.K., Boeglin, W.E., Brash, A.R., Murphy R.C. and O'Donnell, V.B. Revising the structure of a new eicosanoid from human platelets to 8,9-11,12-diepoxy-13-hydroxyeicosadienoic acid. J. Biol. Chem., 294, 9225-9238 (2019); DOI.
Kriaa, A., Bourgin, M., Potiron, A., Mkaouar, H., Jablaoui, A., Gerard, P., Maguin, E. and Rhimi, M. Microbial impact on cholesterol and bile acid metabolism: current status and future prospects. J. Lipid Res., 60, 323-332 (2019); DOI.
Kubicki, S., Bollinger, A., Katzke, N., Jaeger, K.E., Loeschcke, A. and Thies, S. Marine biosurfactants: biosynthesis, structural diversity and biotechnological applications. Marine Drugs, 17, 408 (2019); DOI.
Kuna, R.S. and Field, S.J. GOLPH3: a Golgi phosphatidylinositol(4)phosphate effector that directs vesicle trafficking and drives cancer. J. Lipid Res., 60, 269-275 (2019); DOI.
Kunz, T.C. and Kozjak-Pavlovic, V. Diverse facets of sphingolipid involvement in bacterial infections. Front. Cell Developm. Biol., 7, 203 (2019); DOI.
Kurz, J., Parnham, M.J., Geisslinger, G. and Schiffmann, S. Ceramides as novel disease biomarkers. Trends Mol. Med., 25, 20-32 (2019); DOI.
Kutschera, A. and Ranf, S. The multifaceted functions of lipopolysaccharide in plant-bacteria interactions. Biochimie, 159, 93-98 (2019); DOI.
Kutschera, A., Dawid, C., Gisch, N., Schmid, C., Raasch, L., Gerster, T., Schäffer, M., Smakowska-Luzan, E., Belkhadir, Y., Vlot, A.C., Chandler, C.E., Schellenberger, R., Schwudke, D., Ernst, R.K., Dorey, S., Hückelhoven, R., Hofmann T. and Ranf, S. Bacterial medium-chain 3-hydroxy fatty acid metabolites trigger immunity in Arabidopsis plants. Science, 364, 178-181 (2019); DOI.
Kuwata, H. and Hara, S. Role of acyl-CoA synthetase ACSL4 in arachidonic acid metabolism. Prostaglandins Other Lipid Mediators, 144, 106363 (2019); DOI.
Kuwata, H., Nakatani, E., Shimbara-Matsubayashi, S., Ishikawa, F., Shibanuma, M., Sasaki, Y., Yoda, E., Nakatani, Y. and Hara, S. Long-chain acyl-CoA synthetase 4 participates in the formation of highly unsaturated fatty acid-containing phospholipids in murine macrophages. Biochim. Biophys. Acta, 1864, 1606-1618 (2019); DOI.
Lai, R.C. and Lim, S.K. Membrane lipids define small extracellular vesicle subtypes secreted by mesenchymal stromal cells. J. Lipid Res., 60, 318-322 (2019); DOI.
Laleh, P., Yaser, K. and Alireza, O. Oleoylethanolamide: A novel pharmaceutical agent in the management of obesity-an updated review. J. Cell. Physiol., 234, 7893-7902 (2019); DOI.
Larrouy-Maumus, G. Lipids as biomarkers of cancer and bacterial infections. Curr. Med. Chem., 26, 1924-1932 (2019); DOI.
Lavell, A.A. and Benning, C. Cellular organization and regulation of plant glycerolipid metabolism. Plant Cell Physiol., 60, 1176-1183 (2019); DOI.
Law, S.H., Chan, M.L., Marathe, G.K., Parveen, F., Chen, C.H. and Ke, L.Y. An updated review of lysophosphatidylcholine metabolism in human diseases. Int. J. Mol. Sci., 20, 1149 (2019); DOI.
Lebrero, P., Astudillo, A.M., Rubio, J.M., Fernandez-Caballero, L., Kokotos, G., Balboa, M.A. and Balsinde, J. Cellular plasmalogen content does not influence arachidonic acid levels or distribution in macrophages: a role for cytosolic phospholipase A(2)gamma in phospholipid remodeling. Cells, 8, 799 (2019); DOI.
Lee, C.J., Rana, M.S., Bae, C., Li, Y. and Banerjee, A. In vitro reconstitution of Wnt acylation reveals structural determinants of substrate recognition by the acyltransferase human Porcupine. J. Biol. Chem., 294, 231-245 (2019); DOI.
Lee, H.J. and Park, O.K. Lipases associated with plant defense against pathogens. Plant Sci., 279, 51-58 (2019); DOI.
Lee, P. and Ulatowski, L.M. Vitamin E: Mechanism of transport and regulation in the CNS. IUBMB Life, 71, 424-429 (2019); DOI.
Lee, R.H.C., Silva, A.C.E., Possoit, H.E., Lerner, F.M., Chen, P.Y., Azizbayeva, R., Citadin, C.T., Wu, C.Y.C, Neumann, J.T. and Lin, H.W. Palmitic acid methyl ester is a novel neuroprotective agent against cardiac arrest. Prostaglandins Leukotrienes Essential Fatty Acids, 147, 6-14 (2019); DOI.
Lee, Y.Y., Tang, T.K., Phuah, E.T., Tan, C.P., Wang, Y., Li, Y., Cheong, L.Z. and Lai, O.M. Production, safety, health effects and applications of diacylglycerol functional oil in food systems: a review. Crit. Rev. Food Sci. Nutr., 60, 2509-2525 (2019); DOI.
Lei, L., Su, J., Chen, J.C., Chen, W.Q., Chen, X. and Peng, C. The role of lysophosphatidic acid in the physiology and pathology of the skin. Life Sci., 220, 194-200 (2019); DOI.
Leiria, L.O. + 26 others 12-Lipoxygenase regulates cold adaptation and glucose metabolism by producing the omega-3 lipid 12-HEPE from brown fat. Cell Metab., 30, 768-783.e7 (2019); DOI.
Leuti, A., Maccarrone, M. and Chiurchiu, V. Proresolving lipid mediators: endogenous modulators of oxidative stress. Oxid. Med. Cell. Longevity, 8107265 (2019); DOI.
Lev, S., Rupasinghe, T., Desmarini, D., Kaufman-Francis, K., Sorrell, T.C., Roessner, U. and Djordjevic, J.T. The PHO signaling pathway directs lipid remodeling in Cryptococcus neoformans via DGTS synthase to recycle phosphate during phosphate deficiency. PLOS One, 14, e0212651 (2019); DOI.
Lewis, E.D., Meydani, S.N. and Wu, D. Regulatory role of vitamin E in the immune system and inflammation. IUBMB Life, 71, 487-494 (2019); DOI.
Li, C., Wang, A., Wu, Y., Gulbins, E., Grassmé, H., and Zhao, Z. Acid sphingomyelinase-ceramide system in bacterial infections. Cell Physiol. Biochem. 52, 280-301 (2019); DOI.
Li, J.J., Guo, C.Y. and Wu, J.Y. 15-Deoxy-Delta-(12,14)-prostaglandin J2 (15d-PGJ2), an endogenous ligand of PPAR-gamma: function and mechanism. PPAR Res., 7242030 (2019); DOI.
Li, J.N. and Dawson, P.A. Animal models to study bile acid metabolism. Biochim. Biophys. Acta, Mol. Basis. Dis., 1865, 895-911 (2019); DOI.
Li, Q., Chen, J., Yu, X.Z. and Gao, J.M. A mini review of nervonic acid: Source, production, and biological functions. Food Chem., 301, 125286 (2019); DOI.
Li, Q., Wang, H.L., Peng, H.R., Ting, H.Y. and Cacalano, N.A. Exosomes: versatile nano mediators of immune regulation. Cancers, 11, 1557 (2019); DOI.
Li, S.C., Li, C.L. and Wang, W.D. Bile acid signaling in renal water regulation. Am. J. Physiol., Renal Physiol., 317, F73-F76 (2019); DOI.
Li, T.M., Coan, J.P., Krajewski, K., Zhang, L.C., Elias, J.E., Strahl, B.D., Gozani, O. and Chua, K.F. Binding to medium and long chain fatty acyls is a common property of HEAT and ARM repeat modules. Sci. Rep., 9, 14226 (2019); DOI.
Li, Y., Lou, W., Raja, V., Denis, S., Yu, W., Schmidtke, M.W., Reynolds, C.A., Schlame, M., Houtkooper, R.H. and Greenberg, M.L. Cardiolipin-induced activation of pyruvate dehydrogenase links mitochondrial lipid biosynthesis to TCA cycle function. J. Biol. Chem., 294, 11568-11578 (2019); DOI.
Li, Y. and others. Genetic ablation of acid ceramidase in Krabbe disease confirms the psychosine hypothesis and identifies a new therapeutic target. Proc. Natl. Acad. Sci. USA, 116, 20097–20103 (2019); DOI.
Li-Beisson, Y., Thelen, J.J., Fedosejevs, E. and Harwood, J.L. The lipid biochemistry of eukaryotic algae. Prog. Lipid Res., 74, 31-68 (2019); DOI.
Liangpunsakul, S. and Chalasani, N. Lipid mediators of liver injury in nonalcoholic fatty liver disease. Am. J. Physiol. Gastrointest. Liver Physiol., 316, G75-G81 (2019); DOI.
Liu, G.-Y., Moon, S.H., Jenkins, C.M., Sims, H.F., Guan, S. and Gross, R.W. Synthesis of oxidized phospholipids by sn-1 acyltransferase using 2-15-HETE lysophospholipids. J. Biol. Chem., 294, 10146-10159 (2019); DOI.
Liu, X.X., Ma, D.K., Zhang, Z.Y., Wang, S.W., Du, S., Deng, X.P. and Yin, L.N. Plant lipid remodeling in response to abiotic stresses. Environm. Exp. Bot., 165, 174-184 (2019); DOI.
Loewith, R., Riezman, H. and Winssinger, N. Sphingolipids and membrane targets for therapeutics. Curr. Opinion Chem. Biol., 50, 19-28 (2019); DOI.
Lone, M.A., Santos, T., Alecu, I., Silva, L.C. and Hornemann, T. 1-Deoxysphingolipids. Biochim. Biophys. Acta, 1864, 512-521 (2019); DOI.
Lopez, S., Rodriguez-Gallardo, S., Sabido-Bozo, S. and Muniz, M. Endoplasmic reticulum export of GPI-anchored proteins. Int. J. Mol. Sci., 20, 3506 (2019); DOI.
Lordan, R., Tsoupras, A., Zabetakis, I. and Demopoulos, C.A. Forty years since the structural elucidation of platelet-activating factor (paf): historical, current, and future research perspectives. Molecules, 24, 4414 (2019); DOI.
Lotfi, R., Rezaiemanesh, A., Mortazavi, S.H., Karaji, A.G. and Salari, F. Immunoresolvents in asthma and allergic diseases: Review and update. J. Cell. Physiol., 234, 8579-8596 (2019); DOI.
Lu, Y., Eiriksson, F.F., Thorsteinsdottir, M. and Simonsen, H.T. Valuable fatty acids in bryophytes-production, biosynthesis, analysis and applications. Plants-Basel, 8, 524 (2019); DOI.
Lu, Y.F., Chen, Y.N., Wu, Y.L., Hao, H.L., Liang, W.J., Liu, J. and Huang, R.M. Marine unsaturated fatty acids: structures, bioactivities, biosynthesis and benefits. RSC Advances, 9, 35312-35327 (2019); DOI.
Lung, S.C. and Chye, M.L. Arabidopsis acyl-CoA-binding proteins regulate the synthesis of lipid signals. New Phytol., 223, 113-117 (2019); DOI.
Luo, Z.K., Chen, Q.F., Qu, X.Q. and Zhou, X.Y. The roles and signaling pathways of phosphatidylethanolamine-binding protein 4 in tumors. Oncotargets Therapy, 12, 7685-7690 (2019); DOI.
Lynes, M.D., Kodani, S.D. and Tseng, Y.H. Lipokines and thermogenesis. Endocrinology, 160, 2314-2325 (2019); DOI.
Ma, C.X., Vasu, R. and Zhang, H. The role of long-chain fatty acids in inflammatory bowel disease. Mediat. Inflamm., 8495913 (2019); DOI.
Ma, L.Q. and Nelson, E.R. Oxysterols and nuclear receptors. Mol. Cell. Endocrin., 484, 42-51 (2019); DOI.
Ma, Q., Gabelli, S.B. and Raben, D.M. Diacylglycerol kinases: Relationship to other lipid kinases. Adv. Biol. Reg., 71, 104-110 (2019); DOI.
Macierzanka, A., Torcello-Gómez, A., Jungnickel, C. and Maldonado-Valderrama, J. Bile salts in digestion and transport of lipids. Adv. Colloid Interface Sci., 274, 102045 (2019); DOI.
MacKnight, H.P. and 12 others The interaction of ceramide 1-phosphate with group IVA cytosolic phospholipase A2 coordinates acute wound healing and repair. Sci. Signal., 12, eaav5918 (2019); DOI.
Maekawa, M. and 20 others. Structural determination of lysosphingomyelin-509 and discovery of novel class lipids from patients with Niemann-Pick Disease Type C. Int. J. Mol. Sci., 20, 5018 (2019); DOI.
Magaye, R.R., Savira, F., Hua, Y., Kelly, D.J., Reid, C., Flynn, B., Liew, D. and Wang, B.H. The role of dihydrosphingolipids in disease. Cell. Mol. Life Sci., 76, 1107-1134 (2019); DOI.
Mangiarotti, A., Genovese, D.M., Naumann, C.A., Monti, M.R. and Wilke, N. Hopanoids, like sterols, modulate dynamics, compaction, phase segregation and permeability of membranes. Biochim. Biophys. Acta, Biomembranes, 1861, 183060 (2019); DOI.
Mano, J., Biswas, M.S. and Sugimoto, K. Reactive carbonyl species: a missing link in ROS signaling. Plants-Basel, 8, 391 (2019); DOI.
Mantle, D. and Hargreaves, I. Coenzyme Q10 and degenerative disorders affecting longevity: an overview. Antioxidants, 8, 44 (2019); DOI.
Manzo, E., Gallo, C., Sartorius, R., Nuzzo, G., Sardo, A., De Berardinis, P., Fontana, A. and Cutignano, A. Immunostimulatory phosphatidylmonogalactosyldiacylglycerols (PGDG) from the marine diatom Thalassiosira weissflogii: inspiration for a novel synthetic toll-like receptor 4 agonist. Marine Drugs, 17, 103 (2019); DOI.
Maraschina, F. dos Santos, Kulcheski, F.R., Segatto, A.L.A., Trenz, T.S., Barrientos-Diaz, O., Margis-Pinheiro, M., Margis, R. and Turchetto-Zolet, A.C. Enzymes of glycerol-3-phosphate pathway in triacylglycerol synthesis in plants: Function, biotechnological application and evolution. Prog. Lipid Res., 73, 46-64 (2019); DOI.
Marelli, M.M., Marzagalli, M., Fontana, F., Raimondi, M., Moretti, R.M. and Limonta, P. Anticancer properties of tocotrienols: A review of cellular mechanisms and molecular targets. J. Cell. Physiol., 234, 1147-1164 (2019); DOI.
Margaria, J.P., Ratto, E., Gozzelino, L., Li, H.Y. and Hirsch, E. Class II PI3Ks at the intersection between signal transduction and membrane trafficking. Biomolecules, 9, 104 (2019); DOI.
Mariani, M.E. and Fidelio, G. Secretory phospholipases A(2) in plants. Front. Plant Sci., 10, 861 (2019); DOI.
Martin-Sierra, C., Laranjeira, P., Domingues, M.R. and Paiva, A. Lipoxidation and cancer immunity. Redox Biol., 23, 101103 (2019); DOI.
Maseda, D., Ricciotti, E. and Crofford, L.J. Prostaglandin regulation of T cell biology. Pharmacol. Res., 149, 104456 (2019); DOI.
Martins, T.P., Rouger, C., Glasser, N.R., Freitas, S., de Fraissinette, N.B., Balskus, E.P., Tasdemir, D. and Leao, P.N. Chemistry, bioactivity and biosynthesis of cyanobacterial alkylresorcinols. Nat. Prod. Rep., 36, 1437-1461 (2019); DOI.
Massart, J. and Zierath, J.R. Role of diacylglycerol kinases in glucose and energy homeostasis. Trends Endocrinol. Metab., 30, 603-617 (2019); DOI.
Matsuo, N., Nagao, K., Suito, T., Juni, N., Kato, U., Hara, Y. and Umeda, M. Different mechanisms for selective transport of fatty acids using a single class of lipoprotein in Drosophila. J. Lipid Res., 60, 1199-1211 (2019); DOI.
Maurya, R.K., Bharti S. and Krishnan, M.Y. Triacylglycerols: fuelling the hibernating Mycobacterium tuberculosis. Front. Cell. Infect. Microbiol., 8, 450 (2019);; DOI.
Mecha, M., Yanguas-Casas, N., Feliu, A., Mestre, L., Carrillo-Salinas, F., Azcoitia, I., Yong, V.W. and Guaza, C. The endocannabinoid 2-AG enhances spontaneous remyelination by targeting microglia. Brain Behavior Immun., 77, 110-126 (2019); DOI.
Meech, R., Hu, D.G., McKinnon, R.A., Mubarokah, S.N., Haines, A.Z., Nair, P.C., Rowland, A. and Mackenzie, P.I . The UDP-glycosyltransferase (UGT) superfamily: new members, new functions, and novel paradigms. Physiol. Rev., 99, 1153-1222 (2019); DOI.
Megyeri, M., Prasad, R., Volpert, G., Sliwa-Gonzalez, A., Haribowo, A.G., Aguilera-Romero, A., Riezman, H., Barral, Y., Futerman, A.H. and Schuldiner, M. Yeast ceramide synthases, Lag1 and Lac1, have distinct substrate specificity. J. Cell Sci., 132, jcs228411 (2019); DOI.
Mehmood, A., Liu, G.R., Wang, X., Meng, G.N., Wang, C.T. and Liu, Y. Fungal quorum-sensing molecules and inhibitors with potential antifungal activity: a review. Molecules, 24, 950 (2019); DOI.
Menzel, R., von Chrzanowski, H., Tonat, T., van Riswyck, K., Schliesser, P. and Ruess, L. Presence or absence? Primary structure, regioselectivity and evolution of Delta 12/omega 3 fatty acid desaturases in nematodes. Biochim. Biophys. Acta, 1864, 1194-1205 (2019); DOI.
Metcalfe, L.K., Smith, G.C. and Turner, N. Defining lipid mediators of insulin resistance: controversies and challenges. J. Mol. Endocrin., 62, R65-R82 (2019); DOI.
Metherel, A.H. and Bazine, R.P. Updates to the n-3 polyunsaturated fatty acid biosynthesis pathway: DHA synthesis rates, tetracosahexaenoic acid and (minimal) retroconversion. Prog. Lipid Res., 76, 101008 (2019); DOI.
Metherel, A.H., Lacombe, R.J.S., Chouinard-Watkins, R. and Bazinet, R.P. Docosahexaenoic acid is both a product of and a precursor to tetracosahexaenoic acid in the rat. J. Lipid Res., 60, 412-420 (2019); DOI.
Meyer, N., Rettner, J., Werner, M., Werz, O. and Pohnert, G. Algal oxylipins mediate the resistance of diatoms against algicidal bacteria. Marine Drugs, 16, 486 (2018); DOI.
Mishra, M., Adhyapak, P., Dadhich, R. and Kapoor, S. Dynamic remodeling of the host cell membrane by virulent Mycobacterial sulfoglycolipid-1. Scientific Reports, 9, 12844 (2019); DOI.
Missaglia, S., Coleman, R.A., Mordente, A. and Tavian, D. Neutral lipid storage diseases as cellular model to study lipid droplet function. Cells, 8, 187 (2019); DOI.
Mitchell, J.A. and Kirkby, N.S Eicosanoids, prostacyclin and cyclooxygenase in the cardiovascular system. Brit. J. Pharm., 176, 1038-1050 (2019); DOI.
Miyamoto, J. and 17 others. Gut microbiota confers host resistance to obesity by metabolizing dietary polyunsaturated fatty acids. Nat. Commun. 10, 1–15 (2019); DOI.
Miyazawa, T., Burdeos, G.C., Itaya, M., Nakagawa, K. and Miyazawa, T. Vitamin E: regulatory redox interactions. IUBMB Life, 71, 430-441 (2019); DOI.
Monaim, S.A.H.A., Somboro, A.M., El-Faham, A., de la Torre, B.G. and Albericio, F. Bacteria hunt bacteria through an intriguing cyclic peptide. Chemmedchem, 14, 24-51 (2019); DOI.
Moon, S.H. and Huang, E. Novel linear lipopeptide paenipeptin C binds to lipopolysaccharides and lipoteichoic acid and exerts bactericidal activity by the disruption of cytoplasmic membrane. BMC Microbiol., 19, 6 (2019); DOI.
Moonen, M.P.B., Nascimento, E.B.M. and Lichtenbelt, W.D.V. Human brown adipose tissue: Underestimated target in metabolic disease? Biochim. Biophys. Acta, 1864, 104-112 (2019); DOI.
Montinari, M.R., Minelli, S. and De Caterin, R. The first 3500 years of aspirin history from its roots - A concise summary. Vasc. Pharm., 113, 1-8 (2019); DOI.
Morabito, C., Bournaud, C., Maës, C., Schuler, M., Cigliano, R.A., Dellero, Y., Maréchal, E., Amato, A. and Rébeillé, F. The lipid metabolism in thraustochytrids. Prog. Lipid Res., 76, 101007 (2019); DOI.
Morales, J.A., Gonzalez-Kantun, W.A., Rodriguez-Zapata, L.C., Ramon-Ugalde, J. and Castano, E. The effect of plant stress on phosphoinositides. Cell Biochem. Function, 37, 553-559 (2019); DOI.
Morales, M. and Munné-Bosch, S. Malondialdehyde: facts and artifacts. Plant Physiol., 180, 1246-1250 (2019); DOI.
Moreno, E., Cavic, M., Krivokuca, A., Casado, V. and Canela, E. The endocannabinoid system as a target in cancer diseases: are we there yet? Front. Pharm., 10, 339 (2019); DOI.
Moro, K., Nagahashi, M., Gabriel, E., Takabe, K. and Wakai, T. Clinical application of ceramide in cancer treatment. Breast Cancer, 26, 407-415 (2019); DOI.
Morotti, A.L.M., Martins-Teixeira, M.B. and Carvalho, I. Protozoan parasites glycosylphosphatidylinositol anchors: structures, functions and trends for drug discovery. Curr. Med. Chem., 26, 4301-4322 (2019); DOI.
Mouchlis, V.D. and Dennis, E.A. Phospholipase A(2) catalysis and lipid mediator lipidomics. Biochim. Biophys. Acta, 1864, 766-771 (2019); DOI.
Mouzat, K., Chudinova, A., Polge, A., Kantar, J., Camu, W., Raoul, C. and Lumbroso, S. Regulation of brain cholesterol: what role do liver X receptors play in neurodegenerative diseases? Int. J. Mol. Sci., 20, 3858 (2019); DOI.
Murakami, M. Novel functions of phospholipase A(2)s: Overview. Biochim. Biophys. Acta, 1864, 763-765 (2019); DOI.
Murakami, M., Miki, Y., Sato, H., Murase, R., Taketomi, Y. and Yamamoto, K. Group IID, IIE, IIF and III secreted phospholipase A(2)s. Biochim. Biophys. Acta, 1864, 803-818 (2019); DOI.
Murphy, R.C. and Folco, G. Lysophospholipid acyltransferases and leukotriene biosynthesis: intersection of the Lands cycle and the arachidonate PI cycle. J. Lipid Res., 60, 219-226 (2019); DOI.
Mustafiz, S.S.B., Uyama, T., Morito, K., Takahashi, N., Kawai, K., Hussain, Z., Tsuboi, K., Araki, N., Yamamoto, K., Tanaka, T. and Ueda, N. Intracellular Ca2+-dependent formation of N-acyl-phosphatidylethanolamines by human cytosolic phospholipase A(2)epsilon. Biochim. Biophys. Acta, 1864, 158515 (2019); DOI.
Nagao, K., Murakami, A. and Umeda, M. Structure and function of Delta 9-fatty acid desaturase. Chem. Pharm. Bull., 67, 327-332 (2019); DOI.
Nagaraju, G.P. and El-Rayes, B.F. Cyclooxygenase-2 in gastrointestinal malignancies. Cancer, 125, 1221-1227 (2019); DOI.
Nagatake, T. and Kunisawa, J. Emerging roles of metabolites of omega 3 and omega 6 essential fatty acids in the control of intestinal inflammation. Int. Immun., 31, 569-577 (2019); DOI.
Nakajima, S., Gotoh, M., Fukasawa, K., Murakami-Murofushi, K. and Kunugi, H. Oleic acid is a potent inducer for lipid droplet accumulation through its esterification to glycerol by diacylglycerol acyltransferase in primary cortical astrocytes. Brain Res., 1725, 146484 (2019); DOI.
Nanbo, A. and Kawaoka, Y. Molecular mechanism of externalization of phosphatidylserine on the surface of Ebola virus particles. DNA Cell Biol., 38, 115-120 (2019); DOI.
Nesman, J.I., Primdahl, K.G., Tungen, J.E., Palmas, F., Dalli, J. and Hansen, T.V. Synthesis, structural confirmation, and biosynthesis of 22-OH-PD1(n-3 DPA). Molecules, 24, 3228 (2019); DOI.
Nguyen, H.T., To, H.T.M., Lebrun, M., Bellafiore, S. and Champion, A. Jasmonates-the master regulator of rice development, adaptation and defense. Plants-Basel, 8, 339 (2019); DOI.
Nile, A.H. and Hannoush, R.N. Fatty acid recognition in the Frizzled receptor family. J. Biol. Chem., 294, 726-736 (2019); DOI.
Nilsson, A. and Duan, R.D. Pancreatic and mucosal enzymes in choline phospholipid digestion. Am. J. Physiol. Gastrointest. Liver Physiol., 316, G425-G445 (2019); DOI.
Nintemann, S.J., Palmgren, M. and Lopez-Marques, R.L. Catch you on the flip side: a critical review of flippase mutant phenotypes. Trends Plant. Sci., 24, 468-478 (2019); DOI.
Niu, M.Y. and Keller, N.P. Co-opting oxylipin signals in microbial disease. Cell. Microbiol., 21, e13025 (2019); DOI.
Nolin, J.D., Murphy, R.C., Gelb, M.H., Altemeier, W.A., Henderson, W.R. and Hallstrand, T.S. Function of secreted phospholipase A(2) group-X in asthma and allergic disease. Biochim. Biophys. Acta, 1864, 827-837 (2019); DOI.
O'Donnell, V.B., Aldrovandi, M., Murphy, R.C. and Krönke, G. Enzymatically oxidized phospholipids assume center stage as essential regulators of innate immunity and cell death. Sci. Signal., 12, eaau2293 (2019); DOI.
Obinata, H. and Hla, T. Sphingosine 1-phosphate and inflammation. Int. Immun., 31, 617-625 (2019); DOI.
Ohashi, Y., Tremel, S. and Williams, R.L. VPS34 complexes from a structural perspective. J. Lipid Res., 60, 229-241 (2019); DOI.
Olishevska, S., Nickzad, A. and Deziel, E. Bacillus and Paenibacillus secreted polyketides and peptides involved in controlling human and plant pathogens. Appl. Microbiol. Biotechn., 103, 1189-1215 (2019); DOI.
Oliw, E.H. and Hamberg, M. Biosynthesis of jasmonates from linoleic acid by the fungus Fusarium oxysporum. Evidence for a novel allene oxide cyclase. Lipids, 54, 543-556 (2019); DOI.
Olzmann, J.A. and Carvalho, P. Dynamics and functions of lipid droplets. Nature Rev. Mol. Cell Biol., 20, 137-155 (2019); DOI.
Orio, L., Alen, F., Pavon, F.J., Serrano, A. and Garcia-Bueno, B. Oleoylethanolamide, neuroinflammation, and alcohol abuse. Front. Mol. Neuroscience., 11, 490 (2019); DOI.
Paloque, L. and 16 others Polyunsaturated fatty acid metabolites: biosynthesis in Leishmania and role in parasite/host interaction. J. Lipid Res., 60, 636-647 (2019); DOI.
Panevska, A., Skočaj, M., Križaj, I., Maček, P. and Sepčić, K. Ceramide phosphoethanolamine, an enigmatic cellular membrane sphingolipid. Biochim. Biophys. Acta, Biomembranes, 1861, 1284-1292 (2019); DOI.
Pang, K.L. and Chin, K.Y. The role of tocotrienol in protecting against metabolic diseases. Molecules, 24, 923 (2019); DOI.
Paradies, G., Paradies, V., Ruggiero, F.M. and Petrosillo, G. Role of cardiolipin in mitochondrial function and dynamics in health and disease: molecular and pharmacological aspects. Cells, 8, 728 (2019); DOI.
Park, J.Y., Joo, H.J., Park, S. and Paik, Y.K. Ascaroside pheromones: chemical biology and pleiotropic neuronal functions. Int. J. Mol. Sci., 20, 3898 (2019); DOI.
Park, M.K. and Lee, C.H. Role of sphingosylphosphorylcholine in tumor and tumor microenvironment. Cancers, 11, 1696 (2019); DOI.
Parra, M.M.O., Elangovan, S. and Lee, C.T. Specialized pro-resolving lipid mediators in experimental periodontitis: A systematic review. Oral Diseases, 25, 1265-1276 (2019); DOI.
Parveen, F., Bender, D., Law, S.H., Mishra, V.K., Chen, C.C. and Ke, L.Y. Role of ceramidases in sphingolipid metabolism and human diseases. Cells, 8, 1573 (2019); DOI.
Patinen, T., Adinolfi, S., Cortes, C.C., Harkonen, J., Deen, A.J. and Levonen, A.L. Regulation of stress signaling pathways by protein lipoxidation. Redox Biol., 23, 101114 (2019); DOI.
Patrono, C. and Rocca, B. Measurement of thromboxane biosynthesis in health and disease. Front. Pharm., 10, 1244 (2019); DOI.
Paul, S., Lancaster, G.I. and Meikle, P.J. Plasmalogens: A potential therapeutic target for neurodegenerative and cardiometabolic disease. Prog. Lipid Res., 74, 186-195 (2019); DOI.
Pavlovic, A. and Mithöfer, A. Jasmonate signalling in carnivorous plants: copycat of plant defence mechanisms. J. Exp. Botany, 70, 3379-3389 (2019); DOI.
Peebles, R.S. Prostaglandins in asthma and allergic diseases. Pharmacol. Therapeut., 193, 1-19 (2019); DOI.
Peixoto de Barcelos, I. and Haas, R.H. CoQ10 and aging. Biology, 8, 28 (2019); DOI.
Pena-Bautista, C., Vento, M., Baquero, M. and Chafer-Pericas, C. Lipid peroxidation in neurodegeneration. Clin. Chim. Acta, 497, 178-188 (2019); DOI.
Pennington, E.R., Funai, K., Brown, D.A. and Shaikh, S.R. The role of cardiolipin concentration and acyl chain composition on mitochondrial inner membrane molecular organization and function. Biochim. Biophys. Acta, 1864, 1039-1052 (2019); DOI.
Pernet, E., Downey, J., Vinh, D.C., Powell, W.S. and Divangahi, M. Leukotriene B4-type I interferon axis regulates macrophage-mediated disease tolerance to influenza infection. Nature Microbiol., 4, 1389-1400 (2019); DOI.
Petrov, A.M. and Pikuleva, I.A. Cholesterol 24-hydroxylation by CYP46A1: benefits of modulation for brain diseases. Neurotherapeutics, 16, 635-648 (2019); DOI.
Phan, T.K., Williams, S.A., Bindra, G.K., Lay, F.T., Poon, I.K.H. and Hulett, M.D. Phosphoinositides: multipurpose cellular lipids with emerging roles in cell death. Cell Death Differ., 26, 781-793 (2019); DOI.
Philippe, J.M. and Jenkins, P.M. Spatial organization of palmitoyl acyl transferases governs substrate localization and function. Mol. Membrane Biol., 35, 60-75 (2019); DOI.
Piccinin, E., Cariello, M., De Santis, S., Ducheix, S., Sabba, C., Ntambi, J.M. and Moschetta, A. Role of oleic acid in the gut-liver axis: from diet to the regulation of its synthesis via stearoyl-CoA desaturase 1 (SCD1). Nutrients, 11, 2283 (2019); DOI.
Pizzuto, M., Lonez, C., Baroja-Mazo, A., Martinez-Banaclocha, H., Tourlomousis, P., Gangloff, M., Pelegrin, P., Ruysschaert, J.M., Gay, N.J. and Bryant, C.E. Saturation of acyl chains converts cardiolipin from an antagonist to an activator of Toll-like receptor-4. Cell. Mol. Life Sci., 76, 3667-3678 (2019); DOI.
Plat, J. and 19 others. Plant-based sterols and stanols in health and disease: 'Consequences of human development in a plant-based environment?' Prog. Lipid Res., 74, 87-102 (2019); DOI.
Plotegher, N., Bubacco, L., Greggio, E. and Civiero, L. Ceramides in Parkinson's disease: from recent evidence to new hypotheses. Front. Neurosci., 13, 330 (2019); DOI.
Pohl, E.E. and Jovanovic, O. The role of phosphatidylethanolamine adducts in modification of the activity of membrane proteins under oxidative stress. Molecules, 24, 4545 (2019); DOI.
Poli, A., Zaurito, A.E., Abdul-Hamid, S., Fiume, R., Faenza, I. and Divecha, N. Phosphatidylinositol 5-phosphate (PI5P): from behind the scenes to the front (nuclear) stage. Int. J. Mol. Sci., 20, 2080 (2019); DOI.
Prentice, K.J., Saksi, J. and Hotamisligil, G.S. Adipokine FABP4 integrates energy stores and counterregulatory metabolic responses. J. Lipid Res., 60, 734-740 (2019); DOI.
Prospero-Garcia, O., Contreras, A.E.R., Gomez, A.O., Herrera-Solis, A. and Mendez-Diaz, M. Endocannabinoids as therapeutic targets. Arch. Med. Res., 50, 518-526 (2019); DOI.
Pujol-Lereis, L.M. Alteration of sphingolipids in biofluids: implications for neurodegenerative diseases. Int. J. Mol. Sci., 20, 3564 (2019); DOI.
Qu, J., Ko, C.W., Tso, P. and Bhargava, A. Apolipoprotein A-IV: a multifunctional protein involved in protection against atherosclerosis and diabetes. Cells, 8, 319 (2019); DOI.
Raghu, P., Joseph, A., Krishnan, H., Singh, P. and Saha, S. Phosphoinositides: regulators of nervous system function in health and disease. Front. Mol. Neurosci., 12, 208 (2019); DOI.
Rahman, M.S. Prostacyclin: A major prostaglandin in the regulation of adipose tissue development. J. Cell. Physiol., 234, 3254-3262 (2019); DOI.
Rahman, S.O., Singh, R.K., Hussain, S., Akhtar, M. and Najmi, A.K. A novel therapeutic potential of cysteinyl leukotrienes and their receptors modulation in the neurological complications associated with Alzheimer's disease. Eur. J. Pharm., 842, 208-220 (2019); DOI.
Ramer, R., Schwarz, R. and Hinz, B. Modulation of the endocannabinoid system as a potential anticancer strategy. Front. Pharm., 10, 430 (2019); DOI.
Ramos, A.R., Ghosh, S. and Erneux, C. The impact of phosphoinositide 5-phosphatases on phosphoinositides in cell function and human disease. J. Lipid Res., 60, 276-286 (2019); DOI.
Ray, R., Li, D.P., Halitschke, R. and Baldwin, I.T. Using natural variation to achieve a whole-plant functional understanding of the responses mediated by jasmonate signaling. Plant J., 99, 414-425 (2019); DOI.
Reboul, E. Vitamin E intestinal absorption: Regulation of membrane transport across the enterocyte. IUBMB Life, 71, 416-423 (2019); DOI.
Recchiuti, A., Mattoscio, D. and Isopi, E. Roles, actions, and therapeutic potential of specialized pro-resolving lipid mediators for the treatment of inflammation in cystic fibrosis. Front. Pharm., 10, 252 (2019); DOI.
Régnier, M., Polizzi, A., Guillou, H. and Loiseau, N. Sphingolipid metabolism in non-alcoholic fatty liver diseases. Biochimie, 159, 9-22 (2019); DOI.
Reinartz, S., Lieber, S., Pesek, J., Brandt, D.T., Asafova, A., Finkernagel, F., Watzer, B., Nockher, W.A., Nist, A., Stiewe, T., Jansen, J.M., Wagner, U., Konzer, A., Graumann, J., Grosse, R., Worzfeld, T., Muller-Brusselbach, S. and Muller, R. Cell type-selective pathways and clinical associations of lysophosphatidic acid biosynthesis and signaling in the ovarian cancer microenvironment. Mol. Oncol., 13, 185-201 (2019); DOI.
Resemann, HC., Lewandowska, M., Gomann, J. and Feussner, I. Membrane lipids, waxes and oxylipins in the moss model organism Physcomitrella patens. Plant Cell Physiol., 60, 1166-1175 (2019); DOI.
Reue, K. and Wang, H. Mammalian lipin phosphatidic acid phosphatases in lipid synthesis and beyond: metabolic and inflammatory disorders. J. Lipid Res., 60, 728-733 (2019); DOI.
Riley, R.T. and Merrill, A.H. Ceramide synthase inhibition by fumonisins: a perfect storm of perturbed sphingolipid metabolism, signaling, and disease. J. Lipid Res., 60, 1183-1189 (2019); DOI.
Rioux, V. and Legrand, P. Fatty acid desaturase 3 (FADS3) is a specific increment 13-desaturase of ruminant trans-vaccenic acid. Lifestyle Genomics, 12, 18-24 (2019); DOI.
Rivas, L. and Rojas, V. Cyanobacterial peptides as a tour de force in the chemical space of antiparasitic agents. Arch. Biochem. Biophys., 664, 24-39 (2019); DOI.
Rodriguez, J.P., Guijas, C., Astudillo, A.M., Rubio, J.M., Balboa, M.A. and Balsinde, J. Sequestration of 9-hydroxystearic acid in FAHFA (Fatty Acid Esters of Hydroxy Fatty Acids) as a protective mechanism for colon carcinoma cells to avoid apoptotic cell death. Cancers, 11, 524 (2019); DOI.
Roelands, J., Garand, M., Hinchcliff, E., Ma, Y., Shah, P., Toufiq, M., Alfaki, M., Hendrickx, W., Boughorbel, S., Rinchai, D., Jazaeri, A., Bedognetti, D. and Chaussabel, D. Long-chain acyl-CoA synthetase 1 role in sepsis and immunity: perspectives from a parallel review of public transcriptome datasets and of the literature. Front. Immun., 10, 2410 (2019); DOI.
Roland, B.P., Naito, T., Best, J.T., Arnaiz-Yépez, C., Takatsu, H., Yu, R.J., Shin, H.-W. and Graham, T.R. Yeast and human P4-ATPases transport glycosphingolipids using conserved structural motifs. J. Biol. Chem., 294, 1794-1806 (2019); DOI.
Rolando, M. and Buchrieser, C. A comprehensive review on the manipulation of the sphingolipid pathway by pathogenic bacteria. Front. Cell Develop. Biol., 7, 168 (2019); DOI.
Rom, O., Xu, G., Guo, Y.H., Zhu, Y.H., Wang, H.L., Zhang, J.F., Fan, Y.B., Liang, W.Y., Lu, H.C., Liu, Y.H., Aviram, M., Liu, Z.P., Kim, S., Liu, W.Q., Wang, X.D., Chen, Y.E. and Villacorta, L. Nitro-fatty acids protect against steatosis and fibrosis during development of nonalcoholic fatty liver disease in mice. Ebiomedicine, 41, 62-72 (2019); DOI.
Romano, M., Patruno, S., Pomilio, A. and Recchiuti, A. Proresolving lipid mediators and receptors in stem cell biology: concise review. Stem Cells Transl. Med., 8, 992-998 (2019); DOI.
Routledge, D. and Scholpp, S. Mechanisms of intercellular Wnt transport. Development, 146, dev176073 (2019); DOI.
Ruan, J.J., Zhou, Y.X., Zhou, M.L., Yan, J., Khurshid, M., Weng, W.F., Cheng, J.P. and Zhang, K.X. Jasmonic acid signaling pathway in plants. Int. J. Mol. Sci., 20, 2479 (2019); DOI.
Saba, J.D. Fifty years of lyase and a moment of truth: sphingosine phosphate lyase from discovery to disease. J. Lipid Res., 60, 456-463 (2019); DOI.
Sadiq, M., Akram, N.A., Ashraf, M., Al-Qurainy, F. and Ahmad, P. Alpha-tocopherol-induced regulation of growth and metabolism in plants under non-stress and stress conditions. J. Plant Growth Reg., 38, 1325-1340 (2019); DOI.
Safieh, M., Korczyn, AD. and Michaelson, D.M. ApoE4: an emerging therapeutic target for Alzheimer's disease. BMC Med., 17, 64 (2019); DOI.
Sahu, S.K., Hannun, Y.A. and Yao, N. Emergence of membrane sphingolipids as a potential therapeutic target. Biochimie, 158, 257-264 (2019); DOI.
Saint-Pol, J. and Gosselet, F. Oxysterols and the NeuroVascular Unit (NVU): A far true love with bright and dark sides. J. Steroid Biochem. Mol. Biol., 191, 105368 (2019); DOI.
Salo, V.T. and Ikonen, E. Moving out but keeping in touch: contacts between endoplasmic reticulum and lipid droplets. Curr. Opinion Cell. Biol., 57, 64-70 (2019); DOI.
Salvador-Castell, M., Tourte, M. and Oger, P.M. In search for the membrane regulators of archaea. Int. J. Mol. Sci., 20, 4434 (2019); DOI.
Samaha, D., Hamdo, H.H., Wilde, M., Prause, K. and Arenz, C. Sphingolipid-transporting proteins as cancer therapeutic targets. Int. J. Mol. Sci., 20, 3554 (2019); DOI.
Samuchiwal, S.K. and Balestrieri, B. Harmful and protective roles of group V phospholipase A(2): Current perspectives and future directions. Biochim. Biophys. Acta, 1864, 819-826 (2019); DOI.
Sarkar, H. and Moosajee, M. Retinol dehydrogenase 12 (RDH12): Role in vision, retinal disease and future perspectives. Exp. Eye Res., 188, 107793 (2019); DOI.
Sasaki, F. and Yokomizo, T. The leukotriene receptors as therapeutic targets of inflammatory disease. Int. Immun., 31, 607-615 (2019); DOI.
Sasaki, N. and Toyoda, M. Vascular diseases and gangliosides. Int. J. Mol. Sci., 20, 6362 (2019); DOI.
Sausville, L.N., Williams, S.M. and Pozzi, A. Cytochrome P450 epoxygenases and cancer: A genetic and a molecular perspective. Pharmacol. Therapeut., 196, 183-194 (2019); DOI.
Schlievert, P.M., Kilgore, S.H., Seo, K.S. and Leung, D.Y.M. Glycerol monolaurate contributes to the antimicrobial and anti-inflammatory activity of human milk. Sci. Rep., 9, 14550 (2019); DOI.
Shilovsky, G.A., Putyatina, T.S., Ashapkin, VV., Yamskova, O.V., Lyubetsky, V.A., Sorokina, E.V., Shram, S.I., Markov, A.V. and Vyssokikh, M.Y. Biological diversity and remodeling of cardiolipin in oxidative stress and age-related pathologies. Biochemistry (Moscow), 84, 1469-1483 (2019); DOI.
Shlomovitz, I., Speir, M. and Gerlic, M. Flipping the dogma - phosphatidylserine in non-apoptotic cell death. Cell Commun. Signal., 17, 139 (2019); DOI.
Schoeler, M. and Caesar, R. Dietary lipids, gut microbiota and lipid metabolism. Rev. Endocrine Metab. Disorders, 1-12 (2019); DOI.
Schopfer, F.J. and Khoo, N.K.H. Nitro-fatty acid logistics: formation, biodistribution, signaling, and pharmacology. Trends Endocrinol. Metab., 30, 505-519 (2019); DOI.
Schreiber, R., Xie, H. and Schweiger, M. Of mice and men: The physiological role of adipose triglyceride lipase (ATGL). Biochim. Biophys. Acta, 1864, 880-899 (2019); DOI.
Seifar, F., Khalili, M., Khaledyan, H., Moghadam, S.A., Izadi, A., Azimi, A. and Shakouri, S.K. alpha-Lipoic acid, functional fatty acid, as a novel therapeutic alternative for central nervous system diseases. Nutr. Neurosci., 22, 306-316 (2019); DOI.
Shadyro, O. and Lisovskaya, A. ROS-induced lipid transformations without oxygen participation. Chem. Phys. Lipids, 221, 176-183 (2019); DOI.
Shaheenuzzamn, M., Liu, T.X., Shi, S.D., Wu, H.Q. and Wang, Z.H. Research advances on cuticular waxes biosynthesis in crops: a review. Int. J. Agric. Biol., 21, 911-921 (2019); DOI.
Shahoei, S.H. and Nelson, E.R. Nuclear receptors, cholesterol homeostasis and the immune system. J. Steroid Biochem. Mol. Biol., 191, 105364 (2019); DOI.
Shajari, S., Saeed, A., Smith-Cortinez, N.F., Heegsma, J., Sydor, S. and Faber, K.N. Hormone-sensitive lipase is a retinyl ester hydrolase in human and rat quiescent hepatic stellate cells. Biochim. Biophys. Acta, 1864, 1258-1267 (2019); DOI.
Sharma, B. and Agnihotri, N. Role of cholesterol homeostasis and its efflux pathways in cancer progression. J. Steroid Biochem. Mol. Biol., 191, 105377 (2019); DOI.
Shayman, J.A. and Tesmer, J.J.G. Lysosomal phospholipase A2. Biochim. Biophys. Acta, 1864, 932-940 (2019); DOI.
Shekhar, S., Varghese, K., Li, M., Fan, L., Booz, G.W., Roman, R.J. and Fan, F. Conflicting roles of 20-HETE in hypertension and stroke. Int. J. Mol. Sci., 20, 4500 (2019); DOI.
Shidoji, Y. and Tabata, Y. Unequivocal evidence for endogenous geranylgeranoic acid biosynthesized from mevalonate in mammalian cells. J. Lipid Res., 60, 579-593 (2019); DOI.
Shin, M., Ware, T.B., Lee, H.C. and Hsu, K.L. Lipid-metabolizing serine hydrolases in the mammalian central nervous system: endocannabinoids and beyond. Biochim. Biophys. Acta, 1864, 907-921 (2019); DOI.
Shishikura, K., Kuroha, S., Matsueda, S., Iseki, H., Matsui, T., Inoue, A. and Arita, M. Acyl-CoA synthetase 6 regulates long-chain polyunsaturated fatty acid composition of membrane phospholipids in spermatids and supports normal spermatogenic processes in mice. FASEB J., 33, 14194-14203 (2019); DOI.
Shoieb, S.M., El-Sherbeni, A.A. and El-Kadi, A.O.S. Subterminal hydroxyeicosatetraenoic acids: Crucial lipid mediators in normal physiology and disease states. Chemico-Biol. Interactions, 299, 140-150 (2019); DOI.
Shrivastava R. and Chng, S.-S. Lipid trafficking across the Gram-negative cell envelope. J. Biol. Chem., 294,14175-14184 (2019); DOI.
Sidhu, R., Mondjinou, Y., and 15 others. N-acyl-O-phosphocholineserines: structures of a novel class of lipids that are biomarkers for Niemann-Pick C1 disease. J. Lipid Res., 60, 1410-1424 (2019); DOI.
Simon, M.V., Spalm, F.H.P., Vera, M.S. and Rotstein, N.P. Sphingolipids as emerging mediators in retina degeneration. Front. Cell. Neurosci., 13, 246 (2019); DOI.
Singh, N.K. and Rao, G.N. Emerging role of 12/15-Lipoxygenase (ALOX15) in human pathologies. Prog. Lipid Res., 73, 28-45 (2019); DOI.
Skotland, T. and Sandvig, K. The role of PS 18:0/18:1 in membrane function. Nature Commun., 10, 2752 (2019); DOI.
Skotland, T., Hessvik, N.P., Sandvig, K. and Llorente, A. Exosomal lipid composition and the role of ether lipids and phosphoinositides in exosome biology. J. Lipid Res., 60, 9-18 (2019); DOI.
Smith, A.F., Rihtman, B., Stirrup, R., Silvano, E., Mausz, M.A., Scanlan, D.J. and Chen, Y. Elucidation of glutamine lipid biosynthesis in marine bacteria reveals its importance under phosphorus deplete growth in Rhodobacteraceae. ISME J., 13, 39-49 (2019); DOI.
Smith, D.G., Martinelli, R., Besra, G.S., Illarionov, P.A., Szatmari, I., Brazda, P., Allen, M.A., Xu, W., Wang, X., Nagy, L., Dowell, R.D., Rook, G.A.W., Brunet, L.R. and Lowry, C.A. Identification and characterization of a novel anti-inflammatory lipid isolated from Mycobacterium vaccae, a soil-derived bacterium with immunoregulatory and stress resilience properties. Psychopharmacology, 236, 1653-1670 (2019); DOI.
Snodgrass, R.G. and Bruene, B. Regulation and functions of 15-lipoxygenases in human macrophages. Front. Pharm., 10, 719 (2019); DOI.
Sokolov, S.S., Trushina, N.I., Severin, F.F. and Knorre, D.A. Ergosterol turnover in yeast: an interplay between biosynthesis and transport. Biochemistry (Moscow), 84, 346-357 (2019); DOI.
Sokolowska, E. and Blachnio-Zabielska, A. The role of ceramides in insulin resistance. Front. Endocrin., 10, 577 (2019); DOI.
Sonowal, H. and Ramana, K.V. 4-Hydroxy-trans-2-nonenal in the regulation of anti-oxidative and pro-inflammatory signaling pathways. Oxid. Med. Cell. Longevity, 5937326 (2019); DOI.
Soupene, E. and Kuypers, F.A. ACBD6 protein controls acyl chain availability and specificity of the N-myristoylation modification of proteins. J. Lipid Res., 60, 624-635 (2019); DOI.
Spector, A.A. and Kim, H.-Y. Emergence of omega-3 fatty acids in biomedical research. Prostaglandins Leukotrienes Essential Fatty Acids, 140, 47-50 (2019); DOI.
Sperandeo, P., Martorana, A.M. and Polissi, A. The Lpt ABC transporter for lipopolysaccharide export to the cell surface. Res. Microbiol., 170, 366-373 (2019); DOI.
Sperandeo, P., Polissi, A. and De Fabiani, E. Fat matters for bugs: how lipids and lipid modifications make the difference in bacterial life. Eur. J. Lipid Sci. Technol., 121, 1900204 (2019); DOI.
Spiegel, S., Maczis, M.A., Maceyka, M. and Milstien, S. New insights into functions of the sphingosine-1-phosphate transporter SPNS2. J. Lipid Res., 60, 484-489 (2019); DOI.
Ståhle, J. and Widmalm, G. Lipopolysaccharides of Gram-negative bacteria: biosynthesis and structural aspects. Trends Glycosci. Glycotechnol., 31, E159-E171 (2019); DOI.
Staiano, L. and De Matteis, M.A. Phosphoinositides in the kidney. J. Lipid Res., 60, 287-298 (2019); DOI.
Stankeviciute, G., Ziqiang, G., Goldfine, H. and Klein, E.A. Caulobacter crescentus adapts to phosphate starvation by synthesizing anionic glycoglycerolipids and a novel glycosphingolipid. MBio 10, e00107-e00119 (2019); DOI.
Stamenkovic, A., Pierce, G.N. and Ravandi, A. Phospholipid oxidation products in ferroptotic myocardial cell death. Am. J. Physiol., Heart Circ. Physiol., 317, H156-H163 (2019); DOI.
Stanley, D. and Kim, Y. Prostaglandins and other eicosanoids in insects: biosynthesis and biological actions. Front. Physiol., 9, 1927 (2019); DOI.
Steensels, S. and Ersoy, B.A. Fatty acid activation in thermogenic adipose tissue. Biochim. Biophys. Acta, 1864, 79-90 (2019); DOI.
Stith, J.L., Velazquez, F.N. and Obeid, L.M. Advances in determining signaling mechanisms of ceramide and role in disease. J. Lipid Res., 60, 913-918 (2019); DOI.
Su, L.J., Zhang, J.H., Gomez, H., Murugan, R., Hong, X., Xu, D.X., Jiang, F. and Peng, Z.Y. Reactive oxygen species-induced lipid peroxidation in apoptosis, autophagy, and ferroptosis. Oxid. Med. Cell. Longevity, 5080843 (2019); DOI.
Su, X.Q., Wang, J.M. and Sinclair, A.J. Plasmalogens and Alzheimer's disease: a review. Lipids Health Disease, 18, 100 (2019); DOI.
Suárez-Rivero, J.M., Pastor-Maldonado, C.J., de la Mata, M., Villanueva-Paz, M., Povea-Cabello, S., Alvarez-Cordoba, M., Villalon-Garcia, I., Suarez-Carrillo, A., Talaveron-Rey, M., Munuera, M. and Sanchez-Alcazar, J.A. Atherosclerosis and coenzyme Q(10). Int. J. Mol. Sci., 20, 5195 (2019); DOI.
Summers, S.A., Chaurasia, B. and Holland, W.L. Metabolic messengers: ceramides. Nature Metab., 1, 1051-1058 (2019); DOI.
Sweeney, R.P. and Lowary, T.L. New insights into lipopolysaccharide assembly and export. Curr. Opinion Chem. Biol., 53, 37-43 (2019); DOI.
Sun, Q.Y., Zhou, H.H. and Mao, X.Y. Emerging roles of 5-lipoxygenase phosphorylation in inflammation and cell death. Oxid. Med. Cell. Longevity, (2019); DOI.
Takac, T., Novak, D. and Samaj, J. Recent advances in the cellular and developmental biology of phospholipases in plants. Front. Plant Sci., 10, 362 (2019); DOI.
Tan, D., Ertunc, M.E., Konduri, S., Zhang, J., Pinto, A.M., Chu, Q., Kahn, B.B., Siegel D. and Saghatelian, A. Discovery of FAHFA-containing triacylglycerols and their metabolic regulation. J. Am. Chem. Soc., 141, 8798-8806 (2019); DOI.
Tanguy, E., Wang, Q.L., Moine, H. and Vitale, N. Phosphatidic acid: from pleiotropic functions to neuronal pathology. Front. Cell. Neurosci., 13, 2 (2019); DOI.
Tarkowska, D. Plants are capable of synthesizing animal steroid hormones. Molecules, 24, 2585 (2019); DOI.
Thompson, M.D. and Cooney, R.V. The potential physiological role of gamma-tocopherol in human health: a qualitative review. Nutr. Cancer, 72, 808-825 (2019); DOI.
Tomonaga, N., Tsuduki, T., Manabe, Y. and Sugawara, T. Sphingoid bases of dietary ceramide 2-aminoethylphosphonate, a marine sphingolipid, absorb into lymph in rats. J. Lipid Res., 60, 333-340 (2019); DOI.
Torres, J.P. and Schmidt, E.W. The biosynthetic diversity of the animal world. J. Biol. Chem., 294, 17684-17692 (2019); DOI.
Torres, V.I., Godoy, J.A. and Inestrosa, N.C. Modulating Wnt signaling at the root: Porcupine and Wnt acylation. Pharmacol. Therapeut., 198, 34-45 (2019); DOI.
Tracz-Gaszewska, Z. and Dobrzyn, P. Stearoyl-CoA desaturase 1 as a therapeutic target for the treatment of cancer. Cancers, 11, 948 (2019); DOI.
Tran, T., Bonham, A.J., Chan, E.D. and Honda, J.R. A paucity of knowledge regarding nontuberculous mycobacterial lipids compared to the tubercle bacillus. Tuberculosis, 115, 96-107 (2019); DOI.
Trostchansky, A., Moore-Carrasco, R. and Fuentes, E. Oxidative pathways of arachidonic acid as targets for regulation of platelet activation. Prostaglandins Other Lipid Mediators, 145, 106382 (2019); DOI.
Tsubone, T.M., Baptista, M.S. and Itri, R. Understanding membrane remodelling initiated by photosensitized lipid oxidation. Biophys. Chem., 254, 106263 (2019);

Tsuge, K., Inazumi, T., Shimamoto, A. and Sugimoto, Y. Molecular mechanisms underlying prostaglandin E-2-exacerbated inflammation and immune diseases. Int. Immun., 31, 597-606 (2019); DOI.
Tsui, H.S., Pham, N.V.B., Amer, B.R., Bradley, M.C., Gosschalk, J.E., Gallagher-Jones, M., Ibarra, H., Clubb, R.T., Blaby-Haas, C.E. and Clarke, C.F. Human COQ10A and COQ10B are distinct lipid-binding START domain proteins required for coenzyme Q function. J. Lipid Res., 60, 1293-1310 (2019); DOI.
Tuladhar, R., Yarravarapu, N., Ma, Y., Zhang, C., Herbert, J., Kim, J., Chen, C. and and Lum, L. Stereoselective fatty acylation is essential for the release of lipidated WNT proteins from the acyltransferase Porcupine (PORCN). J. Biol. Chem., 294, 6273-6282 (2019); DOI.
Tunctan, B., Senol, S.P., Temiz-Resitoglu, M., Guden, D.S., Sahan-Firat, S., Falck, J.R. and Malik, K.U. Eicosanoids derived from cytochrome P450 pathway of arachidonic acid and inflammatory shock. Prostaglandins Other Lipid Mediators, 145, 106377 (2019); DOI.
Turk, J., White, T.D., Nelson, A.J., Lei, X.Y. and Ramanadham, S. iPLA(2)beta( ) and its role in male fertility, neurological disorders, metabolic disorders, and inflammation. Biochim. Biophys. Acta, 1864, 846-860 (2019); DOI.
Tutunchi, H., Ostadrahimi, A., Saghafi-Asl, M. and Maleki, V. The effects of oleoylethanolamide, an endogenous PPAR-alpha agonist, on risk factors for NAFLD: A systematic review. Obesity Rev., 20, 1057-1069 (2019); DOI.
Tyurina, Y.Y., Tyurin, V.A., Anthonymuthu, T., Amoscato, A.A., Sparvero, L.J., Nesterova, A.M., Baynard, M.L., Sun, W., Hei, R., Khaitovich, P., Vladimirov, Y.A., Gabrilovich, D.I., Bayir, H. and Kagan, V.E. Redox lipidomics technology: Looking for a needle in a haystack. Chem. Physics Lipids, 221, 93-107 (2019); DOI.
Tzeng, H.T., Chyuan, I.T. and Chen, W.Y. Shaping of innate immune response by fatty acid metabolite palmitate. Cells, 8, 1633 (2019); DOI.
Vaara, M. Polymyxin derivatives that sensitize Gram-negative bacteria to other antibiotics. Molecules, 24, 249 (2019); DOI.
Valenzuela, C.A., Baker, E.J., Miles, E.A. and Calder, P.C. Eighteen?carbon trans fatty acids and inflammation in the context of atherosclerosis. Prog. Lipid Res., 76, 101009 (2019); DOI.
van de Peppel, I.P., Bertolini, A., van Dijk, T.H., Groen, A.K., Jonker, J.W. and Verkade, H.J. Efficient reabsorption of transintestinally excreted cholesterol is a strong determinant for cholesterol disposal in mice. J. Lipid Res., 60, 1562-1572 (2019); DOI.
van Erp, H., Bryant, F.M., Martin-Moreno, J., Michaelson, L.V., Bhutada, G. and Eastmond, P.J. Engineering the stereoisomeric structure of seed oil to mimic human milk fat. PNAS, 116, 20947-20952 (2019); DOI.
van Maldegem, L.M., and 18 others. Bisnorgammacerane traces predatory pressure and the persistent rise of algal ecosystems after Snowball Earth. Nature Commun., 10, 476 (2019); DOI.
Vieyres, G. and Pietschmann, T. HCV pit stop at the lipid droplet: refuel lipids and put on a lipoprotein coat before exit. Cells, 8, 233 (2019); DOI.
Voelker, D.R. and Numata, M. Phospholipid regulation of innate immunity and respiratory viral infection. J. Biol. Chem., 294, 4282-4289 (2019); DOI.
von Gerichten, J., Lamprecht, D., Opálka, L., Soulard, D., Marsching, C., Pilz, R., Sencio, V., Herzer, S., Galy, B., Nordström, V., Hopf, C., Gröne, H.-J., Trottein, F. and Sandhoff, R. Bacterial immunogenic α-galactosylceramide identified in the murine large intestine: dependency on diet and inflammation. J. Lipid Res., 60, 1892-1904 (2019); DOI.
Wallace, J.L. Eicosanoids in the gastrointestinal tract. Brit. J. Pharm., 176, 1000-1008 (2019); DOI.
Wang, B. and Tontonoz, P. Phospholipid remodeling in physiology and disease. Annu. Rev. Physiol., 81, 165-188 (2019); DOI.
Wang, H., Ma, Q., Qi, Y., Dong, J., Du, X., Rae, J., Wang, J., Wu, W.-F., Brown, A.J., Parton, R.G., Wu, J.-W. and Yang, H. ORP2 delivers cholesterol to the plasma membrane in exchange for phosphatidylinositol 4,5-bisphosphate (PI(4,5)P2). Mol. Cell, 73, 458-473.e7 (2019); DOI.
Wang, J.C. and Li, Y.S. CD36 tango in cancer: signaling pathways and functions. Theranostics, 9, 4893-4908 (2019); DOI.
Wang, J.J., Wu, D.W., Wang, Y.P. and Xie, D.X. Jasmonate action in plant defense against insects. J. Exp. Botany, 70, 3391-3400 (2019); DOI.
Wang, K., Durrett, T.P. and Benning, C. Functional diversity of glycerolipid acylhydrolases in plant metabolism and physiology. Prog. Lipid Res., 75, 100987 (2019); DOI.
Wang, P., Yuan, Y.H., Lin, W.D., Zhong, H.S., Xu, K. and Qi, X. Roles of sphingosine-1-phosphate signaling in cancer. Cancer Cell Int., 19, 295 (2019); DOI.
Wang, Y., Hirata, T., Maeda, Y., Murakami, Y., Fujita, M. and Kinoshita, T. Free, unlinked glycosylphosphatidylinositols on mammalian cell surfaces revisited. J. Biol. Chem., 294, 5038-5049 (2019); DOI.
Wang, Z., Wang, D.H., Park, H.G., Yan, Y.Y., Goykhman, Y., Lawrence, P., Kothapalli, K.S.D. and Brenna, J.T. Identification of genes mediating branched chain fatty acid elongation. FEBS Letts, 593, 1807-1817 (2019); DOI.
Watson, J.E., Kim, J.S. and Das, A. Emerging class of omega-3 fatty acid endocannabinoids and their derivatives. Prostaglandins Other Lipid Mediators, 143, 10633 (2019); DOI.
Waugh, M.G. The Great Escape: how phosphatidylinositol 4-kinases and PI4P promote vesicle exit from the Golgi (and drive cancer). Biochem. J., 476, 2321-2346 (2019); DOI.
Wepy, J.A., Galligan, J.J., Kingsley, P.J., Xu, S., Goodman, M.C., Tallman, K.A., Rouzer, C.A. and Marnett, L.J. Lysophospholipases cooperate to mediate lipid homeostasis and lysophospholipid signaling. J. Lipid Res., 60, 360-374 (2019); DOI.
Willinger, T. Oxysterols in intestinal immunity and inflammation. J. Int. Med., 285, 367-380 (2019); DOI.
Wilson, D.P., Jacobson, T.A., Jones, P.H., Koschinsky, M.L., McNeal, C.J., Nordestgaard, B.G. and Orringer, C.E. Use of Lipoprotein(a) in clinical practice: A biomarker whose time has come. A scientific statement from the National Lipid Association. J. Clin. Lipidol., 13, 374-392 (2019); DOI.
Wolf, J.J., Studstill, C.J. and Hahm, B. Emerging connections of S1P-metabolizing enzymes with host defense and immunity during virus infections. Viruses-Basel, 11, 1097 (2019); DOI.
Wong, L.H., , Gatta, A.T. and Levine, T.P. Lipid transfer proteins: the lipid commute via shuttles, bridges and tubes Nature Rev. Mol. Cell Biol., 20, 85-101 (2019); DOI.
Wu, X., Ma, Y., Su, N., Shen, J., Zhang, H. and Wang, H. Lysophosphatidic acid: Its role in bone cell biology and potential for use in bone regeneration. Prostaglandins Other Lipid Mediators, 143, 106335 (2019); DOI.
Xiong, X.H., Lee, C.F., Li, W.J., Yu, J.K., Zhu, L.Y., Kim, Y., Zhang, H. and Sun, H. Acid Sphingomyelinase regulates the localization and trafficking of palmitoylated proteins. Biology Open, 8, 8 (2019); DOI.
Xu, Y. Targeting lysophosphatidic acid in cancer: the issues in moving from bench to bedside. Cancers, 11, 1523 (2019); DOI.
Xu, Y., Anjaneyulu, M., Donelian, A., Yu, W., Greenberg, M.L., Ren, M., Owusu-Ansah, E., and Schlame, M. Assembly of the complexes of oxidative phosphorylation triggers the remodeling of cardiolipin. PNAS, 116, 11235-11240 (2019); DOI.
Xu, Y., Caldo, K.M.P., Jayawardhane, K., Ozga, J.A., Weselake, R.J. and Chen, G. A transferase interactome that may facilitate channeling of polyunsaturated fatty acid moieties from phosphatidylcholine to triacylglycerol. J. Biol. Chem., 294, 14838-14844 (2019); DOI.
Xu, Y., Mak, H.Y., Lukmantara, I., Li, Y.E., Hoehn, K.L., Huang, X., Du, X. and Yang, H. CDP-DAG synthase 1 and 2 regulate lipid droplet growth through distinct mechanisms. J. Biol. Chem., 294, 16740-16755 (2019); DOI.
Yalagala, P.C.R., Sugasini, D., Dasarathi, S., Pahan, K. and Subbaiah, P.V. Dietary lysophosphatidylcholine-EPA enriches both EPA and DHA in the brain: potential treatment for depression. J. Lipid Res., 60, 566-578 (2019); DOI.
Yalcinkaya, T., Uzilday, B., Ozgur, R., Turkan, I. and Mano, J. Lipid peroxidation-derived reactive carbonyl species (RCS): Their interaction with ROS and cellular redox during environmental stresses. Environm. Exp. Bot., 165, 139-149 (2019); DOI.
Yan, B., Chu, H., Yang, D., Sze, K.-H., Lai, P.-M., Yuan, S., Shuai, H., Wang, Y., Kao, R. .-T., Chan, J. .-W. and Yuen, K.-Y. Characterization of the lipidomic profile of human coronavirus-infected cells: implications for lipid metabolism remodeling upon coronavirus replication. Viruses, 11, 73 (2019); DOI.
Yang, B., Fritsche, K.L., Beversdorf, D.Q., Gu, Z.Z., Lee, J.C., Folk, W.R., Greenlief, C.M. and Sun, G.Y. Yin-Yang mechanisms regulating lipid peroxidation of docosahexaenoic acid and arachidonic acid in the central nervous system. Front. Neurol., 10, 642 (2019); DOI.
Yang, J., Duan, G.H., Li, C.Q., Liu, L., Han, G.Y., Zhang, Y.L. and Wang, C.M. The crosstalks between jasmonic acid and other plant hormone signaling highlight the involvement of jasmonic acid as a core component in plant response to biotic and abiotic stresses. Front. Plant Sci., 10, 1349 (2019); DOI.
Young, S.G., Fong, L.G., Beigneux, A.P., Allan, C.M., He, C.W., Jiang, H.B., Nakajima, K., Meiyappan, M., Birrane, G. and Ploug, M. GPIHBP1 and lipoprotein lipase, partners in plasma triglyceride metabolism. Cell Metab., 30, 51-65 (2019); DOI.
Yu, X.-H., Zhang, D.-W., Zheng, X.L. and Tang, C.-K. Cholesterol transport system: An integrated cholesterol transport model involved in atherosclerosis. Prog. Lipid Res., 73, 65-91 (2019); DOI.
Yun, C.C. Lysophosphatidic Acid and autotaxin-associated effects on the initiation and progression of colorectal cancer. Cancers, 11, 958 (2019); DOI.
Zabielska, J., Sledzinski, T. and Stelmanska, E. Acyl-Coenzyme A: cholesterol acyltransferase inhibition in cancer treatment. Anticancer Res., 39, 3385-3394 (2019); DOI.
Zein, A.A., Kaur, R., Hussein, T.O.K., Graf, G.A. and Lee, J.Y. ABCG5/G8: a structural view to pathophysiology of the hepatobiliary cholesterol secretion. Biochem. Soc. Trans., 47, 1259-1268 (2019); DOI.
Zeng, Z., Liu, X.-L., Farley, K.R., Wei, J.H., Metcalf, W.W., Summons, R.E. and Welander, P.V. GDGT cyclization proteins identify the dominant archaeal sources of tetraether lipids in the ocean. Proc. Natl. Acad. Sci. USA, 116, 22505-22511 (2019); DOI.
Zhai, Q.Z. and Li, C.Y. The plant Mediator complex and its role in jasmonate signaling. J. Exp. Botany, 70, 3415-3424 (2019); DOI.
Zhang, C.Y. and Liu, P.S. The new face of the lipid droplet: lipid droplet proteins. Proteomics, 19, 1700223 (2019); DOI.
Zhang, T., de Waard, A.A., Wuhrer, M. and Spaapen, R.M. The role of glycosphingolipids in immune cell functions. Front. Immun., 10, 90 (2019); DOI.
Zhang, W.C., Krafft, P.R., Wang, T.L., Zhang, J.H., Li, L. and Tang, J.P. Pathophysiology of ganglioside GM1 in ischemic stroke: ganglioside GM1: a critical review. Cell Transpl., 28, 657-661 (2019); DOI.
Zhang, Y., Liu, Y.F., Liu, H.Y. and Tang, W.H. Exosomes: biogenesis, biologic function and clinical potential. Cell Biosci., 9, 19 (2019); DOI.
Zhao, P.C., Xue, Y., Li, X., Li, J.H., Zhao, Z.Q., Quan, C.S., Gao, W.N., Zu, X.Y., Bai, X.F. and Feng, S.X. Fungi-derived lipopeptide antibiotics developed since 2000. Peptides, 113, 52-65 (2019); DOI.
Zhao, Y., Hasse, S., Zhao, C.Q. and Bourgoin, S.G. Targeting the autotaxin - lysophosphatidic acid receptor axis in cardiovascular diseases. Biochem. Pharm., 164, 74-81 (2019); DOI.
Zheng, L.H., Liu, P., Liu, Q.W., Wang, T. and Dong, J.L. Dynamic protein S-acylation in plants. Int. J. Mol. Sci., 20, 560 (2019); DOI.
Zhou, P., Santoro, A., Peroni, O.D., Nelson, A.T., Saghatelian, A., Siegel, D. and Kahn, B.B. PAHSAs enhance hepatic and systemic insulin sensitivity through direct and indirect mechanisms. J. Clin. Invest., 129, 4138-4150 (2019); DOI.
Zhou, Y., Little, P.J., Ta, H.T., Xu, S.W. and Kamato, D. Lysophosphatidic acid and its receptors: pharmacology and therapeutic potential in atherosclerosis and vascular disease. Pharmacol. Therapeut., 204, 107404 (2019); DOI.
Zhukova, N.V. Fatty acids of marine mollusks: impact of diet, bacterial symbiosis and biosynthetic potential. Biomolecules, 9, 857 (2019); DOI.
Ziegler, A.B. and Tavosanis, G. Glycerophospholipids - Emerging players in neuronal dendrite branching and outgrowth. Devel. Biol., 451, 25-34 (2019); DOI.
Zingg, J.-M. Vitamin E: regulatory role on signal transduction. IUBMB Life, 71, 456-478 (2019); DOI.
Zmijewski, M.A. Vitamin D and human health. Int. J. Mol. Sci., 20, 156 (2019); DOI.
Zmyslowski, A. and Szterk, A. Oxysterols as a biomarker in diseases. Clin. Chim. Acta, 491, 103-113 (2019); DOI.
Zou, M.Y., Li, D.X., Li, L., Wu, L.J. and Sun, C.H. Role of the endocannabinoid system in neurological disorders. Int. J. Develop. Neurosci., 76, 95-102 (2019); DOI.
Zulueta, A., Peli, V., Dei Cas, M., Colombo, M., Paroni, R., Falleni, M., Baisi, A., Bollati, V., Chiaramonte, R., Del Favero, E., Ghidoni, R. and Caretti, A. Inflammatory role of extracellular sphingolipids in Cystic Fibrosis. Int. J. Biochem. Cell Biol., 116, 105622 (2019); DOI.

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