Lipid Essentials Literature - Highlights - 2015

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. Further references may be added at any time as I become aware of them.

Aikawa, S., Hashimoto, T., Kano, K. and Aoki, J. Lysophosphatidic acid as a lipid mediator with multiple biological actions. J. Biochem., 157, 81-89 (2015); DOI.
Akgoc, Z., Iosim, S. and Seyfried, T.N. Bis(monoacylglycero)phosphate as a macrophage enriched phospholipid. Lipids, 50, 907-912 (2015); DOI.
Akgoc, Z., Sena-Esteves, M., Martin, D.R., Han, X., d'Azzo, A. and Seyfried, T.N. Bis(monoacylglycero)phosphate: a secondary storage lipid in the gangliosidoses. J. Lipid Res., 56, 1006-1013 (2015); DOI.
Aktas, M. and Narberhaus, F. Unconventional membrane lipid biosynthesis in Xanthomonas campestris. Environ. Microbiol., 17, 3116-3124 (2015); DOI.
Alam, S., Fedier, A., Kohler, R.S. and Jacob, F. Glucosylceramide synthase inhibitors differentially affect expression of glycosphingolipids. Glycobiology, 25, 351-356 (2015); DOI.
Aldini, G., Domingues, M.R., Spickett, C.M., Domingues, P., Altomare, A., Sanchez-Gomez, F.J., Oeste, C.L. and Perez-Sala, D. Protein lipoxidation: detection strategies and challenges. Redox Biol., 5, 253-266 (2015); DOI.
Alexander, C.M., Kasza, I., Yen, C.-L. E., Reeder, S.B., Hernando, D., Gallo, R.L., Jahoda, C.A.B., Horsley, V. and MacDougald, O.A. Dermal white adipose tissue: a new component of the thermogenic response. J. Lipid Res., 56, 2061-2069 (2015); DOI.
Almada, M., Piscitelli, F., Fonseca, B.M., Di Marzo, V., Correia-da-Silva, G. and Teixeira, N. Anandamide and decidual remodelling: COX-2 oxidative metabolism as a key regulator. Biochim. Biophys. Acta, 1851, 1473-1481 (2015); DOI.
Antonny, B., Vanni, S., Shindou, H. and Ferreira, T. From zero to six double bonds: phospholipid unsaturation and organelle function. Trends Cell Biol., 25, 427-436 (2015); DOI.
Arroyo-Olarte, R.D., Brouwers, J.F., Kuchipudi, A., Helms, J.B., Biswas, A., Dunay, I.R., Lucius, R. and Gupta, N. Phosphatidylthreonine and lipid-mediated control of parasite virulence. PLoS Biol., 13, e1002288 (2015); DOI.
Astudillo, L., Sabourdy, F., Therville, N., Bode, H., Ségui B., Andrieu-Abadie, N., Hornemann, T. and Levade T. Human genetic disorders of sphingolipid biosynthesis. J. Inherit. Metab. Dis., 38, 65-76 (2015); DOI.
Aureli, M., Grassi, S., Prioni, S., Sonnino, S. and Prinetti, A. Lipid membrane domains in the brain. Biochim. Biophys. Acta, 1851, 1006-1016 (2015); DOI.
Bai, Y., McCoy, J.G., Levin, E.J., Sobrado, P., Rajashankar, K.R., Fox, B.G. and Zhou, M. X-ray structure of a mammalian stearoyl-CoA desaturase. Nature, 524, 252-256 (2015); DOI.
Balakrishnan, S.S., Basu, U. and Raghu, P. Phosphoinositide signalling in Drosophila. Biochim. Biophys. Acta, 1851, 770-784 (2015); DOI.
Banta, A.B., Wei, J.H. and Welander, P.V. A distinct pathway for tetrahymanol synthesis in bacteria. Proc. Natl. Acad. Sci. USA, 112, 13478-13483 (2015); DOI.
Barbayianni, E., Kaffe, E., Aidinis, V. and Kokotos, G. Autotaxin, a secreted lysophospholipase D, as a promising therapeutic target in chronic inflammation and cancer. Prog. Lipid Res., 58, 76-96 (2015); DOI.
Barbosa, A.D., Savage, D.B. and Siniossoglou, S. Lipid droplet-organelle interactions: emerging roles in lipid metabolism. Curr. Opinion Cell Biol., 35, 91-97 (2015); DOI.
Beld, J., Lee, D.J. and Burkart, M.D. Fatty acid biosynthesis revisited: structure elucidation and metabolic engineering. Molecular BioSystems, 11, 38-59 (2015); DOI.
Bickert, A., Ginkel, C., Kol, M., vom Dorp, K., Jastrow, H., Degen, J., Jacobs, R.L., Vance, D.E., Winterhager, E., Jiang, X.C., Dörmann, P., Somerharju, P., Holthuis, J.C.M. and Willecke, K. Functional characterization of enzymes catalyzing ceramide phosphoethanolamine biosynthesis in mice. J. Lipid Res., 56, 821-835 (2015); DOI.
Binder, B.Y.K., Williams, P.A., Silva, E.A. and Leach, J.K. Lysophosphatidic acid and sphingosine-1-phosphate: a concise review of biological function and applications for tissue engineering. Tissue Engineering B. Reviews, 21, 531-542 (2015); DOI.
Birkholz, A.M., Howell, A.R. and Kronenberg, M. The alpha and omega of galactosylceramides in T cell immune function. J. Biol. Chem., 290, 15365-15370 (2015); DOI.
Blanc, M., David, F., Abrami, L., Migliozzi, D., Armand, F., Bürgi, J. and van der Goot, F.G. SwissPalm: protein palmitoylation database. F1000Res., 4, 261 (2015); DOI.
Block, M.A. and Jouhet, J. Lipid trafficking at endoplasmic reticulum-chloroplast membrane contact sites. Curr. Opinion Cell Biol., 35, 21-29 (2015); DOI.
Borrelli, F., Romano, B., Petrosino, S., Pagano, E., Capasso, R., Coppola, D., Battista, G., Orlando, P., Di Marzo, V. and Izzo, A.A. Palmitoylethanolamide, a naturally occurring lipid, is an orally effective intestinal anti-inflammatory agent. Brit. J. Pharmacol., 172, 142-158 (2015); DOI.
Boyle, P.C. and Martin, G.B. Greasy tactics in the plant-pathogen molecular arms race. J. Exp. Bot., 66, 1607-1616 (2015); DOI.
Brameyer, S., Kresovic, D., Bode, H.B. and Heermann, R. Dialkylresorcinols as bacterial signaling molecules. Proc. Natl. Acad. Sci. USA, 112, 572-577 (2015); DOI.
Bramkamp, M. and Lopez, D. Exploring the existence of lipid rafts in bacteria. Microbiol. Mol. Biol. Rev., 79, 81-100 (2015); DOI.
Bryan, AM., Del Poeta, M. and Luberto, C. Sphingolipids as regulators of the phagocytic response to fungal infections. Mediators Inflammation, 640540 (2015); DOI.
Buddelmeijer, N. The molecular mechanism of bacterial lipoprotein modification-How, when and why? FEMS Microbiol. Rev., 39, 246-261 (2015); DOI.
Cabral, G.A., Rogers, T.J. and Lichtman, A.H. Turning over a new leaf: cannabinoid and endocannabinoid modulation of immune function. J. Neuroimm. Pharmacol., 10, 193-203 (2015); DOI.
Calder, P.C. Marine omega-3 fatty acids and inflammatory processes: Effects, mechanisms and clinical relevance. Biochim. Biophys. Acta, 1851, 469-484 (2015); DOI.
Capdevila, J.H., Wang, W. and Falck, J.R. Arachidonic acid monooxygenase: genetic and biochemical approaches to physiological/pathophysiological relevance. Prostaglandins Other Lipid Mediators, 120, 40-49 (2015); DOI.
Capra, V., Rovati, G.E., Mangano, P., Buccellati, C., Murphy, R.C. and Sala, A. Transcellular biosynthesis of eicosanoid lipid mediators. Biochim. Biophys. Acta, 1851, 377-382 (2015); DOI.
Carbone, V., Schofield, L.R., Zhang, Y., Sang, C., Dey, D., Hannus, I.M., Martin, W.F., Sutherland-Smith, A.J. and Ronimus, R.S. Structure and evolution of the archaeal lipid synthesis enzyme sn-glycerol-1-phosphate dehydrogenase. J. Biol. Chem., 290, 21690-21704 (2015); DOI.
Carreira, A.C., Ventura, A.E., Varela, A.R. and Silva, L.C. Tackling the biophysical properties of sphingolipids to decipher their biological roles. Biol. Chem., 396, 597-609 (2015); DOI.
Carroll, B., Donaldson, J.C. and Obeid, L. Sphingolipids in the DNA damage response. Adv. Biol. Reg., 58, 38-52 (2015); DOI.
Chamberlain, L.H. and Shipston, M.J. The physiology of protein S-acylation. Physiol. Rev., 95, 341-376 (2015); DOI.
Chandrasekharan, J.A. and Sharma-Walia, N. Lipoxins: nature's way to resolve inflammation. J. Inflamm. Res., 8, 181-192 (2015); DOI.
Chang, M.M., Imperiali, B., Eichler, J. and Guan, Z. N-Linked glycans are assembled on highly reduced dolichol phosphate carriers in the hyperthermophilic archaea Pyrococcus furiosus. PLOS One, 10, e01304822015 (2015); DOI.
Chaurasia, B. and Summers, S.A. Ceramides - lipotoxic inducers of metabolic disorders. Trends Endocrinol. Metab., 26, 538-550 (2015); DOI.
Chen, G., Woodfield, H.K., Pan, X., Harwood, J.L. and Weselake, R.J. Acyl-trafficking during plant oil accumulation. Lipids, 50, 1057-10682 (2015); DOI.
Choi, S., Thapa, N., Tan, X., Hedman, A.C. and Anderson, R.A. PIP kinases define PI4,5P2 signaling specificity by association with effectors. Biochim. Biophys. Acta, 1851, 711-723 (2015); DOI.
Christensen, S.A., Huffaker, A., Kaplan, F., Sims, J., Ziemann, S., Doehlemann, G., Ji, L., Schmitz, R.J., Kolomiets, M.V., Alborn, H.T., Mori, N., Jander, G., Ni, X., Sartor, R.C., Byers, S., Abdo, Z. and Schmelz, E.A. Maize death acids, 9-lipoxygenase-derived cyclopente(a)nones, display activity as cytotoxic phytoalexins and transcriptional mediators. PNAS, 112, 11407-11412 (2015); DOI.
Cocco, L., Follo, M.Y., Manzoli. L. and Suh, P.-G. Phosphoinositide-specific phospholipase C in health and disease. J. Lipid Res., 56, 1853-1860 (2015); DOI.
Cooper, D.E., Young, P.A., Klett, E.L. and Coleman, R.A. Physiological consequences of compartmentalized acyl-CoA metabolism. J. Biol. Chem., 290, 20023-20031 (2015); DOI.
Cornell, R.B. and Ridgway, N.D. CTP:phosphocholine cytidylyltransferase: Function, regulation, and structure of an amphitropic enzyme required for membrane biogenesis. Prog. Lipid Res., 59, 147-171 (2015); DOI.
Cuyamendous, C., Leung, K.S., Durand, T., Lee, J.C.Y., Oger, C. and Galano, J.M. Synthesis and discovery of phytofurans: metabolites of α-linolenic acid peroxidation. Chem. Commun. 51, 15696-15699 (2015); DOI.
D'Souza, K. and Epand, R.M. The phosphatidylinositol synthase-catalyzed formation of phosphatidylinositol does not exhibit acyl chain specificity. Biochemistry, 54, 1151-1153 (2015); DOI.
Dalli, J., Chiang, N. and Serhan, C.N. Elucidation of novel 13-series resolvins that increase with atorvastatin and clear infections. Nature Medicine, 21, 1071-1075 (2015); DOI.
Dalli, J., Ramon, S., Norris, P.C., Colas, R.A. and Serhan, C.N. Novel proresolving and tissue-regenerative resolvin and protectin sulfido-conjugated pathways. FASEB J., 29, 2120-2136 (2015); DOI.
Dany, M. and Ogretmen, B. Ceramide induced mitophagy and tumor suppression. Biochim. Biophys. Acta, Mol. Cell Res., 1853, 2834-2845 (2015); DOI.
Dar, T.A., Uddin, M., Khan, M.M.A., Hakeem, K.R. and Jaleel, H. Jasmonates counter plant stress: A review. Environm. Exp. Bot., 115, 49-57 (2015); DOI.
Dawson, P.A. and Karpen, S.J. Intestinal transport and metabolism of bile acids. J. Lipid Res., 56, 1085-1099 (2015); DOI.
de Oliveira, M.R., Magri, A., Baldo, C., Camilios-Neto, D., Minucelli, T. and Celligoi, M.A.P.C. Sophorolipids a promising biosurfactant and its applications. Int. J. Adv. Biotech. Res., 6, 161-174 (2015).
Degirolamo, C., Abbà, C. and Moschetta, A. Intestinal nuclear receptors in HDL cholesterol metabolism. J. Lipid Res., 56, 1262-1270 (2015); DOI.
Delmastro-Greenwood, M., Hughan, K.S., Vitturi, D.A., Salvatore, S.R., Grimes, G., Potti, G., Shiva, S., Schopfer, F.J., Gladwin, M.T., Freeman, B.A. and Wendell, S.G. Nitrite and nitrate-dependent generation of anti-inflammatory fatty acid nitroalkenes. Free Rad. Biol. Med., 89, 333-341 (2015); DOI.
Dennis, E.A. and Norris, P.C. Eicosanoid storm in infection and inflammation. Nature Rev. Immunol., 15, 511-523 (2015); DOI.
di Masi, A., Leboffe, L., De Marinis, E., Pagano, F., Cicconi, L., Rochette-Egly, C., Lo-Coco, F., Ascenzi, P. and Nervi, C. Retinoic acid receptors: From molecular mechanisms to cancer therapy. Mol. Aspects Med., 41, 1-115 (2015); DOI.
Dijkman, P.M. and Watts, A. Lipid modulation of early G protein-coupled receptor signalling events. Biochim. Biophys. Acta - Biomembranes, 1848, 2889-2897 (2015); DOI.
Ding, T., Kabir, I., Li, Y., Lou, C., Yazdanyar, A., Xu, J., Dong, J., Zhou, H., Park, T., Boutjdir, M., Li, Z. and Jiang, X.-C. All members in the sphingomyelin synthase gene family have ceramide phosphoethanolamine synthase activity. J. Lipid Res., 56, 537-545 (2015); DOI.
Dobrzyn, P., Bednarski, T. and Dobrzyn, A. Metabolic reprogramming of the heart through stearoyl-CoA desaturase. Prog. Lipid Res., 57, 1-12 (2015); DOI.
Domenichiello, A.F., Kitson, A.P. and Bazine, R.P. Is docosahexaenoic acid synthesis from alpha-linolenic acid sufficient to supply the adult brain? Prog. Lipid Res., 59, 54-66 (2015); DOI.
Donoviel, M.S., Hait, N.C., Ramachandran, S., Maceyka, M., Takabe, K., Milstien, S., Oravecz, T. and Spiegel, S. Spinster 2, a sphingosine-1-phosphate transporter, plays a critical role in inflammatory and autoimmune diseases. FASEB J., 29, 5018-5028 (2015); DOI.
Dorninger, F., Brodde, A., Braverman, N.E., Moser, A.B., Just, W.W., Forss-Petter, S., Brugger, B. and Berger, J. Homeostasis of phospholipids - The level of phosphatidylethanolamine tightly adapts to changes in ethanolamine plasmalogens. Biochim. Biophys. Acta, 1851, 117-128 (2015); DOI.
Duan, J. and Merrill, A.H. 1-Deoxysphingolipids encountered exogenously and made de novo: dangerous mysteries inside an enigma. J. Biol. Chem., 290, 15380-15389 (2015); DOI.
Dubland, J.A. and Francis, G.A. Lysosomal acid lipase: at the crossroads of normal and atherogenic cholesterol metabolism. Front. Cell Dev. Biol., 3, 3 (2015); DOI.
Durai, P., Batool, M. and Choi, S. Structure and effects of cyanobacterial lipopolysaccharides. Marine Drugs, 13, 4217-4230 (2015); DOI.
Dutilleul, C., Chavarria, H., Rézé, N., Sotta, B., Baudouin, E. and Guillas, I. Evidence for ACD5 ceramide kinase activity involvement in Arabidopsis response to cold stress. Plant Cell Environ., 38, 2688-2697 (2015); DOI.
Eichmann T.O. and Lass, A. DAG tales: the multiple faces of diacylglycerol-stereochemistry, metabolism, and signaling. Cell. Mol. Life Sci., 72, 3931-3952 (2015); DOI.
Ekyalongo, R.C., Nakayama, H., Kina, K., Kaga, N. and Iwabuch, K. Organization and functions of glycolipid-enriched microdomains in phagocytes. Biochim. Biophys. Acta, 1851, 90-97 (2015); DOI.
Elferink, R.P.J.O., Bolier, R. and Beuers, U.H. Lysophosphatidic acid and signaling in sensory neurons. Biochim. Biophys. Acta, Lipids, 1851, 61-65 (2015); DOI.
Escribá, P.V., Busquets, X., Inokuchi, J.-i., Balogh, G., Török, Z., Horváth, I., Harwood, J.L. and Vígh, L. Membrane lipid therapy: Modulation of the cell membrane composition and structure as a molecular base for drug discovery and new disease treatment. Prog. Lipid Res., 59, 38-53 (2015); DOI.
Espaillat, M.P., Shamseddine, A.A., Adada, M.M., Hannun, Y.A. and Obeid, L.M. Ceramide and sphingosine-1-phosphate in cancer, two faces of the sphinx. Transl. Cancer Res., 4, 484-499 (2015); DOI.
Fan, F., Muroya, Y. and Roman, R.J. Cytochrome P450 eicosanoids in hypertension and renal disease. Curr. Opin. Nephrol. Hypertension, 24, 37-46 (2015); DOI.
Fazzari, M., Khoo, N., Woodcock, SR., Li, L.H., Freeman, B.A. and Schopfer, F.J. Generation and esterification of electrophilic fatty acid nitroalkenes in triacylglycerides. Free Rad. Biol. Med., 87, 113-124 (2015); DOI.
Fliegmann, J. and Bono, J.J. Lipo-chitooligosaccharidic nodulation factors and their perception by plant receptors. Glycoconj. J., 32, 455-464 (2015); DOI.
Folick, A., Oakley, H.D., Yu, Y., Armstrong, E.H., Kumari, M., Sanor, L., Moore, D.D., Ortlund, E.A., Zechner, R. and Wang, M.C. Lysosomal signaling molecules regulate longevity in Caenorhabditis elegans. Science, 347, 83-86 (2015); DOI
Forestier, C.L., Gao, Q. and Boons, G.-J. Leishmania lipophosphoglycan: how to establish structure-activity relationships for this highly complex and multifunctional glycoconjugate? Front. Cell. Infect. Microbiol., 4, 193 (2015); DOI.
Fradin, C., Bernardes, E.S. and Jouault, T. Candida albicans phospholipomannan: a sweet spot for controlling host response/inflammation. Seminars Immunopathol., 37, 123-130 (2015); DOI.
Fritsche, K.L. The science of fatty acids and inflammation. Adv. Nutr., 6, 293S-301S (2015); DOI.
Fröhlich, F., Petit, C., Kory, N., Christiano, R., Hannibal-Bach, H.K., Graham, M., Liu, X.R., Ejsing, C.S., Farese, R.V. and Walther, T.C. The GARP complex is required for cellular sphingolipid homeostasis. eLife, 4, e08712 (2015); DOI.
Frohman, M.A. Role of mitochondrial lipids in guiding fission and fusion. J. Mol. Med., 93, 263-269 (2015); DOI.
Gabbs, M., Leng, S., Devassy, J.G., Monirujjaman, M. and Aukema, H.M. Advances in our understanding of oxylipins derived from dietary PUFAs. Adv. Nutr., 6, 513-540 (2015); DOI.
Galadari, S., Rahman, A., Pallichankandy, S. and Thayyullathil, F. Tumor suppressive functions of ceramide: evidence and mechanisms. Apoptosis, 20, 689-711 (2015); DOI.
Garcia-Ruiz, C., Morales, A. and Fernandez-Checa, J.C. Glycosphingolipids and cell death: one aim, many ways. Apoptosis, 20, 607-620 (2015); DOI.
Galano, J.-M., Lee, J.C.-Y., Gladine, C., Comte, B., Le Guennec, J.-Y., Oger, C. and Durand, T. Non-enzymatic cyclic oxygenated metabolites of adrenic, docosahexaenoic, eicosapentaenoic and alpha-linolenic acids; bioactivities and potential use as biomarkers. Biochim. Biophys. Acta, 1851, 446-455 (2015); DOI.
Gamba, P., Testa, G., Gargiulo, S., Staurenghi, E., Poli, G. and Leonarduzzi, G. Oxidized cholesterol as the driving force behind the development of Alzheimer's disease. Front. Aging Neurosci., 7, 119 (2015); DOI.
Gaspard, G.J. and McMaster, C.R. Cardiolipin metabolism and its causal role in the etiology of the inherited cardiomyopathy Barth syndrome. Chem. Phys. Lipids, 193, 1-10 (2015); DOI.
Gill, P., Jindal, N.L., Jagdis, A. and Vadas, P. Platelets in the immune response: Revisiting platelet-activating factor in anaphylaxis. J. Allergy Clin. Immunol., 135, 1424-1432 (2015); DOI.
Glade, M.J. and Smith, K. Phosphatidylserine and the human brain. Nutrition, 31, 781-86 (2015); DOI.
Glatz, J.F.C. Lipids and lipid binding proteins: A perfect match. PLEFA, 93, 45-49 (2015); DOI.
Glatz, J.F.C. and Luiken, J.J.F.P. Fatty acids in cell signaling: Historical perspective and future outlook. PLEFA, 92, 57-62 (2015); DOI.
Gottlieb, C.D., Zhang, S. and Linder, M.E. The cysteine-rich domain of the DHHC3 palmitoyltransferase is palmitoylated and contains tightly bound zinc. J. Biol. Chem., 290, 29259-29269 (2015); DOI.
Grabon, A., Khan, D. and Bankaitis, V.A. Phosphatidylinositol transfer proteins and instructive regulation of lipid kinase biology. Biochim. Biophys. Acta, 1851, 724-735 (2015); DOI.
Graça, J. Suberin: the biopolyester at the frontier of plants. Front. Chem., 3, 62 (2015); DOI.
Grant, R.W. and Stephens, J.M. Fat in flames: influence of cytokines and pattern recognition receptors on adipocyte lipolysis. Am. J. Physiol.-Endocrinol. Metab., 309, E205-E213 (2015); DOI.
Grison, M.S., Brocard, L., Fouillen, L., Nicolas, W., Wewer, V., Dormann, P., Nacir, H., Benitez-Alfonso, Y., Claverol, S., Germain, V., Boutte, Y., Mongrand, S. and Bayer, E.M. Specific membrane lipid composition is important for plasmodesmata function in Arabidopsis. Plant Cell, 27, 1228-1250 (2015); DOI.
Grosjean, K., Mongrand, S., Beney, L., Simon-Plas, F. and Gerbeau-Pissot, P. Differential effect of plant lipids on membrane organization: specificities of phytosphingolipids and phytosterols. J. Biol. Chem., 290, 5810-5825 (2015); DOI.
Groux-Degroote, S., Guérardel, Y., Julien, S. and Delannoy, P. Gangliosides in breast cancer: New perspectives. Biochemistry-Moscow, 80, 808-819 (2015); DOI.
Guichardant, M., Calzada, C., Bernoud-Hubac, N., Lagarde, M. and Véricel, E. Omega-3 polyunsaturated fatty acids and oxygenated metabolism in atherothrombosis. Biochim. Biophys. Acta, 1851, 485-495 (2015); DOI.
Gursky, O. Structural stability and functional remodeling of high-density lipoproteins. FEBS Letts, 589, 2627-2639 (2015); DOI.
Guy, A.T., Nagatsuka, Y., Ooashi, N., Inoue, M., Nakata, A., Greimel, P., Inoue, A., Nabetani, T., Murayama, A., Ohta, K., Ito, Y., Aoki, J., Hirabayashi, Y. and Kamiguchi, H. Glycerophospholipid regulation of modality-specific sensory axon guidance in the spinal cord. Science, 349, 974-977 (2015); DOI.
Hammond, G.R.V. and Balla, T Polyphosphoinositide binding domains: Key to inositol lipid biology. Biochim. Biophys. Acta, 1851, 746-758 (2015); DOI.
Hankins, H.M., Baldridge, R.D., Xu, P. and Graham, T.R. Role of flippases, scramblases and transfer proteins in phosphatidylserine subcellular distribution. Traffic, 16, 35-47 (2015); DOI.
Hannun, Y.A. A personal journey with bioactive lipids. Eur. J. Lipid Sci. Technol., 117, 814-1831 (2015); DOI.
Harvald, E.B., Olsen, A.S.B. and Færgeman, N.J. Autophagy in the light of sphingolipid metabolism. Apoptosis, 20, 658-670 (2015); DOI.
Hashemi, H.F. and Goodman, J.M. The life cycle of lipid droplets. Curr. Opinion Cell Biol., 33, 119-124 (2015); DOI.
Hawkins, P.T. and Stephens, L.R. PI3K signalling in inflammation. Biochim. Biophys. Acta, 1851, 882-897 (2015); DOI.
Headland, S.E. and Norling, L.V. The resolution of inflammation: principles and challenges. Seminars Immunol., 27, 149-160 (2015); DOI.
Heilmann, M. and Heilmann, I. Plant phosphoinositides-complex networks controlling growth and adaptation. Biochim. Biophys. Acta, 1851, 759-769 (2015); DOI.
Hemsley, P.A. The importance of lipid modified proteins in plants. New Phytologist, 205, 476-489 (2015); DOI.
Hesselink, J.M.K. and Kopsky, D.J. Palmitoylethanolamide, a neutraceutical, in nerve compression syndromes: efficacy and safety in sciatic pain and carpal tunnel syndrome. J. Pain Res., 8, 729-734 (2015); DOI.
Hoffmann, A., Kovermann, M., Tanja Oberwinkler, T., Siedler, F., Cortina, N.S., Balbach, J. and Oesterhelt, D. Novel sulfated phosphoglycolipids from Natronomonas moolapensis. Chem. Phys. Lipids, 191, 8-15 (2015); DOI.
Honda, T. and Kabashima, K. Prostanoids in allergy. Allergology Int., 64, 11-16 (2015); DOI.
Hoopes, S.L., Garcia, V., Edin, M.L., Schwartzman, M.L. and Zeldin, D.C. Vascular actions of 20-HETE. Prostaglandins Other Lipid Mediators, 120, 9-16 (2015); DOI.
Horn, T., Adel, S., Schumann, R., Sur, S., Kakularam, K.R., Polamarasetty, A., Redanna, P., Kuhn, H. and Heydeck, D. Evolutionary aspects of lipoxygenases and genetic diversity of human leukotriene signalling. Prog. Lipid Res., 57, 13-39 (2015); DOI.
Hsu, F. and Mao, Y. The structure of phosphoinositide phosphatases: Insights into substrate specificity and catalysis. Biochim. Biophys. Acta, 1851, 698-710 (2015); DOI.
Huang, C.F. and Freter, C. Lipid metabolism, apoptosis and cancer therapy. Int. J. Mol. Sci., 16, 924-949 (2015); DOI.
Hurst, C.H. and Hemsley, P.A. Current perspective on protein S-acylation in plants: more than just a fatty anchor? J. Exp. Bot., 66, 1599-1606 (2015); DOI.
Idevall-Hagren, O. and De Camilli, P Detection and manipulation of phosphoinositides. Biochim. Biophys. Acta, 1851, 736-745 (2015); DOI.
Imai, Y. Role of omega-3 PUFA-derived mediators, the protectins, in influenza virus infection. Biochim. Biophys. Acta, 1851, 496-502 (2015); DOI.
Ines, M. and Dhouha, G. Lipopeptide surfactants: production, recovery and pore forming capacity. Peptides, 71, 100-112 (2015); DOI.
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