Literature Survey

Review Articles on Analysis, 2010 Onwards

The following references to review articles dealing with lipid analytical methodology were collected as part of our regular literature surveys for our own research purposes, and therefore reflect our personal research interests. However, most mainstream lipid topics are covered. Exceptions include "steroidal hormones" and "terpenes". We cannot claim to cover the subject exhaustively, but we do our best, looking for papers that exhibit novel analytical methodology especially.  References are listed alphabetically by the first author, but not necessarily chronologically by that author. This document will be updated at approximately 6-monthly intervals - in the meantime check our monthly surveys.

  • Albuquerque, T.G., Costa,H.S., Castilho,M.C. and Sanches-Silva,A. Trends in the analytical methods for the determination of trans fatty acids content in foods. Trends Food Sci. Technol., 22, 543-560 (2011).
  • Andrade, I., Santos, L. and Ramos, F. Advances in analytical methods to study cholesterol metabolism: the determination of serum noncholesterol sterols. Biomed. Chromatogr., 27, 1234-1242 (2013).
  • Arita, M. Mediator lipidomics in acute inflammation and resolution. J. Biochem., 152, 313-319 (2012).
  • Ayciriex, S., Touboul,D., Brunelle,A. and Laprevote,O. Time-of-flight secondary ion mass spectrometer: a novel tool for lipid imaging. Clin. Lipidol., 6, 437-445 (2011).
  • Baeten, V. Raman spectroscopy in lipid analysis. Lipid Technology, 22, 36-38 (2010).
  • Balgoma, D., Checa, A., Sar, D.G., Snowden, S. and Wheelock, C.E. Quantitative metabolic profiling of lipid mediators. Mol. Nutr. Food Res., 57, 1359-1377 (2013).
  • Banoub, J.H., El Aneed,A., Cohen,A.M. and Joly,N. Structural investigation of bacterial lipopolysaccharides by mass spectrometry and tandem mass spectrometry. Mass Spectrom. Rev., 29, 606-650 (2010).
  • Barriuso, B., Astiasaran, I. and Ansorena, D. A review of analytical methods measuring lipid oxidation status in foods: a challenging task. Eur. Food Res. Technol., 236, 1-15 (2013).
  • Bhattacharya, S.K. Recent advances in shotgun lipidomics and their implication for vision research and ophthalmology. Curr. Eye Res., 38, 417-427 (2013).
  • Berry, K.A.Z., Hankin,J.A., Barkley,R.M., Spraggins,J.M., Caprioli,R.M. and Murphy,R.C. MALDI imaging of lipid biochemistry in tissues by mass spectrometry. Chem. Rev., 111, 6491–6512 (2011).
  • Birringer, M. Analysis of vitamin E metabolites in biological specimen. Mol. Nutr. Food Res., 54, 588-598 (2010).
  • Blair, I.A. Analysis of endogenous glutathione-adducts and their metabolites. Biomed. Chromatogr., 24, 29-38 (2010).
  • Blanksby, S.J. and Mitchell,T.W. Advances in mass spectrometry for lipidomics. Ann. Rev. Anal. Chem., 3, 433-465 (2010).
  • Brenna, J.T. Fatty acid analysis by high resolution gas chromatography and mass spectrometry for clinical and experimental applications. Curr. Opin. Clin. Nutr. Metab. Care, 16, 548-554 (2013).
  • Brouwers, J.F. Liquid chromatographic-mass spectrometric analysis of phospholipids. Chromatography, ionization and quantification. Biochim. Biophys. Acta, 1811, 763-775 (2011)
  • Brown, S.H.J., Mitchell,T.W. and Blanksby,S.J. Analysis of unsaturated lipids by ozone-induced dissociation. Biochim. Biophys. Acta, 1811, 807-817 (2011)
  • Brown, S.H.J., Mitchell, T.W., Oakley, A.J., Pham, H.T. and Blanksby, S.J. Time to face the fats: what can mass spectrometry reveal about the structure of lipids and their interactions with proteins? J. Am. Soc. Mass Spectrom., 23, 1441-1449 (2012).
  • Butovich, I.A. Tear film lipids. Exp. Eye Res., 117, 4-27 (2013).
  • Byrdwell, W.C. Dual parallel mass spectrometry for lipid and vitamin D analysis. J. Chromatogr. A, 1217, 3992-4003 (2010).
  • Cerkowniak, M., Puckowski, A., Stepnowski, P. and Golebiowski, M. The use of chromatographic techniques for the separation and the identification of insect lipids. J. Chromatogr. B, 937, 67-78 (2013).
  • Chen, Y.F., Liu,Y., Sullards,M.C. and Merrill,A.H. An introduction to sphingolipid metabolism and analysis by new technologies. Neuromol. Med., 12, 306-319 (2010).
  • Christie, W.W. and Han, X. Lipid Analysis - Isolation, Separation, Identification and Lipidomic Analysis (4th edition), 446 pages (Oily Press, Bridgwater, U.K. and Woodhead Publishing Ltd, Cambridge, U.K.) (2010) - Woodhead Publishing Ltd.
  • Corso, G., D'Apolito,O., Garofalo,D., Paglia,G. and Dello Russo,A. Profiling of acylcarnitines and sterols from dried blood or plasma spot by atmospheric pressure thermal desorption chemical ionization (APTDCI) tandem mass spectrometry. Biochim. Biophys. Acta, 1811, 669-679 (2011)
  • Cozzolino, R. and De Giulio,B. Application of ESI and MALDI-TOF MS for triacylglycerols analysis in edible oils. Eur. J. Lipid Sci. Technol., 113, 160-167 (2011).
  • Dinh, T.T.N., Thompson,L.D., Galyean,M.L., Brooks,J.C., Patterson,K.Y. and Boylan,L.M. Cholesterol content and methods for cholesterol determination in meat and poultry. Comp. Rev. Food Sci. Food Safety, 10, 269-289 (2011).
  • Dumlao, D.S., Buczynski,M.W., Norris,P.C., Harkewicz,R. and Dennis,E.A. High-throughput lipidomic analysis of fatty acid derived eicosanoids and N-acylethanolamines. Biochim. Biophys. Acta, 1811, 724-736 (2011)
  • Eberlin, L.S., Ferreira,C.R., Dill,A.L., Ifa,DR. and Cooks,R.G. Desorption electrospray ionization mass spectrometry for lipid characterization and biological tissue imaging. Biochim. Biophys. Acta, 1811, 946-960 (2011)
  • Escrig-Domenech, A., Simo-Alfonso, E.F., Herrero-Martinez, J.M. and Ramis-Ramos, G. Derivatization of hydroxyl functional groups for liquid chromatography and capillary electroseparation. J. Chromatogr. A, 1296, 140-156 (2013).
  • Fahy,E., Cotter,D., Sud,M. and Subramaniam,S. Lipid classification, structures and tools. Biochim. Biophys. Acta, 1811, 637-647 (2011)
  • Farwanah, H. and Kolter, T. Lipidomics of glycosphingolipids. Metabolites, 2, 134-164 (2012).
  • Farwanah, H., Kolter,T. and Sandhoff,K. Mass spectrometric analysis of neutral sphingolipids: Methods, applications, and limitations. Biochim. Biophys. Acta, 1811, 854-860 (2011)
  • Fernandez, J.A., Ochoa,B., Fresnedo,O., Giralt,M.T. and Rodriguez-Puertas,R. Matrix-assisted laser desorption ionization imaging mass spectrometry in lipidomics. Anal. Bioanal. Chem., 401, 29-51 (2011).
  • Flangea, C., Serb,A., Sisu,E. and Zamfir,A.D. Chip-based nanoelectrospray mass spectrometry of brain gangliosides. Biochim. Biophys. Acta, 1811, 513-535 (2011).
  • Fuchs, B., S??,R. and Schiller,J. An update of MALDI-TOF mass spectrometry in lipid research. Prog. Lipid Res., 49, 450-475 (2010).
  • Fuchs, B., Suss,R., Teuber,K., Eibisch,M. and Schiller,J. Lipid analysis by thin-layer chromatography-A review of the current state. J. Chromatogr. A, 1218, 2754-2774 (2011).
  • Gaudin, M., Imbert, L., Libong, D., Chaminade, P., Brunelle, A., Touboul, D. and Laprevote, O. Atmospheric pressure photoionization as a powerful tool for large-scale lipidomic studies. J. Am. Soc. Mass Spectrom., 23, 869-879 (2012).
  • Georgiou, C.A., Constantinou, M.S. and Kapnissi-Christodoulou, C.P. Sample preparation: A critical step in the analysis of cholesterol oxidation products. Food Chem., 145, 918-926 (2014).
  • Golebiowski, M., Bogus,M.I., Paszkiewicz,M. and Stepnowski,P. Cuticular lipids of insects as potential biofungicides: methods of lipid composition analysis. Anal. Bioanal. Chem., 399, 3177-3191 (2011).
  • Goto-Inoue, N., Hayasaka,T., Zaima,N. and Setou,M. Imaging mass spectrometry for lipidomics. Biochim. Biophys. Acta, 1811, 961-969 (2011)
  • Gouveia, M.J., Brindley, P.J., Santos, L.L., da Costa, J.M.C., Gomes, P. and Vale, N. Mass spectrometry techniques in the survey of steroid metabolites as potential disease biomarkers: A review. Metab. Clin. Exp., 62, 1206-1217 (2013).
  • Gross, R.W. and Han,X. Lipidomics at the interface of structure and function in systems biology. Chem. Biol., 18, 284-291 (2011).
  • Guan, X.L. and Wenk, M.R. Targeted and non-targeted analysis of membrane lipids using mass spectrometry. Methods Cell Biol., 108, 149-172 (2012).
  • Guan, Z.Q. and Eichler,J. Liquid chromatography/tandem mass spectrometry of dolichols and polyprenols, lipid sugar carriers across evolution. Biochim. Biophys. Acta, 1811, 800-806 (2011)
  • Guo, X.H. and Lankmayr,E. Multidimensional approaches in LC and MS for phospholipid bioanalysis. Bioanalysis, 2, 1109-1123 (2010).
  • Griffiths, W.J. and Sj?vall,S. Bile acids: analysis in biological fluids and tissues. J. Lipid Res., 51, 23-41 (2010).
  • Griffiths, W.J. and Sjovall,J. Analytical strategies for characterization of bile acid and oxysterol metabolomes. Biochem. Biophys. Res. Commun., 396, 80-84 (2010).
  • Griffiths, W.J., Ogundare,M., Williams,C.M. and Wang,Y.Q. On the future of ‘omics’: lipidomics. J. Inher. Metab. Dis., 34, 583-592 (2011).
  • Guan, X.L., Riezman,I., Wenk,M.R. and Riezman,H. Yeast lipid analysis and quantification by mass spectrometry. Methods Enzymol., 470, 369-391 (2010).
  • Guichardant, M., Chen,P., Liu,M., Calzada,C., Colas,R., Vericel,E. and Lagarde,M. Functional lipidomics of oxidized products from polyunsaturated fatty acids. Chem. Phys. Lipids, 164, 544-548 (2011).
  • Han, X., Yang, K. and Gross, R.W. Multi-dimensional mass spectrometry-based shotgun lipidomics and novel strategies for lipidomic analyses. Mass Spectrom. Rev., 31,134-178 (2012).
  • Harkewicz, R. and Dennis,E.A. Applications of mass spectrometry to lipids and membranes. Annu. Rev. Biochem., 80, 301-325 (2011).
  • Harvey, D.J. Analysis of carbohydrates and glycoconjugates by matrix-assisted laser desorption/ionization mass spectrometry: an update for the period 2005-2006. Mass Spectrom. Rev., 30, 1-100 (2011).
  • Haynes, C.A. Analysis of mammalian fatty acyl-coenzyme A species by mass spectrometry and tandem mass spectrometry. Biochim. Biophys. Acta, 1811, 663-668 (2011)
  • Higashi, T., Shimada,K. and Toyo'oka,T. Advances in determination of vitamin D related compounds in biological samples using liquid chromatography-mass spectrometry: A review. J. Chromatogr. B, 878, 1654-1661 (2010).
  • Horn, P.J. and Chapman, K.D. Lipidomics in tissues, cells and subcellular compartments. Plant J., 70, 69-80 (2012).
  • Hyotylainen, T., Bondia-Pons, I. and Oresic, M. Lipidomics in nutrition and food research. Mol. Nutr. Food Res., 57, 1306-1318 (2013).
  • Ibrahim, H., Caudron,E., Kasselouri,A. and Prognon,P. Interest of fluorescence derivatization and fluorescence probe assisted post-column detection of phospholipids: a short review. Molecules, 15, 352-373 (2010).
  • Itabashi, Y. Chiral separation of glycerolipids by high-performance liquid chromatography. J. Lipid Nutr., 21, 27-34 (2012).
  • Janicka, M., Kot-Wasik,A., Kot,J. and Namiesnik,J. Isoprostanes-biomarkers of lipid peroxidation: their utility in evaluating oxidative stress and analysis. Int. J. Mol. Sci., 11, 4631-4659 (2010).
  • Jemal, M., Ouyang,Z. and Xia,Y.Q. Systematic LC-MS/MS bioanalytical method development that incorporates plasma phospholipids risk avoidance, usage of incurred sample and well thought-out chromatography. Biomed. Chromatogr., 24, 2-19 (2010).
  • Jones, P.M. and Bennett,M.J. Clinical applications of 3-hydroxy fatty acid analysis by gas chromatography-mass spectrometry. Biochim. Biophys. Acta, 1811, 657-662 (2011)
  • Jung, H.R., Sylvanne,T., Koistinen,K.M., Tarasov,K., Kauhanen,D. and Ekroos,K. High throughput quantitative molecular lipidomics. Biochim. Biophys. Acta, 1811, 925-934 (2011)
  • Kabanov, D.S. and Prokhorenko,I.R. Structural analysis of lipopolysaccharides from Gram-negative bacteria. Biochemistry-Moscow, 75, 383-404 (2010).
  • Kalo, P. Regiospecific analysis of triacylglycerols. Lipid Technology, 25, 230-234 (2013).
  • Kalo, P.J. and Kemppinen, A. Regiospecific analysis of TAGs using chromatography, MS, and chromatography-MS. Eur. J. Lipid Sci. Technol., 114, 399-411 (2012).
  • Khalil, M.B., Hou,W.M., Zhou,H., Elisma,F., Swayne,L.A., Blanchard,A.P., Yao,Z.M., Bennett,S.A.L. and Figeys,D. Lipidomics era: accomplishments and challenges. Mass Spectrom. Rev., 29, 877-929 (2010).
  • Kilar, A., Dornyei, A. and Kocsis, B. Structural characterization of bacterial lipopolysaccharides with mass spectrometry and on- and off-line separation techniques. Mass Spectrom. Rev., 32, 90-117 (2013).
  • Kim, Y., Shanta,S.R., Zhou,L.H. and Kim,K.P. Mass spectrometry based cellular phosphoinositides profiling and phospholipid analysis: A brief review. Exp. Mol. Med., 42, 1-11 (2010).
  • Kliman, M., May,J.C. and McLean,J.A. Lipid analysis and lipidomics by structurally selective ion mobility-mass spectrometry. Biochim. Biophys. Acta, 1811, 935-945 (2011)
  • Klingler, M. and Koletzko, B. Novel methodologies for assessing omega-3 fatty acid status - a systematic review. Brit. J. Nutr., 107, S53-S63 (2012).
  • Lacomba, R., Salcedo,J., Alegria,A., Lagarda,MJ., Barbera,R. and Matencio,E. Determination of sialic acid and gangliosides in biological samples and dairy products: A review. J. Pharm. Biomed. Anal., 51, 346-357 (2010).
  • Lagarde, M., Bernoud-Hubac, N., Calzada, C., V?ricel, E. and Guichardant, M. Lipidomics of essential fatty acids and oxygenated metabolites Mol. Nutr. Food Res., 57, 1347-1358 (2013).
  • Lamaziere, A., Wolf, C. and Quinn, P.J. Perturbations of lipid metabolism indexed by lipidomic biomarkers. Metabolites, 2, 1-18 (2012).
  • Lay, J.O., Gidden, J., Liyanage, R., Emerson, B. and Durham, B. Rapid characterization of lipids by MALDI MS. Part 2: Artifacts, ion suppression, and TLC MALDI imaging. Lipid Technology, 24, 36–40 (2012).
  • Lay, J.O., Gidden, J., Liyanage, R., Emerson, B. and Durham, B. Rapid characterization of lipids by MALDI MS. Part 1: Bacterial taxonomy and analysis of food oils. Lipid Technology, 24, 11-14 (2012).
  • Layre, E. and Moody, D.B. Lipidomic profiling of model organisms and the world's major pathogens. Biochimie, 95, 109-115 (2013).
  • Li, M., Zhou,Z.G., Nie,H.G., Bai,Y. and Liu,H.W. Recent advances of chromatography and mass spectrometry in lipidomics. Anal. Bioanal. Chem., 399, 243-249 (2011).
  • Liebisch, G. and Scherer, M. Quantification of bioactive sphingo- and glycerophospholipid species by electrospray ionization tandem mass spectrometry in blood. J. Chromatogr. B, 883, 141-146 (2012).
  • Mansour, F.R., Wei, W.J. and Danielson, N.D. Separation of carnitine and acylcarnitines in biological samples: a review. Biomed. Chromatogr., 27, 1339-1353 (2013).
  • Martin, B.R. Chemical approaches for profiling dynamic palmitoylation. Biochem. Soc. Trans., 41, 43-49 (2013).
  • Massey, K.A. and Nicolaou,A. Lipidomics of polyunsaturated-fatty-acid-derived oxygenated metabolites. Biochem. Soc. Trans., 39, 1240-1246 (2011).
  • Massey, K.A. and Nicolaou, A. Lipidomics of oxidized polyunsaturated fatty acids. Free Rad. Biol. Med., 59, 45-55 (2013).
  • McAlpin, C.R., Voorhees, K.J., Corpuz, A.R. and Richards, R.M. Analysis of lipids: metal oxide laser ionization mass spectrometry. Anal. Chem., 84, 7677-7683 (2012).
  • Meisen, I., Mormann,M. and Muthing,J. Thin-layer chromatography, overlay technique and mass spectrometry: A versatile triad advancing glycosphingolipidomics. Biochim. Biophys. Acta, 1811, 875-896 (2011)
  • Merrill, A.H. Sphingolipid and glycosphingolipid metabolic pathways in the era of sphingolipidomics. Chem. Rev., 111, 6387-6422 (2011).
  • Momchilova, S.M. and Nikolova-Damyanova, B.M. Advances in silver ion chromatography for the analysis of fatty acids and triacylglycerols-2001 to 2011. Anal. Sci., 28, 837-844 (2012).
  • Morlock, G. and Schwack,W. Hyphenations in planar chromatography. J. Chromatogr. A, 1217, 6600-6609 (2010).
  • Murphy, R.C. and Axelsen,P.H. Mass spectrometric analysis of long-chain lipids. Mass Spectrom. Rev., 30, 579-599 (2011).
  • Murphy, R.C. and Gaskell,S.J. New applications of mass spectrometry in lipid analysis. J. Biol. Chem., 286, 25427-25433 (2011).
  • Murphy, R.C., Hankin,J.A., Barkley,R.M. and Berry,K.A.Z. MALDI imaging of lipids after matrix sublimation/deposition. Biochim. Biophys. Acta, 1811, 970-975 (2011)
  • Murphy, R.C., Leiker,T.J. and Barkley,R.M. Glycerolipid and cholesterol ester analyses in biological samples by mass spectrometry. Biochim. Biophys. Acta, 1811, 776-783 (2011)
  • Muthing, J. and Distler,U. Advances on the compositional analysis of glycosphingolipids combining thin-layer chromatography with mass spectrometry. Mass Spectrom. Rev., 29, 425-479 (2010).
  • Myers, D.S., Ivanova,P.T., Milne,S.B. and Brown,H.A. Quantitative analysis of glycerophospholipids by LC-MS: Acquisition, data handling, and interpretation. Biochim. Biophys. Acta, 1811, 748-757 (2011)
  • Nett, I.R.E., Mehlert,A., Lamont,D. and Ferguson,M.A.J. Application of electrospray mass spectrometry to the structural determination of glycosylphosphatidylinositol membrane anchors. Glycobiology, 20, 576-585 (2010).
  • O'Donnell, V.B. Mass spectrometry analysis of oxidized phosphatidylcholine and phosphatidylethanolamine. Biochim. Biophys. Acta, 1811, 818-826 (2011)
  • O'Donnell, V.B. and Murphy, R.C. New families of bioactive oxidized phospholipids generated by immune cells: identification and signaling actions. Blood, 120, 1985-1992 (2012).
  • Oh, S.F., Vickery,T.W. and Serhan,C.N. Chiral lipidomics of E-series resolvins: Aspirin and the biosynthesis of novel mediators. Biochim. Biophys. Acta, 1811, 737-747 (2011)
  • Oresic, M. Informatics and computational strategies for the study of lipids. Biochim. Biophys. Acta, 1811, 991-999 (2011).
  • Passarelli, M.K. and Winograd,N. Lipid imaging with time-of-flight secondary ion mass spectrometry (ToF-SIMS). Biochim. Biophys. Acta, 1811, 976-990 (2011)
  • Pucker, A.D. and Nichols, J.J. Analysis of meibum and tear lipids. Ocular Surface, 10, 230-250 (2012).
  • Restuccia, D., Spizzirri, U.G., Puoci, F., Cirillo, G., Vinci, G. and Picci, N. Determination of phospholipids in food samples. Food Rev. Int., 28, 1-46 (2012).
  • Ruiz-Rodriguez, A., Reglero,G. and Ibanez,E. Recent trends in the advanced analysis of bioactive fatty acids. J. Pharm. Biomed. Anal., 51, 305-326 (2010).
  • Salomon, R.G. Structural identification and cardiovascular activities of oxidized phospholipids. Circ. Res., 111, 930-946 (2012).
  • Sandra, K. and Sandra, P. Lipidomics from an analytical perspective. Curr. Opin. Chem. Biol., 17, 847-853 (2013).
  • Santa, T. Derivatization reagents in liquid chromatography/electrospray ionization tandem mass spectrometry. Biomed. Chromatogr., 25, 1-10 (2011).
  • Scherer, M., Bottcher,A. and Liebisch,G. Lipid profiling of lipoproteins by electrospray ionization tandem mass spectrometry. Biochim. Biophys. Acta, 1811, 918-924 (2011)
  • Schmidt, C., Ploier, B., Koch, B. and Daum, G. Analysis of yeast lipid droplet proteome and lipidome. Lipid Droplets, Methods in Cell Biology, 11615-37 (edited by Yang, H. and Li, P. Elsevier Academic Press Inc., San Diego, USA) (2013).
  • Schwudke, D., Schuhmann,K., Herzog,R., Bornstein,S.R. and Shevchenko,A. Shotgun lipidomics on high resolution mass spectrometers. Cold Spring Harbor Persp. Biol., 3, a004614 (2011).
  • Simons, B., Kauhanen, D., Sylv?nne, T., Tarasov, K., Duchoslav E. and Ekroos, K. Shotgun lipidomics by sequential precursor ion fragmentation on a hybrid quadrupole time-of-flight mass spectrometer. Metabolites, 2, 195-213 (2012).
  • Sisu, E., Flangea,C., Serb,A., Rizzi,A. and Zamfir,A.D. High-performance separation techniques hyphenated to mass spectrometry for ganglioside analysis. Electrophoresis, 32, 1591-1609 (2011).
  • Sparvero, L.J., Amoscato, A.A., Dixon, C.E., Long, J.B., Kochanek, P.M., Pitt, B.R., Bayir, H. and Kagan, V.E. Mapping of phospholipids by MALDI imaging (MALDI-MSI): realities and expectations. Chem. Phys. Lipids, 165, 545-562 (2012).
  • Spickett, C.M., Wiswedel,I., Siems,W., Zarkovic,K. and Zarkovic,N. Advances in methods for the determination of biologically relevant lipid peroxidation products. Free Rad. Res., 44, 1172-1202 (2010).
  • Subramaniam, S., Fahy,E., Gupta,S., Sud,M., Byrnes,R.W. Cotter,D., Dinasarapu,A.R. and Maurya,M.R. Bioinformatics and systems biology of the lipidome. Chem. Rev., 111, 6452–6490 (2011).
  • Sullards, M.C., Liu,Y., Chen,YF. and Merrill,A.H. Analysis of mammalian sphingolipids by liquid chromatography tandem mass spectrometry (LC-MS/MS) and tissue imaging mass spectrometry (TIMS). Biochim. Biophys. Acta, 1811, 838-853 (2011)
  • Suzuki, A., Miyazaki,M., Matsuda,J. and Yoneshige,A. High-performance thin-layer chromatography/mass spectrometry for the analysis of neutral glycosphingolipids. Biochim. Biophys. Acta, 1811, 861-874 (2011)
  • Touboul, D., Brunelle,A. and Laprevote,O. Mass spectrometry imaging: Towards a lipid microscope? Biochimie, 93, 113-119 (2011).
  • Tsikas, D., Zoerner,A.A. and Jordan,J. Oxidized and nitrated oleic acid in biological systems: Analysis by GC-MS/MS and LC-MS/MS, and biological significance. Biochim. Biophys. Acta, 1811, 694-705 (2011)
  • Tyburczy, C., Mossoba, M.M. and Rader, J.I. Determination of trans fat in edible oils: current official methods and overview of recent developments. Anal. Bioanal. Chem., 405, 5759-5772 (2013).
  • van Die, I., van Stijn,C.M.W., Geyer,H. and Geyer,R. Structural and functional analysis of glycosphingolipids of Schistosoma mansoni. Methods in Enzymology, 480, 117-140 (2010).
  • Vehovec, T. and Obreza,A. Review of operating principle and applications of the charged aerosol detector. J. Chromatogr. A, 1217, 1549-1556 (2010).
  • Wakelam, M.J.O. and Clark,J. Methods for analyzing phosphoinositides using mass spectrometry. Biochim. Biophys. Acta, 1811, 758-762 (2011)
  • Wang, J.H., Quan,C.S., Wang,X., Zhao,P.C. and Fan,S.D. Extraction, purification and identification of bacterial signal molecules based on N-acyl homoserine lactones. Microbial Biotechnol., 4, 479-490 (2011).
  • Wang, T., Zhong,X.L., Mei,X.R. and Zhang,Y.Q. Advances in ESI-MS/MS approach-based plant lipidomics. Prog. Biochem. Biophys., 37, 1074-1081 (2010).
  • Wei, G.L. and Zeng,E.Y. Gas chromatography-mass spectrometry and high-performance liquid chromatography-tandem mass spectrometry in quantifying fatty acids. Trends Anal. Chem., 30, 1429-1436 (2011).
  • Wenk, M.R. Lipidomics: new tools and applications. Cell, 143, 888-895 (2010).
  • Xu, H.B., Valenzuela, N., Fai, S., Figeys, D. and Bennett, S.A.L. Targeted lipidomics - advances in profiling lysophosphocholine and platelet-activating factor second messengers. FEBS J., 280, 5652-5667 (2013).
  • Zoerner, A.A., Gutzki,F.M., Batkai,S., May,M., Rakers,C., Engeli,S., Jordan,J. and Tsikas,D. Quantification of endocannabinoids in biological systems by chromatography and mass spectrometry: A comprehensive review from an analytical and biological perspective. Biochim. Biophys. Acta, 1811, 706-723 (2011)

 

Updated: February 5, 2013