Lipid Essentials Literature - Highlights - 2024

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). Some papers in press may be listed here without the full citation, but the DOI address should still be valid, and they may be updated later. References are listed alphabetically by the first author.

New references 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".

Abe, A., Hinkovska-Galcheva, V., Bouchev, P., Bouley, R. and Shayman, J.A. The role of lysosomal phospholipase A2 in the catabolism of bis(monoacylglycerol)phosphate and association with phospholipidosis. J. Lipid Res., 65, 100574 (2024); DOI.
Aggarwal, S. and others. Palmitic acid causes hepatocyte inflammation by suppressing the BMAL1-NAD+-SIRT2 axis. J. Physiol. Biochem., 80, 845-864 (2024); DOI.
Ahotupa, M. Lipid oxidation products and the risk of cardiovascular diseases: role of lipoprotein transport. Antioxidants, 13, 512 (2024); DOI.
AL Mughram, M.H., Kellogg, GE. and Wattenberg, B.W. Three kingdoms and one ceramide to rule them all. A comparison of the structural basis of ceramide-dependent regulation of sphingolipid biosynthesis in animals, plants, and fungi. Adv. Biol. Reg., 91, 101010 (2024); DOI.
Aleem, A.M., Mitchener, M.M., Kingsley, P.J., Rouzer, C.A. and Marnett, L.J. Temporal dissociation of COX-2-dependent arachidonic acid and 2-arachidonoylglycerol metabolism in RAW264.7 macrophages. J. Lipid Res., 65, 100615 (2024); DOI.
Alnouri, M.W. and others. SPMs exert anti-inflammatory and pro-resolving effects through positive allosteric modulation of the prostaglandin EP4 receptor. Proc. Natl. Acad. Sci. USA, 121, e2407130121 (2024); DOI.
Alvarez, J.A. and others. The GPI sidechain of Toxoplasma gondii inhibits parasite pathogenesis. mBio, 15, e0052724 (2024); DOI.
Amari, C., Carletti, M., Yan, SQ., Michaud, M. and Salvaing, J. Lipid droplets degradation mechanisms from microalgae to mammals, a comparative overview. Biochimie, 227B, 19-34 (2024); DOI.
Archana, and others. Gut microbiota derived short-chain fatty acids in physiology and pathology: An update. Cell Biochem. Function, 42, e4108 (2024); DOI.
Armbruster, K.M., Jiang, J.W., Sartorio, M.G., Scott, N.E., Peterson, J.M., Sexton, J.Z., Feldman, M.F. and Koropatkin, N.M. Identification and characterization of the lipoprotein N- acyltransferase in Bacteroides. Proc. Natl. Acad. Sci. USA, 121, e2410909121 (2024); DOI.
Armistead, J. and others. A sphingolipid rheostat controls apoptosis versus apical cell extrusion as alternative tumour-suppressive mechanisms. Cell Death Disease, 15, 746 (2024); DOI.
Ashok, S. and Rao, S.R. Updates on protein-prenylation and associated inherited retinopathies. Front. Ophthal., 4, 1410874 (2024); DOI.
Avci, D., Heidasch, R., Costa, M., Lüchtenborg, C., Kale, D., Brügger, B. and Lemberg, M.K. Intramembrane protease SPP defines a cholesterol-regulated abundance control of the mevalonate pathway enzyme squalene synthase. J. Biol. Chem., 300, 105644 (2024); DOI.
Badawy, A.A.B. The role of nonesterified fatty acids in cancer biology: Focus on tryptophan and related metabolism. Biochim. Biophys. Acta, Lipids, 1869, 159531 (2024); DOI.
Bai, L., Yang, P.J., Han, B.T. and Kong, L.H. Progress of the acyl-Coenzyme A thioester hydrolase family in cancer. Front. Oncol., 14, 1374094 (2024); DOI.
Balezina, O.P., Tarasova, E.O. and Bogacheva, P.O. Myogenic classical endocannabinoids, their targets and activity. Biochem.-Moscow, 89, 1759-1778 (2024); DOI.
Balsinde, J. and Balboa, M.A. Plasmalogens in innate immune cells: from arachidonate signaling to ferroptosis. Biomolecules, 14, 1461 (2024); DOI.
Barbarinaldi, R., Di Costanzo, F., Orefice, I., Romano, G., Carotenuto, Y. and Di Dato, V. Prostaglandin pathway activation in the diatom Skeletonema marinoi under grazer pressure. Marine Environ. Res., 196, 106395 (2024); DOI.
Barbosa, A.D. and Siniossoglou, S. Membranes that make fat: roles of membrane lipids as acyl donors for triglyceride synthesis and organelle function. FEBS Letts, 598, 1226-1234 (2024); DOI.
Barritt, S.A., DuBois-Coyne, S.E. and Dibble, C.C. Coenzyme A biosynthesis: mechanisms of regulation, function and disease. Nature Metab., in press (2024); DOI.
Bazan, H.E.P. and Pham, T.L. A new R,R-RvD6 isomer with protective actions following corneal nerve injury. Prostaglandins Other Lipid Mediators, 170, 106802 (2024); DOI.
Bazan, N.G., Obenaus, A., Khoutorova, L., Mukherjee, P.K., Jun, B., Semikov, R. and Belayev, L. Elovanoids, a novel class of lipid mediators, are neuroprotective in a traumatic brain injury model in rats. Biomedicines, 12, 2555 (2024); DOI.
Bermúdez, M.A., Garrido, A., Pereira, L., Garrido, T., Balboa, M.A. and Balsinde, J. Rapid movement of palmitoleic acid from phosphatidylcholine to phosphatidylinositol in activated human monocytes. Biomolecules, 14, 707 (2024); DOI.
Binienda, A. and Fichna, J. Current understanding of free fatty acids and their receptors in colorectal cancer treatment. Nutr. Res., 127, 133-143 (2024); DOI.
Bingi, T., Cotton, K., Comer, C. and Niklison-Chirou, M.V. Are lipid droplets the picnic basket of brain tumours? Cell Death Discovery, 10, 31 (2024); DOI.
Biran, A., Santos, T.C.B., Dingjan, T. and Futerman, A.H. The sphinx and the egg: evolutionary enigmas of the (glyco)sphingolipid biosynthetic pathway. Biochim. Biophys. Acta, Lipids, 1869, 159462 (2024); DOI.
Birkenfeld, K.R., Gandhi, T.N., Simeral, M.L. and Hafner, J.H. Cholesterol conformational structures in phospholipid membranes. J. Phys. Chem. A, 128, 8002-8008 (2024); DOI.
Boeglin, W.E., Stec, D.F., Noguchi, S., Calcutt, M.W. and Brash, A.R. The Michael addition of thiols to 13-oxo-octadecadienoate (13-oxo-ODE) with implications for LC-MS analysis of glutathione conjugation. J. Biol. Chem., 300, 107293 (2024); DOI.
Borén, J., Taskinen, M.R. and Packard, C.J. Biosynthesis and metabolism of ApoB-containing lipoproteins. Annu. Rev. Nutr., 44, 179-204 (2024); DOI.
Bornfeldt, K.E. Apolipoprotein C3: form begets function. J. Lipid Res., 65, 100475 (2024); DOI.
Brankovic, M. and others. Therapeutic potential of palmitoylethanolamide in gastrointestinal disorders. Antioxidants, 13, 600 (2024); DOI.
Breithofer, J. and others. Phospholipase A2 group IVD mediates the transacylation of glycerophospholipids and acylglycerols. J. Lipid Res., 65, 100685 (2024); DOI.
Brejchova, J., Brejchova, K. and Kuda, O. Metabolic pathways of acylcarnitine synthesis. Physiol. Res., 73, S153-S163 (2024); DOI.
Briand-Mésange, F. and others. From classical to alternative pathways of 2-arachidonoylglycerol synthesis: AlterAGs at the crossroad of endocannabinoid and lysophospholipid signaling. Molecules, 29, 3694 (2024); DOI.
Brown, M.S. and Goldstein, J.L. How the JCI's most-cited paper sparked the field of lipoprotein research. J. Clin. Invest., 134, e177475 (2024); DOI.
Bulfon, D. and others. Functionally overlapping intra- and extralysosomal pathways promote bis(monoacylglycero)phosphate synthesis in mammalian cells. Nature Commun., 15, 9937 (2024); DOI.
Burt, M. and others. Lipid A in outer membrane vesicles shields bacteria from polymyxins. J. Extracell. Ves., 13, e12447 (2024); DOI.
Buyachuihan, L., Stegemann, F. and Grininger, M. How acyl carrier proteins (ACPs) direct fatty acid and polyketide biosynthesis. Angew. Chem.-Int. Ed., 63, e202312476 (2024); DOI.
Byrne, L. and Guiry, P.J. Advances in the chemistry and biology of specialised pro-resolving mediators (SPMs). Molecules, 29, 2233 (2024); DOI.
Cai, F.J. and Wang, C.H. Comprehensive review of the phytochemistry, pharmacology, pharmacokinetics, and toxicology of alkamides (2016-2022). Phytochemistry, 220, 114006 (2024); DOI.
Cai, J.Y., Cheng, H.W. and Xu, S.T. ABHD5 as a friend or an enemy in cancer biology? Front. Oncol., 14, 1447509 (2024); DOI.
Canals, D. and Hannun, Y.A. Biological function, topology, and quantification of plasma membrane ceramide. Adv. Biol. Reg., 91, 101009 (2024); DOI.
Cao, Y., Chen, J.J., Xiao, J., Hong, Y.J., Xu, K. and Zhu, Y. Butyrate: a bridge between intestinal flora and rheumatoid arthritis. Front. Immun., 15, 1475529 (2024); DOI.
Casalin, I., Ceneri, E., Ratti, S., Manzoli, L., Cocco, L. and Follo, M.Y. Nuclear phospholipids and signaling: an update of the story. Cells, 13, 713 (2024); DOI.
Castillo, HB., Shuster, S.O., Tarekegn, L.H. and Davis, C.M. Oleic acid differentially affects lipid droplet storage of de novo synthesized lipids in hepatocytes and adipocytes. Chem. Commun., 60, 3138-3141 (2024); DOI.
Chakraborty, A. and Kamat, S.S. Lysophosphatidylserine: A signaling lipid with implications in human diseases. Chem. Rev., 124, 5470-5504 (2024); DOI.
Chakraborty, P., Gamage, H.K.A.H. and Laird, A.S. Butyrate as a potential therapeutic agent for neurodegenerative disorders. Neurochem. Int., 176, 105745 (2024); DOI.
Chandrasekaran, P., Weiskirchen, S. and Weiskirchen, R. Perilipins: A family of five fat-droplet storing proteins that play a significant role in fat homeostasis. J. Cell. Biochem., 1-16 (2024); DOI.
Cheng, T.Y. and others. Lipidomic scanning of self-lipids identifies headless antigens for natural killer T cells. Proc. Natl. Acad. Sci. USA, 121, e2321686121 (2024); DOI.
Chun, K.S., Kim, E.H., Kim, D.H., Song, N.Y., Kim, W., Na, H.K. and Surh, Y.J. Targeting cyclooxygenase-2 for chemoprevention of inflammation-associated intestinal carcinogenesis: An update. Biochem. Pharm., 228, 116259 (2024); DOI.
Cianciosi, D and others. Can alpha-linolenic acid be a modulator of cytokine storm, oxidative stress and immune response in SARS-CoV-2 infection? Food Frontiers, 5, 73-93 (2024); DOI.
Ciesielski, V., Legrand, P., Blat, S. and Rioux, V New insights on pentadecanoic acid with special focus on its controversial essentiality: A mini-review. Biochimie, 227B, 123-129 (2024); DOI.
Claesson, H.E., Sjöberg, J., Xu, D.W. and Björkholm, M. Expression and putative biological roles of lipoxygenases and leukotriene receptors in leukemia and lymphoma. Prostaglandins Other Lipid Mediators, 174, 106871 (2024); DOI.
Coates, H.W., Nguyen, T.B., Du, X.M., Olzomer, E.M., Farrell, R., Byrne, F.L., Yang, H.Y. and Brown, A.J. The constitutively active form of a key cholesterol synthesis enzyme is lipid droplet-localized and upregulated in endometrial cancer tissues. J. Biol. Chem., 300, 107232 (2024); DOI.
Cockcroft, S. The expanding roles of PI4P and PI(4,5)P2 at the plasma membrane: Role of phosphatidylinositol transfer proteins. Biochim. Biophys. Acta, Lipids, 1869, 159394 (2024); DOI.
Colaço-Gaspar, M., Hofer, P., Oberer, M. and Zechner, R. PNPLA-mediated lipid hydrolysis and transacylation - At the intersection of catabolism and anabolism. J. Pharm. Biomed. Anal., 1869, 159410 (2024); DOI.
Colussi, N., Chang, F. and Schopfer, F.J. The specificity of endogenous fatty acid nitration: only conjugated substrates support the in vivo formation of nitro-fatty acids. Redox Biochem. Chem., 9, 100037 (2024); DOI.
Comella, F. and others. Oleoylethanolamide mitigates cardiometabolic disruption secondary to obesity induced by high-fat diet in mice. Life Sci., 359, 123226 (2024); DOI.
Cook, R., Froehlich, J.E., Yang, Y., Korkmaz, I., Kramer, D.M. and Benning, C. Chloroplast phosphatases LPPγ and LPPε1 facilitate conversion of extraplastidic phospholipids to galactolipids. Plant Physiol., 195, 1506-1520 (2024); DOI.
Cosset, F.L. and Denolly, S. Lipoprotein receptors: A little grease for enveloped viruses to open the lock? J. Biol. Chem., 300, 107849 (2024); DOI.
Costa, J., Gabrielli, M., Altabe, S.G. and Uttaro, A.D. The presence of plasmenyl ether lipids in Capsaspora owczarzaki suggests a premetazoan origin of plasmalogen biosynthesis in animals. Heliyon, 10, E32807 (2024); DOI.
Cronan, J.E. Unsaturated fatty acid synthesis in bacteria: Mechanisms and regulation of canonical and remarkably noncanonical pathways. Biochimie, 218, 137-151 (2024); DOI.
Cui, S.J. and Ye, J. 7-Dehydrocholesterol: A sterol shield against an iron sword. Mol. Cell, 84, 1183-1185 (2024); DOI.
Cui, Y.F., Man, S.L., Tao, J.J., Liu, Y., Ma, L., Guo, L.P., Huang, L.Q., Liu, C.X. and Gao, W.Y. The lipid droplet in cancer: From being a tumor-supporting hallmark to clinical therapy. Acta Physiol., 240, e14087 (2024); DOI.
D'Agostino, G.D., Chaudhari, S.N. and Devlin, A.S. Host-microbiome orchestration of the sulfated metabolome. Nature Chem. Biol., 20, 410-421 (2024); DOI.
Dahal, A. and others. Platelet- activating factor (PAF) promotes immunosuppressive neutrophil differentiation within tumors. Proc. Natl. Acad. Sci. USA, 121, e2406748121 (2024); DOI.
Dang, E.V. and Reboldi, A. Cholesterol sensing and metabolic adaptation in tissue immunity. Trends Immun., 45, 861-870 (2024); DOI.
Deng, Y., Wang, F., Wang, T.L., Zhang, X., Chen, D., Wang, Y.H., Chen, C.J. and Pan, G.T. Research progress in the mechanisms and functions of specialized pro-resolving mediators in neurological diseases. Prostaglandins Other Lipid Mediators, 175, 106905 (2024); DOI.
Der, C., Courty, P.-E., Recorbet, G., Wipf, D., Simon-Plas, F. and Gerbeau-Pissot, Patricia Sterols, pleiotropic players in plant-microbe interactions. Trends Plant Sci.,29, 524-534 (2024); DOI.
Diao, Z.J. and others. Revision of the sophorolipid biosynthetic pathway in Starmerella bombicola based on new insights in the substrate profile of its lactone esterase. Biotechn. Biofuels Bioprod., 17, 89 (2024); DOI.
Dieckmann, C.L. A hub for regulation of mitochondrial metabolism: Fatty acid and lipoic acid biosynthesis. IUBMB Life, 76, 332-344 (2024); DOI.
Dietze, R., Szymanski, W., Ojasalu, K., Finkernagel, F., Nist, A., Stiewe, T., Graumann, J. and Mueller, R. Phosphoproteomics reveals selective regulation of signaling pathways by lysophosphatidic acid species in macrophages. Cells, 13, 810 (2024); DOI.
Ding, S., Grossi, V., Hopmans, E.C. and Damsté, J.S.S. Nitrogen and sulfur for phosphorus: Lipidome adaptation of anaerobic sulfate-reducing bacteria in phosphorus-deprived conditions. PNAS, 121, e2400711121 (2024); DOI.
Ding, S., Li, G.R., Fu, T., Zhang, T.Y., Lu, X., Li, N. and Geng, Q. Ceramides and mitochondrial homeostasis. Cell. Signal., 117, 111099 (2024); DOI.
Ding, W.L., Gu, J.Y., Xu, W.Y., Wu, J., Huang, Y.W., Zhang, S. and Lin, S.X. The biosynthesis and applications of protein lipidation. Chem. Rev., 124, 12176-12212 (2024); DOI.
Dini, S., Bekhit, A.E.A., Roohinejad, S., Vale, J.M. and Agyei, D. The physicochemical and functional properties of biosurfactants: a review. Molecules, 29, 2544 (2024); DOI.
Dixon, S.J. and Olzmann, J.A. The cell biology of ferroptosis. Nat. Rev. Mol. Cell Biol., 25, 424-442 (2024); DOI.
Doll, C.L. and Snider, A.J. The diverse roles of sphingolipids in inflammatory bowel disease. FASEB J., 38, e23777 (2024); DOI.
Dreckmann, T.M. and others. Biosynthesis of the corallorazines, a widespread class of antibiotic cyclic lipodipeptides. RSC Chem. Biol., 5, 970-980 (2024); DOI.
Du, Y.H. and others. The role of short chain fatty acids in inflammation and body health. Int. J. Mol. Sci., 25, 7379 (2024); DOI.
Dubovik, V., Dalinova, A. and Berestetskiy, A. Natural ten-membered lactones: sources, structural diversity, biological activity, and intriguing future. Nat. Prod. Rep., 41, 85-112 (2024); DOI.
Duché, G. and Sanderson, J.M. The chemical reactivity of membrane lipids. Chem. Rev., 124, 3284-3330 (2024); DOI.
Dunina-Barkovskaya, A.Y. Cell membrane cholesterol and regulation of cellular processes: new and the same old thing. Biochemistry (Moscow) A, Membrane Cell Biol., 18, 224-240 (2024); DOI.
Ehlers, S.F., Manikowski, D., Steffes, G., Ehring, K., Gude, F. and Grobe, K. A residual N-terminal peptide enhances signaling of depalmitoylated hedgehog to the patched receptor. J. Devel. Biol., 12, 11 (2024); DOI.
Elmihi, K.A., Leonard, K.A., Nelson, R., Thiesen, A., Clugston, R.D. and Jacobs, R.L. The emerging role of ethanolamine phosphate phospholyase in regulating hepatic phosphatidylethanolamine and plasma lipoprotein metabolism in mice. FASEB J., 38, e70063 (2024); DOI.
Enkler, L. and Spang, A. Functional interplay of lipid droplets and mitochondria. FEBS Letts, 598, 1235-1251 (2024); DOI.
Ezeduru, V., Shao, A.R.Q., Venegas, F.A., McKay, G., Rich, J., Nguyen, D. and Thibodeaux, C. Defining the functional properties of cyclopropane fatty acid synthase from Pseudomonas aeruginosa PAO1. J. Biol. Chem., 300, 107618 (2024); DOI.
Fan, J.L., Sah, S.K., Jorge, G.L., Blanford, J., Xie, D.L., Yu, L.H., Thelen, J., Shanklin, J. and Xu, C.C. Arabidopsis trigalactosyldiacylglycerol1 mutants reveal a critical role for phosphatidylcholine remodeling in lipid homeostasis. Plant J., 120, 788-798 (2024); DOI.
Fan, Y.Z. and others. STAT3 activation of SCAP-SREBP-1 signaling upregulates fatty acid synthesis to promote tumor growth. J. Biol. Chem., 300, 107351 (2024); DOI.
Faria, R.L., Prado, F.M., Junqueira, H.C., Fabiano, K.C., Diniz, L.R., Baptista, M.S., Di Mascio, P. and Miyamoto, S. Plasmalogen oxidation induces the generation of excited molecules and electrophilic lipid species. PNAS Nexus, 3, pgae216 (2024); DOI.
Ferreira, H.B. and Domingues, M.R. Oxidized phospholipid-protein adducts: The future targets of interest. Arch. Biochem. Biophys., 754, 109956 (2024); DOI.
Ferreira, M.C.D., Pendleton, A., Yeo, W.S., Gadea, F.C.M., Camelo, D., McGuire, M. and Brinsmade, S.R. In Staphylococcus aureus, the acyl-CoA synthetase MbcS supports branched-chain fatty acid synthesis from carboxylic acid and aldehyde precursors. Mol. Microbiol., 121, 865-881 (2024); DOI.
Fiorucci, S., Marchianò, S., Urbani, G., Di Giorgio, C., Distrutti, E., Zampella, A. and Biagioli, M. Immunology of bile acids regulated receptors. Prog. Lipid Res., 95, 101291 (2024); DOI.
Fleishman, J.S. and Kumar, S. Bile acid metabolism and signaling in health and disease: molecular mechanisms and therapeutic targets. Sig. Transduct. Target Ther., 9, 97 (2024); DOI.
Fougère, L., Mongrand, S. and Boutté, Y. The function of sphingolipids in membrane trafficking and cell signaling in plants, in comparison with yeast and animal cells. Biochim. Biophys. Acta, Lipids, 1869, 159463 (2024); DOI.
Fredman, G. and Serhan, C.N. Specialized pro-resolving mediators in vascular inflammation and atherosclerotic cardiovascular disease. Nature Rev. Cardiol., 21, 808-823 (2024); DOI.
Fuentes, J.M. and Morcillo, P. The role of cardiolipin in mitochondrial function and neurodegenerative diseases. Cells, 13, 609 (2024); DOI.
Fujii, S., Wada, H. and Kobayashi, K. Orchestration of photosynthesis-associated gene expression and galactolipid biosynthesis during chloroplast differentiation in plants. Plant Cell Physiol., 65, 1014-1018 (2024); DOI.
Futerman, A.H. Why do we study sphingolipids? Pflug. Arch. Eur. J. Physiol., 476, 1781-1788 (2024); DOI.
Garcia, A.A., Chadwick, G.L., Liu, X.L. and Welander, P.V. Identification of two archaeal GDGT lipid–modifying proteins reveals diverse microbes capable of GMGT biosynthesis and modification. Proc. Natl. Acad. Sci. USA, 121, e2318761121 (2024); DOI.
Garcia, B.M. and others. Glutamine sensing licenses cholesterol synthesis. EMBO J., 43, 5837-5856 (2024); DOI.
Gasperini, D. and Howe, G.A. Phytohormones in a universe of regulatory metabolites: lessons from jasmonate. Plant Physiol., 195, 135-154 (2024); DOI.
George, N. and Xiao, J.H. Inhibiting sphingosine 1-phosphate lyase: From efficacy to mechanism. Neurobiol. Dis., 199, 106585 (2024); DOI.
Glueck, M., Lucaciu, A., Subburayalu, J., Kestner, R.I., Pfeilschifter, W., Vutukuri, R. and Pfeilschifter, J. Atypical sphingosine-1-phosphate metabolites-biological implications of alkyl chain length. Pflug. Arch. Eur. J. Physiol., 476, 1833-1843 (2024); DOI.
Goggin, F.L. and Fischer, H.D. Singlet oxygen signalling and its potential roles in plant biotic interactions. Plant Cell Environ., 47, 957-1970 (2024); DOI.
Gogoi, K., Gogoi, H., Borgohain, M., Saikia, R., Chikkaputtaiah, C., Hiremath, S. and Basu, U. The molecular dynamics between reactive oxygen species (ROS), reactive nitrogen species (RNS) and phytohormones in plant's response to biotic stress. Plant Cell Rep., 43, 263 (2024); DOI.
Golovko, M.Y., Seeger, D.R., Schofield, B., Besch, D., Kotha, P., Mansouripour, A., Solaymani-Mohammadi, S. and Golovko, S.A. 12-Hydroxyeicosatetraenoic acid is the only enzymatically produced HETE increased under brain ischemia. PLEFA, 202, 102631 (2024); DOI.
Gong, C. and others. A horizontally transferred plant fatty acid desaturase gene steers whitefly reproduction. Adv. Sci., 11, 2306653 (2024); DOI.
Gong, Q., Yao, S., Wang,X. and Li, G. Fine-tuning phosphatidic acid production for optimal plant stress responses. Trends Biochem. Sci., 49, 663-666 (2024); DOI.
Guo, J.Q., He, J.C., Xu, S.L., Chen, X., Zhu, Z.W., Ji, X.M. and Wu, D. Phosphatidylserine: a novel target for ischemic stroke treatment. Biomolecules, 14, 1293 (2024); DOI.
Guo, J.R. and others. Cholesterol metabolism: physiological regulation and diseases. Medcomm, 5, e476 (2024); DOI.
Guo, Q.Q., Zhong, C.Y., Dong, H.J., Cronan, J.E. and Wang, H.H. Diversity in fatty acid elongation enzymes: The FabB long-chain ?-ketoacyl-ACP synthase I initiates fatty acid synthesis in Pseudomonas putida F1. J. Biol. Chem., 300, 105600 (2024); DOI.
Guo, Z.W. and Kundu, S. Recent research progress in glycosylphosphatidylinositol-anchored protein biosynthesis, chemical/chemoenzymatic synthesis, and interaction with the cell membrane. Curr. Opinion Chem. Biol., 78, 102421 (2024); DOI.
Gypakis, A., Adelt, S., Lemoine, H., Vogel, G. and Wasner, H.K. Activated inositol phosphate, substrate for synthesis of prostaglandylinositol cyclic phosphate (cyclic PIP)-the key for the effectiveness of inositol-feeding. Int. J. Mol. Sci., 25, 1362 (2024); DOI.
Hajeyah, A.A. and others. Phosphatidylthreonine is a procoagulant lipid detected in human blood and elevated in coronary artery disease. J. Lipid Res., 65, 100484 (2024); DOI.
Halliwell, B. Understanding mechanisms of antioxidant action in health and disease. Nature Rev. Mol. Cell Biol., 25, 13–33 (2024); DOI.
Hamaï, A. and Drin, G. Specificity of lipid transfer proteins: An in vitro story. Biochimie, 227B, 85-110 (2024); DOI.
Hayashi, D. and Dennis, E.A. Differentiating human phospholipase A2's activity toward phosphatidylinositol, phosphatidylinositol phosphate and phosphatidylinositol bisphosphate. Biochim. Biophys. Acta, Lipids, 1869, 159527 (2024); DOI.
Hegde, M., Girisa, S., Aswani, B.S., Alqahtani, M.S., Abbas, M., Sethi, G. and Kunnumakkara, A.B. Harnessing potential role of gangliosides in immunomodulation and cancer therapeutics. Life Sci., 351, 122786 (2024); DOI.
Hejazian, S.M., Pirmoradi, S., Vahed, S.Z., Roy, R.K. and Khatibi, S.M.H. An update on glycerophosphodiester phosphodiesterases; from bacteria to human. Protein J., 43, 187-199 (2024); DOI.
Heng, Y.C., Wong, G.W.J. and Kittelmann, S. Expanding the biosynthesis spectrum of hydroxy fatty acids: unleashing the potential of novel bacterial fatty acid hydratases. Biotechnol. Biofuels Bioprod., 17, 131 (2024); DOI.
Herker, E. Lipid droplets in virus replication. FEBS Letts, 598, 1299-1300 (2024); DOI.
Hernandez-Corbacho, M. and Canals, D Drug targeting of acyltransferases in the triacylglyceride and 1-O-acylceramide biosynthetic pathways. Mol. Pharmacol., 105, 166-178 (2024); DOI.
Hernandez-Lara, M.A., Richard, J. and Deshpande, D.A. Diacylglycerol kinase is a keystone regulator of signaling relevant to the pathophysiology of asthma. Am. J. Physiol., Lung Cell. Mol. Physiol., 327, L3-L18 (2024); DOI.
Holtsclaw, R.E., Mahmud, S. and Koo, A.J. Identification and characterization of GLYCEROLIPASE A1 for wound-triggered JA biosynthesis in Nicotiana benthamiana leaves. Plant Mol. Biol., 114, 4 (2024); DOI.
Horibata, Y. and Sugimoto, H. The ceramide transport protein CERT is involved in alkylacylglycerol transfer from the ER to the Golgi for the biosynthesis of ether phospholipid. Arch. Biochem. Biophys., 752, 109871 (2024); DOI.
Hosono, Y. and others. Identification of α-galactosylceramide as an endogenous mammalian antigen for iNKT cells. J. Exp. Med., 222, e20240728 (2024); DOI.
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