LipidPedia

MeSH term	MeSH ID	Detail
Hyperlipidemias	D006949	73 associated lipids
Malabsorption Syndromes	D008286	16 associated lipids
Albuminuria	D000419	18 associated lipids
Vasculitis	D014657	14 associated lipids
Atherosclerosis	D050197	85 associated lipids
Peripheral Arterial Disease	D058729	7 associated lipids
Thromboangiitis Obliterans	D013919	4 associated lipids
Bird Diseases	D001715	4 associated lipids
Obesity, Morbid	D009767	8 associated lipids
Cell Transformation, Viral	D002472	26 associated lipids

Per page 10 20 50 100 | Total 1837

Authors	Title	Published	Journal	PubMed Link
Dorset DL	Cholesteryl esters of saturated fatty acids: cosolubility and fractionation of binary mixtures.	1987	J. Lipid Res.	pmid:3668393
Kam W et al.	Contribution of omega-oxidation to fatty acid oxidation by liver of rat and monkey.	1978	J. Lipid Res.	pmid:97354
van der Valk PG et al.	Skin irritancy of surfactants as assessed by water vapor loss measurements.	1984	J. Invest. Dermatol.	pmid:6699429
BLANK IH and GOULD E	Penetration of anionic surfactants into skin. III. Penetration from buffered sodium laurate solutions.	1961	J. Invest. Dermatol.	pmid:13869837
BLANK IH and GOULD E	Penetration of anionic surfactants (surface active agents) into skin. I. Penetration of sodium laurate and sodium dodecyl sulfate into excised human skin.	1959	J. Invest. Dermatol.	pmid:13801318
Gallo RL and Nakatsuji T	Microbial symbiosis with the innate immune defense system of the skin.	2011	J. Invest. Dermatol.	pmid:21697881
Nakatsuji T et al.	Antimicrobial property of lauric acid against Propionibacterium acnes: its therapeutic potential for inflammatory acne vulgaris.	2009	J. Invest. Dermatol.	pmid:19387482
Nakatsuji T et al.	Sebum free fatty acids enhance the innate immune defense of human sebocytes by upregulating beta-defensin-2 expression.	2010	J. Invest. Dermatol.	pmid:20032992
Dinan L et al.	Synthesis and biological activities of turkesterone 11alpha-acyl derivatives.	2003	J. Insect Sci.	pmid:15841223
Tran NH et al.	A series of hybrid P450 BM3 enzymes with different catalytic activity in the light-initiated hydroxylation of lauric acid.	2012	J. Inorg. Biochem.	pmid:22922311
Udit AK et al.	Cobaltocene-mediated catalytic monooxygenation using holo and heme domain cytochrome P450 BM3.	2004	J. Inorg. Biochem.	pmid:15337607
Stanislawski L et al.	Hybridoma antibodies to the lipid-binding site(s) in the amino-terminal region of fibronectin inhibits binding of streptococcal lipoteichoic acid.	1987	J. Infect. Dis.	pmid:3298457
Youngquist JT et al.	Functional genomics analysis of free fatty acid production under continuous phosphate limiting conditions.	2017	J. Ind. Microbiol. Biotechnol.	pmid:27738839
Hu F and You S	Inactivation of type I polyhydroxyalkanoate synthase in Aeromonas hydrophila resulted in discovery of another potential PHA synthase.	2007	J. Ind. Microbiol. Biotechnol.	pmid:17043804
Weatherill AR et al.	Saturated and polyunsaturated fatty acids reciprocally modulate dendritic cell functions mediated through TLR4.	2005	J. Immunol.	pmid:15843537
Asai Y et al.	Soluble CD14 discriminates slight structural differences between lipid as that lead to distinct host cell activation.	2007	J. Immunol.	pmid:18025213
Dailey MO et al.	Induction of cell-mediated immunity to chemically modified antigens in guinea pigs. II. The interaction between lipid-conjugated antigens, macrophages, and T lymphocytes.	1977	J. Immunol.	pmid:300393
Champlin R and Hunter RL	Studies on the composition of adjuvants which selectively enhance delayed-type hypersensitivity to lipid conjugated protein antigens.	1975	J. Immunol.	pmid:1089714
Coon J and Hunter R	Properties of conjugated protein immunogens which selectively stimulate delayed-type hypersensitivity.	1975	J. Immunol.	pmid:1123546
Dailey MO and Hunter RL	Induction of cell-mediated immunity to chemically modified antigens in guinea pigs. I. Characterization of the immune response to lipid-conjugated protein antigens.	1977	J. Immunol.	pmid:66275
Cho BH et al.	Highly polymorphic human CYP4A11 gene.	2005	J. Hum. Genet.	pmid:15895287
Yuan Y et al.	Coupling electrokinetics with microbial biodegradation enhances the removal of cycloparaffinic hydrocarbons in soils.	2016	J. Hazard. Mater.	pmid:27501882
Hornung B et al.	Lauric acid inhibits the maturation of vesicular stomatitis virus.	1994	J. Gen. Virol.	pmid:8113756
Jacques NA	Membrane perturbation by cerulenin modulates glucosyltransferase secretion and acetate uptake by Streptococcus salivarius.	1983	J. Gen. Microbiol.	pmid:6229601
Fu J et al.	Camphor Tree Seed Kernel Oil Reduces Body Fat Deposition and Improves Blood Lipids in Rats.	2015	J. Food Sci.	pmid:26130050
Nehdi IA et al.	Chamaerops humilis L. var. argentea AndrÃ© date palm seed oil: a potential dietetic plant product.	2014	J. Food Sci.	pmid:24666023
Lungu B et al.	Resistance of nutrient-deprived Listeria monocytogenes 10403S and a DeltasigB mutant to chemical stresses in the presence or absence of oxygen.	2008	J. Food Sci.	pmid:18803717
Martin EM et al.	Control of Listeria monocytogenes by lauric arginate on frankfurters formulated with or without lactate/diacetate.	2009	J. Food Sci.	pmid:19723207
Marthina K and Barringer SA	Confectionery coating with an electrohydrodynamic (EHD) system.	2012	J. Food Sci.	pmid:22181825
Hagens S	Potential misuse of an antimicrobial resulting from a miscalculation in an efficacy study.	2010 Jan-Feb	J. Food Sci.	pmid:20492212
Hinton A and Ingram KD	Antimicrobial activity of potassium hydroxide and lauric acid against microorganisms associated with poultry processing.	2006	J. Food Prot.	pmid:16865894
Hinton A and Cason JA	Bacterial flora of processed broiler chicken skin after successive washings in mixtures of potassium hydroxide and lauric acid.	2008	J. Food Prot.	pmid:18724769
Hinton A and Ingram KD	Microbicidal activity of tripotassium phosphate and fatty acids toward spoilage and pathogenic bacteria associated with poultry.	2005	J. Food Prot.	pmid:16013388
Hoffman KL et al.	Antimicrobial effects of corn zein films impregnated with nisin, lauric acid, and EDTA.	2001	J. Food Prot.	pmid:11403145
LÃ³pez-Villalobos A et al.	Changes in fatty acid composition during development of tissues of coconut (Cocos nucifera L.) embryos in the intact nut and in vitro.	2001	J. Exp. Bot.	pmid:11432910
Zhou Z et al.	BnMs3 is required for tapetal differentiation and degradation, microspore separation, and pollen-wall biosynthesis in Brassica napus.	2012	J. Exp. Bot.	pmid:22174440
Dong L et al.	Lauric acid in crown daisy root exudate potently regulates root-knot nematode chemotaxis and disrupts Mi-flp-18 expression to block infection.	2014	J. Exp. Bot.	pmid:24170741
Thompson EP et al.	An Arabidopsis flavonoid transporter is required for anther dehiscence and pollen development.	2010	J. Exp. Bot.	pmid:19995827
HÃ¶fer R et al.	The Arabidopsis cytochrome P450 CYP86A1 encodes a fatty acid omega-hydroxylase involved in suberin monomer biosynthesis.	2008	J. Exp. Bot.	pmid:18544608
Collar DC et al.	Habitat use affects morphological diversification in dragon lizards.	2010	J. Evol. Biol.	pmid:20345808
Keegan FP and Blum JJ	Incorporation of label from acetate and laurate into the mannan of Leishmania donovani via the glyoxylate cycle.	1993 Nov-Dec	J. Eukaryot. Microbiol.	pmid:7904877
Huang WC et al.	Anti-bacterial and anti-inflammatory properties of capric acid against Propionibacterium acnes: a comparative study with lauric acid.	2014	J. Dermatol. Sci.	pmid:24284257
Iwami Y et al.	Effect of sucrose monolaurate on acid production, levels of glycolytic intermediates, and enzyme activities of Streptococcus mutans NCTC 10449.	1995	J. Dent. Res.	pmid:7560425
Giesy JG et al.	Effect of dose of calcium salts of conjugated linoleic acid (CLA) on percentage and fatty acid content of milk fat in midlactation holstein cows.	2002	J. Dairy Sci.	pmid:12214995
Li L and Ma Y	Effect of fatty acids on the Î²-oxidation system and thioesterase of Lactococcus lactis subspecies lactis.	2013	J. Dairy Sci.	pmid:23462166
Nafikov RA et al.	Sterol regulatory element binding transcription factor 1 (SREBF1) polymorphism and milk fatty acid composition.	2013	J. Dairy Sci.	pmid:23403193
van Zijderveld SM et al.	Effects of a combination of feed additives on methane production, diet digestibility, and animal performance in lactating dairy cows.	2011	J. Dairy Sci.	pmid:21338809
Hristov AN et al.	Effect of lauric acid and coconut oil on ruminal fermentation, digestion, ammonia losses from manure, and milk fatty acid composition in lactating cows.	2009	J. Dairy Sci.	pmid:19841218
Hermansen JE	Prediction of milk fatty acid profile in dairy cows fed dietary fat differing in fatty acid composition.	1995	J. Dairy Sci.	pmid:7790578
Rindsig RB and Schultz LH	Effect of feeding lauric acid to lactating cows on milk composition, rumen fermentation, and blood lipids.	1974	J. Dairy Sci.	pmid:4430768

lauric acid

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