Linoelaidic acid is a lipid of Fatty Acyls (FA) class. Linoelaidic acid is associated with abnormalities such as Obesity, Diabetes Mellitus, Non-Insulin-Dependent, Pneumonia, Chronic Obstructive Airway Disease and Metabolic syndrome. The involved functions are known as Metabolic Inhibition, Steroid biosynthesis, Signal Transduction, Insulin Resistance and Inflammation. Linoelaidic acid often locates in Mitochondria, Membrane and Cytoplasmic matrix. The associated genes with Linoelaidic acid are FFAR1 gene, C9orf7 gene, TNF gene, CCL2 gene and TLR4 gene. The related lipids are Fatty Acids, octadecadienoic acid, Steroids, methyl linoleate and Cyanoketone.
To understand associated biological information of Linoelaidic acid, we collected biological information of abnormalities, associated pathways, cellular/molecular locations, biological functions, related genes/proteins, lipids and common seen animal/experimental models with organized paragraphs from literatures.
Linoelaidic acid is suspected in Obesity, Diabetes Mellitus, Non-Insulin-Dependent, Pneumonia, Chronic Obstructive Airway Disease, Metabolic syndrome and other diseases in descending order of the highest number of associated sentences.
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We collected disease MeSH terms mapped to the references associated with Linoelaidic acid
There are no associated biomedical information in the current reference collection.
Associated locations are in red color. Not associated locations are in black.
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Function | Cross reference | Weighted score | Related literatures |
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Lipid concept | Cross reference | Weighted score | Related literatures |
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Gene | Cross reference | Weighted score | Related literatures |
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There are no associated biomedical information in the current reference collection.
Authors | Title | Published | Journal | PubMed Link |
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Frenzel E et al. | α1-Antitrypsin Combines with Plasma Fatty Acids and Induces Angiopoietin-like Protein 4 Expression. | 2015 | J. Immunol. | pmid:26363050 |
Mizuta K et al. | Novel identification of the free fatty acid receptor FFAR1 that promotes contraction in airway smooth muscle. | 2015 | Am. J. Physiol. Lung Cell Mol. Physiol. | pmid:26342087 |
Lands B | Omega-3 PUFAs Lower the Propensity for Arachidonic Acid Cascade Overreactions. | 2015 | Biomed Res Int | pmid:26301244 |
He J et al. | Correlation of polyunsaturated fatty acids with the cold adaptation of Rhodotorula glutinis. | 2015 | Yeast | pmid:26284451 |
Manosalva C et al. | Cloning, identification and functional characterization of bovine free fatty acid receptor-1 (FFAR1/GPR40) in neutrophils. | 2015 | PLoS ONE | pmid:25790461 |
Xing J et al. | Determining antioxidant activities of lactobacilli cell-free supernatants by cellular antioxidant assay: a comparison with traditional methods. | 2015 | PLoS ONE | pmid:25789875 |
Saccenti E et al. | Strategies for individual phenotyping of linoleic and arachidonic acid metabolism using an oral glucose tolerance test. | 2015 | PLoS ONE | pmid:25786212 |
Yoshida Y et al. | Chemistry of lipid peroxidation products and their use as biomarkers in early detection of diseases. | 2015 | J Oleo Sci | pmid:25766928 |
Guo Q et al. | Impact of additives on thermally-induced trans isomers in 9c,12c linoleic acid triacylglycerol. | 2015 | Food Chem | pmid:25529684 |
Pruzanski W et al. | Diverse activity of human secretory phospholipases A2 on the migration of human vascular smooth muscle cells. | 2015 | Inflamm. Res. | pmid:25999087 |