Linoelaidic acid

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.

Cross Reference

Introduction

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.

What diseases are associated with Linoelaidic acid?

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.

Related references are mostly published in these journals:

Disease Cross reference Weighted score Related literature
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Possible diseases from mapped MeSH terms on references

We collected disease MeSH terms mapped to the references associated with Linoelaidic acid

MeSH term MeSH ID Detail
Gastritis D005756 27 associated lipids
Gastroesophageal Reflux D005764 10 associated lipids
Glioma D005910 112 associated lipids
Glomerulonephritis D005921 35 associated lipids
Haemophilus Infections D006192 3 associated lipids
Heart Defects, Congenital D006330 20 associated lipids
Heart Failure D006333 36 associated lipids
Hemolysis D006461 131 associated lipids
Gastrointestinal Hemorrhage D006471 27 associated lipids
Hepatolenticular Degeneration D006527 3 associated lipids
Carcinoma, Hepatocellular D006528 140 associated lipids
Hypercholesterolemia D006937 91 associated lipids
Hyperlipoproteinemia Type II D006938 22 associated lipids
Hyperlipidemia, Familial Combined D006950 9 associated lipids
Hyperlipoproteinemias D006951 15 associated lipids
Hyperplasia D006965 34 associated lipids
Hypersensitivity, Immediate D006969 14 associated lipids
Hypertension D006973 115 associated lipids
Hypertension, Pulmonary D006976 32 associated lipids
Hypertension, Renal D006977 9 associated lipids
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PubChem Associated disorders and diseases

What pathways are associated with Linoelaidic acid

There are no associated biomedical information in the current reference collection.

PubChem Biomolecular Interactions and Pathways

Link to PubChem Biomolecular Interactions and Pathways

What cellular locations are associated with Linoelaidic acid?

Related references are published most in these journals:

Location Cross reference Weighted score Related literatures
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What functions are associated with Linoelaidic acid?


Related references are published most in these journals:

Function Cross reference Weighted score Related literatures

What lipids are associated with Linoelaidic acid?

Related references are published most in these journals:

Lipid concept Cross reference Weighted score Related literatures
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What genes are associated with Linoelaidic acid?

Related references are published most in these journals:


Gene Cross reference Weighted score Related literatures

What common seen animal models are associated with Linoelaidic acid?

There are no associated biomedical information in the current reference collection.

NCBI Entrez Crosslinks

All references with Linoelaidic acid

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Authors Title Published Journal PubMed Link
Reed S et al. Dietary zinc deficiency affects blood linoleic acid: dihomo-γ-linolenic acid (LA:DGLA) ratio; a sensitive physiological marker of zinc status in vivo (Gallus gallus). 2014 Nutrients pmid:24658588
Petrogianni M et al. Additional benefit in CVD risk indices derived from the consumption of fortified milk when combined with a lifestyle intervention. 2014 Public Health Nutr pmid:23249766
Hodson L et al. Plasma and erythrocyte fatty acids reflect intakes of saturated and n-6 PUFA within a similar time frame. 2014 J. Nutr. pmid:24225449
Phan CW et al. Intrastrain comparison of the chemical composition and antioxidant activity of an edible mushroom, Pleurotus giganteus, and its potent neuritogenic properties. 2014 ScientificWorldJournal pmid:25121118
Purushothaman D et al. Flaxseed oil supplementation alters the expression of inflammatory-related genes in dogs. 2014 Genet. Mol. Res. pmid:25078588
van Schalkwijk DB et al. Dietary medium chain fatty acid supplementation leads to reduced VLDL lipolysis and uptake rates in comparison to linoleic acid supplementation. 2014 PLoS ONE pmid:25049048
Beavers WN et al. ω-Alkynyl lipid surrogates for polyunsaturated fatty acids: free radical and enzymatic oxidations. 2014 J. Am. Chem. Soc. pmid:25034362
Shimamoto C et al. Functional characterization of FABP3, 5 and 7 gene variants identified in schizophrenia and autism spectrum disorder and mouse behavioral studies. 2014 Hum. Mol. Genet. pmid:25027319
Nadtochiy SM et al. Mitochondrially targeted nitro-linoleate: a new tool for the study of cardioprotection. 2014 Br. J. Pharmacol. pmid:24102583
Wright CR and Setzer WN Chemical composition of volatiles from Opuntia littoralis, Opuntia ficus-indica, and Opuntia prolifera growing on Catalina Island, California. 2014 Nat. Prod. Res. pmid:24354326
Huang X et al. Serum fatty acid patterns, insulin sensitivity and the metabolic syndrome in individuals with chronic kidney disease. 2014 J. Intern. Med. pmid:24011327
Yavin E et al. Metabolic conversion of intra-amniotically-injected deuterium-labeled essential fatty acids by fetal rats following maternal n-3 fatty acid deficiency. 2014 Biochim. Biophys. Acta pmid:24960100
Wennman A et al. Kinetic investigation of the rate-limiting step of manganese- and iron-lipoxygenases. 2014 Arch. Biochem. Biophys. pmid:24857825
Huang FC et al. Expression and characterization of CYP52 genes involved in the biosynthesis of sophorolipid and alkane metabolism from Starmerella bombicola. 2014 Appl. Environ. Microbiol. pmid:24242247
Dailey MJ et al. Nutrient-specific feeding and endocrine effects of jejunal infusions in obese animals. 2014 Am. J. Physiol. Regul. Integr. Comp. Physiol. pmid:24452547
Shen J et al. A 13-lipoxygenase, TomloxC, is essential for synthesis of C5 flavour volatiles in tomato. 2014 J. Exp. Bot. pmid:24453226
Mulligan CM et al. Inhibition of delta-6 desaturase reverses cardiolipin remodeling and prevents contractile dysfunction in the aged mouse heart without altering mitochondrial respiratory function. 2014 J. Gerontol. A Biol. Sci. Med. Sci. pmid:24418793
Oh YT et al. Regulation of hypothalamic-pituitary-adrenal axis by circulating free fatty acids in male Wistar rats: role of individual free fatty acids. 2014 Endocrinology pmid:24424035
Ozdener MH et al. CD36- and GPR120-mediated Ca²⁺ signaling in human taste bud cells mediates differential responses to fatty acids and is altered in obese mice. 2014 Gastroenterology pmid:24412488
Mahendran Y et al. Association of erythrocyte membrane fatty acids with changes in glycemia and risk of type 2 diabetes. 2014 Am. J. Clin. Nutr. pmid:24153340