| MeSH term | MeSH ID | Detail |
|---|---|---|
| Lung Neoplasms | D008175 | 171 associated lipids |
| Body Weight | D001835 | 333 associated lipids |
18194-24-6
18194-24-6 is a lipid of Glycerophospholipids (GP) class. 18194-24-6 is associated with abnormalities such as Cerebrovascular accident, Renal tubular disorder, Atherosclerosis, Hyperlipoproteinemia Type III and Lipid Metabolism Disorders. The involved functions are known as Process, protein folding, Catalyst, Biochemical Pathway and Fold in Medical Device Material. 18194-24-6 often locates in Tissue membrane, Membrane, periplasm, vesicle membrane and outer membrane. The associated genes with 18194-24-6 are Integral Membrane Proteins, Protein Structure, RTN4 gene, RTN4R gene and Protein, Organized by Structure. The related lipids are Micelles, dimyristoylphosphatidylglycerol, 1,2-dihexadecyl-sn-glycero-3-phosphocholine, Unilamellar Vesicles and cholesteryl oleate. The related experimental models are Mouse Model, Arthritis, Adjuvant-Induced, Disease model and Xenograft Model.
Cross Reference
Introduction
To understand associated biological information of 18194-24-6, 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 18194-24-6?
18194-24-6 is suspected in Atherosclerosis, Cardiovascular Diseases, Dehydration, Abnormal shape, Renal tubular disorder, Hyperlipoproteinemia Type III 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 18194-24-6
PubChem Associated disorders and diseases
What pathways are associated with 18194-24-6
There are no associated biomedical information in the current reference collection.
PubChem Biomolecular Interactions and Pathways
Link to PubChem Biomolecular Interactions and PathwaysWhat cellular locations are associated with 18194-24-6?
Visualization in cellular structure
Associated locations are in red color. Not associated locations are in black.
Related references are published most in these journals:
| Location | Cross reference | Weighted score | Related literatures |
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What functions are associated with 18194-24-6?
Related references are published most in these journals:
| Function | Cross reference | Weighted score | Related literatures |
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What lipids are associated with 18194-24-6?
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 18194-24-6?
Related references are published most in these journals:
| Gene | Cross reference | Weighted score | Related literatures |
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What common seen animal models are associated with 18194-24-6?
Mouse Model
Mouse Model are used in the study 'Association of a model class A (apolipoprotein) amphipathic alpha helical peptide with lipid: high resolution NMR studies of peptide.lipid discoidal complexes.' (Mishra VK et al., 2006).
Arthritis, Adjuvant-Induced
Arthritis, Adjuvant-Induced are used in the study 'T cell antigen receptor peptide-lipid membrane interactions using surface plasmon resonance.' (Bender V et al., 2004).
Disease model
Disease model are used in the study 'Kupffer cells do not play a role in governing the efficacy of liposomal mitoxantrone used to treat a tumor model designed to assess drug delivery to liver.' (Lim HJ et al., 2000).
Related references are published most in these journals:
| Model | Cross reference | Weighted score | Related literatures |
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NCBI Entrez Crosslinks
All references with 18194-24-6
Download all related citations| Authors | Title | Published | Journal | PubMed Link |
|---|---|---|---|---|
| Meyer J et al. | Efficient encapsulation of proteins within liposomes for slow release in vivo. | 1994 | Biochem. Biophys. Res. Commun. | pmid:7510952 |
| Taniguchi H et al. | Substrate binding site of microsomal cytochrome P-450 directly faces membrane lipids. | 1984 | Biochem. Biophys. Res. Commun. | pmid:6704114 |
| Yin JJ et al. | Effects of fumonisin B1 on oxygen transport in membranes. | 1996 | Biochem. Biophys. Res. Commun. | pmid:8769126 |
| Ghiselli G et al. | Binding of apoA-IV-phospholipid complexes to plasma membranes of rat liver. | 1986 | Biochem. Biophys. Res. Commun. | pmid:3767949 |
| Potvin-Fournier K et al. | Membrane fluidity is a driving force for recoverin myristoyl immobilization in zwitterionic lipids. | 2017 | Biochem. Biophys. Res. Commun. | pmid:28684313 |
| Zambrano P et al. | In vitro effects of the anti-Alzheimer drug memantine on the human erythrocyte membrane and molecular models. | 2017 | Biochem. Biophys. Res. Commun. | pmid:27998775 |
| Zheng Y et al. | Retention of α-helical structure by HDL mimetic peptide ATI-5261 upon extensive dilution represents an important determinant for stimulating ABCA1 cholesterol efflux with high efficiency. | 2013 | Biochem. Biophys. Res. Commun. | pmid:24129191 |
| Wassef NM and Alving CR | Phosphatidylinositol liposomes opsonized by concanavalin A stimulate phosphatidylinositol turnover in macrophages. | 1986 | Biochem. Biophys. Res. Commun. | pmid:3753489 |
| Okada N et al. | Binding of C3 molecules to membranes via the SH-residue generated by the cleavage of a thioester bond can initiate complement activation. | 1988 | Biochem. Biophys. Res. Commun. | pmid:3348808 |
| Towata T et al. | Highly selective fusion and accumulation of hybrid liposomes into primary effusion lymphoma cells along with induction of apoptosis. | 2010 | Biochem. Biophys. Res. Commun. | pmid:20138834 |
| Mittler-Neher S and Knoll W | Phase separation in bimolecular mixed lipid membranes induced by polylysine. | 1989 | Biochem. Biophys. Res. Commun. | pmid:2473744 |
| Van Dael H et al. | The thermotropic transition of large unilamellar (LUV) vesicles of dimyristoyl phosphatidylcholine by Raman spectroscopy. | 1982 | Biochem. Biophys. Res. Commun. | pmid:7073666 |
| Komizu Y et al. | Selective accumulation and growth inhibition of hybrid liposomes to human hepatocellular carcinoma cells in relation to fluidity of plasma membranes. | 2012 | Biochem. Biophys. Res. Commun. | pmid:22240027 |
| Gale P and Watts A | Characterization of phospholipid compositions and physical properties of DMPC/bacteriorhodopsin vesicles produced by a detergent-free method. | 1991 | Biochem. Biophys. Res. Commun. | pmid:1953762 |
| Al-Momani L et al. | A lipid dependence in the formation of twin ion channels. | 2005 | Biochem. Biophys. Res. Commun. | pmid:15670789 |
| Brunner E et al. | Molecular alignment of proteins in bicellar solutions: quantitative evaluation of effects induced in 2D COSY spectra. | 2000 | Biochem. Biophys. Res. Commun. | pmid:10860817 |
| Menichetti R et al. | Efficient potential of mean force calculation from multiscale simulations: Solute insertion in a lipid membrane. | 2018 | Biochem. Biophys. Res. Commun. | pmid:28870809 |
| Grammenos A et al. | Quantification of Randomly-methylated-beta-cyclodextrin effect on liposome: an ESR study. | 2009 | Biochem. Biophys. Res. Commun. | pmid:19744466 |
| Pitcher WH and Huestis WH | Preparation and analysis of small unilamellar phospholipid vesicles of a uniform size. | 2002 | Biochem. Biophys. Res. Commun. | pmid:12207924 |
| Tadolini B et al. | Effects of taurine and hypotaurine on lipid peroxidation. | 1995 | Biochem. Biophys. Res. Commun. | pmid:7654243 |