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In-vitro toxicological and proteomic analysis of furan fatty acids which are oxidative metabolites of conjugated linoleic acids

2012

Les 2 versions

Lengler,I. | Buhrke,T. | Scharmach,E. | Lampen,A.

Mots clés AGROVOC
absorption acids analysis apoptosis assessment association beef berlin biosynthesis biotransformation calcium cancer carbon carcinogen carcinogenesis cell cycle cell death cells chemicals cla colon composition concentration cytochrome p450 cytotoxicity death degradation detection dna dna repair dna replication dna transcription effects electrophoresis energy metabolism enzyme fatty acids fibroblasts fish food food additives food safety furan gel gel electrophoresis gels gene gene expression genotoxicity germany growth health humans identification in vitro inhibition insulin isoenzymes klebsiella linoleic acid lipid peroxidation lipogenesis lipoproteins liver mammals membranes metabolism metabolites mice mitochondria mutagenicity nickel novel food oxidation oxygen ph phosphorylation processing production products protease protection protein protein biosynthesis protein synthesis proteins proteomics purification rabbits rat rats reactive oxygen species risk risk assessment safety sera species state sulfur tests toxicology xenobiotic metabolism
Informations bibliographiques
Volume 47 Numéro 11 Pagination 1085 - 1097

Editeur Wiley ; American Oil Chemists' Society ; formerly Springer

ISSN 0024-4201 | 1558-9307
D'autres materias
Product; V79; Fatty acid derivative; 2d; Human-serum; 2-d gel electrophoresis; Insulin sensitivity; Human serum; Metabolic activity; Functional proteomics; Two-dimensional electrophoresis; Article; Cell proliferation; Hepatocytes; Substrate specificity; Fat; Protein processing; Comparison; Colon cancer; Reference; Studies; Enterocytes; Efsa; Lipid storage; Mouse; Markers; Down regulation; Activation; Cancer cell; Controlled study; Enzyme activation; Quantitation; Reactive metabolite; Risk-assessment; Drug cytotoxicity; Line; In vitro study; Antineoplastic agent; Induce; Acid; Drug structure; Metabolite; Cell-proliferation; Gene-expression; Hepg2; Resistance; Amino acid; Cytotoxicity test; Cell line; Proteomic analysis; Study; Concentration response; Dna-adducts; Pyrolysis products; Lung fibroblast; Promote; Ubiquitin; Differentiation; Conjugated linoleic acid; Isomer; Toxic; Sensitivity; Genotoxic; Rat liver; Influence; Liver cell; Dose response; Rat-liver; Chemical; Vitro; Assay; 10 octadecadienoic acid; 11 epoxy 8; 11 octadecadienoic acid; 12 epoxy 9; Rat hepatocytes; Ames test; Dna adducts; In-vitro; Lung; Isomers; Protein expression; Micronucleus test; Female; Liver homogenate; In-vivo; Principle; Cell; Dna adduct; Furan fatty acid; In vivo; Characterization; Effect; Fatty-acids; Human; Human cell; Insulin resistance; Line caco-2; Caco-2; Proteomic; Serum; Specificity; Mechanism; Sequencing; Lipid-peroxidation; Toxic effects; Antineoplastic activity; Upregulation; Gel-electrophoresis; 12 octadecadienoic acid; 10; 13 epoxy 10; Hepatocyte; Rabbit; Destruction; Unclassified drug; F344 rats; Pathway; Method; Hepatoma cell; B6c3f1 mice; Vivo; 13 octadecadienoic acid; 11.14 epoxy 11; No; Derivatives; Cell-line; Cytochrome p 450; Approach; Expression; Induction; Profile; Dose-response relationships; Fatty acid; Establishment; Proliferation; 37; Repair; Plasma
Langue
anglais
Type
Journal Article; Text
2025-02-03
2026-02-03
MODS
Fournisseur de données

Cette notice bibliographique a été fournie par German Federal Institute for Risk Assessment

Découvrez la collection de ce fournisseur de données dans AGRIS

Liens
DOI https://www.openagrar.de/receive/bimport_mods_00001314
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