chlortetracycline is a lipid of Polyketides (PK) class. Chlortetracycline is associated with abnormalities such as Granulomatous Disease, Chronic, Infection, Ischemia, Cerebral Ischemia and Cerebral Infarction. The involved functions are known as Regulation, Binding (Molecular Function), Agent, Stimulus and Process. Chlortetracycline often locates in Protoplasm, Plasma membrane, Membrane, Cytoplasm and specific granule. The associated genes with chlortetracycline are FPR1 gene, P4HTM gene, Homologous Gene, HIST1H1C gene and Microbiome. The related lipids are Lysophosphatidylcholines, Sterols, dilauroyl lecithin, seminolipid and Total cholesterol. The related experimental models are Mouse Model.
To understand associated biological information of chlortetracycline, 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.
chlortetracycline is suspected in Ischemia, Cerebral Ischemia, Cerebral Infarction, Granulomatous Disease, Chronic, Infection, Antibiotic resistant infection 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 chlortetracycline
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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Mouse Model are used in the study 'Chlortetracycline and demeclocycline inhibit calpains and protect mouse neurons against glutamate toxicity and cerebral ischemia.' (Jiang SX et al., 2005).
Model | Cross reference | Weighted score | Related literatures |
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Authors | Title | Published | Journal | PubMed Link |
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Hersom M et al. | Comparison of feed additive technologies for preconditioning of weaned beef calves. | 2015 | J. Anim. Sci. | pmid:26115303 |
Kwon WS et al. | Improving litter size by boar spermatozoa: application of combined H33258/CTC staining in field trial with artificial insemination. | 2015 | Andrology | pmid:25767078 |
Spielmeyer A et al. | Elimination patterns of worldwide used sulfonamides and tetracyclines during anaerobic fermentation. | 2015 | Bioresour. Technol. | pmid:26142997 |
Pulicharla R et al. | Toxicity of chlortetracycline and its metal complexes to model microorganisms in wastewater sludge. | 2015 | Sci. Total Environ. | pmid:26119381 |
Lu L et al. | The combined and second exposure effect of copper (II) and chlortetracycline on fresh water algae, Chlorella pyrenoidosa and Microcystis aeruginosa. | 2015 | Environ. Toxicol. Pharmacol. | pmid:26119232 |
Ghoneim IM et al. | Effect of oxytocin and PGF2α on chlortetracycline absorption from the uterus of early postpartum camels (Camelus dromedarius). | 2015 | Theriogenology | pmid:26004206 |
Washburn K et al. | Pharmacokinetics of oral chlortetracycline in nonpregnant adult ewes. | 2014 | J. Vet. Pharmacol. Ther. | pmid:25131164 |
Kanwar N et al. | Impact of treatment strategies on cephalosporin and tetracycline resistance gene quantities in the bovine fecal metagenome. | 2014 | Sci Rep | pmid:24872333 |
Kodimalar K et al. | A survey of chlortetracycline concentration in feed and its residue in chicken egg in commercial layer farms. | 2014 | J. Biosci. | pmid:24845506 |
Liu M et al. | Feasibility of conventional and single-stage anaerobic ammonium oxidation processes for treating chlortetracycline wastewater. | 2014 | Water Sci. Technol. | pmid:25259481 |