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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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 |
Raspor LainÅ¡Äek P et al. | Implementation of the Bacillus cereus microbiological plate used for the screening of tetracyclines in raw milk samples with STAR protocol - the problem with false-negative results solved. | 2014 | Food Addit Contam Part A Chem Anal Control Expo Risk Assess | pmid:25230820 |
Fang H et al. | Variations in dissipation rate, microbial function and antibiotic resistance due to repeated introductions of manure containing sulfadiazine and chlortetracycline to soil. | 2014 | Chemosphere | pmid:23948606 |
Franc A et al. | Preparation of feed premix for veterinary purposes. | 2014 | Ceska Slov Farm | pmid:25354741 |
Huang L et al. | Effect of the chlortetracycline addition method on methane production from the anaerobic digestion of swine wastewater. | 2014 | J Environ Sci (China) | pmid:25288543 |
Chen C et al. | Occurrence of antibiotics and antibiotic resistances in soils from wastewater irrigation areas in Beijing and Tianjin, China. | 2014 | Environ. Pollut. | pmid:25016103 |
Jin H et al. | Hybrid intelligent control of substrate feeding for industrial fed-batch chlortetracycline fermentation process. | 2014 | ISA Trans | pmid:25245525 |
Lin XM et al. | Decreased expression of LamB and Odp1 complex is crucial for antibiotic resistance in Escherichia coli. | 2014 | J Proteomics | pmid:24412198 |
Chen X et al. | A novel electrochemiluminescence tetracyclines sensor based on a Ru(bpy)₃²âº-doped silica nanoparticles/Nafion film modified electrode. | 2014 | Talanta | pmid:25127561 |
Fang H et al. | Microbial response to repeated treatments of manure containing sulfadiazine and chlortetracycline in soil. | 2014 | J Environ Sci Health B | pmid:24901964 |
Chang BV et al. | Biodegradation of three tetracyclines in swine wastewater. | 2014 | J Environ Sci Health B | pmid:24762183 |
Agga GE et al. | Effects of chlortetracycline and copper supplementation on antimicrobial resistance of fecal Escherichia coli from weaned pigs. | 2014 | Prev. Vet. Med. | pmid:24655578 |
Ma Y et al. | Preparation of a novel magnetic microporous adsorbent and its adsorption behavior of p-nitrophenol and chlorotetracycline. | 2014 | J. Hazard. Mater. | pmid:24380891 |
Cazer CL et al. | Use of pharmacokinetic modeling to assess antimicrobial pressure on enteric bacteria of beef cattle fed chlortetracycline for growth promotion, disease control, or treatment. | 2014 | Foodborne Pathog. Dis. | pmid:24588058 |
Marosevic D et al. | In vivo spread of macrolide-lincosamide-streptogramin B (MLSB) resistance--a model study in chickens. | 2014 | Vet. Microbiol. | pmid:24467930 |
Daghrir R et al. | Removal of chlortetracycline from spiked municipal wastewater using a photoelectrocatalytic process operated under sunlight irradiations. | 2014 | Sci. Total Environ. | pmid:23911841 |
Lin X et al. | Fluctuation of multiple metabolic pathways is required for Escherichia coli in response to chlortetracycline stress. | 2014 | Mol Biosyst | pmid:24510206 |
Shimshoni JA et al. | Acute maduramicin toxicosis in pregnant gilts. | 2014 | Food Chem. Toxicol. | pmid:24705019 |
Khan MH et al. | Chlortetracycline degradation by photocatalytic ozonation in the aqueous phase: mineralization and the effects on biodegradability. | 2013 Jan-Feb | Environ Technol | pmid:23530364 |