chlortetracycline

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.

Cross Reference

Introduction

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.

What diseases are associated with chlortetracycline?

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.

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 chlortetracycline

MeSH term MeSH ID Detail
Adenocarcinoma D000230 166 associated lipids
Anaplasmosis D000712 3 associated lipids
Anemia, Sickle Cell D000755 34 associated lipids
Bacterial Infections D001424 21 associated lipids
Blood Platelet Disorders D001791 12 associated lipids
Body Weight D001835 333 associated lipids
Campylobacter Infections D002169 13 associated lipids
Clostridium Infections D003015 5 associated lipids
Conjunctivitis, Inclusion D003235 4 associated lipids
Corneal Diseases D003316 13 associated lipids
Per page 10 20 50 | Total 49

PubChem Associated disorders and diseases

What pathways are associated with chlortetracycline

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 chlortetracycline?

Related references are published most in these journals:

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


Related references are published most in these journals:

Function Cross reference Weighted score Related literatures

What lipids are associated with chlortetracycline?

Related references are published most in these journals:

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What genes are associated with chlortetracycline?

Related references are published most in these journals:


Gene Cross reference Weighted score Related literatures

What common seen animal models are associated with chlortetracycline?

Mouse Model

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).

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 chlortetracycline

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Authors Title Published Journal PubMed Link
Carlson JC and Mabury SA Dissipation kinetics and mobility of chlortetracycline, tylosin, and monensin in an agricultural soil in Northumberland County, Ontario, Canada. 2006 Environ. Toxicol. Chem. pmid:16494218
Chun S et al. Influence of agricultural antibiotics and 17beta-estradiol on the microbial community of soil. 2006 J Environ Sci Health B pmid:16893780
Wang Y et al. Effect of lactoferrin on the growth performance, intestinal morphology, and expression of PR-39 and protegrin-1 genes in weaned piglets. 2006 J. Anim. Sci. pmid:16971564
Reid ED et al. Chlortetracycline supplementation of yearling dairy heifers. 2006 J. Anim. Sci. pmid:16908644
Funk JA et al. The effect of subtherapeutic chlortetracycline on antimicrobial resistance in the fecal flora of swine. 2006 Microb. Drug Resist. pmid:17002549
Goshen T and Shpigel NY Evaluation of intrauterine antibiotic treatment of clinical metritis and retained fetal membranes in dairy cows. 2006 Theriogenology pmid:16962164
Mirazi N et al. High sensitivity of chicken's skeletal muscle sarcoplasmatic reticulum to effects of diltiazem or verapamil on calcium uptake and release. 2006 Pharmazie pmid:16889071
Dapino DG et al. Effect of heparin on in vitro capacitation of boar sperm. 2006 Biol. Res. pmid:17657344
Cherlet M et al. Control of the keto-enol tautomerism of chlortetracycline for its straightforward quantitation in pig tissues by liquid chromatography-electrospray ionization tandem mass spectrometry. 2006 J Chromatogr A pmid:16938306
Gompels LL et al. Single-blind randomized trial of combination antibiotic therapy in rheumatoid arthritis. 2006 J. Rheumatol. pmid:16465651
Adeoya-Osiguwa SA et al. Identification of functional alpha2- and beta-adrenergic receptors in mammalian spermatozoa. 2006 Hum. Reprod. pmid:16488904
Nanduri B et al. Effects of subminimum inhibitory concentrations of antibiotics on the Pasteurella multocida proteome. 2006 J. Proteome Res. pmid:16512672
Jindal A et al. Antimicrobial use and resistance in swine waste treatment systems. 2006 Appl. Environ. Microbiol. pmid:17041160
Grasa P et al. Signal transduction mechanisms involved in in vitro ram sperm capacitation. 2006 Reproduction pmid:17071773
Failing K et al. Determination of the inhibitory concentration 50% (IC50) of four selected drugs (chlortetracycline, doxycycline, enrofloxacin and difloxacin) that reduce in vitro the multiplication of Chlamydophila psittaci. 2006 DTW. Dtsch. Tierarztl. Wochenschr. pmid:17147151
Whitney MH et al. Effect of including distillers dried grains with solubles in the diet, with or without antimicrobial regimen, on the ability of growing pigs to resist a Lawsonia intracellularis challenge. 2006 J. Anim. Sci. pmid:16775071
Agersø Y et al. Effect of tetracycline residues in pig manure slurry on tetracycline-resistant bacteria and resistance gene tet(M) in soil microcosms. 2006 Environ Int pmid:16808974
Yeung PK et al. Involvement of calcium mobilization from caffeine-sensitive stores in mechanically induced cell cycle arrest in the dinoflagellate Crypthecodinium cohnii. 2006 Cell Calcium pmid:16364435
Cherlet M et al. Quantitative determination of chlortetracycline content in animal plasma at controlled keto-enol tautomerism by liquid chromatography-electrospray ionization-tandem mass spectrometry. 2006 J Chromatogr A pmid:16246348
Kumar K et al. Antibiotic uptake by plants from soil fertilized with animal manure. 2005 Nov-Dec J. Environ. Qual. pmid:16221828