erythromycin

erythromycin is a lipid of Polyketides (PK) class. Erythromycin is associated with abnormalities such as Systemic Inflammatory Response Syndrome, Pneumonia, Infection, Pneumococcal Infections and Exanthema. The involved functions are known as Pharmacodynamics, Sterility, Agent, Drug Kinetics and Adjudication. Erythromycin often locates in Blood, peritoneal, Extracellular, Ribosomes and apicoplast. The associated genes with erythromycin are P4HTM gene, SLC33A1 gene, FAM3B gene, Operon and Homologous Gene. The related lipids are Hydroxytestosterones, Steroids, Propionate, Mycolic Acids and campesterol. The related experimental models are Mouse Model and Knock-out.

Cross Reference

Introduction

To understand associated biological information of erythromycin, 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 erythromycin?

erythromycin is suspected in Pneumonia, Infection, Gonorrhea, Cystic Fibrosis, Respiratory Tract Infections, Influenza 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 erythromycin

MeSH term MeSH ID Detail
Pityriasis Lichenoides D017514 2 associated lipids
Acneiform Eruptions D017486 3 associated lipids
Skin Diseases, Vascular D017445 1 associated lipids
Skin Diseases, Papulosquamous D017444 2 associated lipids
Gastric Outlet Obstruction D017219 1 associated lipids
Skin Diseases, Viral D017193 2 associated lipids
Skin Diseases, Bacterial D017192 8 associated lipids
Tachycardia, Ventricular D017180 9 associated lipids
AIDS-Related Opportunistic Infections D017088 9 associated lipids
Chalazion D017043 1 associated lipids
Angiomatosis, Bacillary D016917 2 associated lipids
Gram-Negative Bacterial Infections D016905 16 associated lipids
Ehrlichiosis D016873 2 associated lipids
Neisseriaceae Infections D016870 3 associated lipids
Ureaplasma Infections D016869 5 associated lipids
Death, Sudden, Cardiac D016757 12 associated lipids
Empyema, Pleural D016724 2 associated lipids
Critical Illness D016638 13 associated lipids
Vaginosis, Bacterial D016585 10 associated lipids
Purpura, Thrombocytopenic, Idiopathic D016553 4 associated lipids
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PubChem Associated disorders and diseases

What pathways are associated with erythromycin

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 erythromycin?

Related references are published most in these journals:

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


Related references are published most in these journals:

Function Cross reference Weighted score Related literatures

What lipids are associated with erythromycin?

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 erythromycin?

Related references are published most in these journals:


Gene Cross reference Weighted score Related literatures

What common seen animal models are associated with erythromycin?

Mouse Model

Mouse Model are used in the study 'In vitro and in vivo activities of macrolide derivatives against Mycobacterium tuberculosis.' (Falzari K et al., 2005) and Mouse Model are used in the study 'Activity of ABT-773 against Mycobacterium avium complex in the beige mouse model.' (Cynamon MH et al., 2000).

Knock-out

Knock-out are used in the study 'Functional expression and comparative characterization of nine murine cytochromes P450 by fluorescent inhibition screening.' (McLaughlin LA et al., 2008).

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 erythromycin

Download all related citations
Per page 10 20 50 100 | Total 13660
Authors Title Published Journal PubMed Link
Thomas L et al. Ophthalmic Considerations in Stevens-Johnson Syndrome. 2016 J. Pediatr. pmid:27318376
Tang C et al. The incidence and drug resistance of Clostridium difficile infection in Mainland China: a systematic review and meta-analysis. 2016 Sci Rep pmid:27897206
Sun H et al. Mechanism Underlying Time-dependent Cross-phenomenon between Concentration-response Curves and Concentration Addition Curves: A Case Study of Sulfonamides-Erythromycin mixtures on Escherichia coli. 2016 Sci Rep pmid:27644411
Mombelli A et al. Effect of Periodontal Therapy With Amoxicillin-Metronidazole on Pharyngeal Carriage of Penicillin- and Erythromycin-Resistant Viridans Streptococci. 2016 J. Periodontol. pmid:26654350
Tack J et al. Motilin-induced gastric contractions signal hunger in man. 2016 Gut pmid:25539673
Caumes E et al. [Lymphogranuloma venereum]. 2016 Ann Dermatol Venereol pmid:27773504
Aslantaş Ö and Demir C Investigation of the antibiotic resistance and biofilm-forming ability of Staphylococcus aureus from subclinical bovine mastitis cases. 2016 J. Dairy Sci. pmid:27592437
Ben Salem I et al. Removal of Penicillin G and Erythromycin with Ionizing Radiation Followed by Biological Treatment. 2016 Curr. Microbiol. pmid:27447798
Wu L et al. Development of Novel Erythromycin Derivatives with Inhibitory Activity against Proliferation of Tumor Cells. 2016 PLoS ONE pmid:27447724
Baker KR et al. A High-Throughput Approach To Identify Compounds That Impair Envelope Integrity in Escherichia coli. 2016 Antimicrob. Agents Chemother. pmid:27458225
Juda M et al. The prevalence of genotypes that determine resistance to macrolides, lincosamides, and streptogramins B compared with spiramycin susceptibility among erythromycin-resistant Staphylococcus epidermidis. 2016 Mem. Inst. Oswaldo Cruz pmid:27008373
Cui B et al. Selection of suitable reference genes for gene expression studies in Staphylococcus capitis during growth under erythromycin stress. 2016 Mol. Genet. Genomics pmid:27000656
Zhang A et al. Molecular subtyping and erythromycin resistance of Campylobacter in China. 2016 J. Appl. Microbiol. pmid:26999516
Mukai S et al. Macrolides sensitize EGFR-TKI-induced non-apoptotic cell death via blocking autophagy flux in pancreatic cancer cell lines. 2016 Int. J. Oncol. pmid:26718641
Bhadra PK et al. Enhancement of the properties of a drug by mono-deuteriation: reduction of acid-catalysed formation of a gut-motilide enol ether from 8-deuterio-erythromycin B. 2016 Org. Biomol. Chem. pmid:27273525
Topp E et al. Reduced persistence of the macrolide antibiotics erythromycin, clarithromycin and azithromycin in agricultural soil following several years of exposure in the field. 2016 Sci. Total Environ. pmid:27096634
Li X et al. Macrolides use and the risk of sudden cardiac death. 2016 Expert Rev Anti Infect Ther pmid:27086751
Entorf M et al. Comparative erythromycin and tylosin susceptibility testing of streptococci from bovine mastitis. 2016 Vet. Microbiol. pmid:26732695
Gupta P et al. Nascent peptide assists the ribosome in recognizing chemically distinct small molecules. 2016 Nat. Chem. Biol. pmid:26727240
Snoeys J et al. Mechanistic understanding of the nonlinear pharmacokinetics and intersubject variability of simeprevir: A PBPK-guided drug development approach. 2016 Clin. Pharmacol. Ther. pmid:26259716