Vomitoxin

Vomitoxin is a lipid of Prenol Lipids (PR) class. Vomitoxin is associated with abnormalities such as Infection and Gastroenteritis. The involved functions are known as mRNA Expression, Inflammation, Transcription, Genetic, Protein Biosynthesis and Adverse effects. Vomitoxin often locates in Lymphoid Tissue, Immune system, Bone Marrow and Plasma membrane. The associated genes with Vomitoxin are IMPACT gene, HIST1H1C gene and RBM39 gene. The related experimental models are Mouse Model.

Cross Reference

Introduction

To understand associated biological information of Vomitoxin, 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 Vomitoxin?

Vomitoxin is suspected in Infection, Gastroenteritis 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 Vomitoxin

MeSH term MeSH ID Detail
Ascaridiasis D001198 1 associated lipids
Kashin-Beck Disease D057767 2 associated lipids
Coronavirus Infections D018352 4 associated lipids
Adrenocortical Carcinoma D018268 4 associated lipids
Mycotoxicosis D015651 5 associated lipids
Splenic Diseases D013158 5 associated lipids
Glomerulonephritis, IGA D005922 7 associated lipids
Bronchopneumonia D001996 7 associated lipids
Anorexia D000855 8 associated lipids
Immune Complex Diseases D007105 9 associated lipids
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PubChem Associated disorders and diseases

What pathways are associated with Vomitoxin

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 Vomitoxin?

Related references are published most in these journals:

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


Related references are published most in these journals:

Function Cross reference Weighted score Related literatures

What lipids are associated with Vomitoxin?

There are no associated biomedical information in the current reference collection.

What genes are associated with Vomitoxin?

Related references are published most in these journals:


Gene Cross reference Weighted score Related literatures

What common seen animal models are associated with Vomitoxin?

Mouse Model

Mouse Model are used in the study 'Dietary fish oil suppresses experimental immunoglobulin a nephropathy in mice.' (Pestka JJ et al., 2002).

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 Vomitoxin

Download all related citations
Per page 10 20 50 100 | Total 1588
Authors Title Published Journal PubMed Link
DÄ…browski M et al. The Effect of Deoxynivalenol on Selected Populations of Immunocompetent Cells in Porcine Blood-A Preliminary Study. 2017 Molecules pmid:28445424
Wilson NM et al. Modification of the Mycotoxin Deoxynivalenol Using Microorganisms Isolated from Environmental Samples. 2017 Toxins (Basel) pmid:28420137
Mthiyane DM and Mhlanga BS The nutritive value of marula (Sclerocarya birrea) seed cake for broiler chickens: nutritional composition, performance, carcass characteristics and oxidative and mycotoxin status. 2017 Trop Anim Health Prod pmid:28332071
Payros D et al. The Food Contaminant Deoxynivalenol Exacerbates the Genotoxicity of Gut Microbiota. 2017 MBio pmid:28292979
Robert H et al. Impact of mycotoxins on the intestine: are mucus and microbiota new targets? 2017 J Toxicol Environ Health B Crit Rev pmid:28636450
Pleadin J et al. Deoxynivalenol and zearalenone in unprocessed cereals and soybean from different cultivation regions in Croatia. 2017 Food Addit Contam Part B Surveill pmid:28635371
Gajęcka M et al. Changes in the metabolic profile and body weight of pre-pubertal gilts during prolonged monotonic exposure to low doses of zearalenone and deoxynivalenol. 2017 Toxicon pmid:27840141
Soares RRG et al. A simple method for point-of-need extraction, concentration and rapid multi-mycotoxin immunodetection in feeds using aqueous two-phase systems. 2017 J Chromatogr A pmid:28697933
Antonissen G et al. The Impact of Deoxynivalenol on Pigeon Health: Occurrence in Feed, Toxicokinetics and Interaction with Salmonellosis. 2016 PLoS ONE pmid:27997572
Zhou S et al. Systematic analysis of the lysine acetylome in Fusarium graminearum. 2016 BMC Genomics pmid:27964708
Drakulic J et al. Contrasting Roles of Deoxynivalenol and Nivalenol in Host-Mediated Interactions between Fusarium graminearum and Sitobion avenae. 2016 Toxins (Basel) pmid:27916862
Frobose HL et al. The progression of deoxynivalenol-induced growth suppression in nursery pigs and the potential of an algae-modified montmorillonite clay to mitigate these effects. 2016 J. Anim. Sci. pmid:27898884
Sanders M et al. Comparison of Enzyme-Linked Immunosorbent Assay, Surface Plasmon Resonance and Biolayer Interferometry for Screening of Deoxynivalenol in Wheat and Wheat Dust. 2016 Toxins (Basel) pmid:27077883
Sugiyama K et al. NF-κB activation via MyD88-dependent Toll-like receptor signaling is inhibited by trichothecene mycotoxin deoxynivalenol. 2016 J Toxicol Sci pmid:26961612
Talas F et al. Genome-Wide Association Study Identifies Novel Candidate Genes for Aggressiveness, Deoxynivalenol Production, and Azole Sensitivity in Natural Field Populations of Fusarium graminearum. 2016 Mol. Plant Microbe Interact. pmid:26959837
Winkler J et al. Fusarium toxin-contaminated maize in diets of growing bulls: effects on performance, slaughtering characteristics, and transfer into physiological liquids. 2016 Mycotoxin Res pmid:27083899
Ren ZH et al. The Fusarium toxin zearalenone and deoxynivalenol affect murine splenic antioxidant functions, interferon levels, and T-cell subsets. 2016 Environ. Toxicol. Pharmacol. pmid:26722803
Albonico M et al. Toxicological effects of fumonisin B1 alone and in combination with other fusariotoxins on bovine granulosa cells. 2016 Toxicon pmid:27108238
Quesada-Ocampo LM et al. Susceptibility of Maize to Stalk Rot Caused by Fusarium graminearum Deoxynivalenol and Zearalenone Mutants. 2016 Phytopathology pmid:27050573
Li C et al. A universal multi-wavelength fluorescence polarization immunoassay for multiplexed detection of mycotoxins in maize. 2016 Biosens Bioelectron pmid:26720917