Details of Drug Off-Target (DOT)

General Information of Drug Off-Target (DOT) (ID: OTXO1IGH)

DOT Name Protein FAM25A (FAM25A)
Gene Name FAM25A
UniProt ID
FM25A_HUMAN
3D Structure
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2D Sequence (FASTA)
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3D Structure (PDB)
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Pfam ID
PF15825
Sequence
MLGGLGKLAAEGLAHRTEKATEGAIHAVEEVVKEVVGHAKETGEKAIAEAIKKAQESGDK
KMKEITETVTNTVTNAITHAAESLDKLGQ

Molecular Interaction Atlas (MIA) of This DOT

Molecular Interaction Atlas (MIA) Jump to Detail Molecular Interaction Atlas of This DOT
3 Drug(s) Affected the Post-Translational Modifications of This DOT
Drug Name Drug ID Highest Status Interaction REF
Valproate DMCFE9I Approved Valproate increases the methylation of Protein FAM25A (FAM25A). [1]
Arsenic DMTL2Y1 Approved Arsenic affects the methylation of Protein FAM25A (FAM25A). [3]
Benzo(a)pyrene DMN7J43 Phase 1 Benzo(a)pyrene decreases the methylation of Protein FAM25A (FAM25A). [4]
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3 Drug(s) Affected the Gene/Protein Processing of This DOT
Drug Name Drug ID Highest Status Interaction REF
Cisplatin DMRHGI9 Approved Cisplatin increases the expression of Protein FAM25A (FAM25A). [2]
Milchsaure DM462BT Investigative Milchsaure decreases the expression of Protein FAM25A (FAM25A). [5]
Acetaldehyde DMJFKG4 Investigative Acetaldehyde increases the expression of Protein FAM25A (FAM25A). [6]
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References

1 Integrative omics data analyses of repeated dose toxicity of valproic acid in vitro reveal new mechanisms of steatosis induction. Toxicology. 2018 Jan 15;393:160-170.
2 Activation of AIFM2 enhances apoptosis of human lung cancer cells undergoing toxicological stress. Toxicol Lett. 2016 Sep 6;258:227-236.
3 Prenatal arsenic exposure and the epigenome: identifying sites of 5-methylcytosine alterations that predict functional changes in gene expression in newborn cord blood and subsequent birth outcomes. Toxicol Sci. 2015 Jan;143(1):97-106. doi: 10.1093/toxsci/kfu210. Epub 2014 Oct 10.
4 Air pollution and DNA methylation alterations in lung cancer: A systematic and comparative study. Oncotarget. 2017 Jan 3;8(1):1369-1391. doi: 10.18632/oncotarget.13622.
5 Transcriptional profiling of lactic acid treated reconstructed human epidermis reveals pathways underlying stinging and itch. Toxicol In Vitro. 2019 Jun;57:164-173.
6 Transcriptome profile analysis of saturated aliphatic aldehydes reveals carbon number-specific molecules involved in pulmonary toxicity. Chem Res Toxicol. 2014 Aug 18;27(8):1362-70.