TPH2

Gene symbol TPH2
Aliases -
Protein Name Tryptophan 5_hydroxylase 2
Function This subpathway is part of the pathway serotonin biosynthesis, which is itself part of Aromatic compound metabolism. View all proteins of this organism that are known to be involved in the subpathway that synthesizes serotonin from L-tryptophan, the pathway serotonin biosynthesis and in Aromatic compound metabolism.
Species Human
Editing Sites 5
Disease Psychiatric Disease;
Description RNA editing was shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. RNA editing is involved in the etiology of the psychiatric disease.
RADR RADAR
REDIportal REDI portal
External links Q8IWU9(Uniport); NM_173353 (NM id); 121278 (NCBI gene id); GeneCard; GTEx
Sequence

Editing sites

Enzyme Editing type Region NT Seq Position Molecular Consequence Editing Level Tissue Editing Effect Phenotype Disease name PMID
  • APOBEC
A-to-I Exonic 711 Alternative splicing Present Brain RNA editing is shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine-tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. Affect disease processing
  • APOBEC
C-to-U Exonic 830 Alternative splicing Present Brain RNA editing is shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine-tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. Affect disease processing
  • APOBEC
A-to-I Exonic 1297 Alternative splicing Present Brain RNA editing is shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine-tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. Affect disease processing
  • APOBEC
G-to-A Exonic 1322 Alternative splicing Present Brain RNA editing is shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine-tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. Affect disease processing
  • APOBEC
A-to-I Exonic 711 Alternative splicing Present Brain RNA editing is shown to inhibit the enzymatic activity of both TPH2 splice variants, the complex fine-tuning of central nervous system 5-HT biosynthesis by TPH2 alternative splicing and RNA editing. Affect disease processing