Autism spectrum disorder

Disease name Autism spectrum disorder
Classfication Nervous system disease
Related Enzyme(s)
EFO
DOID
OMIM
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NCI
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Definition

Gene symbol Species Enzyme Editing site(s) Editing Type PMID RADAR REDIportal Description
ABCA5 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ADAM22 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ADGRB3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ANAPC5 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ANK3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ARHGEF11 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ARNT2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ASIC2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ATP2B2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ATRNL1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
C10orf113 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
C11orf58 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
C1orf95 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CABP1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CACNB2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CADM2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CADPS Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CCDC84 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CDS2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CERS4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CLASP1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CLASP2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CNTNAP2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CNTNAP4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
COA4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CSMD1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
CTNNA2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DANT2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DGCR5 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DGKZ Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DLG2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DLGAP1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DNAJC6 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
DPP10 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
EPS15 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FAM155A Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FGF12 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FGF14 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FMNL2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FRMD4A Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FTX Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
FUT9 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
GFOD2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
GINS4 Human ADAR1 44 A-to-I Editing was particularly increased in the 3′UTRs of ATM, GINS4 and POLH transcripts in tumors, which correlated with their mRNA expression.
GOLGA3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
GPCPD1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
GPM6A Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
GRM7 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
HLTF Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
HP1BP3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
IBA57 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
IFNGR1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ILDR2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
JMJD1C Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KATNBL1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KCNIP4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KCNQ3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KCTD16 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KHDRBS3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KIAA1211L Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
KLHL11 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LAMTOR3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LIMCH1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LINC-PINT Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LOC101928961 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LOC171391 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
LRRC4C Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MAGI2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MAP4K3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MAPK10 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MATR3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MED13 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
METTL6 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MIAT Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MIR22HG Human NA 1 NA MIR22HG is an RNA gene that hosts the small microRNA, hsa-mir-22, and has demonstrated potential as a biomarker for several cancers. Supported by three independent datasets, MIR22HG is very likely involved in RNA editing regulation process.
MON2 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MSRA Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MTPAP Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MTR Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
MTUS1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NCKAP1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NOVA1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NRXN1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NRXN3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NSMAF Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NUP43 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
NXPE3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
OXR1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PAPD4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PCDH9 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PGK1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PLCB1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
POLH Human ADAR1 156 A-to-I Editing was particularly increased in the 3′UTRs of ATM, GINS4 and POLH transcripts in tumors, which correlated with their mRNA expression.
PPP2R2B Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PREPL Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
PTPRD Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
R3HDM1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
RALYL Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
RBM5 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
RELL2 Human ADAR2 1 A-to-I Exon 9-included CCDC15 and exon 3-included RELL2 isoforms are oncogenic and tumor suppressive, respec- tively. More importantly, ADARs-mediated splicing changes indeed affect tumorigenesis, not merely byproducts of ADARs editing and binding.
RGS7 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
RTN3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
RTN4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SERPINI1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SFXN5 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SHC3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SHISA9 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SHTN1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SLC25A27 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SRSF5 Human NA 1 NA SRSF5 is involved in cancer development. Since most RNA editing events occur in the nucleus before splicing, the timing and space location of SRSF5 in the cell support that this gene is very likely involved in the RNA editing process
STRBP Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
SYT1 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
TRIM65 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
TTLL7 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
UBE2D3 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
VEZT Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
VPS13C Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
WDR33 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
XKR4 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
XKR6 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZNF264 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZNF37BP Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZNF529 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZNF680 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZNF708 Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD
ZYG11B Human ADAR1 1 A-to-I RNA editing could contribute towards aberrant synaptic formation in ASD