Detail information of AT3G23740_circ_g.2


General Information
CircRNA Name AT3G23740_circ_g.2
ID in PlantcircBase ath_circ_023469
Alias 3:8553491-8553904
Organism Arabidpsis thaliana
Position chr3: 8553491-8553904  JBrowse»
Reference genome TAIR10.38
Type   e-circRNA
Identification method find_circ; CIRI2
Parent gene AT3G23740
Parent gene annotation unknown protein
Parent gene strand -
Alternative splicing AT3G23740_circ_g.3
Support reads 1/1
Tissues root;leaf
Exon boundary   Yes-Yes
Splicing signals   CT-AC
Number of exons covered AT3G23740.1:2
Experimental Information
Sanger sequencing for BSS   NA
PCR primers for BSS    NA
Sanger sequencing for FL    NA
PCR primers for FL    NA
Sequences
Splice junction sequence   GTTGAATCTTTATCATAGACACTGTCCATAGACTGCGAAACCGGTTTAGTGATGTTCTGACTCA
AAGACTTTGAGCACCGGCTTGATGATGATGTTCCATaaggattatcctcttgaatatctttgag
atatggaagcattcttctgtaattaacagaacctggtgtcttaaatagcttacccctagagaat
gcctgttt
Assembled circRNA sequence   Yes
Full-length trsnacripts Transcript length: 261
Transcript exons: 8553491-8553584,8553738-8553904
AAGGATTATCCTCTTGAATATCTTTGAGATATGGAAGCATTCTTCTGTAATTAACAGAACCTGG
TGTCTTAAATAGCTTACCCCTAGAGAATGCAGCATTTTTGTTAGGGGTGGATGCAATAACACTC
TTCAAAGGGCTGGTGTCTCTACAGAAGCTTCCGGTTGAATCTTTATCATAGACACTGTCCATAG
ACTGCGAAACCGGTTTAGTGATGTTCTGACTCAAAGACTTTGAGCACCGGCTTGATGATGATGT
TCCAT

Genomic sequence AAGGATTATCCTCTTGAATATCTTTGAGATATGGAAGCATTCTTCTGTAATTAACAGAACCTGG
TGTCTTAAATAGCTTACCCCTAGAGAATGCCTGTTTCATGTAAAAAACAATCCCATGTTGGACA
GATAGACACAAAACAAGGAAAACAGAAACTGAGAGATGAAAATTTCCATGGCCAACATGGAAGT
AACCTTAAAACTAAGGCTTAGAAGCAAGCAAGCTTCTTCATAGATAGAATCTTACAGCATTTTT
GTTAGGGGTGGATGCAATAACACTCTTCAAAGGGCTGGTGTCTCTACAGAAGCTTCCGGTTGAA
TCTTTATCATAGACACTGTCCATAGACTGCGAAACCGGTTTAGTGATGTTCTGACTCAAAGACT
TTGAGCACCGGCTTGATGATGATGTTCCAT
Conservation Information
Conserved circRNAs NA
PMCS 0.181591195
Functional Information
Coding potential NA
Potential coding position NA
Potential amino acid sequence NA
Sponge-miRNAs NA
circRNA-miRNA-mRNA network  VISUALIZATION
Potential function description NA
Other Information
References Philips et al., 2020