Detail information of GLYMA_15G093600_circ_g.1


General Information
CircRNA Name GLYMA_15G093600_circ_g.1
ID in PlantcircBase gma_circ_007185
Alias gma-circRNA2176
Organism Glycine max
Position chr15: 7254752-7257101  JBrowse»
Reference genome v2.0.38
Type   e-circRNA
Identification method find_circ
Parent gene GLYMA_15G093600
Parent gene annotation hypothetical protein
Parent gene strand -
Alternative splicing NA
Support reads NA
Tissues flower bud
Exon boundary   Yes-Yes
Splicing signals   CT-AC
Number of exons covered KRH11183:5
KRH11182:5
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   AAATCACAAGAGTTAGGTTGCTTCAAAAATATAGCACGAATGGCAGACTTTAGTTTTGCCCATG
TATCCTCCTCAAAATTTGTGGGCAATGTTGGTTTAGctgacgaagattgatgagatgctcaaat
gaatctttaatggtgttacagaatgcttcattcttggaaaagctttcttcccatgttgtgtcaa
gagaagcc
Assembled circRNA sequence   Yes
Full-length trsnacripts Transcript length: 1055
Transcript exons: 7254752-7255039,7255122-7255244,7255440-7255620,7256522-
7256868,7256986-7257101
CTGACGAAGATTGATGAGATGCTCAAATGAATCTTTAATGGTGTTACAGAATGCTTCATTCTTG
GAAAAGCTTTCTTCCCATGTTGTGTCAAGAGAAGCCTTAAATTCCAAGAGGGATGAAACCATAT
CTTTATCTTTCTCCTCATCCAAAACAATGCCCTGACCAGTTCTCCTGATGTATGAACTAATGGC
CAGCCTCAGTGACTCGAGGGCATTGACCCTTGAAAAGAGTAAGTACATTCTCTGGAGGTCTTCA
ATACGATTCCCATCCATAAGCATTGCGAAGCCCTTATCAAGAATGGCAGGTATATGACGTTCAA
GAAGTTGCTTTTCTGCCGTTGCTATCAATGGCTTCCTAGTACTTGCATCCAAGTAGATCAAACA
TCTTTCATGTTCTTCTTGCAATCTTATCTCCACATGCTTCAAGTAATCTGGAACATCTGATTGC
TGCATGTATTTCACGCCTTCAGCAGCATAAAATTCAGATGTGCATTCAAGGAATGGCTTCTCAA
AGCTTTCTGCATAAATTCCCAGAGCAGTAAACATCTTCAAAAGATGGTTTAGAAGAGTTCTATC
CACTGCTTCACCTTTTCTTTCACTTTCAATCATTCGTAGAAGACCTGTAACAGTTTTGTGTTCT
ACTTCCGGAGACAATGAAAGATGTTTGCGGAAAAGTTGTAAGCCCATGTCCCATAATGACCGGA
CATTTGCAGTTTGCTTCACATATGTCCTATCCAGAAACAAGGCTATACCACGGATCATCAACAT
TTGGTCACAAAGATCCTGCCAACATCTCTCAACTAGAGACAGAAAAACAACCAAATCCGGGCTT
TGGCCAACCAAAGACTGCAGTGCTGCAGATATATGTGCTTCACACTCCTTTTCAATTCGTTGAT
AAAGATTTCCACCCATTTTATAAAGGCAGAGATCATTCACAGCCTGATAAAGCTTCTCCAAATC
ACAAGAGTTAGGTTGCTTCAAAAATATAGCACGAATGGCAGACTTTAGTTTTGCCCATGTATCC
TCCTCAAAATTTGTGGGCAATGTTGGTTTAG

Genomic sequence CTGACGAAGATTGATGAGATGCTCAAATGAATCTTTAATGGTGTTACAGAATGCTTCATTCTTG
GAAAAGCTTTCTTCCCATGTTGTGTCAAGAGAAGCCTTAAATTCCAAGAGGGATGAAACCATAT
CTTTATCTTTCTCCTCATCCAAAACAATGCCCTGACCAGTTCTCCTGATGTATGAACTAATGGC
CAGCCTCAGTGACTCGAGGGCATTGACCCTTGAAAAGAGTAAGTACATTCTCTGGAGGTCTTCA
ATACGATTCCCATCCATAAGCATTGCGAAGCCCTATTATAACACAAGAAATAATATTGAAGCAA
TGGGGAAAAAAACAGAAATTACCAGATCAAAATCCAGAAGTGATCAAAACCTTATCAAGAATGG
CAGGTATATGACGTTCAAGAAGTTGCTTTTCTGCCGTTGCTATCAATGGCTTCCTAGTACTTGC
ATCCAAGTAGATCAAACATCTTTCATGTTCTTCTTGCAATCTTATCTGCAGAAATGAGTACCCA
AAAAATCCCTGCAGTAAGTATACAATGTGGACAAGGGAAGGATAGACAAAGATAACTTTTACAG
TCAGAGTGTCAGATAAAACTGAAATTGAATGACACAATCCATTTATTAAAGAATCACCAAAATA
ACTGAAGCCAATATGATAAAATACAATGGGTTAAGGAAAAGAAAACACCTCCACATGCTTCAAG
TAATCTGGAACATCTGATTGCTGCATGTATTTCACGCCTTCAGCAGCATAAAATTCAGATGTGC
ATTCAAGGAATGGCTTCTCAAAGCTTTCTGCATAAATTCCCAGAGCAGTAAACATCTTCAAAAG
ATGGTTTAGAAGAGTTCTATCCACTGCTTCACCTTTTCTGAAAAGCAAGACATATAAGTGAAAA
ATCTAAGGCACAACACAGATGGATCTGCCAGCTAATTTTCCTATACTGAGAGAGAAACTATAAT
TGCAATCAGAAAATGAAGCCTTATATTTTATGCAATGGATGTAAAAGATCAAAGATGTTAACAA
AAACCCAAGCGTTTGCATATTCCACATGCAAAAGTTGCAATAGTAGATATGAAAAAGGAAATAA
ATAACAGTTGACATTCCAACATAATCTGATAAGATGCCCTGTTGAAGTGATTACATAGACCAGT
ACAAAATTTTTGGTCAGCCTTAAATGTCTAATGTGATAAATTGATATATAAAAACTCATCCATA
ACAAGAATCCCATTCTAACCCATCTATACCTCTCCAATCCTACCCTTTCATGTGCAAGTGATTA
TTCCCCGCTTTTGGGAATAAAAAGCATTAAGAGTGGCCATCCTAGTACATTTTGTTAACCTAAA
ATTTAAACGGCCACTCCCTGGAACTAGATGCAGATTTGAATAGCTAGTCCCACAAGCAAAACAT
GCCTGATTAATATTCTTCCTCGTTAATTAACTTTGAAAATCTGAAGAAATATAAAGGAAGGGGA
ATGTGTTTATTCCTGAACTTGAATAGAAATGAATTTTGTAATTTTAGTATGGAGAATGATATTA
TCAGTTATCACGATCACTAATGGCAAGTGTATTCATTTCACTAAATACAAAAATAAAATTTGAA
AAGAAATGGAGGCACAAACATAAAAAACTAAAATGAAAGCAAAGAGAAGAGCCAACAACACCCC
CCCCCCCCCCTCTCCCCCCGATCCCATGGATGGAAGTGTGGAACATTTAAACAACAAGCTGCAT
GCATATAAAGGTACAAAATTGAATTGCAAACAATGGACTTACCTTTCACTTTCAATCATTCGTA
GAAGACCTGTAACAGTTTTGTGTTCTACTTCCGGAGACAATGAAAGATGTTTGCGGAAAAGTTG
TAAGCCCATGTCCCATAATGACCGGACATTTGCAGTTTGCTTCACATATGTCCTATCCAGAAAC
AAGGCTATACCACGGATCATCAACATTTGGTCACAAAGATCCTGCCAACATCTCTCAACTAGAG
ACAGAAAAACAACCAAATCCGGGCTTTGGCCAACCAAAGACTGCAGTGCTGCAGATATATGTGC
TTCACACTCCTTTTCAATTCGTTGATAAAGATTTCCACCCATTTTATAAAGGCAGAGATCATTC
ACAGCCTATGGAGATTATGAGTTCACCATGAAATGCCAATAAGTTAGTGCAAGATAAATATTCA
CAGGGTTAAATCAACCATGATAGAAAAATAGTAATAATTAGAGGATTTCTATGGTTACCTGATA
AAGCTTCTCCAAATCACAAGAGTTAGGTTGCTTCAAAAATATAGCACGAATGGCAGACTTTAGT
TTTGCCCATGTATCCTCCTCAAAATTTGTGGGCAATGTTGGTTTAG
Conservation Information
Conserved circRNAs NA
PMCS 0.305187603
Functional Information
Coding potential Y
Potential coding position 7257042-7254762(+)
7254899-7257100(-)
7256843-7257053(-)
Potential amino acid sequence MADFSFAHVSSSKFVGNVGLADED*(+)
MRRKIKIWFHPSWNLRLLLTQHGKKAFPRMKHSVTPLKIHLSISSIFVS*(-)
MGGNLYQRIEKECEAHISAALQSLVGQSPDLVVFLSLVERCWQDLCDQMLMIRGIALFLDRTYV
KQTANVRSLWDMGLQLFRKHLSLSPEVEHKTVTGLLRMIESERKGEAVDRTLLNHLLKMFTALG
IYAESFEKPFLECTSEFYAAEGVKYMQQSDVPDYLKHVEIRLQEEHERCLIYLDASTRKPLIAT
AEKQLLERHIPAILDKGFAMLMDGNRIEDLQRMYLLFSRVNALESLRLAISSYIRRTGQGIVLD
EEKDKDMVSSLLEFKASLDTTWEESFSKNEAFCNTIKDSFEHLINLRQLNQHCPQILRRIHGQN
*(-)
Sponge-miRNAs NA
circRNA-miRNA-mRNA network  VISUALIZATION
Potential function description NA
Other Information
References Chen et al., 2018