Detail information of GLYMA_13G213400_circ_g.2


General Information
CircRNA Name GLYMA_13G213400_circ_g.2
ID in PlantcircBase gma_circ_003589
Alias Gm13circRNA2026
Organism Glycine max
Position chr13: 32693227-32696991  JBrowse»
Reference genome v2.0.38
Type   ue-circRNA
Identification method Tophat
Parent gene GLYMA_13G213400
Parent gene annotation hypothetical protein
Parent gene strand -
Alternative splicing GLYMA_13G213400_circ_g.3
Support reads NA
Tissues stem
Exon boundary   Yes-Yes
Splicing signals   CT-AC
Number of exons covered KRH20990:4
KRH20989:4
KRH20988:7
KRH20987:7
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   AGAATCCGCCGTAGGCTTTCTTCTCCTTCTGGTGTTATGCCGCTCTAACTTCCTTCTACAGCTC
CGTTTACCCTCGTCGAAATCCGACAAAACGTGAAACctcaataaatgcaggcccaaagagactt
tcctctgtatgaggaacatatatcttgtataactgattgtcaaaagcacaagaaatgttgtctt
cagtccag
Assembled circRNA sequence   Yes
Full-length trsnacripts Transcript length: 991
Transcript exons: 32693227-32693389,32695033-32695168,32695607-32695721,32
696084-32696191,32696297-32696371,32696462-32696676,3269
6813-32696991
CTCAATAAATGCAGGCCCAAAGAGACTTTCCTCTGTATGAGGAACATATATCTTGTATAACTGA
TTGTCAAAAGCACAAGAAATGTTGTCTTCAGTCCAGCTATGTGGAGAAGGCACACAATACTCAC
ATTTCAGATACTTTCCAGAAAACGATACAAGAAGCCGAAACTTAGGCTGCAGTAAGTTACTTCC
ACAAGCAACAAACTCCATAGGTTTGCCAGCCTCAAAGTATGTGGGATGAACATAGTGAAGCTTC
GGTGCATGCATGTTTACCTTGACATTCGTCACAGAAGTTCCATCTTTCATAACACGGAAGATCA
TGTCATTCAGATGAACTAGTGCAGTGCCTCTTCCAGATAGCATCTTTCCAGGAGCAACAATATC
ATGCACATACTCCAAAGGGTCTTTCAGTAAATTTATCCACATGATGTTAGGCATTGCAATAAAA
ATTGTCAGGATCGTACACCCAGGGCGGATATATCCCTCCAACTCCACAGGCATACTTGCCAACC
ATTGGAATATTTGATGTCGTAGCCTTCTAGGAAATTCCGCAGGATTCCAATCATAAAGCTTAAA
AGAAATCCGACCTGTTTGGCACATAGACGAATAGGCACTCTTATTGTCACAATAAGAAGGCGAA
TTGGAAGTGTTCCCACTATTCACTCGCGTTTCACCAGAAACAGCCAAAGACACAACACTATCAC
TATTAATATTCTGGGCTTCAGGAGCCGAGCTCGGAATGGGAGCCGGTTCATCTTCAAGATCCAG
AGACACTCCAACGTCGTTGATATCGGTACTCAAATTCGAACAATCTTTTCCAGCTTCCACATCA
TAATTGTTTTCCTCGTTTTCGGCAACAGGTTGAAGTAGTTCACTATGAGTAGCCCCTCCAGAAT
CCGCCGTAGGCTTTCTTCTCCTTCTGGTGTTATGCCGCTCTAACTTCCTTCTACAGCTCCGTTT
ACCCTCGTCGAAATCCGACAAAACGTGAAAC

Genomic sequence CTCAATAAATGCAGGCCCAAAGAGACTTTCCTCTGTATGAGGAACATATATCTTGTATAACTGA
TTGTCAAAAGCACAAGAAATGTTGTCTTCAGTCCAGCTATGTGGAGAAGGCACACAATACTCAC
ATTTCAGATACTTTCCAGAAAACGATACAAGAAGCCTGTCAAGATGACCACCTCAATAAAGTCA
GAAAAACATTGACAAGTGAACCAGAATCTAAACTAGCATTACAAAGATTGATACATTTGAAAAT
AAGAATATACCAACTGAAATAAAACAAAGTATAAAGCATGACCAAATTGATATTACATTAGATA
TGCTAACAGAATTGAGTTTGGAGAAAGACAAAAAAGACTATAACAAAGTTAGTGTCACATATGC
TGTACATTTACCATGCTCTGGGACTAAACCACATAAGGAACTGATTCCAAAATAAAATGAATTT
CGGGATGTGAACAAGTTGAGTTATTTGTGAACTATTCAAGCTCAACTGATTAAATGTTCATTCA
AGCTCATTTGTTTAATTAAATAAACAAAGTCAAGCTTGGCAATGGGATCAATTATTTAAACAAG
CCAAGTTCAAGCATTACAAGCTCAACAATAATGGCTCATGAATAGCTTGTATATTTAAATTGAT
AATGAAGATTTAACTAGTCTTTGTTATTTATATATCATTGAAAATATGTGGAACTTTGTTGTGA
GTTTTTTTCTCGTTAGTTCGCATGTCAGGTTTTACAGCCCAGTAAACCCATTTCAGACCAAAAA
ACAATAACACAAGCCATATTTCTTCTTTTGTTGACCAAACCCCCACACCTAAACTCCCGCGCCC
CCATTCCTTTGTGAAATTAATCCTTGGCTCCATCTCTTTCACTCACACTTCATCTCTCTCACAC
CCACTTCATCCCATTCTCTCACGCTCTCATCTCTCTTATTCTCTGTTTGCTGCAACTGCAAAGC
TTGTGGTTTCTCTTGTTCTGTTTGTTATTTGCTGCAACTCCCATCTCTCCCGTTCTGCCTGCTG
CAACTGCAGGACTCTAGTGGGTTTTGTCAAGTGGCTTCTCTGCAACAACTAGGCTTGTGGGTTC
TTTGTTCGTGTCTCTCATCTCTGATTCTCATTTATTTTCTTTACAAGAAGTGTTTTATAACTTT
GTTATTTTTTGCTCTGCTTCTGTCATCCCACTTGTCAGATTGCTGCACTAGGACTGTTTTATAC
TTATGATTTTGAATTTAAGTTCAATTATGCTACTTTTTTATGAACATATATATGAATGTATAGC
ATATATATGACTTTCATACAATCTCCCAATCCATTTTATGAAATCCCGATTTATGATCCTAACT
CCCCTTCTCGGTAAGATTTCGATTTTGACTACCATGCTTCTAAGTTCTAACAGCATAAAACAGT
CTCTCTTCAACCAGCATGAGATAACCACAAGAAATGGTTAAGTTATGAATTATGAATATAAATC
CAAATCAATCATAAAACAATATATAGGAGACAAACAGCATTACATGTCAAGTCTTACTTCTTTC
GAAGTTAATAGGTTCTTGTTTATTGGACACAAAATACTTAGATTTTGGGTTCAGTATGATCTAA
GGATGCTCCAAAACCCTCTTTCATAATATTAGACATTTCCCGCTCTCTTTTTGCTTGCGGATGC
TTACCACAACTTTATGTCCTCAACATTGCTAAAAACATATATAATGCACGTATGCAAACAAGCA
TGCTTATGTTATGTCTATTATATATAAATAAATGCAACAAAAAACTGGTCTAAATTATTCGAGG
TGACAATTACCTACCGAAACTTAGGCTGCAGTAAGTTACTTCCACAAGCAACAAACTCCATAGG
TTTGCCAGCCTCAAAGTATGTGGGATGAACATAGTGAAGCTTCGGTGCATGCATGTTTACCTTG
ACATTCGTCACAGAAGTTCCATCTGTAACCATTGAAATGTGCTTGTTGAAATGATAGAGTTTAG
GTATAGAGGGGGAAGAAAAAGATACAAAGACTGAATATATGGAAATTGATATTGACTTGATATG
GATACGATGTGTTACAACTTACAATATGATACAAAACATAAAGCAATAACCTCATTTATATTAA
TACTAGATCATAATCCTAACTAAATAAGGAAACAAAACATGAAATATTAATAAATATGGAAACC
AATCCAATAGAAACTTGTTATAGATTAATTTGTTTTGGAAAAATTAGAACATAATGCACATCTC
CAAGATGAAGGATAAATAGCATACAAAACTATTAATATTGTCACAAGAATCAAGGTATAAAATA
ATAAAAGTGAGTGAACCAAAAAGAAGACATATAAAAACACCCGCACATACATAATGAACACAAA
ACAGCAAAAAACCTTTCATAACACGGAAGATCATGTCATTCAGATGAACTAGTGCAGTGCCTCT
TCCAGATAGCATCTTTCCAGGAGCAACAATATCATGCACATACTCCAAAGGGTCTTTCAGTAAC
TGGTTGATCCACAAAAGAGAAAGAAAAAATGAAACCCGGAAAAAAAAAACTAACTAATCAAATT
CATTAAAAACTTGAAAAAGTGAGAGAAAACAATTTTTCTTCTTTTTTTTAGTTAAAGTATGAAA
CTCTAGAGTCATCAAGTTAAAAGAGGGTATCAGATAGTATATAGTAAATAGTAAATTAGAGCAC
AAATAAGCATCTCAATCGGCGAAATTTAGCAAAAACTGCCCAGAATAATGAGCAGAAGAAAGAA
CCATACAGTTCATTAGTCAAATATTGTGGAAGTTAACTGGTAATAAGACCACTTAAACATGACA
CAAGAACACATAATGTAAAGAACATCAACTTGAACCCTTACATTTATCCACATGATGTTAGGCA
TTGCAATAAAAATTGTCAGGATCGTACACCCAGGGCGGATATATCCCTCCAACTCCACAGGCAT
ACTTGCCAACCATTGGAATATCTGCAAATGCATTTGGCAGCCTGTTAATCAGTTACTAGCATGT
ATACGGTAGAAGATCTTGCCACTATTCAAATACTAAACTGCAATAACAATGCTTTAAAATACTT
GATGTCGTAGCCTTCTAGGAAATTCCGCAGGATTCCAATCATAAAGCTTAAAAGAAATCCGACC
TGTTTGGCACTACAAATGAACTTTCAATCAGCAAACGCTAACCATGATTTCGTAGTTCCTACAA
AATAATATAAATTTGGAACAAAAAGGGCAACCCACCATAGACGAATAGGCACTCTTATTGTCAC
AATAAGAAGGCGAATTGGAAGTGTTCCCACTATTCACTCGCGTTTCACCAGAAACAGCCAAAGA
CACAACACTATCACTATTAATATTCTGGGCTTCAGGAGCCGAGCTCGGAATGGGAGCCGGTTCA
TCTTCAAGATCCAGAGACACTCCAACGTCGTTGATATCGGTACTCAAATTCGAACAATCTGTAC
GATTCATACTCAGCCAGTGAGCATTCTTGCAACACAAAAACCAACTTTATTTAAATGAAGAAAA
CAACGGAAAGGGGGGATTTTGAAACTATCAGCATGGCATAGTAATACGGAATACTAAAAAGTAA
ACCTTTTCCAGCTTCCACATCATAATTGTTTTCCTCGTTTTCGGCAACAGGTTGAAGTAGTTCA
CTATGAGTAGCCCCTCCAGAATCCGCCGTAGGCTTTCTTCTCCTTCTGGTGTTATGCCGCTCTA
ACTTCCTTCTACAGCTCCGTTTACCCTCGTCGAAATCCGACAAAACGTGAAAC
Conservation Information
Conserved circRNAs NA
PMCS 0.202873492
Functional Information
Coding potential Y
Potential coding position 32696466-32696961(-)
32693275-32696961(-)
Potential amino acid sequence MCQTGRISFKLYDWNPAEFPRRLRHQIFQWLASMPVELEGYIRPGCTILTIFIAMPNIMWINLL
KDPLEYVHDIVAPGKMLSGRGTALVHLNDMIFRVMKDGTSVTNVKVNMHAPKLHYVHPTYFEAG
KPMEFVACGSNLLQPKFRLLVSFSGKYLKCEYCVPSPHSWTEDNISCAFDNQLYKIYVPHTEES
LFGPAFIEVSRFVGFRRG*(-)
MFLIQRKVSLGLHLLRFHVLSDFDEGKRSCRRKLERHNTRRRRKPTADSGGATHSELLQPVAEN
EENNYDVEAGKDCSNLSTDINDVGVSLDLEDEPAPIPSSAPEAQNINSDSVVSLAVSGETRVNS
GNTSNSPSYCDNKSAYSSMCQTGRISFKLYDWNPAEFPRRLRHQIFQWLASMPVELEGYIRPGC
TILTIFIAMPNIMWINLLKDPLEYVHDIVAPGKMLSGRGTALVHLNDMIFRVMKDGTSVTNVKV
NMHAPKLHYVHPTYFEAGKPMEFVACGSNLLQPKFRLLVSFSGKYLKCEYCVPSPHSWTEDNIS
CAFDNQLYKIYVPHTEESLFGPAFIEVSRFVGFRRG*(-)
Sponge-miRNAs NA
circRNA-miRNA-mRNA network  VISUALIZATION
Potential function description NA
Other Information
References Zhao et al., 2017a