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mmu_circPi4ka_2814
Basic information of circular RNA
PanCircBase ID:
mmu_circPi4ka_2814
mm39_Chr. Position ID:
chr16|17100686|17136268|-
Gene name:
Pi4ka
Transcript:
ENSMUST00000036161.12
CircRNA type:
Exonic circular (circ)RNA
Exon/Intron count:
25
Exon/intron indexes:
49,48,47,46,45,44,43,42,41,40,39,38,37,36,35,34,33,32,31,30,29,28,27,26,25
Exon/intron offsets:
0,477,1624,1773,2384,3829,8292,10057,11020,12549,14073,14387,14728,16619,18170,20168,20462,24880,25243,26483,29529,32726,34139,34471,35457
Genomic length:
35582
Exon/intron sizes in nt:
10,51,10,71,73,71,13,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,000
Flanking exon/introns:
chr16:17100606-17100686|chr16:17136268-17136346
Splice length:
2814
Other database IDs:
Human Ortholog IDs:
Mature spliced Sequence:
GCTAAGACCAAGGAGAATGAAGAGGAGCTGGAGCGGCATGCACAGTTTCTGCTGGTGAACTTCAACCACATTCATAAGAGGATAAGGAGAGTAGCTGACAAATACCTATCTGGTCTGGTGGATAAGTTTCCACACTTGCTCTGGAGCGGGACTGTGCTGAAGACCATGTTGGACATCCTGCAGACCCTGTCACTATCACTAAGTGCTGATATTCACAAGGACCAACCTTACTATGACATTCCTGATGCCCCCTATCGGATCACGGTTCCTGACACATACGAAGCCCGGGAGAGCATCGTGAAAGACTTTGCTGCGCGCTGTGGAATGATCCTACAGGAAGCCATGAAGTGGGCACCCACGGTCACTAAGTCCCACCTACAGGAATATCTGAACAAGCATCAGAACTGGGTGTCAGGACTGTCTCAGCACACAGGATTGGCCATGGCCACTGAGAGCATCCTTCATTTTGCCGGCTACAACAAGCAGAACACAACTCTTGGGGCAACTCAGCTAACTGAGCGTCCGGCCTGTGTGAAGAAAGACTACTCCAACTTCATGGCATCCTTGAATTTGCGCAACCGCTATGCCGGCGAGGTACATGGAATGATTCGGTTCTCAGGTGCCACAGGCCAGATGTCTGACCTGAACAAAATGATGGTCCAAGATCTGATCACAGCTTTGGACCACAGTCATCCTCAGCACTATACACAAGCCATGTTCAAATTGACGGCAATGCTCATTAGCAGCAAAGATTGTGATCCACAGCTCCTTCATCATCTGTGTTGGGGTCCCCTCCGAATGTTCAATGAGCATGGCATGGAGACTGCACTAGCCTGCTGGGAGTGGCTGCTGGCTGGCAAGAATGGAGTGGAAGTGCCGTTTATGCGGGAGATGGCAGGAGCCTGGCACATGACAGTAGAGCAGAAGTTCGGCCTCTTTTCTGTGGAAACAAAGGAAGCAGACCCCCTGGCAGCATCAGAAGCAAGTCAGCCAAGACCTTGTCCCCCCGAAGTGACACCTCACTACATCTGGATCGATTTCCTGGTCCAGCGGTTTGAGATTGCCAAGTACTGTAGCTCTGACCAGGTGGAGATCTTCTCAAGCCTGCTGCAGCGCTCCATGTCCCTCAATATTGGTGGAGCCAGGGGGAGCATGAACAGGCATGTGGCAGCCATTGGACCACGTTTCAAACTGCTGACCTTGGGGCTGTCCCTCCTGCATGCTGATGTGGTTCCAAATGCAACCATTCGAAACGTGCTTCGAGAGAAGATATACTCAACAGCCTTTGACTATTTCAGTTGTCCACCAAAGTTTCCTACTCAAGGAGAAAAGAGGCTTCGTGAAGATATAAGCATAATGATTAAGTTTTGGACTGCCATGTTCTCAGATAAGAAGTACCTGACTGCCAGCCAGCTCGTTCCCCCAGATAATCAGGACACCCGAAGCAACTTGGATATAACTGTGGGCTCTCGACAACAGGCTACCCAGGGCTGGATCAACACTTACCCCCTCTCCAGTGGCATGTCAACCATCTCCAAAAAGTCAGGTATGTCTAAGAAAACCAACCGGGGCTCCCAGCTGCACAAGTACTACATGAAACGCAGGACACTGCTGCTGTCACTATTGGCCACTGAGATCGAACGCCTCATCACTTGGTACAACCCACTGTCAGCCCCAGAGCTAGAGCTGGACCAGGCAGGAGAGAACAGCGTTGCCAACTGGAGGTCCAAGTACATCAGCTTGAGTGAGAAGCAGTGGAAGGACAACGTGAACCTTGCCTGGAGCATCTCTCCATACCTCGCTGTGCAGCTGCCAGCCAGGTTCAAGAATACAGAAGCCATTGGAAATGAAGTGACCCGTCTCGTTCGCTTGGATCCTGGAGCTGTTAGTGATGTCCCTGAAGCCATCAAGTTCCTTGTCACCTGGCACACCATCGATGCTGATGCTCCAGAGCTCAGCCATGTTTTATGCTGGGCACCCACGGACCCACCTACAGGCCTCTCCTACTTCTCCAGCATGTACCCACCACACCCTCTCACTGCACAGTATGGGGTAAAAGTCCTGCGATCCTTCCCTCCGGATGCCATTCTGTTCTACATCCCCCAGATTGTGCAGGCCCTCAGATATGACAAGATGGGCTATGTGCGTGAGTACATTCTCTGGGCTGCAGCCAAATCCCAGCTTCTGGCACACCAGTTTATTTGGAACATGAAAACTAACATCTACCTTGATGAAGAAGGGCACCAGAAAGACCCTGACATCGGTGACCTCCTGGAGCAGTTAGTAGAAGAGATCACAGGGTCTCTATCAGGCCCAGCCAAAGATTTCTATCAACGGGAATTTGATTTCTTTAACAAGATCACAAACGTGTCAGCCATCATCAAGCCCTACCCTAAAGGCGATGAAAGGAAGAAGGCTTGTCTGTCAGCTCTGTCTGAAGTGAAGGTGCAGCCTGGCTGCTACCTGCCCAGCAACCCTGAAGCAATCGTGCTAGACATTGACTACAAGTCAGGGACACCAATGCAGAGTGCCGCAAAAGCGCCGTATCTGGCCAAGTTTAAGGTGAAGAGATGCGGAGTGAGTGAACTTGAAAAAGAAGGTCTGCAGTGCCGCTCAGACGCAGAGGATGAATGCTTCAGCCAAGAGGCTGATGGCAAGAAGATCTGCTGGCAAGCAGCCATCTTCAAAGTGGGGGATGACTGCCGACAGGACATGTTAGCCCTGCAGATCATCGACCTCTTCAAGAACATCTTCCAGCTGGTTGGCCTGGACCTCTTCGTTTTTCCTTATCGGGTAGTGGCTACTGCCCCTGGG
Divergent primers for circular RNA PCR
Primer Set-1
Forward primer
Tm
Reverse primer
Tm
Product size
CCCTGCAGATCATCGACCTC
59.97
TCACCAGCAGAAACTGTGCA
60.11
153
Primer Set-2
Forward primer
Tm
Reverse primer
Tm
Product size
CCCTGCAGATCATCGACCTC
59.97
CAGCAGAAACTGTGCATGCC
60.39
149
PCR template sequence:
GTTAGCCCTGCAGATCATCGACCTCTTCAAGAACATCTTCCAGCTGGTTGGCCTGGACCTCTTCGTTTTTCCTTATCGGGTAGTGGCTACTGCCCCTGGGGCTAAGACCAAGGAGAATGAAGAGGAGCTGGAGCGGCATGCACAGTTTCTGCTGGTGAACTTCAACCACATTCATAAGAGGATAAGGAGAGTAGCTGACA
Note: Users can design additional primers for provided template sequence using Primer3 or NCBI primer-blast.
miRNAs associated with circular RNAs
No of miRNAs
22
Interacting miRNAs (#binding sites)
mmu-miR-182-5p(2), mmu-miR-540-3p(2), mmu-miR-9-5p(1), mmu-miR-1a-3p(1), mmu-miR-206-3p(1), mmu-miR-135a-5p(1), mmu-miR-101a-3p(1), mmu-miR-322-5p(1), mmu-miR-15b-5p(1), mmu-miR-146a-5p(1), mmu-miR-101b-3p(1), mmu-miR-320-3p(1), mmu-miR-139-5p(1), mmu-miR-10a-5p(1), mmu-miR-433-3p(1), mmu-miR-705(1), mmu-miR-369-3p(1), mmu-miR-484(1), mmu-miR-670-5p(1), mmu-miR-1904(1), mmu-miR-544-5p(1), mmu-miR-146b-5p(1)
siRNAs for circular RNA silencing
Junction sequence
TACTGCCCCTGGGGCTAAGACCAAGG
siRNA sets
NA
Protein-coding potential of circular RNAs
CPAT analysis
CPAT ORF ID
CPAT Fickett
CPAT Hexamer
Coding probabilty
ORF length
CIRCPI4KA_2814_ORF_1
1.1376
0.352138545
1
5463
ORF sequence:
ATGTTGGACATCCTGCAGACCCTGTCACTATCACTAAGTGCTGATATTCACAAGGACCAACCTTACTATGACATTCCTGATGCCCCCTATCGGATCACGGTTCCTGACACATACGAAGCCCGGGAGAGCATCGTGAAAGACTTTGCTGCGCGCTGTGGAATGATCCTACAGGAAGCCATGAAGTGGGCACCCACGGTCACTAAGTCCCACCTACAGGAATATCTGAACAAGCATCAGAACTGGGTGTCAGGACTGTCTCAGCACACAGGATTGGCCATGGCCACTGAGAGCATCCTTCATTTTGCCGGCTACAACAAGCAGAACACAACTCTTGGGGCAACTCAGCTAACTGAGCGTCCGGCCTGTGTGAAGAAAGACTACTCCAACTTCATGGCATCCTTGAATTTGCGCAACCGCTATGCCGGCGAGGTACATGGAATGATTCGGTTCTCAGGTGCCACAGGCCAGATGTCTGACCTGAACAAAATGATGGTCCAAGATCTGATCACAGCTTTGGACCACAGTCATCCTCAGCACTATACACAAGCCATGTTCAAATTGACGGCAATGCTCATTAGCAGCAAAGATTGTGATCCACAGCTCCTTCATCATCTGTGTTGGGGTCCCCTCCGAATGTTCAATGAGCATGGCATGGAGACTGCACTAGCCTGCTGGGAGTGGCTGCTGGCTGGCAAGAATGGAGTGGAAGTGCCGTTTATGCGGGAGATGGCAGGAGCCTGGCACATGACAGTAGAGCAGAAGTTCGGCCTCTTTTCTGTGGAAACAAAGGAAGCAGACCCCCTGGCAGCATCAGAAGCAAGTCAGCCAAGACCTTGTCCCCCCGAAGTGACACCTCACTACATCTGGATCGATTTCCTGGTCCAGCGGTTTGAGATTGCCAAGTACTGTAGCTCTGACCAGGTGGAGATCTTCTCAAGCCTGCTGCAGCGCTCCATGTCCCTCAATATTGGTGGAGCCAGGGGGAGCATGAACAGGCATGTGGCAGCCATTGGACCACGTTTCAAACTGCTGACCTTGGGGCTGTCCCTCCTGCATGCTGATGTGGTTCCAAATGCAACCATTCGAAACGTGCTTCGAGAGAAGATATACTCAACAGCCTTTGACTATTTCAGTTGTCCACCAAAGTTTCCTACTCAAGGAGAAAAGAGGCTTCGTGAAGATATAAGCATAATGATTAAGTTTTGGACTGCCATGTTCTCAGATAAGAAGTACCTGACTGCCAGCCAGCTCGTTCCCCCAGATAATCAGGACACCCGAAGCAACTTGGATATAACTGTGGGCTCTCGACAACAGGCTACCCAGGGCTGGATCAACACTTACCCCCTCTCCAGTGGCATGTCAACCATCTCCAAAAAGTCAGGTATGTCTAAGAAAACCAACCGGGGCTCCCAGCTGCACAAGTACTACATGAAACGCAGGACACTGCTGCTGTCACTATTGGCCACTGAGATCGAACGCCTCATCACTTGGTACAACCCACTGTCAGCCCCAGAGCTAGAGCTGGACCAGGCAGGAGAGAACAGCGTTGCCAACTGGAGGTCCAAGTACATCAGCTTGAGTGAGAAGCAGTGGAAGGACAACGTGAACCTTGCCTGGAGCATCTCTCCATACCTCGCTGTGCAGCTGCCAGCCAGGTTCAAGAATACAGAAGCCATTGGAAATGAAGTGACCCGTCTCGTTCGCTTGGATCCTGGAGCTGTTAGTGATGTCCCTGAAGCCATCAAGTTCCTTGTCACCTGGCACACCATCGATGCTGATGCTCCAGAGCTCAGCCATGTTTTATGCTGGGCACCCACGGACCCACCTACAGGCCTCTCCTACTTCTCCAGCATGTACCCACCACACCCTCTCACTGCACAGTATGGGGTAAAAGTCCTGCGATCCTTCCCTCCGGATGCCATTCTGTTCTACATCCCCCAGATTGTGCAGGCCCTCAGATATGACAAGATGGGCTATGTGCGTGAGTACATTCTCTGGGCTGCAGCCAAATCCCAGCTTCTGGCACACCAGTTTATTTGGAACATGAAAACTAACATCTACCTTGATGAAGAAGGGCACCAGAAAGACCCTGACATCGGTGACCTCCTGGAGCAGTTAGTAGAAGAGATCACAGGGTCTCTATCAGGCCCAGCCAAAGATTTCTATCAACGGGAATTTGATTTCTTTAACAAGATCACAAACGTGTCAGCCATCATCAAGCCCTACCCTAAAGGCGATGAAAGGAAGAAGGCTTGTCTGTCAGCTCTGTCTGAAGTGAAGGTGCAGCCTGGCTGCTACCTGCCCAGCAACCCTGAAGCAATCGTGCTAGACATTGACTACAAGTCAGGGACACCAATGCAGAGTGCCGCAAAAGCGCCGTATCTGGCCAAGTTTAAGGTGAAGAGATGCGGAGTGAGTGAACTTGAAAAAGAAGGTCTGCAGTGCCGCTCAGACGCAGAGGATGAATGCTTCAGCCAAGAGGCTGATGGCAAGAAGATCTGCTGGCAAGCAGCCATCTTCAAAGTGGGGGATGACTGCCGACAGGACATGTTAGCCCTGCAGATCATCGACCTCTTCAAGAACATCTTCCAGCTGGTTGGCCTGGACCTCTTCGTTTTTCCTTATCGGGTAGTGGCTACTGCCCCTGGGGCTAAGACCAAGGAGAATGAAGAGGAGCTGGAGCGGCATGCACAGTTTCTGCTGGTGAACTTCAACCACATTCATAAGAGGATAAGGAGAGTAGCTGACAAATACCTATCTGGTCTGGTGGATAAGTTTCCACACTTGCTCTGGAGCGGGACTGTGCTGAAGACCATGTTGGACATCCTGCAGACCCTGTCACTATCACTAAGTGCTGATATTCACAAGGACCAACCTTACTATGACATTCCTGATGCCCCCTATCGGATCACGGTTCCTGACACATACGAAGCCCGGGAGAGCATCGTGAAAGACTTTGCTGCGCGCTGTGGAATGATCCTACAGGAAGCCATGAAGTGGGCACCCACGGTCACTAAGTCCCACCTACAGGAATATCTGAACAAGCATCAGAACTGGGTGTCAGGACTGTCTCAGCACACAGGATTGGCCATGGCCACTGAGAGCATCCTTCATTTTGCCGGCTACAACAAGCAGAACACAACTCTTGGGGCAACTCAGCTAACTGAGCGTCCGGCCTGTGTGAAGAAAGACTACTCCAACTTCATGGCATCCTTGAATTTGCGCAACCGCTATGCCGGCGAGGTACATGGAATGATTCGGTTCTCAGGTGCCACAGGCCAGATGTCTGACCTGAACAAAATGATGGTCCAAGATCTGATCACAGCTTTGGACCACAGTCATCCTCAGCACTATACACAAGCCATGTTCAAATTGACGGCAATGCTCATTAGCAGCAAAGATTGTGATCCACAGCTCCTTCATCATCTGTGTTGGGGTCCCCTCCGAATGTTCAATGAGCATGGCATGGAGACTGCACTAGCCTGCTGGGAGTGGCTGCTGGCTGGCAAGAATGGAGTGGAAGTGCCGTTTATGCGGGAGATGGCAGGAGCCTGGCACATGACAGTAGAGCAGAAGTTCGGCCTCTTTTCTGTGGAAACAAAGGAAGCAGACCCCCTGGCAGCATCAGAAGCAAGTCAGCCAAGACCTTGTCCCCCCGAAGTGACACCTCACTACATCTGGATCGATTTCCTGGTCCAGCGGTTTGAGATTGCCAAGTACTGTAGCTCTGACCAGGTGGAGATCTTCTCAAGCCTGCTGCAGCGCTCCATGTCCCTCAATATTGGTGGAGCCAGGGGGAGCATGAACAGGCATGTGGCAGCCATTGGACCACGTTTCAAACTGCTGACCTTGGGGCTGTCCCTCCTGCATGCTGATGTGGTTCCAAATGCAACCATTCGAAACGTGCTTCGAGAGAAGATATACTCAACAGCCTTTGACTATTTCAGTTGTCCACCAAAGTTTCCTACTCAAGGAGAAAAGAGGCTTCGTGAAGATATAAGCATAATGATTAAGTTTTGGACTGCCATGTTCTCAGATAAGAAGTACCTGACTGCCAGCCAGCTCGTTCCCCCAGATAATCAGGACACCCGAAGCAACTTGGATATAACTGTGGGCTCTCGACAACAGGCTACCCAGGGCTGGATCAACACTTACCCCCTCTCCAGTGGCATGTCAACCATCTCCAAAAAGTCAGGTATGTCTAAGAAAACCAACCGGGGCTCCCAGCTGCACAAGTACTACATGAAACGCAGGACACTGCTGCTGTCACTATTGGCCACTGAGATCGAACGCCTCATCACTTGGTACAACCCACTGTCAGCCCCAGAGCTAGAGCTGGACCAGGCAGGAGAGAACAGCGTTGCCAACTGGAGGTCCAAGTACATCAGCTTGAGTGAGAAGCAGTGGAAGGACAACGTGAACCTTGCCTGGAGCATCTCTCCATACCTCGCTGTGCAGCTGCCAGCCAGGTTCAAGAATACAGAAGCCATTGGAAATGAAGTGACCCGTCTCGTTCGCTTGGATCCTGGAGCTGTTAGTGATGTCCCTGAAGCCATCAAGTTCCTTGTCACCTGGCACACCATCGATGCTGATGCTCCAGAGCTCAGCCATGTTTTATGCTGGGCACCCACGGACCCACCTACAGGCCTCTCCTACTTCTCCAGCATGTACCCACCACACCCTCTCACTGCACAGTATGGGGTAAAAGTCCTGCGATCCTTCCCTCCGGATGCCATTCTGTTCTACATCCCCCAGATTGTGCAGGCCCTCAGATATGACAAGATGGGCTATGTGCGTGAGTACATTCTCTGGGCTGCAGCCAAATCCCAGCTTCTGGCACACCAGTTTATTTGGAACATGAAAACTAACATCTACCTTGATGAAGAAGGGCACCAGAAAGACCCTGACATCGGTGACCTCCTGGAGCAGTTAGTAGAAGAGATCACAGGGTCTCTATCAGGCCCAGCCAAAGATTTCTATCAACGGGAATTTGATTTCTTTAACAAGATCACAAACGTGTCAGCCATCATCAAGCCCTACCCTAAAGGCGATGAAAGGAAGAAGGCTTGTCTGTCAGCTCTGTCTGAAGTGAAGGTGCAGCCTGGCTGCTACCTGCCCAGCAACCCTGAAGCAATCGTGCTAGACATTGACTACAAGTCAGGGACACCAATGCAGAGTGCCGCAAAAGCGCCGTATCTGGCCAAGTTTAAGGTGAAGAGATGCGGAGTGAGTGAACTTGAAAAAGAAGGTCTGCAGTGCCGCTCAGACGCAGAGGATGAATGCTTCAGCCAAGAGGCTGATGGCAAGAAGATCTGCTGGCAAGCAGCCATCTTCAAAGTGGGGGATGACTGCCGACAGGACATGTTAGCCCTGCAGATCATCGACCTCTTCAAGAACATCTTCCAGCTGGTTGGCCTGGACCTCTTCGTTTTTCCTTATCGGGTAGTGGCTACTGCCCCTGGG
Peptide sequence:
MLDILQTLSLSLSADIHKDQPYYDIPDAPYRITVPDTYEARESIVKDFAARCGMILQEAMKWAPTVTKSHLQEYLNKHQNWVSGLSQHTGLAMATESILHFAGYNKQNTTLGATQLTERPACVKKDYSNFMASLNLRNRYAGEVHGMIRFSGATGQMSDLNKMMVQDLITALDHSHPQHYTQAMFKLTAMLISSKDCDPQLLHHLCWGPLRMFNEHGMETALACWEWLLAGKNGVEVPFMREMAGAWHMTVEQKFGLFSVETKEADPLAASEASQPRPCPPEVTPHYIWIDFLVQRFEIAKYCSSDQVEIFSSLLQRSMSLNIGGARGSMNRHVAAIGPRFKLLTLGLSLLHADVVPNATIRNVLREKIYSTAFDYFSCPPKFPTQGEKRLREDISIMIKFWTAMFSDKKYLTASQLVPPDNQDTRSNLDITVGSRQQATQGWINTYPLSSGMSTISKKSGMSKKTNRGSQLHKYYMKRRTLLLSLLATEIERLITWYNPLSAPELELDQAGENSVANWRSKYISLSEKQWKDNVNLAWSISPYLAVQLPARFKNTEAIGNEVTRLVRLDPGAVSDVPEAIKFLVTWHTIDADAPELSHVLCWAPTDPPTGLSYFSSMYPPHPLTAQYGVKVLRSFPPDAILFYIPQIVQALRYDKMGYVREYILWAAAKSQLLAHQFIWNMKTNIYLDEEGHQKDPDIGDLLEQLVEEITGSLSGPAKDFYQREFDFFNKITNVSAIIKPYPKGDERKKACLSALSEVKVQPGCYLPSNPEAIVLDIDYKSGTPMQSAAKAPYLAKFKVKRCGVSELEKEGLQCRSDAEDECFSQEADGKKICWQAAIFKVGDDCRQDMLALQIIDLFKNIFQLVGLDLFVFPYRVVATAPGAKTKENEEELERHAQFLLVNFNHIHKRIRRVADKYLSGLVDKFPHLLWSGTVLKTMLDILQTLSLSLSADIHKDQPYYDIPDAPYRITVPDTYEARESIVKDFAARCGMILQEAMKWAPTVTKSHLQEYLNKHQNWVSGLSQHTGLAMATESILHFAGYNKQNTTLGATQLTERPACVKKDYSNFMASLNLRNRYAGEVHGMIRFSGATGQMSDLNKMMVQDLITALDHSHPQHYTQAMFKLTAMLISSKDCDPQLLHHLCWGPLRMFNEHGMETALACWEWLLAGKNGVEVPFMREMAGAWHMTVEQKFGLFSVETKEADPLAASEASQPRPCPPEVTPHYIWIDFLVQRFEIAKYCSSDQVEIFSSLLQRSMSLNIGGARGSMNRHVAAIGPRFKLLTLGLSLLHADVVPNATIRNVLREKIYSTAFDYFSCPPKFPTQGEKRLREDISIMIKFWTAMFSDKKYLTASQLVPPDNQDTRSNLDITVGSRQQATQGWINTYPLSSGMSTISKKSGMSKKTNRGSQLHKYYMKRRTLLLSLLATEIERLITWYNPLSAPELELDQAGENSVANWRSKYISLSEKQWKDNVNLAWSISPYLAVQLPARFKNTEAIGNEVTRLVRLDPGAVSDVPEAIKFLVTWHTIDADAPELSHVLCWAPTDPPTGLSYFSSMYPPHPLTAQYGVKVLRSFPPDAILFYIPQIVQALRYDKMGYVREYILWAAAKSQLLAHQFIWNMKTNIYLDEEGHQKDPDIGDLLEQLVEEITGSLSGPAKDFYQREFDFFNKITNVSAIIKPYPKGDERKKACLSALSEVKVQPGCYLPSNPEAIVLDIDYKSGTPMQSAAKAPYLAKFKVKRCGVSELEKEGLQCRSDAEDECFSQEADGKKICWQAAIFKVGDDCRQDMLALQIIDLFKNIFQLVGLDLFVFPYRVVATAPG
IRESfinder result
IRESfinder score
0.438550661
IRES/non IRES
non-IRES
riboCIRC information
riboCIRC ID
NA
NA
Evidence
Peptide sequence:
NA
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