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mmu_circNf1_2856
Basic information of circular RNA
PanCircBase ID:
mmu_circNf1_2856
mm39_Chr. Position ID:
chr11|79302321|79339162|+
Gene name:
Nf1
Transcript:
ENSMUST00000219057.2
CircRNA type:
Exonic circular (circ)RNA
Exon/Intron count:
20
Exon/intron indexes:
9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28
Exon/intron offsets:
0,559,1188,2745,7056,14017,17082,23349,25194,27191,29352,30133,30395,32273,33104,33528,34220,35310,35988,36629
Genomic length:
36841
Exon/intron sizes in nt:
1,74,12,37,53,01,32,13,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,000
Flanking exon/introns:
chr11:79300377-79302321|chr11:79339162-79344628
Splice length:
2856
Other database IDs:
Human Ortholog IDs:
Mature spliced Sequence:
AAGCTGTTTCTGGACAGTTTACGGAAAGCACTCGCTGGCCATGGAGGAAGCAGGCAGCTGACTGAGAGTGCTGCCATTGCTTGTGTCAAGTTGTGTAAAGCAAGTACTTACATCAACTGGGAAGATAATTCTGTCATTTTCCTACTGGTTCAGTCCATGGTAGTTGATCTTAAGAACCTGCTTTTTAATCCAAGTAAACCATTCTCTAGAGGCAGTCAGCCTGCAGATGTGGACCTCATGATTGACTGTCTTGTCTCTTGCTTTCGGATAAGCCCTCACAACAACCAACACTTTAAGATCTGCCTGGCTCAGAATTCACCTTCTACATTTCACTATGTGTTGGTAAACTCACTGCACCGCATCATCACCAATAGCACTTTCAAGCATGGACTTGGCACTGCTTCTGCGTTGGATTGGTGGCCTAAGATTGATGCTGTATATTGTCACTCAGTTGAACTTCGCAATATGTTTGGTGAAACACTTCATAAAGCAGTGCAAGGCTGTGGAGCGCACCCAGCAATACGAATGGCACCAAGTCTCACCTTTAAAGAAAAGGTAACAAGCCTTAAATTTAAAGAAAAGCCTACAGACCTAGAGACAAGGAGCTACAAATGTCTTCTTTTGTCCATGGTGAAACTGATTCATGCAGACCCAAAGCTTTTGCTTTGTAATCCAAGAAAACAGGGCCCTGAAACTCAGAGCAGTACAGCAGAACTAATTACAGGGCTCGTACAACTGGTTCCTCAGTCACACATGCCAGAGGTCGCTCAGGAGGCTATGGAGGCTTTGCTGGTCCTTCATCAGTTAGATAGCATTGATCTCTGGAATCCTGACGCTCCTGTAGAGACATTCTGGGAAATCAGCTCACAAATGCTTTTTTACATCTGCAAGAAATTAACTAGCCATCAAATGCTTAGTAGCACAGAAATTCTCAAGTGGTTACGGGAAATTCTGATCTGCAGAAATAAATTTCTTCTTAAAAATAAGCAGGCAGATAGAAGCTCCTGTCATTCTCTCTACCTTTATGGAGTAGGATGTGAAATGTCTGCTACTGGAAATACCACTCAGATGTCAGTTGATCATGATGAGTTCCTGCGTGCCTGTACTCCTGGAGCATCTCTGCGGAAAGGAAGAGGGAATTCCTCCATGGATAGCACAGCAGGGTGCAGTGGAACCCCACCTATATGCCGACAAGCCCAGACCAAGCTAGAAGTGGCCTTATACATGTTTCTGTGGAATCCTGACACTGAAGCTGTTCTGGTTGCTATGTCCTGTTTCCGCCACCTCTGTGAAGAAGCAGATATTCGATGTGGGGTAGATGAAGTGTCAGTACACAACTTCTTGCCCAACTATAACACATTCATGGAATTTGCCTCAGTCAGCAATATGATGTCAACAGGAAGAGCAGCGCTTCAGAAAAGAGTGATGGCCCTGCTAAGGCGCATTGAGCACCCTACTGCAGGAAACATTGAGGCCTGGGAAGATACACATGCAAAGTGGGAACAGGCTACAAAACTAATCCTTAACTACCCAAAAGCCAAAATGGAAGATGGCCAGGCTGCAGAAAGTCTTCATAAGACCATTGTTAAGAGACGGATGTCCCATGTCAGTGGAGGAGGCTCCATAGACTTGTCTGACACAGACTCCCTGCAGGAGTGGATCAACATGACTGGCTTCCTTTGTGCCCTTGGTGGGGTGTGCCTGCAACAGAGAAGCAGCTCTGGCCTAGCGACATACAGCCCACCTATGGGCGCTGTCAGTGAACGCAAAGGGTCTATGATTTCTGTAATGTCTTCTGAAGGGAATATTGATTCACCTGTCAGCAGATTTATGGACCGGCTTCTGTCCTTAATGGTGTGTAACCACGAGAAAGTGGGGCTTCAGATACGGACCAATGTTAAGGACCTGGTGGGTCTGGAGTTGAGTCCTGCTCTGTATCCAATGCTGTTTAACAAACTGAAGAATACCATCAGCAAGTTTTTTGACTCTCAAGGACAGGTATTACTAAGTGACAGCAATACTCAGTTTGTAGAGCAAACCATAGCCATAATGAAAAACCTACTGGATAATCATACTGAAGGCAGCTCTGAGCATCTGGGACAAGCGAGCATTGAGACAATGATGCTAAATCTGGTCAGATACGTTCGTGTTCTTGGGAATATGGTCCATGCAATACAAATAAAAACAAAATTGTGTCAGTTAGTTGAAGTCATGATGGCAAGAAGAGATGACCTCTCGTTTTGTCAAGAGATGAAATTTAGGAATAAGATGGTAGAATATCTAACAGACTGGGTTATGGGAACATCAAACCAAGCAGCAGATGATGACATAAAATGTCTTACGAGAGATCTGGACCAAGCAAGCATGGAAGCAGTAGTTTCTCTCCTCGCTGGTCTTCCACTGCAGCCCGAAGAAGGAGATGGGGTGGAGCTGATGGAGGCCAAATCACAGTTATTCCTTAAGTACTTCACATTATTTATGAACCTTTTGAATGACTGTAGTGAAGTTGAAGATGAAAATGCACAAACGGGTGGCAGGAAACGTGGCATGTCTCGGAGGCTGGCATCCCTGAGGCACTGTACAGTGCTTGCAATGTCAAACTTACTCAATGCTAATGTGGACAGTGGACTCATGCACTCCATAGGCTTAGGTTATCACAAGGATCTTCAGACAAGAGCTACGTTTATGGAAGTTCTGACAAAAATCCTTCAACAAGGAACAGAATTCGATACACTTGCGGAAACGGTGTTGGCAGATCGATTTGAGAGACTTGTGGAACTGGTCACAATGATGGGAGACCAGGGAGAACTCCCTATAGCTATGGCTCTTGCCAATGTGGTCCCTTGTTCTCAGTGG
Divergent primers for circular RNA PCR
Primer Set-1
Forward primer
Tm
Reverse primer
Tm
Product size
AGACTTGTGGAACTGGTCACA
59.16
TTGACACAAGCAATGGCAGC
59.97
179
Primer Set-2
Forward primer
Tm
Reverse primer
Tm
Product size
AGACTTGTGGAACTGGTCACA
59.16
CAAGCAATGGCAGCACTCTC
59.83
173
PCR template sequence:
TCGATTTGAGAGACTTGTGGAACTGGTCACAATGATGGGAGACCAGGGAGAACTCCCTATAGCTATGGCTCTTGCCAATGTGGTCCCTTGTTCTCAGTGGAAGCTGTTTCTGGACAGTTTACGGAAAGCACTCGCTGGCCATGGAGGAAGCAGGCAGCTGACTGAGAGTGCTGCCATTGCTTGTGTCAAGTTGTGTAAAG
Note: Users can design additional primers for provided template sequence using Primer3 or NCBI primer-blast.
miRNAs associated with circular RNAs
No of miRNAs
26
Interacting miRNAs (#binding sites)
mmu-miR-31-5p(2), mmu-miR-20b-5p(1), mmu-miR-134-5p(1), mmu-miR-106a-5p(1), mmu-miR-93-5p(1), mmu-miR-20a-5p(1), mmu-miR-17-5p(1), mmu-miR-7b-5p(1), mmu-miR-103-3p(1), mmu-miR-223-3p(1), mmu-miR-106b-5p(1), mmu-miR-335-5p(1), mmu-miR-7a-5p(1), mmu-miR-203-3p(1), mmu-miR-185-5p(1), mmu-miR-433-3p(1), mmu-miR-758-3p(1), mmu-miR-362-5p(1), mmu-miR-107-3p(1), mmu-miR-383-5p(1), mmu-miR-27a-5p(1), mmu-miR-29b-2-5p(1), mmu-miR-1198-5p(1), mmu-miR-129-5p(1), mmu-miR-335-3p(1), mmu-miR-697(1)
siRNAs for circular RNA silencing
Junction sequence
TTGTTCTCAGTGGAAGCTGTTTCTGG
siRNA sets
AGAAACAGCTTCCACTGAG, ACAGCTTCCACTGAGAACA, AAACAGCTTCCACTGAGAA
Protein-coding potential of circular RNAs
CPAT analysis
CPAT ORF ID
CPAT Fickett
CPAT Hexamer
Coding probabilty
ORF length
CIRCNF1_2856_ORF_1
0.911
0.081894738
1
5556
ORF sequence:
ATGGTAGTTGATCTTAAGAACCTGCTTTTTAATCCAAGTAAACCATTCTCTAGAGGCAGTCAGCCTGCAGATGTGGACCTCATGATTGACTGTCTTGTCTCTTGCTTTCGGATAAGCCCTCACAACAACCAACACTTTAAGATCTGCCTGGCTCAGAATTCACCTTCTACATTTCACTATGTGTTGGTAAACTCACTGCACCGCATCATCACCAATAGCACTTTCAAGCATGGACTTGGCACTGCTTCTGCGTTGGATTGGTGGCCTAAGATTGATGCTGTATATTGTCACTCAGTTGAACTTCGCAATATGTTTGGTGAAACACTTCATAAAGCAGTGCAAGGCTGTGGAGCGCACCCAGCAATACGAATGGCACCAAGTCTCACCTTTAAAGAAAAGGTAACAAGCCTTAAATTTAAAGAAAAGCCTACAGACCTAGAGACAAGGAGCTACAAATGTCTTCTTTTGTCCATGGTGAAACTGATTCATGCAGACCCAAAGCTTTTGCTTTGTAATCCAAGAAAACAGGGCCCTGAAACTCAGAGCAGTACAGCAGAACTAATTACAGGGCTCGTACAACTGGTTCCTCAGTCACACATGCCAGAGGTCGCTCAGGAGGCTATGGAGGCTTTGCTGGTCCTTCATCAGTTAGATAGCATTGATCTCTGGAATCCTGACGCTCCTGTAGAGACATTCTGGGAAATCAGCTCACAAATGCTTTTTTACATCTGCAAGAAATTAACTAGCCATCAAATGCTTAGTAGCACAGAAATTCTCAAGTGGTTACGGGAAATTCTGATCTGCAGAAATAAATTTCTTCTTAAAAATAAGCAGGCAGATAGAAGCTCCTGTCATTCTCTCTACCTTTATGGAGTAGGATGTGAAATGTCTGCTACTGGAAATACCACTCAGATGTCAGTTGATCATGATGAGTTCCTGCGTGCCTGTACTCCTGGAGCATCTCTGCGGAAAGGAAGAGGGAATTCCTCCATGGATAGCACAGCAGGGTGCAGTGGAACCCCACCTATATGCCGACAAGCCCAGACCAAGCTAGAAGTGGCCTTATACATGTTTCTGTGGAATCCTGACACTGAAGCTGTTCTGGTTGCTATGTCCTGTTTCCGCCACCTCTGTGAAGAAGCAGATATTCGATGTGGGGTAGATGAAGTGTCAGTACACAACTTCTTGCCCAACTATAACACATTCATGGAATTTGCCTCAGTCAGCAATATGATGTCAACAGGAAGAGCAGCGCTTCAGAAAAGAGTGATGGCCCTGCTAAGGCGCATTGAGCACCCTACTGCAGGAAACATTGAGGCCTGGGAAGATACACATGCAAAGTGGGAACAGGCTACAAAACTAATCCTTAACTACCCAAAAGCCAAAATGGAAGATGGCCAGGCTGCAGAAAGTCTTCATAAGACCATTGTTAAGAGACGGATGTCCCATGTCAGTGGAGGAGGCTCCATAGACTTGTCTGACACAGACTCCCTGCAGGAGTGGATCAACATGACTGGCTTCCTTTGTGCCCTTGGTGGGGTGTGCCTGCAACAGAGAAGCAGCTCTGGCCTAGCGACATACAGCCCACCTATGGGCGCTGTCAGTGAACGCAAAGGGTCTATGATTTCTGTAATGTCTTCTGAAGGGAATATTGATTCACCTGTCAGCAGATTTATGGACCGGCTTCTGTCCTTAATGGTGTGTAACCACGAGAAAGTGGGGCTTCAGATACGGACCAATGTTAAGGACCTGGTGGGTCTGGAGTTGAGTCCTGCTCTGTATCCAATGCTGTTTAACAAACTGAAGAATACCATCAGCAAGTTTTTTGACTCTCAAGGACAGGTATTACTAAGTGACAGCAATACTCAGTTTGTAGAGCAAACCATAGCCATAATGAAAAACCTACTGGATAATCATACTGAAGGCAGCTCTGAGCATCTGGGACAAGCGAGCATTGAGACAATGATGCTAAATCTGGTCAGATACGTTCGTGTTCTTGGGAATATGGTCCATGCAATACAAATAAAAACAAAATTGTGTCAGTTAGTTGAAGTCATGATGGCAAGAAGAGATGACCTCTCGTTTTGTCAAGAGATGAAATTTAGGAATAAGATGGTAGAATATCTAACAGACTGGGTTATGGGAACATCAAACCAAGCAGCAGATGATGACATAAAATGTCTTACGAGAGATCTGGACCAAGCAAGCATGGAAGCAGTAGTTTCTCTCCTCGCTGGTCTTCCACTGCAGCCCGAAGAAGGAGATGGGGTGGAGCTGATGGAGGCCAAATCACAGTTATTCCTTAAGTACTTCACATTATTTATGAACCTTTTGAATGACTGTAGTGAAGTTGAAGATGAAAATGCACAAACGGGTGGCAGGAAACGTGGCATGTCTCGGAGGCTGGCATCCCTGAGGCACTGTACAGTGCTTGCAATGTCAAACTTACTCAATGCTAATGTGGACAGTGGACTCATGCACTCCATAGGCTTAGGTTATCACAAGGATCTTCAGACAAGAGCTACGTTTATGGAAGTTCTGACAAAAATCCTTCAACAAGGAACAGAATTCGATACACTTGCGGAAACGGTGTTGGCAGATCGATTTGAGAGACTTGTGGAACTGGTCACAATGATGGGAGACCAGGGAGAACTCCCTATAGCTATGGCTCTTGCCAATGTGGTCCCTTGTTCTCAGTGGAAGCTGTTTCTGGACAGTTTACGGAAAGCACTCGCTGGCCATGGAGGAAGCAGGCAGCTGACTGAGAGTGCTGCCATTGCTTGTGTCAAGTTGTGTAAAGCAAGTACTTACATCAACTGGGAAGATAATTCTGTCATTTTCCTACTGGTTCAGTCCATGGTAGTTGATCTTAAGAACCTGCTTTTTAATCCAAGTAAACCATTCTCTAGAGGCAGTCAGCCTGCAGATGTGGACCTCATGATTGACTGTCTTGTCTCTTGCTTTCGGATAAGCCCTCACAACAACCAACACTTTAAGATCTGCCTGGCTCAGAATTCACCTTCTACATTTCACTATGTGTTGGTAAACTCACTGCACCGCATCATCACCAATAGCACTTTCAAGCATGGACTTGGCACTGCTTCTGCGTTGGATTGGTGGCCTAAGATTGATGCTGTATATTGTCACTCAGTTGAACTTCGCAATATGTTTGGTGAAACACTTCATAAAGCAGTGCAAGGCTGTGGAGCGCACCCAGCAATACGAATGGCACCAAGTCTCACCTTTAAAGAAAAGGTAACAAGCCTTAAATTTAAAGAAAAGCCTACAGACCTAGAGACAAGGAGCTACAAATGTCTTCTTTTGTCCATGGTGAAACTGATTCATGCAGACCCAAAGCTTTTGCTTTGTAATCCAAGAAAACAGGGCCCTGAAACTCAGAGCAGTACAGCAGAACTAATTACAGGGCTCGTACAACTGGTTCCTCAGTCACACATGCCAGAGGTCGCTCAGGAGGCTATGGAGGCTTTGCTGGTCCTTCATCAGTTAGATAGCATTGATCTCTGGAATCCTGACGCTCCTGTAGAGACATTCTGGGAAATCAGCTCACAAATGCTTTTTTACATCTGCAAGAAATTAACTAGCCATCAAATGCTTAGTAGCACAGAAATTCTCAAGTGGTTACGGGAAATTCTGATCTGCAGAAATAAATTTCTTCTTAAAAATAAGCAGGCAGATAGAAGCTCCTGTCATTCTCTCTACCTTTATGGAGTAGGATGTGAAATGTCTGCTACTGGAAATACCACTCAGATGTCAGTTGATCATGATGAGTTCCTGCGTGCCTGTACTCCTGGAGCATCTCTGCGGAAAGGAAGAGGGAATTCCTCCATGGATAGCACAGCAGGGTGCAGTGGAACCCCACCTATATGCCGACAAGCCCAGACCAAGCTAGAAGTGGCCTTATACATGTTTCTGTGGAATCCTGACACTGAAGCTGTTCTGGTTGCTATGTCCTGTTTCCGCCACCTCTGTGAAGAAGCAGATATTCGATGTGGGGTAGATGAAGTGTCAGTACACAACTTCTTGCCCAACTATAACACATTCATGGAATTTGCCTCAGTCAGCAATATGATGTCAACAGGAAGAGCAGCGCTTCAGAAAAGAGTGATGGCCCTGCTAAGGCGCATTGAGCACCCTACTGCAGGAAACATTGAGGCCTGGGAAGATACACATGCAAAGTGGGAACAGGCTACAAAACTAATCCTTAACTACCCAAAAGCCAAAATGGAAGATGGCCAGGCTGCAGAAAGTCTTCATAAGACCATTGTTAAGAGACGGATGTCCCATGTCAGTGGAGGAGGCTCCATAGACTTGTCTGACACAGACTCCCTGCAGGAGTGGATCAACATGACTGGCTTCCTTTGTGCCCTTGGTGGGGTGTGCCTGCAACAGAGAAGCAGCTCTGGCCTAGCGACATACAGCCCACCTATGGGCGCTGTCAGTGAACGCAAAGGGTCTATGATTTCTGTAATGTCTTCTGAAGGGAATATTGATTCACCTGTCAGCAGATTTATGGACCGGCTTCTGTCCTTAATGGTGTGTAACCACGAGAAAGTGGGGCTTCAGATACGGACCAATGTTAAGGACCTGGTGGGTCTGGAGTTGAGTCCTGCTCTGTATCCAATGCTGTTTAACAAACTGAAGAATACCATCAGCAAGTTTTTTGACTCTCAAGGACAGGTATTACTAAGTGACAGCAATACTCAGTTTGTAGAGCAAACCATAGCCATAATGAAAAACCTACTGGATAATCATACTGAAGGCAGCTCTGAGCATCTGGGACAAGCGAGCATTGAGACAATGATGCTAAATCTGGTCAGATACGTTCGTGTTCTTGGGAATATGGTCCATGCAATACAAATAAAAACAAAATTGTGTCAGTTAGTTGAAGTCATGATGGCAAGAAGAGATGACCTCTCGTTTTGTCAAGAGATGAAATTTAGGAATAAGATGGTAGAATATCTAACAGACTGGGTTATGGGAACATCAAACCAAGCAGCAGATGATGACATAAAATGTCTTACGAGAGATCTGGACCAAGCAAGCATGGAAGCAGTAGTTTCTCTCCTCGCTGGTCTTCCACTGCAGCCCGAAGAAGGAGATGGGGTGGAGCTGATGGAGGCCAAATCACAGTTATTCCTTAAGTACTTCACATTATTTATGAACCTTTTGAATGACTGTAGTGAAGTTGAAGATGAAAATGCACAAACGGGTGGCAGGAAACGTGGCATGTCTCGGAGGCTGGCATCCCTGAGGCACTGTACAGTGCTTGCAATGTCAAACTTACTCAATGCTAATGTGGACAGTGGACTCATGCACTCCATAGGCTTAGGTTATCACAAGGATCTTCAGACAAGAGCTACGTTTATGGAAGTTCTGACAAAAATCCTTCAACAAGGAACAGAATTCGATACACTTGCGGAAACGGTGTTGGCAGATCGATTTGAGAGACTTGTGGAACTGGTCACAATGATGGGAGACCAGGGAGAACTCCCTATAGCTATGGCTCTTGCCAATGTGGTCCCTTGTTCTCAGTGG
Peptide sequence:
MVVDLKNLLFNPSKPFSRGSQPADVDLMIDCLVSCFRISPHNNQHFKICLAQNSPSTFHYVLVNSLHRIITNSTFKHGLGTASALDWWPKIDAVYCHSVELRNMFGETLHKAVQGCGAHPAIRMAPSLTFKEKVTSLKFKEKPTDLETRSYKCLLLSMVKLIHADPKLLLCNPRKQGPETQSSTAELITGLVQLVPQSHMPEVAQEAMEALLVLHQLDSIDLWNPDAPVETFWEISSQMLFYICKKLTSHQMLSSTEILKWLREILICRNKFLLKNKQADRSSCHSLYLYGVGCEMSATGNTTQMSVDHDEFLRACTPGASLRKGRGNSSMDSTAGCSGTPPICRQAQTKLEVALYMFLWNPDTEAVLVAMSCFRHLCEEADIRCGVDEVSVHNFLPNYNTFMEFASVSNMMSTGRAALQKRVMALLRRIEHPTAGNIEAWEDTHAKWEQATKLILNYPKAKMEDGQAAESLHKTIVKRRMSHVSGGGSIDLSDTDSLQEWINMTGFLCALGGVCLQQRSSSGLATYSPPMGAVSERKGSMISVMSSEGNIDSPVSRFMDRLLSLMVCNHEKVGLQIRTNVKDLVGLELSPALYPMLFNKLKNTISKFFDSQGQVLLSDSNTQFVEQTIAIMKNLLDNHTEGSSEHLGQASIETMMLNLVRYVRVLGNMVHAIQIKTKLCQLVEVMMARRDDLSFCQEMKFRNKMVEYLTDWVMGTSNQAADDDIKCLTRDLDQASMEAVVSLLAGLPLQPEEGDGVELMEAKSQLFLKYFTLFMNLLNDCSEVEDENAQTGGRKRGMSRRLASLRHCTVLAMSNLLNANVDSGLMHSIGLGYHKDLQTRATFMEVLTKILQQGTEFDTLAETVLADRFERLVELVTMMGDQGELPIAMALANVVPCSQWKLFLDSLRKALAGHGGSRQLTESAAIACVKLCKASTYINWEDNSVIFLLVQSMVVDLKNLLFNPSKPFSRGSQPADVDLMIDCLVSCFRISPHNNQHFKICLAQNSPSTFHYVLVNSLHRIITNSTFKHGLGTASALDWWPKIDAVYCHSVELRNMFGETLHKAVQGCGAHPAIRMAPSLTFKEKVTSLKFKEKPTDLETRSYKCLLLSMVKLIHADPKLLLCNPRKQGPETQSSTAELITGLVQLVPQSHMPEVAQEAMEALLVLHQLDSIDLWNPDAPVETFWEISSQMLFYICKKLTSHQMLSSTEILKWLREILICRNKFLLKNKQADRSSCHSLYLYGVGCEMSATGNTTQMSVDHDEFLRACTPGASLRKGRGNSSMDSTAGCSGTPPICRQAQTKLEVALYMFLWNPDTEAVLVAMSCFRHLCEEADIRCGVDEVSVHNFLPNYNTFMEFASVSNMMSTGRAALQKRVMALLRRIEHPTAGNIEAWEDTHAKWEQATKLILNYPKAKMEDGQAAESLHKTIVKRRMSHVSGGGSIDLSDTDSLQEWINMTGFLCALGGVCLQQRSSSGLATYSPPMGAVSERKGSMISVMSSEGNIDSPVSRFMDRLLSLMVCNHEKVGLQIRTNVKDLVGLELSPALYPMLFNKLKNTISKFFDSQGQVLLSDSNTQFVEQTIAIMKNLLDNHTEGSSEHLGQASIETMMLNLVRYVRVLGNMVHAIQIKTKLCQLVEVMMARRDDLSFCQEMKFRNKMVEYLTDWVMGTSNQAADDDIKCLTRDLDQASMEAVVSLLAGLPLQPEEGDGVELMEAKSQLFLKYFTLFMNLLNDCSEVEDENAQTGGRKRGMSRRLASLRHCTVLAMSNLLNANVDSGLMHSIGLGYHKDLQTRATFMEVLTKILQQGTEFDTLAETVLADRFERLVELVTMMGDQGELPIAMALANVVPCSQW
IRESfinder result
IRESfinder score
0.552983674
IRES/non IRES
IRES
riboCIRC information
riboCIRC ID
NA
NA
Evidence
Peptide sequence:
NA
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