Microexon ID Gm_3:35202582-35202590:-
Species Glycine max
Coordinates 3:35202582..35202590
Microexon Cluster ID MEP21
Size 9
Phase 1
Pfam Domain Motif AP2
Structure of Microexon-tag (flanking exon, microexon, flanking exon sizes) 49,9,50
Microexon location in the Microexon-tag 2
Microexon-tag DNA Seq TGGGAYAAYAGYWSYWGRARWGARRGYCARAVYARGAARGGAARRCAAGTTTAYYTRGGKGSWTATGAYRAKGARGARRMWGCWGCWMGRGCWTATGAYYTDGCWGCW
Logo of Microexon-tag DNA Seq NT60 Logo
Alignment of exons MSA
Microexon DNA seq TTTATTTGG
Microexon Amino Acid seq VYLG
Microexon-tag DNA Seq TGGGATAAGAGTACGTGGAACCAAAATCAGAATAAGAAGGGAAAGCAAGTTTATTTGGGGGCGTATGATGACGAGGAAGCGGCGGCCAGAGCATATGATCTTGCTGCT
Microexon-tag Amino Acid Seq WDKSTWNQNQNKKGKQVYLGAYDDEEAAARAYDLAA
Microexon-tag spanning region35202185-35202796
Microexon-tag prediction score0.9644
Overlapped with the annotated transcript (%) 100
New Transcript ID KRH66909x
Reference Transcript ID KRH66909
Gene ID GLYMA_03G136100
Gene Name NA
Transcript ID KRH66909
Protein ID KRH66909
Gene ID GLYMA_03G136100
Gene Name NA
Pfam domain motif AP2
Motif E-value 1.1e-13
Motif start 62
Motif end 120
Protein seq >KRH66909
MASSSSDPGKSAETSEAAALAVANDQLLLYRGLKKAKKERGCTAKERISKMPPCAAGKRSSIYRGVTRHRWTGRYEAHLW
DKSTWNQNQNKKGKQVYLGAYDDEEAAARAYDLAALKYWGPGTLINFPVTDYARDLEEMQNVSREEYLASLRRKSSGFSR
GLAKYRGLSSRWDPTYGRMSGSDYFNSMHYGAGDDSAAESEYVSGFCLDRKIDLTSHIKWWGSNKSRHSDAGTRLSEEKK
LGSAGDVCSELKQLEQKVQPMEPYQMPQLGRLHNEKKHRSSSLSALSILSQSAAYKSLQEKASKRQENSTDNDENENKNT
INKLDHGKAVEKPSNHDGGNDRLNIAMGMSGTMSLQRNAYPLTPFLSAPLLTAYNTVDPLVDPVLWTSLVPMLPAGLSRT
AEVTKTETSLETSSTYTMFQPEE*
CDS seq >KRH66909
ATGGCTTCGTCTTCCTCCGATCCGGGAAAGTCCGCGGAGACGTCGGAGGCCGCGGCGTTGGCGGTGGCGAACGACCAGCT
CTTGCTCTACAGAGGATTGAAGAAGGCCAAGAAGGAAAGAGGTTGCACGGCGAAAGAGCGCATCAGCAAAATGCCTCCGT
GCGCCGCCGGCAAACGCAGCTCCATATATCGCGGCGTCACGAGGCATAGGTGGACTGGTCGTTATGAAGCGCATCTTTGG
GATAAGAGTACGTGGAACCAAAATCAGAATAAGAAGGGAAAGCAAGTTTATTTGGGGGCGTATGATGACGAGGAAGCGGC
GGCCAGAGCATATGATCTTGCTGCTCTCAAATATTGGGGTCCTGGGACTCTCATTAACTTTCCTGTGACGGATTATGCAA
GAGATCTTGAAGAAATGCAGAATGTGTCGAGAGAAGAGTACCTTGCATCTTTACGGCGGAAGAGCAGTGGTTTTTCAAGA
GGACTAGCAAAATATCGTGGACTCTCCAGTCGATGGGATCCTACATATGGCCGTATGTCTGGATCTGATTACTTCAATAG
CATGCATTATGGTGCAGGGGATGATTCTGCAGCAGAAAGTGAATATGTAAGTGGCTTCTGCTTAGACAGAAAGATTGATT
TAACAAGTCACATCAAATGGTGGGGATCTAATAAGAGTAGACATTCTGATGCTGGGACAAGATTATCAGAAGAAAAGAAA
CTTGGTTCTGCTGGAGATGTTTGCAGCGAACTTAAGCAATTGGAGCAGAAAGTTCAACCTATGGAACCTTACCAGATGCC
ACAGTTAGGCAGGCTACACAATGAGAAGAAGCATAGAAGTTCTTCACTCTCTGCCTTAAGTATCTTGTCACAATCTGCTG
CTTACAAGAGCTTGCAAGAGAAAGCATCAAAGAGACAGGAAAATAGTACTGATAATGATGAGAATGAAAACAAAAATACA
ATCAACAAGTTGGATCATGGCAAGGCAGTTGAGAAACCATCAAATCATGATGGGGGCAATGATCGGCTCAACATTGCAAT
GGGAATGAGTGGAACAATGTCTCTTCAAAGAAATGCTTACCCATTGACTCCATTCTTGTCCGCACCACTTTTAACAGCCT
ACAATACTGTTGATCCATTGGTAGATCCTGTTCTCTGGACATCTCTTGTTCCCATGCTTCCTGCTGGCCTTTCTCGTACA
GCTGAGGTTACAAAGACCGAGACCAGTTTGGAGACCAGTTCAACGTACACTATGTTTCAGCCAGAGGAATGA
Microexon DNA seq TTTATTTGG
Microexon Amino Acid seq VYLG
Microexon-tag DNA Seq TGGGATAAGAGTACGTGGAACCAAAATCAGAATAAGAAGGGAAAGCAAGTTTATTTGGGGGCGTATGATGACGAGGAAGCGGCGGCCAGAGCATATGATCTTGCTGCT
Microexon-tag Amino Acid seq WDKSTWNQNQNKKGKQVYLGAYDDEEAAARAYDLAA
Transcript ID KRH66909
Gene ID Gm.36035
Gene Name NA
Pfam domain motif AP2
Motif E-value 1.1e-13
Motif start 62
Motif end 120
Protein seq >KRH66909
MASSSSDPGKSAETSEAAALAVANDQLLLYRGLKKAKKERGCTAKERISKMPPCAAGKRSSIYRGVTRHRWTGRYEAHLW
DKSTWNQNQNKKGKQVYLGAYDDEEAAARAYDLAALKYWGPGTLINFPVTDYARDLEEMQNVSREEYLASLRRKSSGFSR
GLAKYRGLSSRWDPTYGRMSGSDYFNSMHYGAGDDSAAESEYVSGFCLDRKIDLTSHIKWWGSNKSRHSDAGTRLSEEKK
LGSAGDVCSELKQLEQKVQPMEPYQMPQLGRLHNEKKHRSSSLSALSILSQSAAYKSLQEKASKRQENSTDNDENENKNT
INKLDHGKAVEKPSNHDGGNDRLNIAMGMSGTMSLQRNAYPLTPFLSAPLLTAYNTVDPLVDPVLWTSLVPMLPAGLSRT
AEVTKTETSLETSSTYTMFQPEE*
CDS seq >KRH66909
ATGGCTTCGTCTTCCTCCGATCCGGGAAAGTCCGCGGAGACGTCGGAGGCCGCGGCGTTGGCGGTGGCGAACGACCAGCT
CTTGCTCTACAGAGGATTGAAGAAGGCCAAGAAGGAAAGAGGTTGCACGGCGAAAGAGCGCATCAGCAAAATGCCTCCGT
GCGCCGCCGGCAAACGCAGCTCCATATATCGCGGCGTCACGAGGCATAGGTGGACTGGTCGTTATGAAGCGCATCTTTGG
GATAAGAGTACGTGGAACCAAAATCAGAATAAGAAGGGAAAGCAAGTTTATTTGGGGGCGTATGATGACGAGGAAGCGGC
GGCCAGAGCATATGATCTTGCTGCTCTCAAATATTGGGGTCCTGGGACTCTCATTAACTTTCCTGTGACGGATTATGCAA
GAGATCTTGAAGAAATGCAGAATGTGTCGAGAGAAGAGTACCTTGCATCTTTACGGCGGAAGAGCAGTGGTTTTTCAAGA
GGACTAGCAAAATATCGTGGACTCTCCAGTCGATGGGATCCTACATATGGCCGTATGTCTGGATCTGATTACTTCAATAG
CATGCATTATGGTGCAGGGGATGATTCTGCAGCAGAAAGTGAATATGTAAGTGGCTTCTGCTTAGACAGAAAGATTGATT
TAACAAGTCACATCAAATGGTGGGGATCTAATAAGAGTAGACATTCTGATGCTGGGACAAGATTATCAGAAGAAAAGAAA
CTTGGTTCTGCTGGAGATGTTTGCAGCGAACTTAAGCAATTGGAGCAGAAAGTTCAACCTATGGAACCTTACCAGATGCC
ACAGTTAGGCAGGCTACACAATGAGAAGAAGCATAGAAGTTCTTCACTCTCTGCCTTAAGTATCTTGTCACAATCTGCTG
CTTACAAGAGCTTGCAAGAGAAAGCATCAAAGAGACAGGAAAATAGTACTGATAATGATGAGAATGAAAACAAAAATACA
ATCAACAAGTTGGATCATGGCAAGGCAGTTGAGAAACCATCAAATCATGATGGGGGCAATGATCGGCTCAACATTGCAAT
GGGAATGAGTGGAACAATGTCTCTTCAAAGAAATGCTTACCCATTGACTCCATTCTTGTCCGCACCACTTTTAACAGCCT
ACAATACTGTTGATCCATTGGTAGATCCTGTTCTCTGGACATCTCTTGTTCCCATGCTTCCTGCTGGCCTTTCTCGTACA
GCTGAGGTTACAAAGACCGAGACCAGTTTGGAGACCAGTTCAACGTACACTATGTTTCAGCCAGAGGAATGA