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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:2803626..2805979- Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_012180-T1 ID=KJC3_012180-T1|Name=KJC3_012180-T1|organism=Aspergillus niger KJC3|type=mRNA|length=2354bp|location=Sequence derived from alignment at ch8:2803626..2805979- (Aspergillus niger KJC3)
CAGCTTCTCGCCTCCTATGGCTTTATTAGTCCTCTGCTCCCCAGGCTGAT
CGCTTTTTTTTTTTTTCTCTCGTGCGATCGTCTCTCCCATCCACTTTCCA
TACCTCCAGTCAGACCCTGTCAGGGCCCGTGTTCGCCAAGATGAGTGACC
CCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCACGTTCCCCAG
AAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCATCAA
CGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATCCACAATGTCC
ACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTGCGT
CGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGTCGA
GCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGTTTGTAGGTTTA
GCAGGAGGTTGTTGAAAGCTGTTTCTAACCTCTATAGATGTCAACTTTAT
TCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACAGTGGAC
AGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTGACAACC
TGTAAGTCTCCTCTAGGCCTCAAGCATGAGAGCGGTCGCTAACTGAACTT
ACAGTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGGAT
TGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGGAT
TTGCTATGCTCGGTCACATTATCATCATCATCTCATCTATTCCCCCGGTT
ATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTGAT
TTTCGGCATTGGTGTGGGCGGATTCAAGTAGGTGCTGTCTAGTCATCTCG
AGAATCAAACTAACCTGTCCAGATCCAATATCTCGCCCCTGATCGCAGAA
CAATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTAAGACTGGCGA
GCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATCTTCCTCTACT
TCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGGTG
TACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGACCAT
CATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATACA
CCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGG
AGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTGTAAGT
CTATCTGCTACATTACTCAAAACCTGGCTAACGGATCAGCTACCATCGCT
GCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAAC
AAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTCG
TGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTGTCAGT
TCTTCACAATAATGTAACCGAGCGATGCTAACCTCCATAGGGCTGGCCTA
CGGACAAATGACCAACAACCTAACCTCCCAGGCGGCCACCATGCAGCTGC
ACGGCGTGCCTAACGACATCATCAACAACCTGGACCCCCTTGCCCTCATC
ATCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGTCTCCGCAAGAT
GGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGATACCTGCTGG
CCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTACATCTACAAG
CTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCCCCCAT
CAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAA
TTTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCAAGGCGCCCAAG
AACATGAAGAGTTTAGGTATGCGCTTTACCCTCTATGTGTGTTCATTACA
TTGTTACTAACATGTACTAGTTCAATCTCTGTACCTGTTCATGAACGCCA
TCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCTC
CTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAAA
CCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTGA
ACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGGA
AAGGTCGAGGCATAGTGATTATGGTGTATGAATAACGGTGATGGATGCTA
TGTATACTTAATGCATGAGTTACGCTATATTAATACTATTGACATCTGAT
ATTA back to topCoding sequence (CDS) from alignment at ch8:2803626..2805979- >KJC3_012180-T1 ID=KJC3_012180-T1|Name=KJC3_012180-T1|organism=Aspergillus niger KJC3|type=CDS|length=12852bp|location=Sequence derived from alignment at ch8:2803626..2805979- (Aspergillus niger KJC3)
TTCAATCTCTGTACCTGTTCATGAACGCCATCTCCTCTGCTATTCAGCAA
GGTCTTACCGCCCTGTCGACCGATCCCCTCCTGATCTGGAACTATGGCTT
CGTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACT
TGAAGCTTGATAAGGAGGAAGACGAGTTGAACAACATCGAGGAGTCGGCG
TATCTGGGGCGCAACGTGGGTGACTCCGGAAAGGTCGAGGCATAGGGCTG
GCCTACGGACAAATGACCAACAACCTAACCTCCCAGGCGGCCACCATGCA
GCTGCACGGCGTGCCTAACGACATCATCAACAACCTGGACCCCCTTGCCC
TCATCATCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGTCTCCGC
AAGATGGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGATACCT
GCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTACATCT
ACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCC
CCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTC
GGAAATTTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCAAGGCGC
CCAAGAACATGAAGAGTTTAGCTACCATCGCTGCAAATCTACCGAGTTTT
GGGACAGTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCACGTGGATGACC
TTTGATGACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGC
TGTCTTTGCCTGGTACCCTCTTTACTATCCAATATCTCGCCCCTGATCGC
AGAACAATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTAAGACTG
GCGAGCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATCTTCCTC
TACTTCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGTGGCCAT
GGTGTACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGA
CCATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGA
TACACCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCT
GTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTTC
AACACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGGATTGCCGA
TGAATACTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGGATTTGCTA
TGCTCGGTCACATTATCATCATCATCTCATCTATTCCCCCGGTTATTGTA
CATGCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGG
CATTGGTGTGGGCGGATTCAAATGTCAACTTTATTCAGCAGCCTCTTCCC
GCCGGCTCCACCACGGGTGCCGGATACAGTGGACAGTCCGGTGCTCTGGG
CCAGGGTGAACGGACCTCTACTGCGCTGACAACCTATGAGTGACCCCGTT
GGCGCAGACGATCTGGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGGA
GATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCATCAACGAGA
AAGAAACCACAGTGGTGTCGACGGTGCCCTCAATCCACAATGTCCACGAT
GATGGGCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAGT
CTCCGACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTGT
GCGAGCGCTTCTCATACTATGGAACAACTGCAGTTTTTCAATCTCTGTAC
CTGTTCATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCT
GTCGACCGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGG
CGTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAG
GAGGAAGACGAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAA
CGTGGGTGACTCCGGAAAGGTCGAGGCATAGGGCTGGCCTACGGACAAAT
GACCAACAACCTAACCTCCCAGGCGGCCACCATGCAGCTGCACGGCGTGC
CTAACGACATCATCAACAACCTGGACCCCCTTGCCCTCATCATCTTCATC
CCGATCATGGACCAGTTCATCTACCCGGGTCTCCGCAAGATGGGCTTCCA
CTTCACCCCGATCAAGCGTATCTATGTGGGATACCTGCTGGCCTCCGCAT
CCATGATTGCCGCCGCCGTCACGCAGTACTACATCTACAAGCTGAGCCCG
TGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCCCCCATCAACGTGTG
GGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAATTTTCGCCT
CCATCACGGGTTACGAGTATGCGTATACCAAGGCGCCCAAGAACATGAAG
AGTTTAGCTACCATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAG
CCCAGTCGTCTTGCCAACAAGCCCACGTGGATGACCTTTGATGACCAGTG
GGTCGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGT
ACCCTCTTTACTATCCAATATCTCGCCCCTGATCGCAGAACAATACAAGG
AGACCAGACTCTTCATCAAGACCATTCCTAAGACTGGCGAGCGCGTCATC
GTCGATCCTGCGCAGACCATCACTCGCATCTTCCTCTACTTCTACTTCAT
GATTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGGTGTACGCGGAGA
AGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGACCATCATGTTCGGT
ATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATACACCGTGACGCC
CCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTC
TTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTTCAACACCTTCTGGTG
CTACGTCATGCCCATCTTGGGTGCCTGGATTGCCGATGAATACTGGGGTC
GTATGCGAACCATCCAAGTCTCCATCGGATTTGCTATGCTCGGTCACATT
ATCATCATCATCTCATCTATTCCCCCGGTTATTGTACATGCAAACGGTGC
ACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGGCATTGGTGTGGGCG
GATTCAAATGTCAACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCAC
GGGTGCCGGATACAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGA
CCTCTACTGCGCTGACAACCTATGAGTGACCCCGTTGGCGCAGACGATCT
GGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTCG
ATGAGAAGAAGGAGCCTCATATCCCCATCAACGAGAAAGAAACCACAGTG
GTGTCGACGGTGCCCTCAATCCACAATGTCCACGATGATGGGCGCGAATA
CCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTTA
GCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTCA
TACTATGGAACAACTGCAGTTTTTCAATCTCTGTACCTGTTCATGAACGC
CATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCC
TCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGA
AACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTT
GAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCG
GAAAGGTCGAGGCATAGGGCTGGCCTACGGACAAATGACCAACAACCTAA
CCTCCCAGGCGGCCACCATGCAGCTGCACGGCGTGCCTAACGACATCATC
AACAACCTGGACCCCCTTGCCCTCATCATCTTCATCCCGATCATGGACCA
GTTCATCTACCCGGGTCTCCGCAAGATGGGCTTCCACTTCACCCCGATCA
AGCGTATCTATGTGGGATACCTGCTGGCCTCCGCATCCATGATTGCCGCC
GCCGTCACGCAGTACTACATCTACAAGCTGAGCCCGTGCGGCAACCACCC
CAGCAGCTGTGATGAGGCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGC
CGTACGTGCTGATTGCCTTTTCGGAAATTTTCGCCTCCATCACGGGTTAC
GAGTATGCGTATACCAAGGCGCCCAAGAACATGAAGAGTTTAGCTACCAT
CGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGC
CAACAAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGC
GTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTAT
CCAATATCTCGCCCCTGATCGCAGAACAATACAAGGAGACCAGACTCTTC
ATCAAGACCATTCCTAAGACTGGCGAGCGCGTCATCGTCGATCCTGCGCA
GACCATCACTCGCATCTTCCTCTACTTCTACTTCATGATTAACGTCGGCT
CCCTGATCGGATCCGTGGCCATGGTGTACGCGGAGAAGTATGTGGGATAC
TGGCTGGCATTCCTGCTGCCGACCATCATGTTCGGTATTTGTCCGATTGT
TTTGTTCTTCTGTCGCAAGCGATACACCGTGACGCCCCCGACTGGATCGG
TCGTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGG
TCCTGGAACCCTGTCACTTTTCAACACCTTCTGGTGCTACGTCATGCCCA
TCTTGGGTGCCTGGATTGCCGATGAATACTGGGGTCGTATGCGAACCATC
CAAGTCTCCATCGGATTTGCTATGCTCGGTCACATTATCATCATCATCTC
ATCTATTCCCCCGGTTATTGTACATGCAAACGGTGCACTGGCTTGCTTCG
CTGTTGGTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCAAATGTCAA
CTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACA
GTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTG
ACAACCTATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCAC
AGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAG
CCTCATATCCCCATCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCC
CTCAATCCACAATGTCCACGATGATGGGCGCGAATACCCCACTGAGGAAG
AGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTAC
ACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAAC
TGCAGTTTTTCAATCTCTGTACCTGTTCATGAACGCCATCTCCTCTGCTA
TTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCTCCTGATCTGGAAC
TATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCT
CTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTGAACAACATCGAGG
AGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGGAAAGGTCGAGGCA
TAGGGCTGGCCTACGGACAAATGACCAACAACCTAACCTCCCAGGCGGCC
ACCATGCAGCTGCACGGCGTGCCTAACGACATCATCAACAACCTGGACCC
CCTTGCCCTCATCATCTTCATCCCGATCATGGACCAGTTCATCTACCCGG
GTCTCCGCAAGATGGGCTTCCACTTCACCCCGATCAAGCGTATCTATGTG
GGATACCTGCTGGCCTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTA
CTACATCTACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATG
AGGCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATT
GCCTTTTCGGAAATTTTCGCCTCCATCACGGGTTACGAGTATGCGTATAC
CAAGGCGCCCAAGAACATGAAGAGTTTAGCTACCATCGCTGCAAATCTAC
CGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCACGT
GGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTCAAG
GCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTATCCAATATCTCGCCC
CTGATCGCAGAACAATACAAGGAGACCAGACTCTTCATCAAGACCATTCC
TAAGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGACCATCACTCGCA
TCTTCCTCTACTTCTACTTCATGATTAACGTCGGCTCCCTGATCGGATCC
GTGGCCATGGTGTACGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCT
GCTGCCGACCATCATGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTC
GCAAGCGATACACCGTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCC
TTCCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGT
CACTTTTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGG
ATTGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGG
ATTTGCTATGCTCGGTCACATTATCATCATCATCTCATCTATTCCCCCGG
TTATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTG
ATTTTCGGCATTGGTGTGGGCGGATTCAAATGTCAACTTTATTCAGCAGC
CTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACAGTGGACAGTCCGGT
GCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTGACAACCTATGAGTG
ACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCCACGTTCCC
CAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCAT
CAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAATCCACAATG
TCCACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTG
CGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGT
CGAGCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGTTTTTCAAT
CTCTGTACCTGTTCATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTT
ACCGCCCTGTCGACCGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGC
CGTGCTGGCGTTCGTCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGC
TTGATAAGGAGGAAGACGAGTTGAACAACATCGAGGAGTCGGCGTATCTG
GGGCGCAACGTGGGTGACTCCGGAAAGGTCGAGGCATAGGGCTGGCCTAC
GGACAAATGACCAACAACCTAACCTCCCAGGCGGCCACCATGCAGCTGCA
CGGCGTGCCTAACGACATCATCAACAACCTGGACCCCCTTGCCCTCATCA
TCTTCATCCCGATCATGGACCAGTTCATCTACCCGGGTCTCCGCAAGATG
GGCTTCCACTTCACCCCGATCAAGCGTATCTATGTGGGATACCTGCTGGC
CTCCGCATCCATGATTGCCGCCGCCGTCACGCAGTACTACATCTACAAGC
TGAGCCCGTGCGGCAACCACCCCAGCAGCTGTGATGAGGCCGCCCCCATC
AACGTGTGGGTGCAGGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAAT
TTTCGCCTCCATCACGGGTTACGAGTATGCGTATACCAAGGCGCCCAAGA
ACATGAAGAGTTTAGCTACCATCGCTGCAAATCTACCGAGTTTTGGGACA
GTGTCAAGCCCAGTCGTCTTGCCAACAAGCCCACGTGGATGACCTTTGAT
GACCAGTGGGTCGAAGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTT
TGCCTGGTACCCTCTTTACTATCCAATATCTCGCCCCTGATCGCAGAACA
ATACAAGGAGACCAGACTCTTCATCAAGACCATTCCTAAGACTGGCGAGC
GCGTCATCGTCGATCCTGCGCAGACCATCACTCGCATCTTCCTCTACTTC
TACTTCATGATTAACGTCGGCTCCCTGATCGGATCCGTGGCCATGGTGTA
CGCGGAGAAGTATGTGGGATACTGGCTGGCATTCCTGCTGCCGACCATCA
TGTTCGGTATTTGTCCGATTGTTTTGTTCTTCTGTCGCAAGCGATACACC
GTGACGCCCCCGACTGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAG
CCTGGCTCTTCGGGGCCAATGGTCCTGGAACCCTGTCACTTTTCAACACC
TTCTGGTGCTACGTCATGCCCATCTTGGGTGCCTGGATTGCCGATGAATA
CTGGGGTCGTATGCGAACCATCCAAGTCTCCATCGGATTTGCTATGCTCG
GTCACATTATCATCATCATCTCATCTATTCCCCCGGTTATTGTACATGCA
AACGGTGCACTGGCTTGCTTCGCTGTTGGTCTGGTGATTTTCGGCATTGG
TGTGGGCGGATTCAAATGTCAACTTTATTCAGCAGCCTCTTCCCGCCGGC
TCCACCACGGGTGCCGGATACAGTGGACAGTCCGGTGCTCTGGGCCAGGG
TGAACGGACCTCTACTGCGCTGACAACCTATGAGTGACCCCGTTGGCGCA
GACGATCTGGTCTATGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCCA
GGCCGTCGATGAGAAGAAGGAGCCTCATATCCCCATCAACGAGAAAGAAA
CCACAGTGGTGTCGACGGTGCCCTCAATCCACAATGTCCACGATGATGGG
CGCGAATACCCCACTGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCGA
CTCGGTTAGCTGGACCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAGC
GCTTCTCATACTATGGAACAACTGCAGTTTTTCAATCTCTGTACCTGTTC
ATGAACGCCATCTCCTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGAC
CGATCCCCTCCTGATCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCG
TCGGTGGAAACCTCTTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAA
GACGAGTTGAACAACATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGG
TGACTCCGGAAAGGTCGAGGCATAGGGCTGGCCTACGGACAAATGACCAA
CAACCTAACCTCCCAGGCGGCCACCATGCAGCTGCACGGCGTGCCTAACG
ACATCATCAACAACCTGGACCCCCTTGCCCTCATCATCTTCATCCCGATC
ATGGACCAGTTCATCTACCCGGGTCTCCGCAAGATGGGCTTCCACTTCAC
CCCGATCAAGCGTATCTATGTGGGATACCTGCTGGCCTCCGCATCCATGA
TTGCCGCCGCCGTCACGCAGTACTACATCTACAAGCTGAGCCCGTGCGGC
AACCACCCCAGCAGCTGTGATGAGGCCGCCCCCATCAACGTGTGGGTGCA
GGCAGTGCCGTACGTGCTGATTGCCTTTTCGGAAATTTTCGCCTCCATCA
CGGGTTACGAGTATGCGTATACCAAGGCGCCCAAGAACATGAAGAGTTTA
GCTACCATCGCTGCAAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGT
CGTCTTGCCAACAAGCCCACGTGGATGACCTTTGATGACCAGTGGGTCGA
AGAAGTGCGTCGTGCCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTC
TTTACTATCCAATATCTCGCCCCTGATCGCAGAACAATACAAGGAGACCA
GACTCTTCATCAAGACCATTCCTAAGACTGGCGAGCGCGTCATCGTCGAT
CCTGCGCAGACCATCACTCGCATCTTCCTCTACTTCTACTTCATGATTAA
CGTCGGCTCCCTGATCGGATCCGTGGCCATGGTGTACGCGGAGAAGTATG
TGGGATACTGGCTGGCATTCCTGCTGCCGACCATCATGTTCGGTATTTGT
CCGATTGTTTTGTTCTTCTGTCGCAAGCGATACACCGTGACGCCCCCGAC
TGGATCGGTCGTGACCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGG
GCCAATGGTCCTGGAACCCTGTCACTTTTCAACACCTTCTGGTGCTACGT
CATGCCCATCTTGGGTGCCTGGATTGCCGATGAATACTGGGGTCGTATGC
GAACCATCCAAGTCTCCATCGGATTTGCTATGCTCGGTCACATTATCATC
ATCATCTCATCTATTCCCCCGGTTATTGTACATGCAAACGGTGCACTGGC
TTGCTTCGCTGTTGGTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCA
AATGTCAACTTTATTCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGC
CGGATACAGTGGACAGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTA
CTGCGCTGACAACCTATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTA
TGTCGCACAGGCCCACGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGA
AGAAGGAGCCTCATATCCCCATCAACGAGAAAGAAACCACAGTGGTGTCG
ACGGTGCCCTCAATCCACAATGTCCACGATGATGGGCGCGAATACCCCAC
TGAGGAAGAGGAGAGGACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGA
CCGCCTACACGGTCGCGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTAT
GGAACAACTGCAGTTTTTCAATCTCTGTACCTGTTCATGAACGCCATCTC
CTCTGCTATTCAGCAAGGTCTTACCGCCCTGTCGACCGATCCCCTCCTGA
TCTGGAACTATGGCTTCGTCGCCGTGCTGGCGTTCGTCGGTGGAAACCTC
TTCTTCCTCTGCAACTTGAAGCTTGATAAGGAGGAAGACGAGTTGAACAA
CATCGAGGAGTCGGCGTATCTGGGGCGCAACGTGGGTGACTCCGGAAAGG
TCGAGGCATAGGGCTGGCCTACGGACAAATGACCAACAACCTAACCTCCC
AGGCGGCCACCATGCAGCTGCACGGCGTGCCTAACGACATCATCAACAAC
CTGGACCCCCTTGCCCTCATCATCTTCATCCCGATCATGGACCAGTTCAT
CTACCCGGGTCTCCGCAAGATGGGCTTCCACTTCACCCCGATCAAGCGTA
TCTATGTGGGATACCTGCTGGCCTCCGCATCCATGATTGCCGCCGCCGTC
ACGCAGTACTACATCTACAAGCTGAGCCCGTGCGGCAACCACCCCAGCAG
CTGTGATGAGGCCGCCCCCATCAACGTGTGGGTGCAGGCAGTGCCGTACG
TGCTGATTGCCTTTTCGGAAATTTTCGCCTCCATCACGGGTTACGAGTAT
GCGTATACCAAGGCGCCCAAGAACATGAAGAGTTTAGCTACCATCGCTGC
AAATCTACCGAGTTTTGGGACAGTGTCAAGCCCAGTCGTCTTGCCAACAA
GCCCACGTGGATGACCTTTGATGACCAGTGGGTCGAAGAAGTGCGTCGTG
CCGTCAAGGCCTGTGCTGTCTTTGCCTGGTACCCTCTTTACTATCCAATA
TCTCGCCCCTGATCGCAGAACAATACAAGGAGACCAGACTCTTCATCAAG
ACCATTCCTAAGACTGGCGAGCGCGTCATCGTCGATCCTGCGCAGACCAT
CACTCGCATCTTCCTCTACTTCTACTTCATGATTAACGTCGGCTCCCTGA
TCGGATCCGTGGCCATGGTGTACGCGGAGAAGTATGTGGGATACTGGCTG
GCATTCCTGCTGCCGACCATCATGTTCGGTATTTGTCCGATTGTTTTGTT
CTTCTGTCGCAAGCGATACACCGTGACGCCCCCGACTGGATCGGTCGTGA
CCAAAGCCTTCCAGCTGTGGAGCCTGGCTCTTCGGGGCCAATGGTCCTGG
AACCCTGTCACTTTTCAACACCTTCTGGTGCTACGTCATGCCCATCTTGG
GTGCCTGGATTGCCGATGAATACTGGGGTCGTATGCGAACCATCCAAGTC
TCCATCGGATTTGCTATGCTCGGTCACATTATCATCATCATCTCATCTAT
TCCCCCGGTTATTGTACATGCAAACGGTGCACTGGCTTGCTTCGCTGTTG
GTCTGGTGATTTTCGGCATTGGTGTGGGCGGATTCAAATGTCAACTTTAT
TCAGCAGCCTCTTCCCGCCGGCTCCACCACGGGTGCCGGATACAGTGGAC
AGTCCGGTGCTCTGGGCCAGGGTGAACGGACCTCTACTGCGCTGACAACC
TATGAGTGACCCCGTTGGCGCAGACGATCTGGTCTATGTCGCACAGGCCC
ACGTTCCCCAGAAGGAGATCCAGGCCGTCGATGAGAAGAAGGAGCCTCAT
ATCCCCATCAACGAGAAAGAAACCACAGTGGTGTCGACGGTGCCCTCAAT
CCACAATGTCCACGATGATGGGCGCGAATACCCCACTGAGGAAGAGGAGA
GGACCCTGCGTCGAGTCTCCGACTCGGTTAGCTGGACCGCCTACACGGTC
GCGTTTGTCGAGCTGTGCGAGCGCTTCTCATACTATGGAACAACTGCAGT
TT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016020 | membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006857 | oligopeptide transport |
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0022857 | transmembrane transporter activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_012180-T1.utr3p1 | KJC3_012180-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
The following exon feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_012180-T1.utr5p1 | KJC3_012180-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR036259 |
| DBxref | InterPro:IPR018456 |
| DBxref | InterPro:IPR000109 |
| DBxref | PFAM:PF00854 |
| Product | hypothetical protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| ch8 | supercontig | ch8:2803626..2805979 - |
|
