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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000007.1:3436167..3440435+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_53840-T1 ID=ATCC64974_53840-T1|Name=ATCC64974_53840-T1|organism=Aspergillus niger N402|type=mRNA|length=4269bp|location=Sequence derived from alignment at OGUI01000007.1:3436167..3440435+ (Aspergillus niger N402)
ATGGCAGGCCTTACTCTCCCTGTTGTCGGTACCCGGCTCCAGATCGCTCT
GGTACTTCTTATCGTTGCCCCTTCGTTCATTCTCTTCGGATACAATCAAG
CGGTCCTGGGCAGTTTACTCAGCCTCCAAAGTTGGGTCTCTGTATTTCCA
GCCATCGACACCATAAACACCTCGGGGGCACAGAAGTCCCATAACTCAAC
ATCCCAAGGCGCCTGCAATGCCTCGTTTCAGATGGGATGTCTGATAGGTG
CCCTGTCCCTCTCTCTTTATAGCGACAAACTCGGACGCCGTAAGACAGTC
TTTATCGGAGCTGCCATCACCGTCCTCGGTCAGGCTCTACAGGTCTCTGC
AACCACATTGGTTCAGTTGGTCGTTGGCCGAGTTATCCTAGGGTTCGCTA
TCGGCCAAATCAGCGGCACCGTGCCTGTCTGGCTCTCGGAGTGTGCCTCT
CCCAAGTACCGCGGACAGCTCGGTATCTGTACGGGTATTTTCATCAGCAC
GGGCTACACATTGTGCAACTGGATTGATTTGGGATTCAGCTATCTACCCT
CTTCTACTGGACAATGGAGAGCTCCGCTCTCTATACCCTTTCTCTTCTCA
GCAATGTTACTGGTTTCTGCTTTCACGTTTCCGGAGTCGCCTCGTTGGCT
GATCTCTAGAGGAAGGGTCGAAGAAGCTACTGCAAGTCTCTGTCGGTATC
GAGGAAAGGATGCGCATGATGAGATGATTATGGGCGAGATAGCCCATATT
CAGCTTGCTCTAGAGGGCAGTGGGACCATGTCCGTCCTGGATATTTTCGA
TCGCAAGGACAAGACGCGTCTGTTGTTGCGATTTTGGCTCTGCATGGGGT
TAAACTTTTTCCAACAGGTGAGTATCGCGGCTCCTATAGCACTTGGCTCT
CCAAATGTACCACCGCTAATCCATTAGGCCTGCGGAGGCAACCTCATATC
CGTCTATAGTTCCACCATTTTCCAAAATTACCTACACATGACACCCACCA
TGTCTAAAGTCCTGGCGTCCTGTGTACTATCATGGAAAACGCTCTGCTGT
CTATTAACGTTTTGGACTATCGACAACTGGGGCCGCCGTCTATCCTTCAT
GGTAAGCGGAGCAGGGATGTCCATCTGCATGGCCGTGCTAGCGGTCACCA
CCGGCTTGGGCAAAATCACGCATGCGATGGCAATAGCATACGTTGCCTTC
ATGTTCGTCTTCAACTTCTTCTACCCAATCGGCTTCATGGGTGGCAACTT
CCTGTACACGGCTGAGATTGCGCCTGTGCGTCTGCGAGCGGCCATGTCCT
CCCTCGCGACTGCTAATCACTGGCTATGGAATTTGGTGGTTGTTCTGGTT
ACGCCAGTTGCTATAGATACGATTGGATGCTGGTACTATGTGATCTATGC
GCTTATATCTGCGACTATCCCGGTCTGCGTGTACTTCTTCTATCCGGAGA
CGAGGCACCGTAGTTTGGAGATGCTTGATCGGGTGTTTGTGGATGCCCCT
TCTATCTGGCGGATTGTGCCGATGGCCAGGGGGTTGCCGCTCGGAGAAGT
CGGCACAGCAGAGAGTGGAGATACACTGCGCGAGGAAAAGAAGGCAGAGG
ATATAGATGGTAATGTTGAGATGCGGGAGTATGTCTAGATGGATTAGCTG
GACAGCGTTGCTATTGTAATTAGTTGTTCCTCGGGTAGAAGAGATGCGAT
ATGCCCATCGGCCCAGCCGACGGAACCATCCGAAGCTGACACTAGGAAGA
CCGAGGAGTAAATCAGCCACAGCTGGAGATGTTACATAGACCCTTGTGAT
TTATATCTACTGTCTTATCCAATAGATCACTCTTGTTTACCAATGCATCA
TCAAGATGATCAGAACACGAGTGAGCTGTCCCAAGTTAGCCAGAGGCTAT
GCCTCCCACACCCAAGTGCCAATAAGTCGACTTGAACAACATAAAATAAA
CATCTCCCAGTTTCCTTCTGCCATCCAATCACTAAGAAAGCGGTAGCTAC
TCACTTCGCACCTACGCTGCATTATTAGACCCCTACTGATATCCACATCA
TAGATACGACCGCCCCCTCACATACGCCGAAAAAGTCCTTTACAGCCATC
TTGACATCACTTTTGACGAGCGCATCGAGCGCGGCAAAACCCAACTCAAA
CTACGCCCGCAACGCATAGCATGCCAAGATGCGACAGCCCAAATGGCACT
TATCCAGTTCATGTCCGCGGGACTAGACACAGCGGCCGTACCAACCACAG
TCCACTGCGATCATTTGATCGTCAGTCGTGACGGCGAAACACAGGACCTC
GCTCGAGCGCTGGACAACCATAAAGAAGTGTACGATTTCCTCGAGTCTGC
CTGCCAGAAATACAACATGGGGTTCTGGAAGCCCGGCGCGGGAATCATTC
ACCAGATTGTGCTGGAGAACTACGCCTTCCCTAGTGGAATGATGGTCGGG
ACGGACTCTCATACTCCCAACGCAGGAGGCCTTGGCATGATAGCCATCGG
AGTTGGTGGTGCCGATGCGGTAGACGTGATGGCTGGATTGTCGCTGGAGC
TCCAAGCGCCAAAGGTATTGGGTGTCCGATTGACGGGGCAGTTGTCCGGA
TGGGCTTCGCCGAAGGATATTATCAATGCTGTAGCCGGGACGCTTTCCGT
TAAGGGAGGTACTGGGTCCATTATTGAATACTTTGGACCTGGGGCGCAGA
CTCTGTCAGCCACGGGCATGGCAACTGTGTGCAATATGGGTGCGGAAACA
GGTGCCACAACATCCATCTTCCCTTATGCGCCACAGATGGCGGATTATCT
TCGTGCTAATCATCGCCATGAGATGGCTGATGCTGTTAAGAGCATTGCAC
CGGAATTGCAGGCTGATGAGGGGGCTGAGTATGATAATGTTATTGAGCTC
GATTTGTCCACTCTCGAGCCACGGATCAATGGACCTTTCACGCCGGACTT
TTCTACCCCGGTGTCGCGGTTCGGTGAAGCCGTGGCGGAGAACCAGTGGC
CGGTTGAATTGACGGCAGCTTTGATTGGATCTTGTACTAACTCTTCGTTT
GAAGATATGGGACGTGCAGCTAGTCTTGCCCAGCAGGCATTGGATGCAGG
ACTGGAACCACAAATGCCCCTTCTGGTGTCGCCAGGTAGTGTTCAGACGC
GCGAGACGTTGGAAGATGCCGGTATTCTGCCGGTCTTCGAGAGACTCGGG
GCGACGATGCTTCCCAACGCCTGTGGTCCATGCTGTGGGTCGTGGGATCG
AGTTGATATGCCAAAGGTATAGTATGGCCATCCCATCTACCGAAAGACTG
TCTTTTGACATATATTAGGGCACCCCAAACTCCATAATAACCTCCTACAA
CCGGAACTTCTCCGGCCGTCTAGATTCCAACCCAGCAACCAACGTCTTCC
TAGCATCGCCCGAGCTCGTCATTGCAAAGGCCTTCTCCCGCGACCTCTCC
TTCAACCCAACAACTGACTCGCTCCCAACCCCATCCGGCGAGCAATTCCA
CTTCCTCCCTCCAACCAGCGATTCCCTCCCCTCAAAGGGCTACCTCTCCT
CCGACTCCGCCTACGCACCCCCACCGGCAAACCGGGATAACATCTCCGTC
AAAATCGACCCGTCATCCCTCCGCCTCCAGAAATTGTCCCCATTCCCACC
CTGGCCCGGCCACGACTTCAAAGACTGCGCCATCCTAATCAAAACAGCCG
GGAAATGCACAACGGACCACATCACCCCCGCTGGCCCGTGGTTCCGCTAT
AGAGGCCACCTAGAAAACATCTCCAACAATACCCTCATCGGCGCAACCAA
CGCCGAGAACGGCAAGGTGAACAGTATCCGGAACCAGCTCACGAAGCAAG
ATGGACAGGAAGTGCCTGCTACAGCACGCCACTACAAAGAGAACAGCGTG
CCGTGGGTGGTTATCGCTGACCATAACTACGGGGAGGGCAGTTCGCGGGA
ACATGCGGCGCTGCAGCCGAGGTATCTAGGTGGTGTGGCGATTATCGCGA
AGTCATTTGCAAGAATCCATGAGGCGAATTTGAAGAAGCAGGGGTTGTTG
GCACTGACTTTCGACAATGAGAAGGATTATGAAAGGATTAGGGCTGAGGA
TCGGGTTAGTATTTTGGGGCTTAGGGAGGGGGAGTTTGTTCCGGGGAGCA
CTTTGAGGTTGGTAGTTAATGGGGGCGAGTGGGAGGCTGTGCTCAGGCAT
AGTTTTACGGAGGAGCAGATTGGGTATTTTAGAAGTGGGAGTGCGTTGAA
TGTTATGGCGGGGAAGTAG back to topCoding sequence (CDS) from alignment at OGUI01000007.1:3436167..3440435+ >ATCC64974_53840-T1 ID=ATCC64974_53840-T1|Name=ATCC64974_53840-T1|organism=Aspergillus niger N402|type=CDS|length=14928bp|location=Sequence derived from alignment at OGUI01000007.1:3436167..3440435+ (Aspergillus niger N402)
ATGGCAGGCCTTACTCTCCCTGTTGTCGGTACCCGGCTCCAGATCGCTCT
GGTACTTCTTATCGTTGCCCCTTCGTTCATTCTCTTCGGATACAATCAAG
CGGTCCTGGGCAGTTTACTCAGCCTCCAAAGTTGGGTCTCTGTATTTCCA
GCCATCGACACCATAAACACCTCGGGGGCACAGAAGTCCCATAACTCAAC
ATCCCAAGGCGCCTGCAATGCCTCGTTTCAGATGGGATGTCTGATAGGTG
CCCTGTCCCTCTCTCTTTATAGCGACAAACTCGGACGCCGTAAGACAGTC
TTTATCGGAGCTGCCATCACCGTCCTCGGTCAGGCTCTACAGGTCTCTGC
AACCACATTGGTTCAGTTGGTCGTTGGCCGAGTTATCCTAGGGTTCGCTA
TCGGCCAAATCAGCGGCACCGTGCCTGTCTGGCTCTCGGAGTGTGCCTCT
CCCAAGTACCGCGGACAGCTCGGTATCTGTACGGGTATTTTCATCAGCAC
GGGCTACACATTGTGCAACTGGATTGATTTGGGATTCAGCTATCTACCCT
CTTCTACTGGACAATGGAGAGCTCCGCTCTCTATACCCTTTCTCTTCTCA
GCAATGTTACTGGTTTCTGCTTTCACGTTTCCGGAGTCGCCTCGTTGGCT
GATCTCTAGAGGAAGGGTCGAAGAAGCTACTGCAAGTCTCTGTCGGTATC
GAGGAAAGGATGCGCATGATGAGATGATTATGGGCGAGATAGCCCATATT
CAGCTTGCTCTAGAGGGCAGTGGGACCATGTCCGTCCTGGATATTTTCGA
TCGCAAGGACAAGACGCGTCTGTTGTTGCGATTTTGGCTCTGCATGGGGT
TAAACTTTTTCCAACAGGCCTGCGGAGGCAACCTCATATCCGTCTATAGT
TCCACCATTTTCCAAAATTACCTACACATGACACCCACCATGTCTAAAGT
CCTGGCGTCCTGTGTACTATCATGGAAAACGCTCTGCTGTCTATTAACGT
TTTGGACTATCGACAACTGGGGCCGCCGTCTATCCTTCATGGTAAGCGGA
GCAGGGATGTCCATCTGCATGGCCGTGCTAGCGGTCACCACCGGCTTGGG
CAAAATCACGCATGCGATGGCAATAGCATACGTTGCCTTCATGTTCGTCT
TCAACTTCTTCTACCCAATCGGCTTCATGGGTGGCAACTTCCTGTACACG
GCTGAGATTGCGCCTGTGCGTCTGCGAGCGGCCATGTCCTCCCTCGCGAC
TGCTAATCACTGGCTATGGAATTTGGTGGTTGTTCTGGTTACGCCAGTTG
CTATAGATACGATTGGATGCTGGTACTATGTGATCTATGCGCTTATATCT
GCGACTATCCCGGTCTGCGTGTACTTCTTCTATCCGGAGACGAGGCACCG
TAGTTTGGAGATGCTTGATCGGGTGTTTGTGGATGCCCCTTCTATCTGGC
GGATTGTGCCGATGGCCAGGGGGTTGCCGCTCGGAGAAGTCGGCACAGCA
GAGAGTGGAGATACACTGCGCGAGGAAAAGAAGGCAGAGGATATAGATGG
TAATGTTGAGATGCGGGAATACGACCGCCCCCTCACATACGCCGAAAAAG
TCCTTTACAGCCATCTTGACATCACTTTTGACGAGCGCATCGAGCGCGGC
AAAACCCAACTCAAACTACGCCCGCAACGCATAGCATGCCAAGATGCGAC
AGCCCAAATGGCACTTATCCAGTTCATGTCCGCGGGACTAGACACAGCGG
CCGTACCAACCACAGTCCACTGCGATCATTTGATCGTCAGTCGTGACGGC
GAAACACAGGACCTCGCTCGAGCGCTGGACAACCATAAAGAAGTGTACGA
TTTCCTCGAGTCTGCCTGCCAGAAATACAACATGGGGTTCTGGAAGCCCG
GCGCGGGAATCATTCACCAGATTGTGCTGGAGAACTACGCCTTCCCTAGT
GGAATGATGGTCGGGACGGACTCTCATACTCCCAACGCAGGAGGCCTTGG
CATGATAGCCATCGGAGTTGGTGGTGCCGATGCGGTAGACGTGATGGCTG
GATTGTCGCTGGAGCTCCAAGCGCCAAAGGTATTGGGTGTCCGATTGACG
GGGCAGTTGTCCGGATGGGCTTCGCCGAAGGATATTATCAATGCTGTAGC
CGGGACGCTTTCCGTTAAGGGAGGTACTGGGTCCATTATTGAATACTTTG
GACCTGGGGCGCAGACTCTGTCAGCCACGGGCATGGCAACTGTGTGCAAT
ATGGGTGCGGAAACAGGTGCCACAACATCCATCTTCCCTTATGCGCCACA
GATGGCGGATTATCTTCGTGCTAATCATCGCCATGAGATGGCTGATGCTG
TTAAGAGCATTGCACCGGAATTGCAGGCTGATGAGGGGGCTGAGTATGAT
AATGTTATTGAGCTCGATTTGTCCACTCTCGAGCCACGGATCAATGGACC
TTTCACGCCGGACTTTTCTACCCCGGTGTCGCGGTTCGGTGAAGCCGTGG
CGGAGAACCAGTGGCCGGTTGAATTGACGGCAGCTTTGATTGGATCTTGT
ACTAACTCTTCGTTTGAAGATATGGGACGTGCAGCTAGTCTTGCCCAGCA
GGCATTGGATGCAGGACTGGAACCACAAATGCCCCTTCTGGTGTCGCCAG
GTAGTGTTCAGACGCGCGAGACGTTGGAAGATGCCGGTATTCTGCCGGTC
TTCGAGAGACTCGGGGCGACGATGCTTCCCAACGCCTGTGGTCCATGCTG
TGGGTCGTGGGATCGAGTTGATATGCCAAAGGGCACCCCAAACTCCATAA
TAACCTCCTACAACCGGAACTTCTCCGGCCGTCTAGATTCCAACCCAGCA
ACCAACGTCTTCCTAGCATCGCCCGAGCTCGTCATTGCAAAGGCCTTCTC
CCGCGACCTCTCCTTCAACCCAACAACTGACTCGCTCCCAACCCCATCCG
GCGAGCAATTCCACTTCCTCCCTCCAACCAGCGATTCCCTCCCCTCAAAG
GGCTACCTCTCCTCCGACTCCGCCTACGCACCCCCACCGGCAAACCGGGA
TAACATCTCCGTCAAAATCGACCCGTCATCCCTCCGCCTCCAGAAATTGT
CCCCATTCCCACCCTGGCCCGGCCACGACTTCAAAGACTGCGCCATCCTA
ATCAAAACAGCCGGGAAATGCACAACGGACCACATCACCCCCGCTGGCCC
GTGGTTCCGCTATAGAGGCCACCTAGAAAACATCTCCAACAATACCCTCA
TCGGCGCAACCAACGCCGAGAACGGCAAGGTGAACAGTATCCGGAACCAG
CTCACGAAGCAAGATGGACAGGAAGTGCCTGCTACAGCACGCCACTACAA
AGAGAACAGCGTGCCGTGGGTGGTTATCGCTGACCATAACTACGGGGAGG
GCAGTTCGCGGGAACATGCGGCGCTGCAGCCGAGGTATCTAGGTGGTGTG
GCGATTATCGCGAAGTCATTTGCAAGAATCCATGAGGCGAATTTGAAGAA
GCAGGGGTTGTTGGCACTGACTTTCGACAATGAGAAGGATTATGAAAGGA
TTAGGGCTGAGGATCGGGTTAGTATTTTGGGGCTTAGGGAGGGGGAGTTT
GTTCCGGGGAGCACTTTGAGGTTGGTAGTTAATGGGGGCGAGTGGGAGGC
TGTGCTCAGGCATAGTTTTACGGAGGAGCAGATTGGGTATTTTAGAAGTG
GGAGTGCGTTGAATGTTATGGCGGGGAAGTAGATGGCAGGCCTTACTCTC
CCTGTTGTCGGTACCCGGCTCCAGATCGCTCTGGTACTTCTTATCGTTGC
CCCTTCGTTCATTCTCTTCGGATACAATCAAGCGGTCCTGGGCAGTTTAC
TCAGCCTCCAAAGTTGGGTCTCTGTATTTCCAGCCATCGACACCATAAAC
ACCTCGGGGGCACAGAAGTCCCATAACTCAACATCCCAAGGCGCCTGCAA
TGCCTCGTTTCAGATGGGATGTCTGATAGGTGCCCTGTCCCTCTCTCTTT
ATAGCGACAAACTCGGACGCCGTAAGACAGTCTTTATCGGAGCTGCCATC
ACCGTCCTCGGTCAGGCTCTACAGGTCTCTGCAACCACATTGGTTCAGTT
GGTCGTTGGCCGAGTTATCCTAGGGTTCGCTATCGGCCAAATCAGCGGCA
CCGTGCCTGTCTGGCTCTCGGAGTGTGCCTCTCCCAAGTACCGCGGACAG
CTCGGTATCTGTACGGGTATTTTCATCAGCACGGGCTACACATTGTGCAA
CTGGATTGATTTGGGATTCAGCTATCTACCCTCTTCTACTGGACAATGGA
GAGCTCCGCTCTCTATACCCTTTCTCTTCTCAGCAATGTTACTGGTTTCT
GCTTTCACGTTTCCGGAGTCGCCTCGTTGGCTGATCTCTAGAGGAAGGGT
CGAAGAAGCTACTGCAAGTCTCTGTCGGTATCGAGGAAAGGATGCGCATG
ATGAGATGATTATGGGCGAGATAGCCCATATTCAGCTTGCTCTAGAGGGC
AGTGGGACCATGTCCGTCCTGGATATTTTCGATCGCAAGGACAAGACGCG
TCTGTTGTTGCGATTTTGGCTCTGCATGGGGTTAAACTTTTTCCAACAGG
CCTGCGGAGGCAACCTCATATCCGTCTATAGTTCCACCATTTTCCAAAAT
TACCTACACATGACACCCACCATGTCTAAAGTCCTGGCGTCCTGTGTACT
ATCATGGAAAACGCTCTGCTGTCTATTAACGTTTTGGACTATCGACAACT
GGGGCCGCCGTCTATCCTTCATGGTAAGCGGAGCAGGGATGTCCATCTGC
ATGGCCGTGCTAGCGGTCACCACCGGCTTGGGCAAAATCACGCATGCGAT
GGCAATAGCATACGTTGCCTTCATGTTCGTCTTCAACTTCTTCTACCCAA
TCGGCTTCATGGGTGGCAACTTCCTGTACACGGCTGAGATTGCGCCTGTG
CGTCTGCGAGCGGCCATGTCCTCCCTCGCGACTGCTAATCACTGGCTATG
GAATTTGGTGGTTGTTCTGGTTACGCCAGTTGCTATAGATACGATTGGAT
GCTGGTACTATGTGATCTATGCGCTTATATCTGCGACTATCCCGGTCTGC
GTGTACTTCTTCTATCCGGAGACGAGGCACCGTAGTTTGGAGATGCTTGA
TCGGGTGTTTGTGGATGCCCCTTCTATCTGGCGGATTGTGCCGATGGCCA
GGGGGTTGCCGCTCGGAGAAGTCGGCACAGCAGAGAGTGGAGATACACTG
CGCGAGGAAAAGAAGGCAGAGGATATAGATGGTAATGTTGAGATGCGGGA
ATACGACCGCCCCCTCACATACGCCGAAAAAGTCCTTTACAGCCATCTTG
ACATCACTTTTGACGAGCGCATCGAGCGCGGCAAAACCCAACTCAAACTA
CGCCCGCAACGCATAGCATGCCAAGATGCGACAGCCCAAATGGCACTTAT
CCAGTTCATGTCCGCGGGACTAGACACAGCGGCCGTACCAACCACAGTCC
ACTGCGATCATTTGATCGTCAGTCGTGACGGCGAAACACAGGACCTCGCT
CGAGCGCTGGACAACCATAAAGAAGTGTACGATTTCCTCGAGTCTGCCTG
CCAGAAATACAACATGGGGTTCTGGAAGCCCGGCGCGGGAATCATTCACC
AGATTGTGCTGGAGAACTACGCCTTCCCTAGTGGAATGATGGTCGGGACG
GACTCTCATACTCCCAACGCAGGAGGCCTTGGCATGATAGCCATCGGAGT
TGGTGGTGCCGATGCGGTAGACGTGATGGCTGGATTGTCGCTGGAGCTCC
AAGCGCCAAAGGTATTGGGTGTCCGATTGACGGGGCAGTTGTCCGGATGG
GCTTCGCCGAAGGATATTATCAATGCTGTAGCCGGGACGCTTTCCGTTAA
GGGAGGTACTGGGTCCATTATTGAATACTTTGGACCTGGGGCGCAGACTC
TGTCAGCCACGGGCATGGCAACTGTGTGCAATATGGGTGCGGAAACAGGT
GCCACAACATCCATCTTCCCTTATGCGCCACAGATGGCGGATTATCTTCG
TGCTAATCATCGCCATGAGATGGCTGATGCTGTTAAGAGCATTGCACCGG
AATTGCAGGCTGATGAGGGGGCTGAGTATGATAATGTTATTGAGCTCGAT
TTGTCCACTCTCGAGCCACGGATCAATGGACCTTTCACGCCGGACTTTTC
TACCCCGGTGTCGCGGTTCGGTGAAGCCGTGGCGGAGAACCAGTGGCCGG
TTGAATTGACGGCAGCTTTGATTGGATCTTGTACTAACTCTTCGTTTGAA
GATATGGGACGTGCAGCTAGTCTTGCCCAGCAGGCATTGGATGCAGGACT
GGAACCACAAATGCCCCTTCTGGTGTCGCCAGGTAGTGTTCAGACGCGCG
AGACGTTGGAAGATGCCGGTATTCTGCCGGTCTTCGAGAGACTCGGGGCG
ACGATGCTTCCCAACGCCTGTGGTCCATGCTGTGGGTCGTGGGATCGAGT
TGATATGCCAAAGGGCACCCCAAACTCCATAATAACCTCCTACAACCGGA
ACTTCTCCGGCCGTCTAGATTCCAACCCAGCAACCAACGTCTTCCTAGCA
TCGCCCGAGCTCGTCATTGCAAAGGCCTTCTCCCGCGACCTCTCCTTCAA
CCCAACAACTGACTCGCTCCCAACCCCATCCGGCGAGCAATTCCACTTCC
TCCCTCCAACCAGCGATTCCCTCCCCTCAAAGGGCTACCTCTCCTCCGAC
TCCGCCTACGCACCCCCACCGGCAAACCGGGATAACATCTCCGTCAAAAT
CGACCCGTCATCCCTCCGCCTCCAGAAATTGTCCCCATTCCCACCCTGGC
CCGGCCACGACTTCAAAGACTGCGCCATCCTAATCAAAACAGCCGGGAAA
TGCACAACGGACCACATCACCCCCGCTGGCCCGTGGTTCCGCTATAGAGG
CCACCTAGAAAACATCTCCAACAATACCCTCATCGGCGCAACCAACGCCG
AGAACGGCAAGGTGAACAGTATCCGGAACCAGCTCACGAAGCAAGATGGA
CAGGAAGTGCCTGCTACAGCACGCCACTACAAAGAGAACAGCGTGCCGTG
GGTGGTTATCGCTGACCATAACTACGGGGAGGGCAGTTCGCGGGAACATG
CGGCGCTGCAGCCGAGGTATCTAGGTGGTGTGGCGATTATCGCGAAGTCA
TTTGCAAGAATCCATGAGGCGAATTTGAAGAAGCAGGGGTTGTTGGCACT
GACTTTCGACAATGAGAAGGATTATGAAAGGATTAGGGCTGAGGATCGGG
TTAGTATTTTGGGGCTTAGGGAGGGGGAGTTTGTTCCGGGGAGCACTTTG
AGGTTGGTAGTTAATGGGGGCGAGTGGGAGGCTGTGCTCAGGCATAGTTT
TACGGAGGAGCAGATTGGGTATTTTAGAAGTGGGAGTGCGTTGAATGTTA
TGGCGGGGAAGTAGATGGCAGGCCTTACTCTCCCTGTTGTCGGTACCCGG
CTCCAGATCGCTCTGGTACTTCTTATCGTTGCCCCTTCGTTCATTCTCTT
CGGATACAATCAAGCGGTCCTGGGCAGTTTACTCAGCCTCCAAAGTTGGG
TCTCTGTATTTCCAGCCATCGACACCATAAACACCTCGGGGGCACAGAAG
TCCCATAACTCAACATCCCAAGGCGCCTGCAATGCCTCGTTTCAGATGGG
ATGTCTGATAGGTGCCCTGTCCCTCTCTCTTTATAGCGACAAACTCGGAC
GCCGTAAGACAGTCTTTATCGGAGCTGCCATCACCGTCCTCGGTCAGGCT
CTACAGGTCTCTGCAACCACATTGGTTCAGTTGGTCGTTGGCCGAGTTAT
CCTAGGGTTCGCTATCGGCCAAATCAGCGGCACCGTGCCTGTCTGGCTCT
CGGAGTGTGCCTCTCCCAAGTACCGCGGACAGCTCGGTATCTGTACGGGT
ATTTTCATCAGCACGGGCTACACATTGTGCAACTGGATTGATTTGGGATT
CAGCTATCTACCCTCTTCTACTGGACAATGGAGAGCTCCGCTCTCTATAC
CCTTTCTCTTCTCAGCAATGTTACTGGTTTCTGCTTTCACGTTTCCGGAG
TCGCCTCGTTGGCTGATCTCTAGAGGAAGGGTCGAAGAAGCTACTGCAAG
TCTCTGTCGGTATCGAGGAAAGGATGCGCATGATGAGATGATTATGGGCG
AGATAGCCCATATTCAGCTTGCTCTAGAGGGCAGTGGGACCATGTCCGTC
CTGGATATTTTCGATCGCAAGGACAAGACGCGTCTGTTGTTGCGATTTTG
GCTCTGCATGGGGTTAAACTTTTTCCAACAGGCCTGCGGAGGCAACCTCA
TATCCGTCTATAGTTCCACCATTTTCCAAAATTACCTACACATGACACCC
ACCATGTCTAAAGTCCTGGCGTCCTGTGTACTATCATGGAAAACGCTCTG
CTGTCTATTAACGTTTTGGACTATCGACAACTGGGGCCGCCGTCTATCCT
TCATGGTAAGCGGAGCAGGGATGTCCATCTGCATGGCCGTGCTAGCGGTC
ACCACCGGCTTGGGCAAAATCACGCATGCGATGGCAATAGCATACGTTGC
CTTCATGTTCGTCTTCAACTTCTTCTACCCAATCGGCTTCATGGGTGGCA
ACTTCCTGTACACGGCTGAGATTGCGCCTGTGCGTCTGCGAGCGGCCATG
TCCTCCCTCGCGACTGCTAATCACTGGCTATGGAATTTGGTGGTTGTTCT
GGTTACGCCAGTTGCTATAGATACGATTGGATGCTGGTACTATGTGATCT
ATGCGCTTATATCTGCGACTATCCCGGTCTGCGTGTACTTCTTCTATCCG
GAGACGAGGCACCGTAGTTTGGAGATGCTTGATCGGGTGTTTGTGGATGC
CCCTTCTATCTGGCGGATTGTGCCGATGGCCAGGGGGTTGCCGCTCGGAG
AAGTCGGCACAGCAGAGAGTGGAGATACACTGCGCGAGGAAAAGAAGGCA
GAGGATATAGATGGTAATGTTGAGATGCGGGAATACGACCGCCCCCTCAC
ATACGCCGAAAAAGTCCTTTACAGCCATCTTGACATCACTTTTGACGAGC
GCATCGAGCGCGGCAAAACCCAACTCAAACTACGCCCGCAACGCATAGCA
TGCCAAGATGCGACAGCCCAAATGGCACTTATCCAGTTCATGTCCGCGGG
ACTAGACACAGCGGCCGTACCAACCACAGTCCACTGCGATCATTTGATCG
TCAGTCGTGACGGCGAAACACAGGACCTCGCTCGAGCGCTGGACAACCAT
AAAGAAGTGTACGATTTCCTCGAGTCTGCCTGCCAGAAATACAACATGGG
GTTCTGGAAGCCCGGCGCGGGAATCATTCACCAGATTGTGCTGGAGAACT
ACGCCTTCCCTAGTGGAATGATGGTCGGGACGGACTCTCATACTCCCAAC
GCAGGAGGCCTTGGCATGATAGCCATCGGAGTTGGTGGTGCCGATGCGGT
AGACGTGATGGCTGGATTGTCGCTGGAGCTCCAAGCGCCAAAGGTATTGG
GTGTCCGATTGACGGGGCAGTTGTCCGGATGGGCTTCGCCGAAGGATATT
ATCAATGCTGTAGCCGGGACGCTTTCCGTTAAGGGAGGTACTGGGTCCAT
TATTGAATACTTTGGACCTGGGGCGCAGACTCTGTCAGCCACGGGCATGG
CAACTGTGTGCAATATGGGTGCGGAAACAGGTGCCACAACATCCATCTTC
CCTTATGCGCCACAGATGGCGGATTATCTTCGTGCTAATCATCGCCATGA
GATGGCTGATGCTGTTAAGAGCATTGCACCGGAATTGCAGGCTGATGAGG
GGGCTGAGTATGATAATGTTATTGAGCTCGATTTGTCCACTCTCGAGCCA
CGGATCAATGGACCTTTCACGCCGGACTTTTCTACCCCGGTGTCGCGGTT
CGGTGAAGCCGTGGCGGAGAACCAGTGGCCGGTTGAATTGACGGCAGCTT
TGATTGGATCTTGTACTAACTCTTCGTTTGAAGATATGGGACGTGCAGCT
AGTCTTGCCCAGCAGGCATTGGATGCAGGACTGGAACCACAAATGCCCCT
TCTGGTGTCGCCAGGTAGTGTTCAGACGCGCGAGACGTTGGAAGATGCCG
GTATTCTGCCGGTCTTCGAGAGACTCGGGGCGACGATGCTTCCCAACGCC
TGTGGTCCATGCTGTGGGTCGTGGGATCGAGTTGATATGCCAAAGGGCAC
CCCAAACTCCATAATAACCTCCTACAACCGGAACTTCTCCGGCCGTCTAG
ATTCCAACCCAGCAACCAACGTCTTCCTAGCATCGCCCGAGCTCGTCATT
GCAAAGGCCTTCTCCCGCGACCTCTCCTTCAACCCAACAACTGACTCGCT
CCCAACCCCATCCGGCGAGCAATTCCACTTCCTCCCTCCAACCAGCGATT
CCCTCCCCTCAAAGGGCTACCTCTCCTCCGACTCCGCCTACGCACCCCCA
CCGGCAAACCGGGATAACATCTCCGTCAAAATCGACCCGTCATCCCTCCG
CCTCCAGAAATTGTCCCCATTCCCACCCTGGCCCGGCCACGACTTCAAAG
ACTGCGCCATCCTAATCAAAACAGCCGGGAAATGCACAACGGACCACATC
ACCCCCGCTGGCCCGTGGTTCCGCTATAGAGGCCACCTAGAAAACATCTC
CAACAATACCCTCATCGGCGCAACCAACGCCGAGAACGGCAAGGTGAACA
GTATCCGGAACCAGCTCACGAAGCAAGATGGACAGGAAGTGCCTGCTACA
GCACGCCACTACAAAGAGAACAGCGTGCCGTGGGTGGTTATCGCTGACCA
TAACTACGGGGAGGGCAGTTCGCGGGAACATGCGGCGCTGCAGCCGAGGT
ATCTAGGTGGTGTGGCGATTATCGCGAAGTCATTTGCAAGAATCCATGAG
GCGAATTTGAAGAAGCAGGGGTTGTTGGCACTGACTTTCGACAATGAGAA
GGATTATGAAAGGATTAGGGCTGAGGATCGGGTTAGTATTTTGGGGCTTA
GGGAGGGGGAGTTTGTTCCGGGGAGCACTTTGAGGTTGGTAGTTAATGGG
GGCGAGTGGGAGGCTGTGCTCAGGCATAGTTTTACGGAGGAGCAGATTGG
GTATTTTAGAAGTGGGAGTGCGTTGAATGTTATGGCGGGGAAGTAGATGG
CAGGCCTTACTCTCCCTGTTGTCGGTACCCGGCTCCAGATCGCTCTGGTA
CTTCTTATCGTTGCCCCTTCGTTCATTCTCTTCGGATACAATCAAGCGGT
CCTGGGCAGTTTACTCAGCCTCCAAAGTTGGGTCTCTGTATTTCCAGCCA
TCGACACCATAAACACCTCGGGGGCACAGAAGTCCCATAACTCAACATCC
CAAGGCGCCTGCAATGCCTCGTTTCAGATGGGATGTCTGATAGGTGCCCT
GTCCCTCTCTCTTTATAGCGACAAACTCGGACGCCGTAAGACAGTCTTTA
TCGGAGCTGCCATCACCGTCCTCGGTCAGGCTCTACAGGTCTCTGCAACC
ACATTGGTTCAGTTGGTCGTTGGCCGAGTTATCCTAGGGTTCGCTATCGG
CCAAATCAGCGGCACCGTGCCTGTCTGGCTCTCGGAGTGTGCCTCTCCCA
AGTACCGCGGACAGCTCGGTATCTGTACGGGTATTTTCATCAGCACGGGC
TACACATTGTGCAACTGGATTGATTTGGGATTCAGCTATCTACCCTCTTC
TACTGGACAATGGAGAGCTCCGCTCTCTATACCCTTTCTCTTCTCAGCAA
TGTTACTGGTTTCTGCTTTCACGTTTCCGGAGTCGCCTCGTTGGCTGATC
TCTAGAGGAAGGGTCGAAGAAGCTACTGCAAGTCTCTGTCGGTATCGAGG
AAAGGATGCGCATGATGAGATGATTATGGGCGAGATAGCCCATATTCAGC
TTGCTCTAGAGGGCAGTGGGACCATGTCCGTCCTGGATATTTTCGATCGC
AAGGACAAGACGCGTCTGTTGTTGCGATTTTGGCTCTGCATGGGGTTAAA
CTTTTTCCAACAGGCCTGCGGAGGCAACCTCATATCCGTCTATAGTTCCA
CCATTTTCCAAAATTACCTACACATGACACCCACCATGTCTAAAGTCCTG
GCGTCCTGTGTACTATCATGGAAAACGCTCTGCTGTCTATTAACGTTTTG
GACTATCGACAACTGGGGCCGCCGTCTATCCTTCATGGTAAGCGGAGCAG
GGATGTCCATCTGCATGGCCGTGCTAGCGGTCACCACCGGCTTGGGCAAA
ATCACGCATGCGATGGCAATAGCATACGTTGCCTTCATGTTCGTCTTCAA
CTTCTTCTACCCAATCGGCTTCATGGGTGGCAACTTCCTGTACACGGCTG
AGATTGCGCCTGTGCGTCTGCGAGCGGCCATGTCCTCCCTCGCGACTGCT
AATCACTGGCTATGGAATTTGGTGGTTGTTCTGGTTACGCCAGTTGCTAT
AGATACGATTGGATGCTGGTACTATGTGATCTATGCGCTTATATCTGCGA
CTATCCCGGTCTGCGTGTACTTCTTCTATCCGGAGACGAGGCACCGTAGT
TTGGAGATGCTTGATCGGGTGTTTGTGGATGCCCCTTCTATCTGGCGGAT
TGTGCCGATGGCCAGGGGGTTGCCGCTCGGAGAAGTCGGCACAGCAGAGA
GTGGAGATACACTGCGCGAGGAAAAGAAGGCAGAGGATATAGATGGTAAT
GTTGAGATGCGGGAATACGACCGCCCCCTCACATACGCCGAAAAAGTCCT
TTACAGCCATCTTGACATCACTTTTGACGAGCGCATCGAGCGCGGCAAAA
CCCAACTCAAACTACGCCCGCAACGCATAGCATGCCAAGATGCGACAGCC
CAAATGGCACTTATCCAGTTCATGTCCGCGGGACTAGACACAGCGGCCGT
ACCAACCACAGTCCACTGCGATCATTTGATCGTCAGTCGTGACGGCGAAA
CACAGGACCTCGCTCGAGCGCTGGACAACCATAAAGAAGTGTACGATTTC
CTCGAGTCTGCCTGCCAGAAATACAACATGGGGTTCTGGAAGCCCGGCGC
GGGAATCATTCACCAGATTGTGCTGGAGAACTACGCCTTCCCTAGTGGAA
TGATGGTCGGGACGGACTCTCATACTCCCAACGCAGGAGGCCTTGGCATG
ATAGCCATCGGAGTTGGTGGTGCCGATGCGGTAGACGTGATGGCTGGATT
GTCGCTGGAGCTCCAAGCGCCAAAGGTATTGGGTGTCCGATTGACGGGGC
AGTTGTCCGGATGGGCTTCGCCGAAGGATATTATCAATGCTGTAGCCGGG
ACGCTTTCCGTTAAGGGAGGTACTGGGTCCATTATTGAATACTTTGGACC
TGGGGCGCAGACTCTGTCAGCCACGGGCATGGCAACTGTGTGCAATATGG
GTGCGGAAACAGGTGCCACAACATCCATCTTCCCTTATGCGCCACAGATG
GCGGATTATCTTCGTGCTAATCATCGCCATGAGATGGCTGATGCTGTTAA
GAGCATTGCACCGGAATTGCAGGCTGATGAGGGGGCTGAGTATGATAATG
TTATTGAGCTCGATTTGTCCACTCTCGAGCCACGGATCAATGGACCTTTC
ACGCCGGACTTTTCTACCCCGGTGTCGCGGTTCGGTGAAGCCGTGGCGGA
GAACCAGTGGCCGGTTGAATTGACGGCAGCTTTGATTGGATCTTGTACTA
ACTCTTCGTTTGAAGATATGGGACGTGCAGCTAGTCTTGCCCAGCAGGCA
TTGGATGCAGGACTGGAACCACAAATGCCCCTTCTGGTGTCGCCAGGTAG
TGTTCAGACGCGCGAGACGTTGGAAGATGCCGGTATTCTGCCGGTCTTCG
AGAGACTCGGGGCGACGATGCTTCCCAACGCCTGTGGTCCATGCTGTGGG
TCGTGGGATCGAGTTGATATGCCAAAGGGCACCCCAAACTCCATAATAAC
CTCCTACAACCGGAACTTCTCCGGCCGTCTAGATTCCAACCCAGCAACCA
ACGTCTTCCTAGCATCGCCCGAGCTCGTCATTGCAAAGGCCTTCTCCCGC
GACCTCTCCTTCAACCCAACAACTGACTCGCTCCCAACCCCATCCGGCGA
GCAATTCCACTTCCTCCCTCCAACCAGCGATTCCCTCCCCTCAAAGGGCT
ACCTCTCCTCCGACTCCGCCTACGCACCCCCACCGGCAAACCGGGATAAC
ATCTCCGTCAAAATCGACCCGTCATCCCTCCGCCTCCAGAAATTGTCCCC
ATTCCCACCCTGGCCCGGCCACGACTTCAAAGACTGCGCCATCCTAATCA
AAACAGCCGGGAAATGCACAACGGACCACATCACCCCCGCTGGCCCGTGG
TTCCGCTATAGAGGCCACCTAGAAAACATCTCCAACAATACCCTCATCGG
CGCAACCAACGCCGAGAACGGCAAGGTGAACAGTATCCGGAACCAGCTCA
CGAAGCAAGATGGACAGGAAGTGCCTGCTACAGCACGCCACTACAAAGAG
AACAGCGTGCCGTGGGTGGTTATCGCTGACCATAACTACGGGGAGGGCAG
TTCGCGGGAACATGCGGCGCTGCAGCCGAGGTATCTAGGTGGTGTGGCGA
TTATCGCGAAGTCATTTGCAAGAATCCATGAGGCGAATTTGAAGAAGCAG
GGGTTGTTGGCACTGACTTTCGACAATGAGAAGGATTATGAAAGGATTAG
GGCTGAGGATCGGGTTAGTATTTTGGGGCTTAGGGAGGGGGAGTTTGTTC
CGGGGAGCACTTTGAGGTTGGTAGTTAATGGGGGCGAGTGGGAGGCTGTG
CTCAGGCATAGTTTTACGGAGGAGCAGATTGGGTATTTTAGAAGTGGGAG
TGCGTTGAATGTTATGGCGGGGAAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016020 | membrane |
| GO:0016021 | integral component of membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006099 | tricarboxylic acid cycle |
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0051539 | 4 iron, 4 sulfur cluster binding |
| GO:0003994 | aconitate hydratase activity |
| GO:0022857 | transmembrane transporter activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_53840-T1 | ATCC64974_53840-T1-protein | Aspergillus niger N402 | polypeptide |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_10000071.5 |
| Note | SMCOG1169:sugar transport protein |
| DBxref | InterPro:IPR036259 |
| DBxref | InterPro:IPR036008 |
| DBxref | InterPro:IPR020846 |
| DBxref | InterPro:IPR005829 |
| DBxref | InterPro:IPR018136 |
| DBxref | InterPro:IPR003663 |
| DBxref | InterPro:IPR015931 |
| DBxref | InterPro:IPR015928 |
| DBxref | InterPro:IPR000573 |
| DBxref | InterPro:IPR006248 |
| DBxref | InterPro:IPR015932 |
| DBxref | InterPro:IPR005828 |
| DBxref | InterPro:IPR001030 |
| DBxref | PFAM:PF00083 |
| DBxref | PFAM:PF07690 |
| DBxref | PFAM:PF00694 |
| DBxref | PFAM:PF00330 |
| 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 |
|---|
| OGUI01000007.1 | supercontig | OGUI01000007.1:3436167..3440435 + |
|
