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ASPNIDRAFT_41305-T1, ASPNIDRAFT_41305-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_41305-T1
Unique NameASPNIDRAFT_41305-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000013.1:441124..444018-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_41305-T1 ID=ASPNIDRAFT_41305-T1|Name=ASPNIDRAFT_41305-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2895bp|location=Sequence derived from alignment at ACJE01000013.1:441124..444018- (Aspergillus niger ATCC 1015)
ATGACCACAGACGGCGTCAAGGAAGTCCCCGCGGACACGGTCTCCGCGAA
CGAGGACACCAAGAAGAACCCTGACGTCTCGACATCATCGGCATCATCAT
TCTCACTGACGGACTCGGAACACAGAGTCGCAAAGGTGACTGACTGCGCA
TTTGATACGACGGAAGACCCCAGGTTTTACAAGCCTATTCCCGAATATGA
GAGCGCGCATCGCTGGGATCCATACTTTGAATGGACGGAAGAAGAAGAAA
AACAACTGATTAGGAAGGTAATTACTATTCATCCAAGCCTTTCTGTTGAA
AAATAGCTAAGCGCAATAGATTGACATCCGAGTTTGTACCTTCGCATGTG
TTACGTTTTTCGCACTTCAGCTTGACAGAGGCAATATTGTTCAAGCAAAC
TCGGACAGCATGCTTGGGGACCTCGGAATGACCACGAACGATTACAATAC
CGGCCAGACAATTTTCTACCTCACTTTCCTCTTTTCTGAGCTTCCTTCGC
AGTTACTGTCTAAGAAGGTCGGCCCAGACCGCTGGATTCCCATTCAAATG
GTCGCCTGGAGTTTCGTCGCAGCATTCCAGGCCTTTCTCAAGAACAGAGC
CGGATATTTCGCCTGCAGAGCGCTTCTCGGCCTCCTGGAGGGAGGATTGT
AAGTCTTCCTACACCTTCCTACTTGGGGAACAATCCTAACAACGACTAGC
ATTGCCGACACTATCCTTTTCCTGTCCTTCTTCTACAAATCTAAAGAATT
GCCGCAACGGTTGAGTTACTTCTGGGTTTCATACGAAGCCACATCTATCG
TTGGCGCTTTTCTGGCTTTCGGTTTTCTCCACATTCACGGTTCTAACGGT
TATACTGGAGGATGGCGCTATCTGTTCGCTTTTGAGGGCCTCATCACAGG
AATCATCGGAATCATCGCCGCATTCTGGATGCCTGCATCTCCCACACAGA
CCAAAGGCGGCTTCCGCGGCAAAGACGGATGGTTCAACGAGCGCGAGGAG
AAGATCCTAGTCAACCGGGTGCTCCGTGACGATCCCAGCAAGGGAAGCAT
GCACAACCGTCAGGCGGTAACGCCGAAGATGCTTTGGCATGCTCTGTGCG
ACTACGACATGTGGCCCATCTATCTGCTTGGCCTGACATGGATGATTCCC
AACACACCTGCTACCAACTACATTACCCTGGAGTTGAAGTCGCTTGGGTT
CGGCACCTTCGAAACGAACCTCCTGACCATCCCCGCATATGTCATCTTCA
TCATCAACCTACTATTCTGGACATGGATCTCAGAACGCTTCAACCAGCGT
CTACTCCTCGGTGTTGTCAGCGAATTTTGGTGCTTGGTCTTGCTCATCGC
GCTCGAAGTTCTGCCTGATGGAGCCAGTGGATGGGCGCGGTGGATTATCA
ATGCTCTGTTGATTGGAGCGCCTTACGTCCACGCAATCATTGTGGCCATG
ACGTCTAGGAACGCGGGATCGGTCCGAACACGCACTGTTGCAAGTGCAGT
ATACAACATGATGGTCCAAGCATCTAGTATCATTGCCAGTCAGGTGAGTG
AAACACGAACTTTGCATTATTACTCATCTCTGACCACCCCTTGCAGATCT
ACCAAGAAAAAGACAAGCCTTACTACCGGGTGGGTAATAAGGTTCTGATC
GCCTTGTCCGTGTTCAGCATGGCTTTGTTCATTGGAGCCAAGTTTTATTA
CATCTGGCGCAACAAGTATGGCTCACCGAATTCTCCGATACCATGACTAC
AATGCTAATGAGGCTGTTAGGTACAACGCTGCCCGTTGGAATGCCATGTC
CAGCGAAGAGAGGGAGGAATATCTGGCAGCCAATAAGGACCTTGGAAACA
AGCGGTGAGTTTTCCTTCTGCAAGATTGACTGGTAACATGTCTAATTGAT
TGCCTTGCAGACTTGATTTCCGATTTACTCACTAGATGAGCACGAATAAT
GATTGTTATATTTCACAACTAAAACATAGATGAAAAGGATTGGACATATG
GAAAATTTGCTGGACGCCGTACAAGATACCAGTTAATGTCTATAGATTAG
ACAATAGAGCAAACTCATAATACAACACATCGCTCAAGTGATCATAATCC
GTAAGGGACAAGCCGTAACCCACATCCGCTCCTACCTATTCACCAATAAC
ATATTCGCACCCATCCTCGCCAATCCACACCTCGTGTAACTTGCCAGCTG
GAACATCCAGTCTCGCACCAACCCCAAACGTCTCCTTTTTCACCTCCCCA
TTATGCAACTTAGCATTGTCATCTGGGTAGGTGATTGCCAGAGTCCCCTG
CCGTATTAGATGGGTGGTGACACCGCCATGGGAGTGTGGTGGATAGTGGG
CATTGCTAGGACAGTATCAGCATCAACAAGGACTTAATTACAATAATTGC
TAAGCGGAAAATTATAATATGAAACAGGATACTAAGAGGTACATAGCACG
ACAACCATGGTTTCCTGTTACTCACCTTCCGTCCGCCCAAGTAAAGACAT
GCTTGAAGCCCCAGTCCTTGACTAGACGTTCGCATTCTTTGCGTGTACCA
ATGGGATATGTTTCCGCCATTTTTGTTTCCTCCAGGAGCACGAACTGTTC
GAATAGGGCAACTTTCAAGACAGATGGATCTTCTGGAAGCTGTATAGAAG
TGTTGATGATGCGGGGAATACAGCGATGACGTCGTTGGGATTAGTAATTC
ATGGCAGGTGAGACGCTTGTTGACGGTCACGTGGGAGAATGTACGGTTAT
TTGATTCTATTTGTCCATTGGATTTGCTTCCTCGACTAATAGACATACCA
CTGAGTGGCCCGATAGCTGCCACTACAGGTTCTAGGGACCTTCGAACTGA
ACAGTAATGCCTAGACTGTGCCGTTTAGGAGCTGTCATTGCTTAA
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Coding sequence (CDS) from alignment at ACJE01000013.1:441124..444018-

>ASPNIDRAFT_41305-T1 ID=ASPNIDRAFT_41305-T1|Name=ASPNIDRAFT_41305-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10044bp|location=Sequence derived from alignment at ACJE01000013.1:441124..444018- (Aspergillus niger ATCC 1015)
ACTGTGCCGTTTAGGAGCTGTCATTGCTTAAGTACAACGCTGCCCGTTGG
AATGCCATGTCCAGCGAAGAGAGGGAGGAATATCTGGCAGCCAATAAGGA
CCTTGGAAACAAGCGATCTACCAAGAAAAAGACAAGCCTTACTACCGGGT
GGGTAATAAGGTTCTGATCGCCTTGTCCGTGTTCAGCATGGCTTTGTTCA
TTGGAGCCAAGTTTTATTACATCTGGCGCAACAACATTGCCGACACTATC
CTTTTCCTGTCCTTCTTCTACAAATCTAAAGAATTGCCGCAACGGTTGAG
TTACTTCTGGGTTTCATACGAAGCCACATCTATCGTTGGCGCTTTTCTGG
CTTTCGGTTTTCTCCACATTCACGGTTCTAACGGTTATACTGGAGGATGG
CGCTATCTGTTCGCTTTTGAGGGCCTCATCACAGGAATCATCGGAATCAT
CGCCGCATTCTGGATGCCTGCATCTCCCACACAGACCAAAGGCGGCTTCC
GCGGCAAAGACGGATGGTTCAACGAGCGCGAGGAGAAGATCCTAGTCAAC
CGGGTGCTCCGTGACGATCCCAGCAAGGGAAGCATGCACAACCGTCAGGC
GGTAACGCCGAAGATGCTTTGGCATGCTCTGTGCGACTACGACATGTGGC
CCATCTATCTGCTTGGCCTGACATGGATGATTCCCAACACACCTGCTACC
AACTACATTACCCTGGAGTTGAAGTCGCTTGGGTTCGGCACCTTCGAAAC
GAACCTCCTGACCATCCCCGCATATGTCATCTTCATCATCAACCTACTAT
TCTGGACATGGATCTCAGAACGCTTCAACCAGCGTCTACTCCTCGGTGTT
GTCAGCGAATTTTGGTGCTTGGTCTTGCTCATCGCGCTCGAAGTTCTGCC
TGATGGAGCCAGTGGATGGGCGCGGTGGATTATCAATGCTCTGTTGATTG
GAGCGCCTTACGTCCACGCAATCATTGTGGCCATGACGTCTAGGAACGCG
GGATCGGTCCGAACACGCACTGTTGCAAGTGCAGTATACAACATGATGGT
CCAAGCATCTAGTATCATTGCCAGTCAGATTGACATCCGAGTTTGTACCT
TCGCATGTGTTACGTTTTTCGCACTTCAGCTTGACAGAGGCAATATTGTT
CAAGCAAACTCGGACAGCATGCTTGGGGACCTCGGAATGACCACGAACGA
TTACAATACCGGCCAGACAATTTTCTACCTCACTTTCCTCTTTTCTGAGC
TTCCTTCGCAGTTACTGTCTAAGAAGGTCGGCCCAGACCGCTGGATTCCC
ATTCAAATGGTCGCCTGGAGTTTCGTCGCAGCATTCCAGGCCTTTCTCAA
GAACAGAGCCGGATATTTCGCCTGCAGAGCGCTTCTCGGCCTCCTGGAGG
GAGGATTATGACCACAGACGGCGTCAAGGAAGTCCCCGCGGACACGGTCT
CCGCGAACGAGGACACCAAGAAGAACCCTGACGTCTCGACATCATCGGCA
TCATCATTCTCACTGACGGACTCGGAACACAGAGTCGCAAAGGTGACTGA
CTGCGCATTTGATACGACGGAAGACCCCAGGTTTTACAAGCCTATTCCCG
AATATGAGAGCGCGCATCGCTGGGATCCATACTTTGAATGGACGGAAGAA
GAAGAAAAACAACTGATTAGGAAGACTGTGCCGTTTAGGAGCTGTCATTG
CTTAAGTACAACGCTGCCCGTTGGAATGCCATGTCCAGCGAAGAGAGGGA
GGAATATCTGGCAGCCAATAAGGACCTTGGAAACAAGCGATCTACCAAGA
AAAAGACAAGCCTTACTACCGGGTGGGTAATAAGGTTCTGATCGCCTTGT
CCGTGTTCAGCATGGCTTTGTTCATTGGAGCCAAGTTTTATTACATCTGG
CGCAACAACATTGCCGACACTATCCTTTTCCTGTCCTTCTTCTACAAATC
TAAAGAATTGCCGCAACGGTTGAGTTACTTCTGGGTTTCATACGAAGCCA
CATCTATCGTTGGCGCTTTTCTGGCTTTCGGTTTTCTCCACATTCACGGT
TCTAACGGTTATACTGGAGGATGGCGCTATCTGTTCGCTTTTGAGGGCCT
CATCACAGGAATCATCGGAATCATCGCCGCATTCTGGATGCCTGCATCTC
CCACACAGACCAAAGGCGGCTTCCGCGGCAAAGACGGATGGTTCAACGAG
CGCGAGGAGAAGATCCTAGTCAACCGGGTGCTCCGTGACGATCCCAGCAA
GGGAAGCATGCACAACCGTCAGGCGGTAACGCCGAAGATGCTTTGGCATG
CTCTGTGCGACTACGACATGTGGCCCATCTATCTGCTTGGCCTGACATGG
ATGATTCCCAACACACCTGCTACCAACTACATTACCCTGGAGTTGAAGTC
GCTTGGGTTCGGCACCTTCGAAACGAACCTCCTGACCATCCCCGCATATG
TCATCTTCATCATCAACCTACTATTCTGGACATGGATCTCAGAACGCTTC
AACCAGCGTCTACTCCTCGGTGTTGTCAGCGAATTTTGGTGCTTGGTCTT
GCTCATCGCGCTCGAAGTTCTGCCTGATGGAGCCAGTGGATGGGCGCGGT
GGATTATCAATGCTCTGTTGATTGGAGCGCCTTACGTCCACGCAATCATT
GTGGCCATGACGTCTAGGAACGCGGGATCGGTCCGAACACGCACTGTTGC
AAGTGCAGTATACAACATGATGGTCCAAGCATCTAGTATCATTGCCAGTC
AGATTGACATCCGAGTTTGTACCTTCGCATGTGTTACGTTTTTCGCACTT
CAGCTTGACAGAGGCAATATTGTTCAAGCAAACTCGGACAGCATGCTTGG
GGACCTCGGAATGACCACGAACGATTACAATACCGGCCAGACAATTTTCT
ACCTCACTTTCCTCTTTTCTGAGCTTCCTTCGCAGTTACTGTCTAAGAAG
GTCGGCCCAGACCGCTGGATTCCCATTCAAATGGTCGCCTGGAGTTTCGT
CGCAGCATTCCAGGCCTTTCTCAAGAACAGAGCCGGATATTTCGCCTGCA
GAGCGCTTCTCGGCCTCCTGGAGGGAGGATTATGACCACAGACGGCGTCA
AGGAAGTCCCCGCGGACACGGTCTCCGCGAACGAGGACACCAAGAAGAAC
CCTGACGTCTCGACATCATCGGCATCATCATTCTCACTGACGGACTCGGA
ACACAGAGTCGCAAAGGTGACTGACTGCGCATTTGATACGACGGAAGACC
CCAGGTTTTACAAGCCTATTCCCGAATATGAGAGCGCGCATCGCTGGGAT
CCATACTTTGAATGGACGGAAGAAGAAGAAAAACAACTGATTAGGAAGAC
TGTGCCGTTTAGGAGCTGTCATTGCTTAAGTACAACGCTGCCCGTTGGAA
TGCCATGTCCAGCGAAGAGAGGGAGGAATATCTGGCAGCCAATAAGGACC
TTGGAAACAAGCGATCTACCAAGAAAAAGACAAGCCTTACTACCGGGTGG
GTAATAAGGTTCTGATCGCCTTGTCCGTGTTCAGCATGGCTTTGTTCATT
GGAGCCAAGTTTTATTACATCTGGCGCAACAACATTGCCGACACTATCCT
TTTCCTGTCCTTCTTCTACAAATCTAAAGAATTGCCGCAACGGTTGAGTT
ACTTCTGGGTTTCATACGAAGCCACATCTATCGTTGGCGCTTTTCTGGCT
TTCGGTTTTCTCCACATTCACGGTTCTAACGGTTATACTGGAGGATGGCG
CTATCTGTTCGCTTTTGAGGGCCTCATCACAGGAATCATCGGAATCATCG
CCGCATTCTGGATGCCTGCATCTCCCACACAGACCAAAGGCGGCTTCCGC
GGCAAAGACGGATGGTTCAACGAGCGCGAGGAGAAGATCCTAGTCAACCG
GGTGCTCCGTGACGATCCCAGCAAGGGAAGCATGCACAACCGTCAGGCGG
TAACGCCGAAGATGCTTTGGCATGCTCTGTGCGACTACGACATGTGGCCC
ATCTATCTGCTTGGCCTGACATGGATGATTCCCAACACACCTGCTACCAA
CTACATTACCCTGGAGTTGAAGTCGCTTGGGTTCGGCACCTTCGAAACGA
ACCTCCTGACCATCCCCGCATATGTCATCTTCATCATCAACCTACTATTC
TGGACATGGATCTCAGAACGCTTCAACCAGCGTCTACTCCTCGGTGTTGT
CAGCGAATTTTGGTGCTTGGTCTTGCTCATCGCGCTCGAAGTTCTGCCTG
ATGGAGCCAGTGGATGGGCGCGGTGGATTATCAATGCTCTGTTGATTGGA
GCGCCTTACGTCCACGCAATCATTGTGGCCATGACGTCTAGGAACGCGGG
ATCGGTCCGAACACGCACTGTTGCAAGTGCAGTATACAACATGATGGTCC
AAGCATCTAGTATCATTGCCAGTCAGATTGACATCCGAGTTTGTACCTTC
GCATGTGTTACGTTTTTCGCACTTCAGCTTGACAGAGGCAATATTGTTCA
AGCAAACTCGGACAGCATGCTTGGGGACCTCGGAATGACCACGAACGATT
ACAATACCGGCCAGACAATTTTCTACCTCACTTTCCTCTTTTCTGAGCTT
CCTTCGCAGTTACTGTCTAAGAAGGTCGGCCCAGACCGCTGGATTCCCAT
TCAAATGGTCGCCTGGAGTTTCGTCGCAGCATTCCAGGCCTTTCTCAAGA
ACAGAGCCGGATATTTCGCCTGCAGAGCGCTTCTCGGCCTCCTGGAGGGA
GGATTATGACCACAGACGGCGTCAAGGAAGTCCCCGCGGACACGGTCTCC
GCGAACGAGGACACCAAGAAGAACCCTGACGTCTCGACATCATCGGCATC
ATCATTCTCACTGACGGACTCGGAACACAGAGTCGCAAAGGTGACTGACT
GCGCATTTGATACGACGGAAGACCCCAGGTTTTACAAGCCTATTCCCGAA
TATGAGAGCGCGCATCGCTGGGATCCATACTTTGAATGGACGGAAGAAGA
AGAAAAACAACTGATTAGGAAGACTGTGCCGTTTAGGAGCTGTCATTGCT
TAAGTACAACGCTGCCCGTTGGAATGCCATGTCCAGCGAAGAGAGGGAGG
AATATCTGGCAGCCAATAAGGACCTTGGAAACAAGCGATCTACCAAGAAA
AAGACAAGCCTTACTACCGGGTGGGTAATAAGGTTCTGATCGCCTTGTCC
GTGTTCAGCATGGCTTTGTTCATTGGAGCCAAGTTTTATTACATCTGGCG
CAACAACATTGCCGACACTATCCTTTTCCTGTCCTTCTTCTACAAATCTA
AAGAATTGCCGCAACGGTTGAGTTACTTCTGGGTTTCATACGAAGCCACA
TCTATCGTTGGCGCTTTTCTGGCTTTCGGTTTTCTCCACATTCACGGTTC
TAACGGTTATACTGGAGGATGGCGCTATCTGTTCGCTTTTGAGGGCCTCA
TCACAGGAATCATCGGAATCATCGCCGCATTCTGGATGCCTGCATCTCCC
ACACAGACCAAAGGCGGCTTCCGCGGCAAAGACGGATGGTTCAACGAGCG
CGAGGAGAAGATCCTAGTCAACCGGGTGCTCCGTGACGATCCCAGCAAGG
GAAGCATGCACAACCGTCAGGCGGTAACGCCGAAGATGCTTTGGCATGCT
CTGTGCGACTACGACATGTGGCCCATCTATCTGCTTGGCCTGACATGGAT
GATTCCCAACACACCTGCTACCAACTACATTACCCTGGAGTTGAAGTCGC
TTGGGTTCGGCACCTTCGAAACGAACCTCCTGACCATCCCCGCATATGTC
ATCTTCATCATCAACCTACTATTCTGGACATGGATCTCAGAACGCTTCAA
CCAGCGTCTACTCCTCGGTGTTGTCAGCGAATTTTGGTGCTTGGTCTTGC
TCATCGCGCTCGAAGTTCTGCCTGATGGAGCCAGTGGATGGGCGCGGTGG
ATTATCAATGCTCTGTTGATTGGAGCGCCTTACGTCCACGCAATCATTGT
GGCCATGACGTCTAGGAACGCGGGATCGGTCCGAACACGCACTGTTGCAA
GTGCAGTATACAACATGATGGTCCAAGCATCTAGTATCATTGCCAGTCAG
ATTGACATCCGAGTTTGTACCTTCGCATGTGTTACGTTTTTCGCACTTCA
GCTTGACAGAGGCAATATTGTTCAAGCAAACTCGGACAGCATGCTTGGGG
ACCTCGGAATGACCACGAACGATTACAATACCGGCCAGACAATTTTCTAC
CTCACTTTCCTCTTTTCTGAGCTTCCTTCGCAGTTACTGTCTAAGAAGGT
CGGCCCAGACCGCTGGATTCCCATTCAAATGGTCGCCTGGAGTTTCGTCG
CAGCATTCCAGGCCTTTCTCAAGAACAGAGCCGGATATTTCGCCTGCAGA
GCGCTTCTCGGCCTCCTGGAGGGAGGATTATGACCACAGACGGCGTCAAG
GAAGTCCCCGCGGACACGGTCTCCGCGAACGAGGACACCAAGAAGAACCC
TGACGTCTCGACATCATCGGCATCATCATTCTCACTGACGGACTCGGAAC
ACAGAGTCGCAAAGGTGACTGACTGCGCATTTGATACGACGGAAGACCCC
AGGTTTTACAAGCCTATTCCCGAATATGAGAGCGCGCATCGCTGGGATCC
ATACTTTGAATGGACGGAAGAAGAAGAAAAACAACTGATTAGGAAGACTG
TGCCGTTTAGGAGCTGTCATTGCTTAAGTACAACGCTGCCCGTTGGAATG
CCATGTCCAGCGAAGAGAGGGAGGAATATCTGGCAGCCAATAAGGACCTT
GGAAACAAGCGATCTACCAAGAAAAAGACAAGCCTTACTACCGGGTGGGT
AATAAGGTTCTGATCGCCTTGTCCGTGTTCAGCATGGCTTTGTTCATTGG
AGCCAAGTTTTATTACATCTGGCGCAACAACATTGCCGACACTATCCTTT
TCCTGTCCTTCTTCTACAAATCTAAAGAATTGCCGCAACGGTTGAGTTAC
TTCTGGGTTTCATACGAAGCCACATCTATCGTTGGCGCTTTTCTGGCTTT
CGGTTTTCTCCACATTCACGGTTCTAACGGTTATACTGGAGGATGGCGCT
ATCTGTTCGCTTTTGAGGGCCTCATCACAGGAATCATCGGAATCATCGCC
GCATTCTGGATGCCTGCATCTCCCACACAGACCAAAGGCGGCTTCCGCGG
CAAAGACGGATGGTTCAACGAGCGCGAGGAGAAGATCCTAGTCAACCGGG
TGCTCCGTGACGATCCCAGCAAGGGAAGCATGCACAACCGTCAGGCGGTA
ACGCCGAAGATGCTTTGGCATGCTCTGTGCGACTACGACATGTGGCCCAT
CTATCTGCTTGGCCTGACATGGATGATTCCCAACACACCTGCTACCAACT
ACATTACCCTGGAGTTGAAGTCGCTTGGGTTCGGCACCTTCGAAACGAAC
CTCCTGACCATCCCCGCATATGTCATCTTCATCATCAACCTACTATTCTG
GACATGGATCTCAGAACGCTTCAACCAGCGTCTACTCCTCGGTGTTGTCA
GCGAATTTTGGTGCTTGGTCTTGCTCATCGCGCTCGAAGTTCTGCCTGAT
GGAGCCAGTGGATGGGCGCGGTGGATTATCAATGCTCTGTTGATTGGAGC
GCCTTACGTCCACGCAATCATTGTGGCCATGACGTCTAGGAACGCGGGAT
CGGTCCGAACACGCACTGTTGCAAGTGCAGTATACAACATGATGGTCCAA
GCATCTAGTATCATTGCCAGTCAGATTGACATCCGAGTTTGTACCTTCGC
ATGTGTTACGTTTTTCGCACTTCAGCTTGACAGAGGCAATATTGTTCAAG
CAAACTCGGACAGCATGCTTGGGGACCTCGGAATGACCACGAACGATTAC
AATACCGGCCAGACAATTTTCTACCTCACTTTCCTCTTTTCTGAGCTTCC
TTCGCAGTTACTGTCTAAGAAGGTCGGCCCAGACCGCTGGATTCCCATTC
AAATGGTCGCCTGGAGTTTCGTCGCAGCATTCCAGGCCTTTCTCAAGAAC
AGAGCCGGATATTTCGCCTGCAGAGCGCTTCTCGGCCTCCTGGAGGGAGG
ATTATGACCACAGACGGCGTCAAGGAAGTCCCCGCGGACACGGTCTCCGC
GAACGAGGACACCAAGAAGAACCCTGACGTCTCGACATCATCGGCATCAT
CATTCTCACTGACGGACTCGGAACACAGAGTCGCAAAGGTGACTGACTGC
GCATTTGATACGACGGAAGACCCCAGGTTTTACAAGCCTATTCCCGAATA
TGAGAGCGCGCATCGCTGGGATCCATACTTTGAATGGACGGAAGAAGAAG
AAAAACAACTGATTAGGAAGACTGTGCCGTTTAGGAGCTGTCATTGCTTA
AGTACAACGCTGCCCGTTGGAATGCCATGTCCAGCGAAGAGAGGGAGGAA
TATCTGGCAGCCAATAAGGACCTTGGAAACAAGCGATCTACCAAGAAAAA
GACAAGCCTTACTACCGGGTGGGTAATAAGGTTCTGATCGCCTTGTCCGT
GTTCAGCATGGCTTTGTTCATTGGAGCCAAGTTTTATTACATCTGGCGCA
ACAACATTGCCGACACTATCCTTTTCCTGTCCTTCTTCTACAAATCTAAA
GAATTGCCGCAACGGTTGAGTTACTTCTGGGTTTCATACGAAGCCACATC
TATCGTTGGCGCTTTTCTGGCTTTCGGTTTTCTCCACATTCACGGTTCTA
ACGGTTATACTGGAGGATGGCGCTATCTGTTCGCTTTTGAGGGCCTCATC
ACAGGAATCATCGGAATCATCGCCGCATTCTGGATGCCTGCATCTCCCAC
ACAGACCAAAGGCGGCTTCCGCGGCAAAGACGGATGGTTCAACGAGCGCG
AGGAGAAGATCCTAGTCAACCGGGTGCTCCGTGACGATCCCAGCAAGGGA
AGCATGCACAACCGTCAGGCGGTAACGCCGAAGATGCTTTGGCATGCTCT
GTGCGACTACGACATGTGGCCCATCTATCTGCTTGGCCTGACATGGATGA
TTCCCAACACACCTGCTACCAACTACATTACCCTGGAGTTGAAGTCGCTT
GGGTTCGGCACCTTCGAAACGAACCTCCTGACCATCCCCGCATATGTCAT
CTTCATCATCAACCTACTATTCTGGACATGGATCTCAGAACGCTTCAACC
AGCGTCTACTCCTCGGTGTTGTCAGCGAATTTTGGTGCTTGGTCTTGCTC
ATCGCGCTCGAAGTTCTGCCTGATGGAGCCAGTGGATGGGCGCGGTGGAT
TATCAATGCTCTGTTGATTGGAGCGCCTTACGTCCACGCAATCATTGTGG
CCATGACGTCTAGGAACGCGGGATCGGTCCGAACACGCACTGTTGCAAGT
GCAGTATACAACATGATGGTCCAAGCATCTAGTATCATTGCCAGTCAGAT
TGACATCCGAGTTTGTACCTTCGCATGTGTTACGTTTTTCGCACTTCAGC
TTGACAGAGGCAATATTGTTCAAGCAAACTCGGACAGCATGCTTGGGGAC
CTCGGAATGACCACGAACGATTACAATACCGGCCAGACAATTTTCTACCT
CACTTTCCTCTTTTCTGAGCTTCCTTCGCAGTTACTGTCTAAGAAGGTCG
GCCCAGACCGCTGGATTCCCATTCAAATGGTCGCCTGGAGTTTCGTCGCA
GCATTCCAGGCCTTTCTCAAGAACAGAGCCGGATATTTCGCCTGCAGAGC
GCTTCTCGGCCTCCTGGAGGGAGGATTATGACCACAGACGGCGTCAAGGA
AGTCCCCGCGGACACGGTCTCCGCGAACGAGGACACCAAGAAGAACCCTG
ACGTCTCGACATCATCGGCATCATCATTCTCACTGACGGACTCGGAACAC
AGAGTCGCAAAGGTGACTGACTGCGCATTTGATACGACGGAAGACCCCAG
GTTTTACAAGCCTATTCCCGAATATGAGAGCGCGCATCGCTGGGATCCAT
ACTTTGAATGGACGGAAGAAGAAGAAAAACAACTGATTAGGAAG
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0005887integral component of plasma membrane
Vocabulary: Biological Process
TermDefinition
GO:0055085transmembrane transport
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
ASPNIDRAFT_41305ASPNIDRAFT_41305Aspergillus niger ATCC 1015gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_41305-T1ASPNIDRAFT_41305-T1-proteinAspergillus niger ATCC 1015polypeptide


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_41305-T1.cdsASPNIDRAFT_41305-T1.cdsAspergillus niger ATCC 1015CDS


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ASPNIDRAFT_41305-T1.exon6ASPNIDRAFT_41305-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_41305-T1.exon5ASPNIDRAFT_41305-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_41305-T1.exon4ASPNIDRAFT_41305-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_41305-T1.exon3ASPNIDRAFT_41305-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_41305-T1.exon2ASPNIDRAFT_41305-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_41305-T1.exon1ASPNIDRAFT_41305-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036259
DBxrefInterPro:IPR020846
DBxrefInterPro:IPR011701
DBxrefPFAM:PF00083
DBxrefPFAM:PF07690
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 1015 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ACJE01000013.1supercontigACJE01000013.1:441124..444018 -
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