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ASPNIDRAFT_122612-T1, ASPNIDRAFT_122612-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_122612-T1
Unique NameASPNIDRAFT_122612-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000012.1:665197..667105+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_122612-T1 ID=ASPNIDRAFT_122612-T1|Name=ASPNIDRAFT_122612-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1909bp|location=Sequence derived from alignment at ACJE01000012.1:665197..667105+ (Aspergillus niger ATCC 1015)
AAACCTGAGGACCACATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTAC
CACAACCACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCACATCGTCC
CATGTCTCTGTGTTCTGTATCTACTTGCTTTCCTGGATCGGTATGTGCCT
CCGTGCTGTCTTTGTAATGAGATGTCATTTCCATAACAGTTTGTGTCTGG
TACAGTGTCAATATCAGTAATGCGGCCGTACTCGGGCTCGAAACGGATCT
CAACATCGCGACTGGAACGAAGTACAATACCGCACTCACTATATTCTTCG
TGCCCTACGTTATATTCGAGATCCCGTCCAATATCTTGCTGAAGAAACTG
AAACCTCATGTATGGTGTACGTGTCCTACGTACATGAACGCCGTTGTGCA
CCGTTTACTGGGTTGCTGATGATGGCAGTGTCTTTTTGTATGTTCGGGTT
CGGCCTCGTCACGATATGTCAGGGCTTAGTCTCAAACTGGGGTGGACTGA
TGACTACACGCTGGTTCCTGGGTATGAAGGCATCCACATCCAACGACACA
TAGCTAATATCGACACAGGGATGTTTGAAACGGGCATGTTCCCTGGATGT
AGGTGGTCTCTTTCCAAAGCTCTGAGAGTCTTTTGCTAATAGAGTGCCTG
CCAAGGCTTCTATCTTTTGGGCATGTGGTATAAGCGTAGTGAGGCACAGA
AGCGCTTTAGTTTCTTCTTCAGCTCGACCACATTGGCGGGCGCCTTCGGC
GGCCTGCTTGCCAGCGGTCTAGGGGAGATGGCCGGGCTCCGAGGTTACGG
GGGCTGGCGCTGGGTTTTCATCATTGAGGGAGTTATCACCTGCGTGGTTG
CCATTGTCTGGTTCTTCATAATCCCCGGGTTCCCAGAGGATGTCAAGTGG
CTTAATGAGGAAGAGCGAATGTACATCCGGGCTAAGCTGGCTCGTGATGC
AGGAAAAGCTGGGCATGATGCTCGTATGGGTTGGCGCGATGTGTTGGCTG
TGTTCAAGGACTGTAAGTACATTCGAGGGCCAGGAGGCGCCATTTCATTC
CTGCATATGCTGACTGAGATATAGACAAAATCTTTCTTGGCGGATTTATG
TATTTCGGGCAGGTTGTCACAGCATATGGTAAGTTTGATTGTCATCTTGA
TCCGTGAGTATCTGGAAAGTAGTATAGGGTAACAAGCTCAGGATATGCTT
TCTTTGCCCCGACTATTATCAAGACCTATGGCTACGGAAGTATGTATTCG
TCACCACTAAATGCGCTGTATGCTGAGCTTTTGTACTAGCCATCCTAACG
CAACTGTACTCGATCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATGAT
AATTGCAACATTTTCGGATCTAACCAGACACCGGTTGGCTTTCACTTTGA
TTCCTACAGCCATCGCCATGGCTGGATTTGGAATACTATTGAATGTACAC
GGAGAGGCTCACCGACACGTCCAATACGGCGCGCTCTTCATGGTGACCTG
TGGCTGCTATAGTGCGATGCCGGTTATCGTATGCTGGTTTGCTATGAACC
TAGGGGGTCATCGCAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGTTC
GGTAACAGTAAGTGACGTCGACGCAAAGCATAAATTGATGACGCTGCTGA
CATGGCTTATCTACCAGCGGGAGGTATCATCTCCACATATGCATTTCTAG
CCAAAGATGCGCCTGAATATCGGAATGGTTACATTATCAGTCTGTCCTTT
ATCTGCTTCTCTGCGGCCTGCTGCATTGGATACTTTGTGGCTCTCTGGAC
GGAGAACAAGCGACGAGACCGGGTCATGGCCAATGGCGCCCCAGCGGAGC
TGCGAGCAGATGAAGAAGAGGTACAGGGAGATCTGGCGGTGACCTACCGC
TACGGCTAC
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Coding sequence (CDS) from alignment at ACJE01000012.1:665197..667105+

>ASPNIDRAFT_122612-T1 ID=ASPNIDRAFT_122612-T1|Name=ASPNIDRAFT_122612-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=12987bp|location=Sequence derived from alignment at ACJE01000012.1:665197..667105+ (Aspergillus niger ATCC 1015)
AAACCTGAGGACCACATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTAC
CACAACCACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCACATCGTCC
CATGTCTCTGTGTTCTGTATCTACTTGCTTTCCTGGATCGTGTCAATATC
AGTAATGCGGCCGTACTCGGGCTCGAAACGGATCTCAACATCGCGACTGG
AACGAAGTACAATACCGCACTCACTATATTCTTCGTGCCCTACGTTATAT
TCGAGATCCCGTCCAATATCTTGCTGAAGAAACTGAAACCTCATGTATGG
TTGTCTTTTTGTATGTTCGGGTTCGGCCTCGTCACGATATGTCAGGGCTT
AGTCTCAAACTGGGGTGGACTGATGACTACACGCTGGTTCCTGGGGATGT
TTGAAACGGGCATGTTCCCTGGATGCTTCTATCTTTTGGGCATGTGGTAT
AAGCGTAGTGAGGCACAGAAGCGCTTTAGTTTCTTCTTCAGCTCGACCAC
ATTGGCGGGCGCCTTCGGCGGCCTGCTTGCCAGCGGTCTAGGGGAGATGG
CCGGGCTCCGAGGTTACGGGGGCTGGCGCTGGGTTTTCATCATTGAGGGA
GTTATCACCTGCGTGGTTGCCATTGTCTGGTTCTTCATAATCCCCGGGTT
CCCAGAGGATGTCAAGTGGCTTAATGAGGAAGAGCGAATGTACATCCGGG
CTAAGCTGGCTCGTGATGCAGGAAAAGCTGGGCATGATGCTCGTATGGGT
TGGCGCGATGTGTTGGCTGTGTTCAAGGACTACAAAATCTTTCTTGGCGG
ATTTATGTATTTCGGGCAGGTTGTCACAGCATATGGATATGCTTTCTTTG
CCCCGACTATTATCAAGACCTATGGCTACGGAACCATCCTAACGCAACTG
TACTCGATCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATGATAATTGC
AACATTTTCGGATCTAACCAGACACCGGTTGGCTTTCACTTTGATTCCTA
CAGCCATCGCCATGGCTGGATTTGGAATACTATTGAATGTACACGGAGAG
GCTCACCGACACGTCCAATACGGCGCGCTCTTCATGGTGACCTGTGGCTG
CTATAGTGCGATGCCGGTTATCGTATGCTGGTTTGCTATGAACCTAGGGG
GTCATCGCAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGTTCGGTAAC
ACGGGAGGTATCATCTCCACATATGCATTTCTAGCCAAAGATGCGCCTGA
ATATCGGAATGGTTACATTATCAGTCTGTCCTTTATCTGCTTCTCTGCGG
CCTGCTGCATTGGATACTTTGTGGCTCTCTGGACGGAGAACAAGCGACGA
GACCGGGTCATGGCCAATGGCGCCCCAGCGGAGCTGCGAGCAGATGAAGA
AGAGGTACAGGGAGATCTGGCGGTGACCTACCGCTACGGCTACAAACCTG
AGGACCACATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTACCACAACC
ACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCACATCGTCCCATGTCT
CTGTGTTCTGTATCTACTTGCTTTCCTGGATCGTGTCAATATCAGTAATG
CGGCCGTACTCGGGCTCGAAACGGATCTCAACATCGCGACTGGAACGAAG
TACAATACCGCACTCACTATATTCTTCGTGCCCTACGTTATATTCGAGAT
CCCGTCCAATATCTTGCTGAAGAAACTGAAACCTCATGTATGGTTGTCTT
TTTGTATGTTCGGGTTCGGCCTCGTCACGATATGTCAGGGCTTAGTCTCA
AACTGGGGTGGACTGATGACTACACGCTGGTTCCTGGGGATGTTTGAAAC
GGGCATGTTCCCTGGATGCTTCTATCTTTTGGGCATGTGGTATAAGCGTA
GTGAGGCACAGAAGCGCTTTAGTTTCTTCTTCAGCTCGACCACATTGGCG
GGCGCCTTCGGCGGCCTGCTTGCCAGCGGTCTAGGGGAGATGGCCGGGCT
CCGAGGTTACGGGGGCTGGCGCTGGGTTTTCATCATTGAGGGAGTTATCA
CCTGCGTGGTTGCCATTGTCTGGTTCTTCATAATCCCCGGGTTCCCAGAG
GATGTCAAGTGGCTTAATGAGGAAGAGCGAATGTACATCCGGGCTAAGCT
GGCTCGTGATGCAGGAAAAGCTGGGCATGATGCTCGTATGGGTTGGCGCG
ATGTGTTGGCTGTGTTCAAGGACTACAAAATCTTTCTTGGCGGATTTATG
TATTTCGGGCAGGTTGTCACAGCATATGGATATGCTTTCTTTGCCCCGAC
TATTATCAAGACCTATGGCTACGGAACCATCCTAACGCAACTGTACTCGA
TCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATGATAATTGCAACATTT
TCGGATCTAACCAGACACCGGTTGGCTTTCACTTTGATTCCTACAGCCAT
CGCCATGGCTGGATTTGGAATACTATTGAATGTACACGGAGAGGCTCACC
GACACGTCCAATACGGCGCGCTCTTCATGGTGACCTGTGGCTGCTATAGT
GCGATGCCGGTTATCGTATGCTGGTTTGCTATGAACCTAGGGGGTCATCG
CAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGTTCGGTAACACGGGAG
GTATCATCTCCACATATGCATTTCTAGCCAAAGATGCGCCTGAATATCGG
AATGGTTACATTATCAGTCTGTCCTTTATCTGCTTCTCTGCGGCCTGCTG
CATTGGATACTTTGTGGCTCTCTGGACGGAGAACAAGCGACGAGACCGGG
TCATGGCCAATGGCGCCCCAGCGGAGCTGCGAGCAGATGAAGAAGAGGTA
CAGGGAGATCTGGCGGTGACCTACCGCTACGGCTACAAACCTGAGGACCA
CATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTACCACAACCACGGAGC
GCAGGCTCTTGGCCAAGATTGACTGGCACATCGTCCCATGTCTCTGTGTT
CTGTATCTACTTGCTTTCCTGGATCGTGTCAATATCAGTAATGCGGCCGT
ACTCGGGCTCGAAACGGATCTCAACATCGCGACTGGAACGAAGTACAATA
CCGCACTCACTATATTCTTCGTGCCCTACGTTATATTCGAGATCCCGTCC
AATATCTTGCTGAAGAAACTGAAACCTCATGTATGGTTGTCTTTTTGTAT
GTTCGGGTTCGGCCTCGTCACGATATGTCAGGGCTTAGTCTCAAACTGGG
GTGGACTGATGACTACACGCTGGTTCCTGGGGATGTTTGAAACGGGCATG
TTCCCTGGATGCTTCTATCTTTTGGGCATGTGGTATAAGCGTAGTGAGGC
ACAGAAGCGCTTTAGTTTCTTCTTCAGCTCGACCACATTGGCGGGCGCCT
TCGGCGGCCTGCTTGCCAGCGGTCTAGGGGAGATGGCCGGGCTCCGAGGT
TACGGGGGCTGGCGCTGGGTTTTCATCATTGAGGGAGTTATCACCTGCGT
GGTTGCCATTGTCTGGTTCTTCATAATCCCCGGGTTCCCAGAGGATGTCA
AGTGGCTTAATGAGGAAGAGCGAATGTACATCCGGGCTAAGCTGGCTCGT
GATGCAGGAAAAGCTGGGCATGATGCTCGTATGGGTTGGCGCGATGTGTT
GGCTGTGTTCAAGGACTACAAAATCTTTCTTGGCGGATTTATGTATTTCG
GGCAGGTTGTCACAGCATATGGATATGCTTTCTTTGCCCCGACTATTATC
AAGACCTATGGCTACGGAACCATCCTAACGCAACTGTACTCGATCCCACC
GTGGGCAGCAGCGTTTGCATTTTCGATGATAATTGCAACATTTTCGGATC
TAACCAGACACCGGTTGGCTTTCACTTTGATTCCTACAGCCATCGCCATG
GCTGGATTTGGAATACTATTGAATGTACACGGAGAGGCTCACCGACACGT
CCAATACGGCGCGCTCTTCATGGTGACCTGTGGCTGCTATAGTGCGATGC
CGGTTATCGTATGCTGGTTTGCTATGAACCTAGGGGGTCATCGCAGGCGG
AGCGTGGGCACGGCATGGCAGGTTGGGTTCGGTAACACGGGAGGTATCAT
CTCCACATATGCATTTCTAGCCAAAGATGCGCCTGAATATCGGAATGGTT
ACATTATCAGTCTGTCCTTTATCTGCTTCTCTGCGGCCTGCTGCATTGGA
TACTTTGTGGCTCTCTGGACGGAGAACAAGCGACGAGACCGGGTCATGGC
CAATGGCGCCCCAGCGGAGCTGCGAGCAGATGAAGAAGAGGTACAGGGAG
ATCTGGCGGTGACCTACCGCTACGGCTACAAACCTGAGGACCACATTGAA
GCGCTTCCCTCGGACCTCCCTGTTCTTACCACAACCACGGAGCGCAGGCT
CTTGGCCAAGATTGACTGGCACATCGTCCCATGTCTCTGTGTTCTGTATC
TACTTGCTTTCCTGGATCGTGTCAATATCAGTAATGCGGCCGTACTCGGG
CTCGAAACGGATCTCAACATCGCGACTGGAACGAAGTACAATACCGCACT
CACTATATTCTTCGTGCCCTACGTTATATTCGAGATCCCGTCCAATATCT
TGCTGAAGAAACTGAAACCTCATGTATGGTTGTCTTTTTGTATGTTCGGG
TTCGGCCTCGTCACGATATGTCAGGGCTTAGTCTCAAACTGGGGTGGACT
GATGACTACACGCTGGTTCCTGGGGATGTTTGAAACGGGCATGTTCCCTG
GATGCTTCTATCTTTTGGGCATGTGGTATAAGCGTAGTGAGGCACAGAAG
CGCTTTAGTTTCTTCTTCAGCTCGACCACATTGGCGGGCGCCTTCGGCGG
CCTGCTTGCCAGCGGTCTAGGGGAGATGGCCGGGCTCCGAGGTTACGGGG
GCTGGCGCTGGGTTTTCATCATTGAGGGAGTTATCACCTGCGTGGTTGCC
ATTGTCTGGTTCTTCATAATCCCCGGGTTCCCAGAGGATGTCAAGTGGCT
TAATGAGGAAGAGCGAATGTACATCCGGGCTAAGCTGGCTCGTGATGCAG
GAAAAGCTGGGCATGATGCTCGTATGGGTTGGCGCGATGTGTTGGCTGTG
TTCAAGGACTACAAAATCTTTCTTGGCGGATTTATGTATTTCGGGCAGGT
TGTCACAGCATATGGATATGCTTTCTTTGCCCCGACTATTATCAAGACCT
ATGGCTACGGAACCATCCTAACGCAACTGTACTCGATCCCACCGTGGGCA
GCAGCGTTTGCATTTTCGATGATAATTGCAACATTTTCGGATCTAACCAG
ACACCGGTTGGCTTTCACTTTGATTCCTACAGCCATCGCCATGGCTGGAT
TTGGAATACTATTGAATGTACACGGAGAGGCTCACCGACACGTCCAATAC
GGCGCGCTCTTCATGGTGACCTGTGGCTGCTATAGTGCGATGCCGGTTAT
CGTATGCTGGTTTGCTATGAACCTAGGGGGTCATCGCAGGCGGAGCGTGG
GCACGGCATGGCAGGTTGGGTTCGGTAACACGGGAGGTATCATCTCCACA
TATGCATTTCTAGCCAAAGATGCGCCTGAATATCGGAATGGTTACATTAT
CAGTCTGTCCTTTATCTGCTTCTCTGCGGCCTGCTGCATTGGATACTTTG
TGGCTCTCTGGACGGAGAACAAGCGACGAGACCGGGTCATGGCCAATGGC
GCCCCAGCGGAGCTGCGAGCAGATGAAGAAGAGGTACAGGGAGATCTGGC
GGTGACCTACCGCTACGGCTACAAACCTGAGGACCACATTGAAGCGCTTC
CCTCGGACCTCCCTGTTCTTACCACAACCACGGAGCGCAGGCTCTTGGCC
AAGATTGACTGGCACATCGTCCCATGTCTCTGTGTTCTGTATCTACTTGC
TTTCCTGGATCGTGTCAATATCAGTAATGCGGCCGTACTCGGGCTCGAAA
CGGATCTCAACATCGCGACTGGAACGAAGTACAATACCGCACTCACTATA
TTCTTCGTGCCCTACGTTATATTCGAGATCCCGTCCAATATCTTGCTGAA
GAAACTGAAACCTCATGTATGGTTGTCTTTTTGTATGTTCGGGTTCGGCC
TCGTCACGATATGTCAGGGCTTAGTCTCAAACTGGGGTGGACTGATGACT
ACACGCTGGTTCCTGGGGATGTTTGAAACGGGCATGTTCCCTGGATGCTT
CTATCTTTTGGGCATGTGGTATAAGCGTAGTGAGGCACAGAAGCGCTTTA
GTTTCTTCTTCAGCTCGACCACATTGGCGGGCGCCTTCGGCGGCCTGCTT
GCCAGCGGTCTAGGGGAGATGGCCGGGCTCCGAGGTTACGGGGGCTGGCG
CTGGGTTTTCATCATTGAGGGAGTTATCACCTGCGTGGTTGCCATTGTCT
GGTTCTTCATAATCCCCGGGTTCCCAGAGGATGTCAAGTGGCTTAATGAG
GAAGAGCGAATGTACATCCGGGCTAAGCTGGCTCGTGATGCAGGAAAAGC
TGGGCATGATGCTCGTATGGGTTGGCGCGATGTGTTGGCTGTGTTCAAGG
ACTACAAAATCTTTCTTGGCGGATTTATGTATTTCGGGCAGGTTGTCACA
GCATATGGATATGCTTTCTTTGCCCCGACTATTATCAAGACCTATGGCTA
CGGAACCATCCTAACGCAACTGTACTCGATCCCACCGTGGGCAGCAGCGT
TTGCATTTTCGATGATAATTGCAACATTTTCGGATCTAACCAGACACCGG
TTGGCTTTCACTTTGATTCCTACAGCCATCGCCATGGCTGGATTTGGAAT
ACTATTGAATGTACACGGAGAGGCTCACCGACACGTCCAATACGGCGCGC
TCTTCATGGTGACCTGTGGCTGCTATAGTGCGATGCCGGTTATCGTATGC
TGGTTTGCTATGAACCTAGGGGGTCATCGCAGGCGGAGCGTGGGCACGGC
ATGGCAGGTTGGGTTCGGTAACACGGGAGGTATCATCTCCACATATGCAT
TTCTAGCCAAAGATGCGCCTGAATATCGGAATGGTTACATTATCAGTCTG
TCCTTTATCTGCTTCTCTGCGGCCTGCTGCATTGGATACTTTGTGGCTCT
CTGGACGGAGAACAAGCGACGAGACCGGGTCATGGCCAATGGCGCCCCAG
CGGAGCTGCGAGCAGATGAAGAAGAGGTACAGGGAGATCTGGCGGTGACC
TACCGCTACGGCTACAAACCTGAGGACCACATTGAAGCGCTTCCCTCGGA
CCTCCCTGTTCTTACCACAACCACGGAGCGCAGGCTCTTGGCCAAGATTG
ACTGGCACATCGTCCCATGTCTCTGTGTTCTGTATCTACTTGCTTTCCTG
GATCGTGTCAATATCAGTAATGCGGCCGTACTCGGGCTCGAAACGGATCT
CAACATCGCGACTGGAACGAAGTACAATACCGCACTCACTATATTCTTCG
TGCCCTACGTTATATTCGAGATCCCGTCCAATATCTTGCTGAAGAAACTG
AAACCTCATGTATGGTTGTCTTTTTGTATGTTCGGGTTCGGCCTCGTCAC
GATATGTCAGGGCTTAGTCTCAAACTGGGGTGGACTGATGACTACACGCT
GGTTCCTGGGGATGTTTGAAACGGGCATGTTCCCTGGATGCTTCTATCTT
TTGGGCATGTGGTATAAGCGTAGTGAGGCACAGAAGCGCTTTAGTTTCTT
CTTCAGCTCGACCACATTGGCGGGCGCCTTCGGCGGCCTGCTTGCCAGCG
GTCTAGGGGAGATGGCCGGGCTCCGAGGTTACGGGGGCTGGCGCTGGGTT
TTCATCATTGAGGGAGTTATCACCTGCGTGGTTGCCATTGTCTGGTTCTT
CATAATCCCCGGGTTCCCAGAGGATGTCAAGTGGCTTAATGAGGAAGAGC
GAATGTACATCCGGGCTAAGCTGGCTCGTGATGCAGGAAAAGCTGGGCAT
GATGCTCGTATGGGTTGGCGCGATGTGTTGGCTGTGTTCAAGGACTACAA
AATCTTTCTTGGCGGATTTATGTATTTCGGGCAGGTTGTCACAGCATATG
GATATGCTTTCTTTGCCCCGACTATTATCAAGACCTATGGCTACGGAACC
ATCCTAACGCAACTGTACTCGATCCCACCGTGGGCAGCAGCGTTTGCATT
TTCGATGATAATTGCAACATTTTCGGATCTAACCAGACACCGGTTGGCTT
TCACTTTGATTCCTACAGCCATCGCCATGGCTGGATTTGGAATACTATTG
AATGTACACGGAGAGGCTCACCGACACGTCCAATACGGCGCGCTCTTCAT
GGTGACCTGTGGCTGCTATAGTGCGATGCCGGTTATCGTATGCTGGTTTG
CTATGAACCTAGGGGGTCATCGCAGGCGGAGCGTGGGCACGGCATGGCAG
GTTGGGTTCGGTAACACGGGAGGTATCATCTCCACATATGCATTTCTAGC
CAAAGATGCGCCTGAATATCGGAATGGTTACATTATCAGTCTGTCCTTTA
TCTGCTTCTCTGCGGCCTGCTGCATTGGATACTTTGTGGCTCTCTGGACG
GAGAACAAGCGACGAGACCGGGTCATGGCCAATGGCGCCCCAGCGGAGCT
GCGAGCAGATGAAGAAGAGGTACAGGGAGATCTGGCGGTGACCTACCGCT
ACGGCTACAAACCTGAGGACCACATTGAAGCGCTTCCCTCGGACCTCCCT
GTTCTTACCACAACCACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCA
CATCGTCCCATGTCTCTGTGTTCTGTATCTACTTGCTTTCCTGGATCGTG
TCAATATCAGTAATGCGGCCGTACTCGGGCTCGAAACGGATCTCAACATC
GCGACTGGAACGAAGTACAATACCGCACTCACTATATTCTTCGTGCCCTA
CGTTATATTCGAGATCCCGTCCAATATCTTGCTGAAGAAACTGAAACCTC
ATGTATGGTTGTCTTTTTGTATGTTCGGGTTCGGCCTCGTCACGATATGT
CAGGGCTTAGTCTCAAACTGGGGTGGACTGATGACTACACGCTGGTTCCT
GGGGATGTTTGAAACGGGCATGTTCCCTGGATGCTTCTATCTTTTGGGCA
TGTGGTATAAGCGTAGTGAGGCACAGAAGCGCTTTAGTTTCTTCTTCAGC
TCGACCACATTGGCGGGCGCCTTCGGCGGCCTGCTTGCCAGCGGTCTAGG
GGAGATGGCCGGGCTCCGAGGTTACGGGGGCTGGCGCTGGGTTTTCATCA
TTGAGGGAGTTATCACCTGCGTGGTTGCCATTGTCTGGTTCTTCATAATC
CCCGGGTTCCCAGAGGATGTCAAGTGGCTTAATGAGGAAGAGCGAATGTA
CATCCGGGCTAAGCTGGCTCGTGATGCAGGAAAAGCTGGGCATGATGCTC
GTATGGGTTGGCGCGATGTGTTGGCTGTGTTCAAGGACTACAAAATCTTT
CTTGGCGGATTTATGTATTTCGGGCAGGTTGTCACAGCATATGGATATGC
TTTCTTTGCCCCGACTATTATCAAGACCTATGGCTACGGAACCATCCTAA
CGCAACTGTACTCGATCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATG
ATAATTGCAACATTTTCGGATCTAACCAGACACCGGTTGGCTTTCACTTT
GATTCCTACAGCCATCGCCATGGCTGGATTTGGAATACTATTGAATGTAC
ACGGAGAGGCTCACCGACACGTCCAATACGGCGCGCTCTTCATGGTGACC
TGTGGCTGCTATAGTGCGATGCCGGTTATCGTATGCTGGTTTGCTATGAA
CCTAGGGGGTCATCGCAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGT
TCGGTAACACGGGAGGTATCATCTCCACATATGCATTTCTAGCCAAAGAT
GCGCCTGAATATCGGAATGGTTACATTATCAGTCTGTCCTTTATCTGCTT
CTCTGCGGCCTGCTGCATTGGATACTTTGTGGCTCTCTGGACGGAGAACA
AGCGACGAGACCGGGTCATGGCCAATGGCGCCCCAGCGGAGCTGCGAGCA
GATGAAGAAGAGGTACAGGGAGATCTGGCGGTGACCTACCGCTACGGCTA
CAAACCTGAGGACCACATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTA
CCACAACCACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCACATCGTC
CCATGTCTCTGTGTTCTGTATCTACTTGCTTTCCTGGATCGTGTCAATAT
CAGTAATGCGGCCGTACTCGGGCTCGAAACGGATCTCAACATCGCGACTG
GAACGAAGTACAATACCGCACTCACTATATTCTTCGTGCCCTACGTTATA
TTCGAGATCCCGTCCAATATCTTGCTGAAGAAACTGAAACCTCATGTATG
GTTGTCTTTTTGTATGTTCGGGTTCGGCCTCGTCACGATATGTCAGGGCT
TAGTCTCAAACTGGGGTGGACTGATGACTACACGCTGGTTCCTGGGGATG
TTTGAAACGGGCATGTTCCCTGGATGCTTCTATCTTTTGGGCATGTGGTA
TAAGCGTAGTGAGGCACAGAAGCGCTTTAGTTTCTTCTTCAGCTCGACCA
CATTGGCGGGCGCCTTCGGCGGCCTGCTTGCCAGCGGTCTAGGGGAGATG
GCCGGGCTCCGAGGTTACGGGGGCTGGCGCTGGGTTTTCATCATTGAGGG
AGTTATCACCTGCGTGGTTGCCATTGTCTGGTTCTTCATAATCCCCGGGT
TCCCAGAGGATGTCAAGTGGCTTAATGAGGAAGAGCGAATGTACATCCGG
GCTAAGCTGGCTCGTGATGCAGGAAAAGCTGGGCATGATGCTCGTATGGG
TTGGCGCGATGTGTTGGCTGTGTTCAAGGACTACAAAATCTTTCTTGGCG
GATTTATGTATTTCGGGCAGGTTGTCACAGCATATGGATATGCTTTCTTT
GCCCCGACTATTATCAAGACCTATGGCTACGGAACCATCCTAACGCAACT
GTACTCGATCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATGATAATTG
CAACATTTTCGGATCTAACCAGACACCGGTTGGCTTTCACTTTGATTCCT
ACAGCCATCGCCATGGCTGGATTTGGAATACTATTGAATGTACACGGAGA
GGCTCACCGACACGTCCAATACGGCGCGCTCTTCATGGTGACCTGTGGCT
GCTATAGTGCGATGCCGGTTATCGTATGCTGGTTTGCTATGAACCTAGGG
GGTCATCGCAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGTTCGGTAA
CACGGGAGGTATCATCTCCACATATGCATTTCTAGCCAAAGATGCGCCTG
AATATCGGAATGGTTACATTATCAGTCTGTCCTTTATCTGCTTCTCTGCG
GCCTGCTGCATTGGATACTTTGTGGCTCTCTGGACGGAGAACAAGCGACG
AGACCGGGTCATGGCCAATGGCGCCCCAGCGGAGCTGCGAGCAGATGAAG
AAGAGGTACAGGGAGATCTGGCGGTGACCTACCGCTACGGCTACAAACCT
GAGGACCACATTGAAGCGCTTCCCTCGGACCTCCCTGTTCTTACCACAAC
CACGGAGCGCAGGCTCTTGGCCAAGATTGACTGGCACATCGTCCCATGTC
TCTGTGTTCTGTATCTACTTGCTTTCCTGGATCGTGTCAATATCAGTAAT
GCGGCCGTACTCGGGCTCGAAACGGATCTCAACATCGCGACTGGAACGAA
GTACAATACCGCACTCACTATATTCTTCGTGCCCTACGTTATATTCGAGA
TCCCGTCCAATATCTTGCTGAAGAAACTGAAACCTCATGTATGGTTGTCT
TTTTGTATGTTCGGGTTCGGCCTCGTCACGATATGTCAGGGCTTAGTCTC
AAACTGGGGTGGACTGATGACTACACGCTGGTTCCTGGGGATGTTTGAAA
CGGGCATGTTCCCTGGATGCTTCTATCTTTTGGGCATGTGGTATAAGCGT
AGTGAGGCACAGAAGCGCTTTAGTTTCTTCTTCAGCTCGACCACATTGGC
GGGCGCCTTCGGCGGCCTGCTTGCCAGCGGTCTAGGGGAGATGGCCGGGC
TCCGAGGTTACGGGGGCTGGCGCTGGGTTTTCATCATTGAGGGAGTTATC
ACCTGCGTGGTTGCCATTGTCTGGTTCTTCATAATCCCCGGGTTCCCAGA
GGATGTCAAGTGGCTTAATGAGGAAGAGCGAATGTACATCCGGGCTAAGC
TGGCTCGTGATGCAGGAAAAGCTGGGCATGATGCTCGTATGGGTTGGCGC
GATGTGTTGGCTGTGTTCAAGGACTACAAAATCTTTCTTGGCGGATTTAT
GTATTTCGGGCAGGTTGTCACAGCATATGGATATGCTTTCTTTGCCCCGA
CTATTATCAAGACCTATGGCTACGGAACCATCCTAACGCAACTGTACTCG
ATCCCACCGTGGGCAGCAGCGTTTGCATTTTCGATGATAATTGCAACATT
TTCGGATCTAACCAGACACCGGTTGGCTTTCACTTTGATTCCTACAGCCA
TCGCCATGGCTGGATTTGGAATACTATTGAATGTACACGGAGAGGCTCAC
CGACACGTCCAATACGGCGCGCTCTTCATGGTGACCTGTGGCTGCTATAG
TGCGATGCCGGTTATCGTATGCTGGTTTGCTATGAACCTAGGGGGTCATC
GCAGGCGGAGCGTGGGCACGGCATGGCAGGTTGGGTTCGGTAACACGGGA
GGTATCATCTCCACATATGCATTTCTAGCCAAAGATGCGCCTGAATATCG
GAATGGTTACATTATCAGTCTGTCCTTTATCTGCTTCTCTGCGGCCTGCT
GCATTGGATACTTTGTGGCTCTCTGGACGGAGAACAAGCGACGAGACCGG
GTCATGGCCAATGGCGCCCCAGCGGAGCTGCGAGCAGATGAAGAAGAGGT
ACAGGGAGATCTGGCGGTGACCTACCGCTACGGCTAC
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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_122612ASPNIDRAFT_122612Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122612-T1ASPNIDRAFT_122612-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122612-T1.exon1ASPNIDRAFT_122612-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon2ASPNIDRAFT_122612-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon3ASPNIDRAFT_122612-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon4ASPNIDRAFT_122612-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon5ASPNIDRAFT_122612-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon6ASPNIDRAFT_122612-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon7ASPNIDRAFT_122612-T1.exon7Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon8ASPNIDRAFT_122612-T1.exon8Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122612-T1.exon9ASPNIDRAFT_122612-T1.exon9Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122612-T1.cdsASPNIDRAFT_122612-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036259
DBxrefInterPro:IPR020846
DBxrefInterPro:IPR011701
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
ACJE01000012.1supercontigACJE01000012.1:665197..667105 +
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