ASPNIDRAFT_201918-T1, ASPNIDRAFT_201918-T1 (mRNA) Aspergillus niger ATCC 1015

Overview


Name	ASPNIDRAFT_201918-T1
Unique Name	ASPNIDRAFT_201918-T1
Type	mRNA
Organism	Aspergillus niger ATCC 1015

Sequences

The following sequences are available for this feature:

mRNA from alignment at ACJE01000006.1:1301195..1304650+
coding sequence from alignment at ACJE01000006.1:1301195..1304650+

mRNA from alignment at ACJE01000006.1:1301195..1304650+

Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR

Hold the cursor over a type above to highlight its positions in the sequence below.

>ASPNIDRAFT_201918-T1 ID=ASPNIDRAFT_201918-T1|Name=ASPNIDRAFT_201918-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=3456bp|location=Sequence derived from alignment at ACJE01000006.1:1301195..1304650+ (Aspergillus niger ATCC 1015)
GCTGATCGGATCACTTCTTTCCCATTTTGATCGACTATTATGGCTCCTCC
GCCGCGCTTGCGCATTCTGTCAGGTTAGTGCTCAGCCGCTGCCCAGAAAG
ACACCACCTATCGTCATTTCCCGACAACCCTTTATCCTGGATGATTTGCT
GGTCCACTCGGTCGCTGCATCCAAGAGACTCCTAGACTCCGTTGAGACTC
AGACATTATCATGGGTCGTCTGCTAACGCGGGTCTGTTTAGTGGGCAGCA
ATGCCATCTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGC
GACGTGACACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGG
CGTGTCTTTCAAGTATGGCTGGTCGCTTATTCTTATAACACGGCGAGGTT
CTGACAGGGCGTGATTTAGGTCAAAAGCGTTTGGAAACGAACGGTTTAAG
CCACGTCATGGTGAGTTCTGCCCCTTGGTCACACACCTGTTCGCTTGTGT
GCTGATTAGAGTTCTGCGATAGTCGTTCGGACGCCCGAAGAAGCAGCATC
ACGAGAGAACGCATACGACTATGTAATCCTCTGCGTCAAGGCTCTGCCCG
ATGTATACGACCTGGCTGCGGTAATAGAGTCCGTTGTGACCCCTCAGCAT
ACCTGCATTTTGGTCAACACAACCAATACCCTCGGTGTCGAATCGCATCT
GGAACAACGGTTCCCGACAAACGTCGTCCTTTCTCTTGTCTCAGGCGTCG
AAATCACCCAGATCGGAGCCAGCGAGTTTGAGCACCTGAACTCATCGGAA
ATATGGATCGGTGCTACGAATCAGAACTCGAACGTTCCCTCCTCCATCCA
AACCGATATGGCTGCGGCGTTAGCGATGACTCTGAGCTCAGGCCAGGTGG
ATTGCAAAGTATCGAAGAATATCAGACAGGAACAGTTTGAACGTATTATA
GGGTGAATTATCTCCCCGTATGATTTACGAGGATGTCGATCTTTTGCTAA
CCACTGCATATTCTAGTCCTATCGCCTTCTACCCCGCCAGCGTTATGTTT
GATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCGTGCGTCAGCT
GATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAAGCACACGGTT
GCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAAGATGACGACC
ACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTCGGCGTCCCAT
GGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCAACGGAGTCCA
ATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCTGCACCATATC
AATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTCCGGCCCTGGC
TCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGAAATGGTCCTA
TGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGATGCCCCCACCG
AGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAAGCGCTCAGCC
CCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTGGAAGGCCTTG
AGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGATCAGGGTATG
CCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAGGCGCCGGACC
ATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGCCAGCGGGAGT
TGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCCCCGCAGACCT
CCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAGATGATTACTT
CGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCCGACAACGTTG
ATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCCCAGTGCTAGT
CAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCGGGGGTGGTGG
CGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTTGGAGGAAACA
GGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGGCCTTCATGAC
TCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACCGGTACGGGTC
TGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAACTCGATGACTA
CCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCAAAGCAGGAGG
AATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTGGTCCGCGAAT
GGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCACCTCATGGGC
CCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCGAGCGCCAGTC
CCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGCAGCAGGTTGA
ACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGCACTCCCAAGC
ATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAGTGGTGACAGC
GGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATAGCAGCCAGAT
CAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGAGTCGCGAAGC
CCGTCCTTCCTTCGTCTCTCCTTCGAAACCGCTGAGCACTTGCCTTGGCC
CTGACTGCTATGGACACGACTGGTTTCGTTAACGTCTCCATCTTTTCCCC
TTTCCAGTCGGGAGGGTGATTTCCATGCCTTTTGGGACACCCTTCCCCGT
ATTGCTTTTTGCTTCTTATAAAGAATATACTTTTAATGAGATGCTTTGGC
AAGGAGGGTGGGCACAGACTCCATGTCAATTGTCTGTTGTTTGCGGCTTT
CTGACATATACACCAAGGGACATAGGGGCTTTCACTTTCTCACTTTCTCG
TTTGATGATTTCCACTACGGAGTGGTCGGGCGGGCGCGTGCGTGCGTGCA
TGCATGATTGTTGCATGTGGTGATTTGCCTTGACTTTGATTATCTCTGTT
CTTTTTTTCCTCTCAAGTTGCACGGCATTCTCGAACATTAATGAGCATGA
GCATGAAGCTCCACCAGATAAATATGTTTTCTTGACTTTCTACAGCTATA
CCACCGACGTTCATTGCCAGACGCACACCATACATGCCTTGTTTCTGCAA
GACCCAGTGTTGTACACTACCCAGCTCGGCGCATCGTCCTGTTGTCTATT
CCCTACCATCTCCGCTGCTTTGTTTGACACGCATGCCCTCCTTTGACTTG
ATTTCCTTGGCCGTCTCCTTCCATAGCTGTTCTGTGCTGTTCTGTATGGG
CTCTGGCGCGAACATCACACCACCCTGTCATCTTTCTCATTCATGGTCCG
GTTTCTGGCGCATAAAAAGAGCAAGGGGTTGATTTATTCGGTTGATTGAT
TGATTT

Coding sequence (CDS) from alignment at ACJE01000006.1:1301195..1304650+

>ASPNIDRAFT_201918-T1 ID=ASPNIDRAFT_201918-T1|Name=ASPNIDRAFT_201918-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11250bp|location=Sequence derived from alignment at ACJE01000006.1:1301195..1304650+ (Aspergillus niger ATCC 1015)
ATGGCTCCTCCGCCGCGCTTGCGCATTCTGTCAGTGGGCAGCAATGCCAT
CTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGCGACGTGA
CACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGGCGTGTCT
TTCAAGTCAAAAGCGTTTGGAAACGAACGGTTTAAGCCACGTCATGTCGT
TCGGACGCCCGAAGAAGCAGCATCACGAGAGAACGCATACGACTATGTAA
TCCTCTGCGTCAAGGCTCTGCCCGATGTATACGACCTGGCTGCGGTAATA
GAGTCCGTTGTGACCCCTCAGCATACCTGCATTTTGGTCAACACAACCAA
TACCCTCGGTGTCGAATCGCATCTGGAACAACGGTTCCCGACAAACGTCG
TCCTTTCTCTTGTCTCAGGCGTCGAAATCACCCAGATCGGAGCCAGCGAG
TTTGAGCACCTGAACTCATCGGAAATATGGATCGGTGCTACGAATCAGAA
CTCGAACGTTCCCTCCTCCATCCAAACCGATATGGCTGCGGCGTTAGCGA
TGACTCTGAGCTCAGGCCAGGTGGATTGCAAAGTATCGAAGAATATCAGA
CAGGAACAGTTTGAACGTATTATAGGTCCTATCGCCTTCTACCCCGCCAG
CGTTATGTTTGATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCG
TGCGTCAGCTGATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAA
GCACACGGTTGCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAA
GATGACGACCACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTC
GGCGTCCCATGGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCA
ACGGAGTCCAATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCT
GCACCATATCAATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTC
CGGCCCTGGCTCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGA
AATGGTCCTATGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGAT
GCCCCCACCGAGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAA
GCGCTCAGCCCCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTG
GAAGGCCTTGAGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGA
TCAGGGTATGCCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAG
GCGCCGGACCATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGC
CAGCGGGAGTTGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCC
CCGCAGACCTCCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAG
ATGATTACTTCGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCC
GACAACGTTGATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCC
CAGTGCTAGTCAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCG
GGGGTGGTGGCGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTT
GGAGGAAACAGGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGG
CCTTCATGACTCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACC
GGTACGGGTCTGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAAC
TCGATGACTACCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCA
AAGCAGGAGGAATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTG
GTCCGCGAATGGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCA
CCTCATGGGCCCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCG
AGCGCCAGTCCCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGC
AGCAGGTTGAACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGC
ACTCCCAAGCATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAG
TGGTGACAGCGGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATA
GCAGCCAGATCAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGA
ATGGCTCCTCCGCCGCGCTTGCGCATTCTGTCAGTGGGCAGCAATGCCAT
CTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGCGACGTGA
CACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGGCGTGTCT
TTCAAGTCAAAAGCGTTTGGAAACGAACGGTTTAAGCCACGTCATGTCGT
TCGGACGCCCGAAGAAGCAGCATCACGAGAGAACGCATACGACTATGTAA
TCCTCTGCGTCAAGGCTCTGCCCGATGTATACGACCTGGCTGCGGTAATA
GAGTCCGTTGTGACCCCTCAGCATACCTGCATTTTGGTCAACACAACCAA
TACCCTCGGTGTCGAATCGCATCTGGAACAACGGTTCCCGACAAACGTCG
TCCTTTCTCTTGTCTCAGGCGTCGAAATCACCCAGATCGGAGCCAGCGAG
TTTGAGCACCTGAACTCATCGGAAATATGGATCGGTGCTACGAATCAGAA
CTCGAACGTTCCCTCCTCCATCCAAACCGATATGGCTGCGGCGTTAGCGA
TGACTCTGAGCTCAGGCCAGGTGGATTGCAAAGTATCGAAGAATATCAGA
CAGGAACAGTTTGAACGTATTATAGGTCCTATCGCCTTCTACCCCGCCAG
CGTTATGTTTGATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCG
TGCGTCAGCTGATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAA
GCACACGGTTGCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAA
GATGACGACCACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTC
GGCGTCCCATGGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCA
ACGGAGTCCAATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCT
GCACCATATCAATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTC
CGGCCCTGGCTCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGA
AATGGTCCTATGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGAT
GCCCCCACCGAGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAA
GCGCTCAGCCCCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTG
GAAGGCCTTGAGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGA
TCAGGGTATGCCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAG
GCGCCGGACCATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGC
CAGCGGGAGTTGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCC
CCGCAGACCTCCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAG
ATGATTACTTCGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCC
GACAACGTTGATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCC
CAGTGCTAGTCAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCG
GGGGTGGTGGCGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTT
GGAGGAAACAGGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGG
CCTTCATGACTCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACC
GGTACGGGTCTGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAAC
TCGATGACTACCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCA
AAGCAGGAGGAATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTG
GTCCGCGAATGGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCA
CCTCATGGGCCCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCG
AGCGCCAGTCCCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGC
AGCAGGTTGAACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGC
ACTCCCAAGCATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAG
TGGTGACAGCGGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATA
GCAGCCAGATCAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGA
ATGGCTCCTCCGCCGCGCTTGCGCATTCTGTCAGTGGGCAGCAATGCCAT
CTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGCGACGTGA
CACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGGCGTGTCT
TTCAAGTCAAAAGCGTTTGGAAACGAACGGTTTAAGCCACGTCATGTCGT
TCGGACGCCCGAAGAAGCAGCATCACGAGAGAACGCATACGACTATGTAA
TCCTCTGCGTCAAGGCTCTGCCCGATGTATACGACCTGGCTGCGGTAATA
GAGTCCGTTGTGACCCCTCAGCATACCTGCATTTTGGTCAACACAACCAA
TACCCTCGGTGTCGAATCGCATCTGGAACAACGGTTCCCGACAAACGTCG
TCCTTTCTCTTGTCTCAGGCGTCGAAATCACCCAGATCGGAGCCAGCGAG
TTTGAGCACCTGAACTCATCGGAAATATGGATCGGTGCTACGAATCAGAA
CTCGAACGTTCCCTCCTCCATCCAAACCGATATGGCTGCGGCGTTAGCGA
TGACTCTGAGCTCAGGCCAGGTGGATTGCAAAGTATCGAAGAATATCAGA
CAGGAACAGTTTGAACGTATTATAGGTCCTATCGCCTTCTACCCCGCCAG
CGTTATGTTTGATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCG
TGCGTCAGCTGATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAA
GCACACGGTTGCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAA
GATGACGACCACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTC
GGCGTCCCATGGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCA
ACGGAGTCCAATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCT
GCACCATATCAATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTC
CGGCCCTGGCTCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGA
AATGGTCCTATGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGAT
GCCCCCACCGAGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAA
GCGCTCAGCCCCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTG
GAAGGCCTTGAGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGA
TCAGGGTATGCCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAG
GCGCCGGACCATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGC
CAGCGGGAGTTGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCC
CCGCAGACCTCCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAG
ATGATTACTTCGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCC
GACAACGTTGATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCC
CAGTGCTAGTCAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCG
GGGGTGGTGGCGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTT
GGAGGAAACAGGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGG
CCTTCATGACTCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACC
GGTACGGGTCTGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAAC
TCGATGACTACCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCA
AAGCAGGAGGAATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTG
GTCCGCGAATGGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCA
CCTCATGGGCCCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCG
AGCGCCAGTCCCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGC
AGCAGGTTGAACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGC
ACTCCCAAGCATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAG
TGGTGACAGCGGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATA
GCAGCCAGATCAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGA
ATGGCTCCTCCGCCGCGCTTGCGCATTCTGTCAGTGGGCAGCAATGCCAT
CTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGCGACGTGA
CACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGGCGTGTCT
TTCAAGTCAAAAGCGTTTGGAAACGAACGGTTTAAGCCACGTCATGTCGT
TCGGACGCCCGAAGAAGCAGCATCACGAGAGAACGCATACGACTATGTAA
TCCTCTGCGTCAAGGCTCTGCCCGATGTATACGACCTGGCTGCGGTAATA
GAGTCCGTTGTGACCCCTCAGCATACCTGCATTTTGGTCAACACAACCAA
TACCCTCGGTGTCGAATCGCATCTGGAACAACGGTTCCCGACAAACGTCG
TCCTTTCTCTTGTCTCAGGCGTCGAAATCACCCAGATCGGAGCCAGCGAG
TTTGAGCACCTGAACTCATCGGAAATATGGATCGGTGCTACGAATCAGAA
CTCGAACGTTCCCTCCTCCATCCAAACCGATATGGCTGCGGCGTTAGCGA
TGACTCTGAGCTCAGGCCAGGTGGATTGCAAAGTATCGAAGAATATCAGA
CAGGAACAGTTTGAACGTATTATAGGTCCTATCGCCTTCTACCCCGCCAG
CGTTATGTTTGATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCG
TGCGTCAGCTGATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAA
GCACACGGTTGCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAA
GATGACGACCACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTC
GGCGTCCCATGGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCA
ACGGAGTCCAATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCT
GCACCATATCAATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTC
CGGCCCTGGCTCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGA
AATGGTCCTATGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGAT
GCCCCCACCGAGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAA
GCGCTCAGCCCCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTG
GAAGGCCTTGAGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGA
TCAGGGTATGCCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAG
GCGCCGGACCATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGC
CAGCGGGAGTTGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCC
CCGCAGACCTCCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAG
ATGATTACTTCGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCC
GACAACGTTGATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCC
CAGTGCTAGTCAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCG
GGGGTGGTGGCGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTT
GGAGGAAACAGGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGG
CCTTCATGACTCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACC
GGTACGGGTCTGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAAC
TCGATGACTACCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCA
AAGCAGGAGGAATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTG
GTCCGCGAATGGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCA
CCTCATGGGCCCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCG
AGCGCCAGTCCCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGC
AGCAGGTTGAACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGC
ACTCCCAAGCATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAG
TGGTGACAGCGGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATA
GCAGCCAGATCAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGA
ATGGCTCCTCCGCCGCGCTTGCGCATTCTGTCAGTGGGCAGCAATGCCAT
CTCGGCGTTCCTTTCCTGGAGGCTCCAGGCGACAACCTCCTGCGACGTGA
CACTGGTCTGGAAATCGGGCTACGAGGCAGTCTCTCAATACGGCGTGTCT
TTCAAGTCAAAAGCGTTTGGAAACGAACGGTTTAAGCCACGTCATGTCGT
TCGGACGCCCGAAGAAGCAGCATCACGAGAGAACGCATACGACTATGTAA
TCCTCTGCGTCAAGGCTCTGCCCGATGTATACGACCTGGCTGCGGTAATA
GAGTCCGTTGTGACCCCTCAGCATACCTGCATTTTGGTCAACACAACCAA
TACCCTCGGTGTCGAATCGCATCTGGAACAACGGTTCCCGACAAACGTCG
TCCTTTCTCTTGTCTCAGGCGTCGAAATCACCCAGATCGGAGCCAGCGAG
TTTGAGCACCTGAACTCATCGGAAATATGGATCGGTGCTACGAATCAGAA
CTCGAACGTTCCCTCCTCCATCCAAACCGATATGGCTGCGGCGTTAGCGA
TGACTCTGAGCTCAGGCCAGGTGGATTGCAAAGTATCGAAGAATATCAGA
CAGGAACAGTTTGAACGTATTATAGGTCCTATCGCCTTCTACCCCGCCAG
CGTTATGTTTGATTCTGGAAATGTACAGCAATTATTAGAAAAAGTTGGCG
TGCGTCAGCTGATATCGGACGTGATCGACGAACTCATCGATTTGGCGAAA
GCACACGGTTGCTCTTTTCCCAGCGACTTCAACCAGAAGACTATGGAGAA
GATGACGACCACCCAGACGCCAAACACTATGTACCAGGATTTCCAGGCTC
GGCGTCCCATGGAGATCGAGACGTATCTTGGTTCTCCCATCAAACTGGCA
ACGGAGTCCAATGTCAAACTCCCACGCATCGAGACCCTCTATGCAATGCT
GCACCATATCAATGCCACTACTCTGAGCAAACCTCGTGATTCTCCCCCTC
CGGCCCTGGCTCAGCCTCCGCCCCGGGTGTCTTCGGTTCCTCCTCCCAGA
AATGGTCCTATGCGCCCGCCCCCCGGAAGGTCAAGTTCCGCCATGATGAT
GCCCCCACCGAGACGTGGACCTCCGATGCCTGGAATGTCGCGACCACCAA
GCGCTCAGCCCCCGGCTGGCGGACCTAGGATGCCCCGTGAACCGTCCTTG
GAAGGCCTTGAGGAGTTCAGCCATCTGGTCGTTTATGATGATGCCGGCGA
TCAGGGTATGCCTGCAAATGGTGCCAATGGCTATCCGGACGTTCCGCCAG
GCGCCGGACCATCTGGACTGGCTTTGAGAGAACGCGAGCTGGCCATTCGC
CAGCGGGAGTTGCAGCTTCGAGAGCAAGAGATGCACATGCGTCGTGGTCC
CCGCAGACCTCCGCCTTCCAAGGCAGCTGCTTTCGATGAGGAAGACGAAG
ATGATTACTTCGATCCCATGGATACTAGCTTGGTCCCTCAGATCGACCCC
GACAACGTTGATATGCTGAGTATCACATCAAAGAGGACAAAGAAAATCCC
CAGTGCTAGTCAGATTCGCAAGAACCCCGAGCTCCTTTCGAGCACTGGCG
GGGGTGGTGGCGGCGGCGGCGGTAGAACTGGGACGTTCAGCCGCTACTTT
GGAGGAAACAGGAAGCGCGCCAGTGACCGTATCATGCAGGAAATCCCTGG
CCTTCATGACTCTCTCCTAGACAACCCCATGATGGCTTACTCGTCAAACC
GGTACGGGTCTGTTGACCGAAACCAAATGGCTGCGGGTTCCCGGACCAAC
TCGATGACTACCAGCCGAATGGGTGACTACCCTCCTCATCCGTACCCGCA
AAGCAGGAGGAATAGCCATTCTCCTGCAGCTCCTTTCGGTGGTCCTCCTG
GTCCGCGAATGGGCCGCCCAGCGACTGCCCAAGACCAGAACTTTGGCCCA
CCTCATGGGCCCCCGAACGGCGGCCACCCGTCGCCTCCGGGACACATGCG
AGCGCCAGTCCCTCGCCATCCTCCTGGGCATGGCAATGCGGTAGGTCCGC
AGCAGGTTGAACAACAAATTGGGGTGAGCAAACCGTATCCCGCCAAGGGC
ACTCCCAAGCATAGAAGTCTGACAGGAAGTGCGAGCGCCAGCGCGGAGAG
TGGTGACAGCGGGGCTAGTGCCAACCTCGATTCCGAGACCTCTGCCCATA
GCAGCCAGATCAGCCTCGGCGCGCAGCCAGCTGCAGCGCCCGTTCACTGA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0055114	oxidation-reduction process

Vocabulary: **Molecular Function**
Term	Definition
GO:0016491	oxidoreductase activity

Relationships

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918	ASPNIDRAFT_201918	Aspergillus niger ATCC 1015	gene

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918-T1	ASPNIDRAFT_201918-T1-protein	Aspergillus niger ATCC 1015	polypeptide

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918-T1.utr5p1	ASPNIDRAFT_201918-T1.utr5p1	Aspergillus niger ATCC 1015	five_prime_UTR

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918-T1.exon1	ASPNIDRAFT_201918-T1.exon1	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_201918-T1.exon2	ASPNIDRAFT_201918-T1.exon2	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_201918-T1.exon3	ASPNIDRAFT_201918-T1.exon3	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_201918-T1.exon4	ASPNIDRAFT_201918-T1.exon4	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_201918-T1.exon5	ASPNIDRAFT_201918-T1.exon5	Aspergillus niger ATCC 1015	exon

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918-T1.cds	ASPNIDRAFT_201918-T1.cds	Aspergillus niger ATCC 1015	CDS

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_201918-T1.utr3p1	ASPNIDRAFT_201918-T1.utr3p1	Aspergillus niger ATCC 1015	three_prime_UTR

Properties


Property Name	Value
Note	EggNog:ENOG41
DBxref	InterPro:IPR008927
DBxref	InterPro:IPR013328
DBxref	InterPro:IPR013752
DBxref	InterPro:IPR013332
DBxref	PFAM:PF08546
DBxref	PFAM:PF02558
Product	hypothetical protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger ATCC 1015 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
ACJE01000006.1	supercontig	ACJE01000006.1:1301195..1304650 +

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ASPNIDRAFT_201918-T1, ASPNIDRAFT_201918-T1 (mRNA) Aspergillus niger ATCC 1015