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ASPNIDRAFT_122027-T1, ASPNIDRAFT_122027-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_122027-T1
Unique NameASPNIDRAFT_122027-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000001.1:4735..6600-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_122027-T1 ID=ASPNIDRAFT_122027-T1|Name=ASPNIDRAFT_122027-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1866bp|location=Sequence derived from alignment at ACJE01000001.1:4735..6600- (Aspergillus niger ATCC 1015)
GATTACACAGAGCAACAGTACAAGAAACTGACACGGAAGATCGACTATTA
CCTCATGCCCATGATGTATGTGCCTACCGCCTCTAGGAAAGCCTATTCTA
ACTTTCCAGGTTCTTCTTCTATGGGATACAGCAAACAGACAAGACTTCAA
CGAGTATTCAGGCAGTAAGTATCATAGACTAGGAGATAAATGCGTATGCT
GACAATCCCAGTTATTTGGAATGGAGGATGAGTTGAAATTACATGGCCAA
CAGTATCAATGGCTGACCACAATGTAAGTGTAAACCACCCGGAACATGAA
TTGCATTGACTGTCCCTACAGTTTCTATCTCACATATCTCATCGGGGAAT
TTCCCTCTGTATATCTTCTGCAGAGGTTCAATGGTGGCCTTGTCCTCTCC
ATCTATATGACATGCTGGGGTAAGCTATGCTTTCTACGACTACCCTACGC
GGAACTATAAATAACCTTTTCAGGGATATGCCTCATCTGTATCAGCGCCG
TACAAAACTGGTCTCAATTGATGGCACTCCGCGCCCTTCAAGGGTTCTTT
GAGAGCAATATATCCCCCGGCTTCCTCCTCATTACTGGTCTCTGGTACCG
GACCGAAGAACACGCCAACCGCTCCCTCTTCTGGCAGTCATCCGAGGGCT
TCTTCTCCATTGTCTGCAACCTGATCTTATACGCCATCGCGCGACATGTT
GAAGCCCATGGCGGTATAGCAGCTTGGCGATGCATCTCCTTATTTCTGGG
CTCTCTTACCCTGGCCGGCGCAGTAGCCGCCTTCTTCCTGCTCGGTTGCC
CGCATGAAGTGCGGTGGTTGAATGATGATGAGAAACGCATGGCGTAAGTT
ATCATCCCATATTTATCGAAAGCAGACTACTCACTATCATAGAACCGCCC
GCACACTGAAGAACCAGACAGGCCAGGATACTACAGGTAAACAGTGGTCC
TGGCCACAAGTCTATGAAGCCTTTAAAGACCCTCAATTATACTTTTCATT
TGCCAATTCTTTCCTTGCAAATATCCCCAACGGGTCAGTCTACACACAGT
TCCTCTTTGACCTGATCAGTAATTAATCCGCAATTAAACACAGCGGCATC
ACGACTTTCAGCTCCCTCATGTACGAGACATTTGGCTTTAACGACTGGCA
ATCCATGCTCTACGGCTGTCCCCGGAACGGTACGATTTGTATCTTTGAAT
TGAGAAATTAGTGCTAAATCTCTCTGTCGCTCCAGCTATCTACGTAGTCG
TCTTCCTCATCGTTGGCCTGTACACCCGCAAGTTCCAGAACCAGCGCATG
TGGGTAATGATCGCCAGCTGCATCATTCCCTTTATCGGCCTCCTGGTGAT
GTCGCTCCTCCCAAACACACCCGAGTACAAGTGGATTAAGTGGGGGATGT
ACATCATGACAGTTGTCTTTTCTCTCGCTATTTTTCTAGGTTGGAGCTTG
AGTACGTACTCCATTTTCCCTACCCGTATGTTATACACAACACTAATCAT
TCCCCCCCCCCCCCCCCCCATCCCCCCCCCCTTCTAGTCCCCTCCAATGT
CGCAGGAAAGACCAAGCAAACCGTTGTCTCCGCTATGACTTTGATCGCGT
ATTGCGCCGGGAATATGGCAGGTGCGCAAGTGTTCAGGACCAAAGATGCG
CCCCGGTATGTGTCAGGAACGGTGGCCTGCTCGGTATGTTTCGCTCTCGA
GGCAATTGTGATTCTTCTATGGAGAGGATGGTATATGTGGGAGAATCGAC
GCAGGGAGCGCATTGTACTGAGCATGGGGATCTCCAAAGAGGAGCAGGAA
CGACGGGGTAAGGAGCTGGGAGAGCAGGATGTTACGGATATGAAGAATAT
TTATTTTCGATATACC
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Coding sequence (CDS) from alignment at ACJE01000001.1:4735..6600-

>ASPNIDRAFT_122027-T1 ID=ASPNIDRAFT_122027-T1|Name=ASPNIDRAFT_122027-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=12690bp|location=Sequence derived from alignment at ACJE01000001.1:4735..6600- (Aspergillus niger ATCC 1015)
TCGCAGGAAAGACCAAGCAAACCGTTGTCTCCGCTATGACTTTGATCGCG
TATTGCGCCGGGAATATGGCAGGTGCGCAAGTGTTCAGGACCAAAGATGC
GCCCCGGTATGTGTCAGGAACGGTGGCCTGCTCGGTATGTTTCGCTCTCG
AGGCAATTGTGATTCTTCTATGGAGAGGATGGTATATGTGGGAGAATCGA
CGCAGGGAGCGCATTGTACTGAGCATGGGGATCTCCAAAGAGGAGCAGGA
ACGACGGGGTAAGGAGCTGGGAGAGCAGGATGTTACGGATATGAAGAATA
TTTATTTTCGATATACCCTATCTACGTAGTCGTCTTCCTCATCGTTGGCC
TGTACACCCGCAAGTTCCAGAACCAGCGCATGTGGGTAATGATCGCCAGC
TGCATCATTCCCTTTATCGGCCTCCTGGTGATGTCGCTCCTCCCAAACAC
ACCCGAGTACAAGTGGATTAAGTGGGGGATGTACATCATGACAGTTGTCT
TTTCTCTCGCTATTTTTCTAGGTTGGAGCTTGACGGCATCACGACTTTCA
GCTCCCTCATGTACGAGACATTTGGCTTTAACGACTGGCAATCCATGCTC
TACGGCTGTCCCCGGAACGAACCGCCCGCACACTGAAGAACCAGACAGGC
CAGGATACTACAGGTAAACAGTGGTCCTGGCCACAAGTCTATGAAGCCTT
TAAAGACCCTCAATTATACTTTTCATTTGCCAATTCTTTCCTTGCAAATA
TCCCCAACGGGGATATGCCTCATCTGTATCAGCGCCGTACAAAACTGGTC
TCAATTGATGGCACTCCGCGCCCTTCAAGGGTTCTTTGAGAGCAATATAT
CCCCCGGCTTCCTCCTCATTACTGGTCTCTGGTACCGGACCGAAGAACAC
GCCAACCGCTCCCTCTTCTGGCAGTCATCCGAGGGCTTCTTCTCCATTGT
CTGCAACCTGATCTTATACGCCATCGCGCGACATGTTGAAGCCCATGGCG
GTATAGCAGCTTGGCGATGCATCTCCTTATTTCTGGGCTCTCTTACCCTG
GCCGGCGCAGTAGCCGCCTTCTTCCTGCTCGGTTGCCCGCATGAAGTGCG
GTGGTTGAATGATGATGAGAAACGCATGGCTTTCTATCTCACATATCTCA
TCGGGGAATTTCCCTCTGTATATCTTCTGCAGAGGTTCAATGGTGGCCTT
GTCCTCTCCATCTATATGACATGCTGGGTTATTTGGAATGGAGGATGAGT
TGAAATTACATGGCCAACAGTATCAATGGCTGACCACAATGTTCTTCTTC
TATGGGATACAGCAAACAGACAAGACTTCAACGAGTATTCAGGCAGATTA
CACAGAGCAACAGTACAAGAAACTGACACGGAAGATCGACTATTACCTCA
TGCCCATGATTCGCAGGAAAGACCAAGCAAACCGTTGTCTCCGCTATGAC
TTTGATCGCGTATTGCGCCGGGAATATGGCAGGTGCGCAAGTGTTCAGGA
CCAAAGATGCGCCCCGGTATGTGTCAGGAACGGTGGCCTGCTCGGTATGT
TTCGCTCTCGAGGCAATTGTGATTCTTCTATGGAGAGGATGGTATATGTG
GGAGAATCGACGCAGGGAGCGCATTGTACTGAGCATGGGGATCTCCAAAG
AGGAGCAGGAACGACGGGGTAAGGAGCTGGGAGAGCAGGATGTTACGGAT
ATGAAGAATATTTATTTTCGATATACCCTATCTACGTAGTCGTCTTCCTC
ATCGTTGGCCTGTACACCCGCAAGTTCCAGAACCAGCGCATGTGGGTAAT
GATCGCCAGCTGCATCATTCCCTTTATCGGCCTCCTGGTGATGTCGCTCC
TCCCAAACACACCCGAGTACAAGTGGATTAAGTGGGGGATGTACATCATG
ACAGTTGTCTTTTCTCTCGCTATTTTTCTAGGTTGGAGCTTGACGGCATC
ACGACTTTCAGCTCCCTCATGTACGAGACATTTGGCTTTAACGACTGGCA
ATCCATGCTCTACGGCTGTCCCCGGAACGAACCGCCCGCACACTGAAGAA
CCAGACAGGCCAGGATACTACAGGTAAACAGTGGTCCTGGCCACAAGTCT
ATGAAGCCTTTAAAGACCCTCAATTATACTTTTCATTTGCCAATTCTTTC
CTTGCAAATATCCCCAACGGGGATATGCCTCATCTGTATCAGCGCCGTAC
AAAACTGGTCTCAATTGATGGCACTCCGCGCCCTTCAAGGGTTCTTTGAG
AGCAATATATCCCCCGGCTTCCTCCTCATTACTGGTCTCTGGTACCGGAC
CGAAGAACACGCCAACCGCTCCCTCTTCTGGCAGTCATCCGAGGGCTTCT
TCTCCATTGTCTGCAACCTGATCTTATACGCCATCGCGCGACATGTTGAA
GCCCATGGCGGTATAGCAGCTTGGCGATGCATCTCCTTATTTCTGGGCTC
TCTTACCCTGGCCGGCGCAGTAGCCGCCTTCTTCCTGCTCGGTTGCCCGC
ATGAAGTGCGGTGGTTGAATGATGATGAGAAACGCATGGCTTTCTATCTC
ACATATCTCATCGGGGAATTTCCCTCTGTATATCTTCTGCAGAGGTTCAA
TGGTGGCCTTGTCCTCTCCATCTATATGACATGCTGGGTTATTTGGAATG
GAGGATGAGTTGAAATTACATGGCCAACAGTATCAATGGCTGACCACAAT
GTTCTTCTTCTATGGGATACAGCAAACAGACAAGACTTCAACGAGTATTC
AGGCAGATTACACAGAGCAACAGTACAAGAAACTGACACGGAAGATCGAC
TATTACCTCATGCCCATGATTCGCAGGAAAGACCAAGCAAACCGTTGTCT
CCGCTATGACTTTGATCGCGTATTGCGCCGGGAATATGGCAGGTGCGCAA
GTGTTCAGGACCAAAGATGCGCCCCGGTATGTGTCAGGAACGGTGGCCTG
CTCGGTATGTTTCGCTCTCGAGGCAATTGTGATTCTTCTATGGAGAGGAT
GGTATATGTGGGAGAATCGACGCAGGGAGCGCATTGTACTGAGCATGGGG
ATCTCCAAAGAGGAGCAGGAACGACGGGGTAAGGAGCTGGGAGAGCAGGA
TGTTACGGATATGAAGAATATTTATTTTCGATATACCCTATCTACGTAGT
CGTCTTCCTCATCGTTGGCCTGTACACCCGCAAGTTCCAGAACCAGCGCA
TGTGGGTAATGATCGCCAGCTGCATCATTCCCTTTATCGGCCTCCTGGTG
ATGTCGCTCCTCCCAAACACACCCGAGTACAAGTGGATTAAGTGGGGGAT
GTACATCATGACAGTTGTCTTTTCTCTCGCTATTTTTCTAGGTTGGAGCT
TGACGGCATCACGACTTTCAGCTCCCTCATGTACGAGACATTTGGCTTTA
ACGACTGGCAATCCATGCTCTACGGCTGTCCCCGGAACGAACCGCCCGCA
CACTGAAGAACCAGACAGGCCAGGATACTACAGGTAAACAGTGGTCCTGG
CCACAAGTCTATGAAGCCTTTAAAGACCCTCAATTATACTTTTCATTTGC
CAATTCTTTCCTTGCAAATATCCCCAACGGGGATATGCCTCATCTGTATC
AGCGCCGTACAAAACTGGTCTCAATTGATGGCACTCCGCGCCCTTCAAGG
GTTCTTTGAGAGCAATATATCCCCCGGCTTCCTCCTCATTACTGGTCTCT
GGTACCGGACCGAAGAACACGCCAACCGCTCCCTCTTCTGGCAGTCATCC
GAGGGCTTCTTCTCCATTGTCTGCAACCTGATCTTATACGCCATCGCGCG
ACATGTTGAAGCCCATGGCGGTATAGCAGCTTGGCGATGCATCTCCTTAT
TTCTGGGCTCTCTTACCCTGGCCGGCGCAGTAGCCGCCTTCTTCCTGCTC
GGTTGCCCGCATGAAGTGCGGTGGTTGAATGATGATGAGAAACGCATGGC
TTTCTATCTCACATATCTCATCGGGGAATTTCCCTCTGTATATCTTCTGC
AGAGGTTCAATGGTGGCCTTGTCCTCTCCATCTATATGACATGCTGGGTT
ATTTGGAATGGAGGATGAGTTGAAATTACATGGCCAACAGTATCAATGGC
TGACCACAATGTTCTTCTTCTATGGGATACAGCAAACAGACAAGACTTCA
ACGAGTATTCAGGCAGATTACACAGAGCAACAGTACAAGAAACTGACACG
GAAGATCGACTATTACCTCATGCCCATGATTCGCAGGAAAGACCAAGCAA
ACCGTTGTCTCCGCTATGACTTTGATCGCGTATTGCGCCGGGAATATGGC
AGGTGCGCAAGTGTTCAGGACCAAAGATGCGCCCCGGTATGTGTCAGGAA
CGGTGGCCTGCTCGGTATGTTTCGCTCTCGAGGCAATTGTGATTCTTCTA
TGGAGAGGATGGTATATGTGGGAGAATCGACGCAGGGAGCGCATTGTACT
GAGCATGGGGATCTCCAAAGAGGAGCAGGAACGACGGGGTAAGGAGCTGG
GAGAGCAGGATGTTACGGATATGAAGAATATTTATTTTCGATATACCCTA
TCTACGTAGTCGTCTTCCTCATCGTTGGCCTGTACACCCGCAAGTTCCAG
AACCAGCGCATGTGGGTAATGATCGCCAGCTGCATCATTCCCTTTATCGG
CCTCCTGGTGATGTCGCTCCTCCCAAACACACCCGAGTACAAGTGGATTA
AGTGGGGGATGTACATCATGACAGTTGTCTTTTCTCTCGCTATTTTTCTA
GGTTGGAGCTTGACGGCATCACGACTTTCAGCTCCCTCATGTACGAGACA
TTTGGCTTTAACGACTGGCAATCCATGCTCTACGGCTGTCCCCGGAACGA
ACCGCCCGCACACTGAAGAACCAGACAGGCCAGGATACTACAGGTAAACA
GTGGTCCTGGCCACAAGTCTATGAAGCCTTTAAAGACCCTCAATTATACT
TTTCATTTGCCAATTCTTTCCTTGCAAATATCCCCAACGGGGATATGCCT
CATCTGTATCAGCGCCGTACAAAACTGGTCTCAATTGATGGCACTCCGCG
CCCTTCAAGGGTTCTTTGAGAGCAATATATCCCCCGGCTTCCTCCTCATT
ACTGGTCTCTGGTACCGGACCGAAGAACACGCCAACCGCTCCCTCTTCTG
GCAGTCATCCGAGGGCTTCTTCTCCATTGTCTGCAACCTGATCTTATACG
CCATCGCGCGACATGTTGAAGCCCATGGCGGTATAGCAGCTTGGCGATGC
ATCTCCTTATTTCTGGGCTCTCTTACCCTGGCCGGCGCAGTAGCCGCCTT
CTTCCTGCTCGGTTGCCCGCATGAAGTGCGGTGGTTGAATGATGATGAGA
AACGCATGGCTTTCTATCTCACATATCTCATCGGGGAATTTCCCTCTGTA
TATCTTCTGCAGAGGTTCAATGGTGGCCTTGTCCTCTCCATCTATATGAC
ATGCTGGGTTATTTGGAATGGAGGATGAGTTGAAATTACATGGCCAACAG
TATCAATGGCTGACCACAATGTTCTTCTTCTATGGGATACAGCAAACAGA
CAAGACTTCAACGAGTATTCAGGCAGATTACACAGAGCAACAGTACAAGA
AACTGACACGGAAGATCGACTATTACCTCATGCCCATGATTCGCAGGAAA
GACCAAGCAAACCGTTGTCTCCGCTATGACTTTGATCGCGTATTGCGCCG
GGAATATGGCAGGTGCGCAAGTGTTCAGGACCAAAGATGCGCCCCGGTAT
GTGTCAGGAACGGTGGCCTGCTCGGTATGTTTCGCTCTCGAGGCAATTGT
GATTCTTCTATGGAGAGGATGGTATATGTGGGAGAATCGACGCAGGGAGC
GCATTGTACTGAGCATGGGGATCTCCAAAGAGGAGCAGGAACGACGGGGT
AAGGAGCTGGGAGAGCAGGATGTTACGGATATGAAGAATATTTATTTTCG
ATATACCCTATCTACGTAGTCGTCTTCCTCATCGTTGGCCTGTACACCCG
CAAGTTCCAGAACCAGCGCATGTGGGTAATGATCGCCAGCTGCATCATTC
CCTTTATCGGCCTCCTGGTGATGTCGCTCCTCCCAAACACACCCGAGTAC
AAGTGGATTAAGTGGGGGATGTACATCATGACAGTTGTCTTTTCTCTCGC
TATTTTTCTAGGTTGGAGCTTGACGGCATCACGACTTTCAGCTCCCTCAT
GTACGAGACATTTGGCTTTAACGACTGGCAATCCATGCTCTACGGCTGTC
CCCGGAACGAACCGCCCGCACACTGAAGAACCAGACAGGCCAGGATACTA
CAGGTAAACAGTGGTCCTGGCCACAAGTCTATGAAGCCTTTAAAGACCCT
CAATTATACTTTTCATTTGCCAATTCTTTCCTTGCAAATATCCCCAACGG
GGATATGCCTCATCTGTATCAGCGCCGTACAAAACTGGTCTCAATTGATG
GCACTCCGCGCCCTTCAAGGGTTCTTTGAGAGCAATATATCCCCCGGCTT
CCTCCTCATTACTGGTCTCTGGTACCGGACCGAAGAACACGCCAACCGCT
CCCTCTTCTGGCAGTCATCCGAGGGCTTCTTCTCCATTGTCTGCAACCTG
ATCTTATACGCCATCGCGCGACATGTTGAAGCCCATGGCGGTATAGCAGC
TTGGCGATGCATCTCCTTATTTCTGGGCTCTCTTACCCTGGCCGGCGCAG
TAGCCGCCTTCTTCCTGCTCGGTTGCCCGCATGAAGTGCGGTGGTTGAAT
GATGATGAGAAACGCATGGCTTTCTATCTCACATATCTCATCGGGGAATT
TCCCTCTGTATATCTTCTGCAGAGGTTCAATGGTGGCCTTGTCCTCTCCA
TCTATATGACATGCTGGGTTATTTGGAATGGAGGATGAGTTGAAATTACA
TGGCCAACAGTATCAATGGCTGACCACAATGTTCTTCTTCTATGGGATAC
AGCAAACAGACAAGACTTCAACGAGTATTCAGGCAGATTACACAGAGCAA
CAGTACAAGAAACTGACACGGAAGATCGACTATTACCTCATGCCCATGAT
TCGCAGGAAAGACCAAGCAAACCGTTGTCTCCGCTATGACTTTGATCGCG
TATTGCGCCGGGAATATGGCAGGTGCGCAAGTGTTCAGGACCAAAGATGC
GCCCCGGTATGTGTCAGGAACGGTGGCCTGCTCGGTATGTTTCGCTCTCG
AGGCAATTGTGATTCTTCTATGGAGAGGATGGTATATGTGGGAGAATCGA
CGCAGGGAGCGCATTGTACTGAGCATGGGGATCTCCAAAGAGGAGCAGGA
ACGACGGGGTAAGGAGCTGGGAGAGCAGGATGTTACGGATATGAAGAATA
TTTATTTTCGATATACCCTATCTACGTAGTCGTCTTCCTCATCGTTGGCC
TGTACACCCGCAAGTTCCAGAACCAGCGCATGTGGGTAATGATCGCCAGC
TGCATCATTCCCTTTATCGGCCTCCTGGTGATGTCGCTCCTCCCAAACAC
ACCCGAGTACAAGTGGATTAAGTGGGGGATGTACATCATGACAGTTGTCT
TTTCTCTCGCTATTTTTCTAGGTTGGAGCTTGACGGCATCACGACTTTCA
GCTCCCTCATGTACGAGACATTTGGCTTTAACGACTGGCAATCCATGCTC
TACGGCTGTCCCCGGAACGAACCGCCCGCACACTGAAGAACCAGACAGGC
CAGGATACTACAGGTAAACAGTGGTCCTGGCCACAAGTCTATGAAGCCTT
TAAAGACCCTCAATTATACTTTTCATTTGCCAATTCTTTCCTTGCAAATA
TCCCCAACGGGGATATGCCTCATCTGTATCAGCGCCGTACAAAACTGGTC
TCAATTGATGGCACTCCGCGCCCTTCAAGGGTTCTTTGAGAGCAATATAT
CCCCCGGCTTCCTCCTCATTACTGGTCTCTGGTACCGGACCGAAGAACAC
GCCAACCGCTCCCTCTTCTGGCAGTCATCCGAGGGCTTCTTCTCCATTGT
CTGCAACCTGATCTTATACGCCATCGCGCGACATGTTGAAGCCCATGGCG
GTATAGCAGCTTGGCGATGCATCTCCTTATTTCTGGGCTCTCTTACCCTG
GCCGGCGCAGTAGCCGCCTTCTTCCTGCTCGGTTGCCCGCATGAAGTGCG
GTGGTTGAATGATGATGAGAAACGCATGGCTTTCTATCTCACATATCTCA
TCGGGGAATTTCCCTCTGTATATCTTCTGCAGAGGTTCAATGGTGGCCTT
GTCCTCTCCATCTATATGACATGCTGGGTTATTTGGAATGGAGGATGAGT
TGAAATTACATGGCCAACAGTATCAATGGCTGACCACAATGTTCTTCTTC
TATGGGATACAGCAAACAGACAAGACTTCAACGAGTATTCAGGCAGATTA
CACAGAGCAACAGTACAAGAAACTGACACGGAAGATCGACTATTACCTCA
TGCCCATGATTCGCAGGAAAGACCAAGCAAACCGTTGTCTCCGCTATGAC
TTTGATCGCGTATTGCGCCGGGAATATGGCAGGTGCGCAAGTGTTCAGGA
CCAAAGATGCGCCCCGGTATGTGTCAGGAACGGTGGCCTGCTCGGTATGT
TTCGCTCTCGAGGCAATTGTGATTCTTCTATGGAGAGGATGGTATATGTG
GGAGAATCGACGCAGGGAGCGCATTGTACTGAGCATGGGGATCTCCAAAG
AGGAGCAGGAACGACGGGGTAAGGAGCTGGGAGAGCAGGATGTTACGGAT
ATGAAGAATATTTATTTTCGATATACCCTATCTACGTAGTCGTCTTCCTC
ATCGTTGGCCTGTACACCCGCAAGTTCCAGAACCAGCGCATGTGGGTAAT
GATCGCCAGCTGCATCATTCCCTTTATCGGCCTCCTGGTGATGTCGCTCC
TCCCAAACACACCCGAGTACAAGTGGATTAAGTGGGGGATGTACATCATG
ACAGTTGTCTTTTCTCTCGCTATTTTTCTAGGTTGGAGCTTGACGGCATC
ACGACTTTCAGCTCCCTCATGTACGAGACATTTGGCTTTAACGACTGGCA
ATCCATGCTCTACGGCTGTCCCCGGAACGAACCGCCCGCACACTGAAGAA
CCAGACAGGCCAGGATACTACAGGTAAACAGTGGTCCTGGCCACAAGTCT
ATGAAGCCTTTAAAGACCCTCAATTATACTTTTCATTTGCCAATTCTTTC
CTTGCAAATATCCCCAACGGGGATATGCCTCATCTGTATCAGCGCCGTAC
AAAACTGGTCTCAATTGATGGCACTCCGCGCCCTTCAAGGGTTCTTTGAG
AGCAATATATCCCCCGGCTTCCTCCTCATTACTGGTCTCTGGTACCGGAC
CGAAGAACACGCCAACCGCTCCCTCTTCTGGCAGTCATCCGAGGGCTTCT
TCTCCATTGTCTGCAACCTGATCTTATACGCCATCGCGCGACATGTTGAA
GCCCATGGCGGTATAGCAGCTTGGCGATGCATCTCCTTATTTCTGGGCTC
TCTTACCCTGGCCGGCGCAGTAGCCGCCTTCTTCCTGCTCGGTTGCCCGC
ATGAAGTGCGGTGGTTGAATGATGATGAGAAACGCATGGCTTTCTATCTC
ACATATCTCATCGGGGAATTTCCCTCTGTATATCTTCTGCAGAGGTTCAA
TGGTGGCCTTGTCCTCTCCATCTATATGACATGCTGGGTTATTTGGAATG
GAGGATGAGTTGAAATTACATGGCCAACAGTATCAATGGCTGACCACAAT
GTTCTTCTTCTATGGGATACAGCAAACAGACAAGACTTCAACGAGTATTC
AGGCAGATTACACAGAGCAACAGTACAAGAAACTGACACGGAAGATCGAC
TATTACCTCATGCCCATGATTCGCAGGAAAGACCAAGCAAACCGTTGTCT
CCGCTATGACTTTGATCGCGTATTGCGCCGGGAATATGGCAGGTGCGCAA
GTGTTCAGGACCAAAGATGCGCCCCGGTATGTGTCAGGAACGGTGGCCTG
CTCGGTATGTTTCGCTCTCGAGGCAATTGTGATTCTTCTATGGAGAGGAT
GGTATATGTGGGAGAATCGACGCAGGGAGCGCATTGTACTGAGCATGGGG
ATCTCCAAAGAGGAGCAGGAACGACGGGGTAAGGAGCTGGGAGAGCAGGA
TGTTACGGATATGAAGAATATTTATTTTCGATATACCCTATCTACGTAGT
CGTCTTCCTCATCGTTGGCCTGTACACCCGCAAGTTCCAGAACCAGCGCA
TGTGGGTAATGATCGCCAGCTGCATCATTCCCTTTATCGGCCTCCTGGTG
ATGTCGCTCCTCCCAAACACACCCGAGTACAAGTGGATTAAGTGGGGGAT
GTACATCATGACAGTTGTCTTTTCTCTCGCTATTTTTCTAGGTTGGAGCT
TGACGGCATCACGACTTTCAGCTCCCTCATGTACGAGACATTTGGCTTTA
ACGACTGGCAATCCATGCTCTACGGCTGTCCCCGGAACGAACCGCCCGCA
CACTGAAGAACCAGACAGGCCAGGATACTACAGGTAAACAGTGGTCCTGG
CCACAAGTCTATGAAGCCTTTAAAGACCCTCAATTATACTTTTCATTTGC
CAATTCTTTCCTTGCAAATATCCCCAACGGGGATATGCCTCATCTGTATC
AGCGCCGTACAAAACTGGTCTCAATTGATGGCACTCCGCGCCCTTCAAGG
GTTCTTTGAGAGCAATATATCCCCCGGCTTCCTCCTCATTACTGGTCTCT
GGTACCGGACCGAAGAACACGCCAACCGCTCCCTCTTCTGGCAGTCATCC
GAGGGCTTCTTCTCCATTGTCTGCAACCTGATCTTATACGCCATCGCGCG
ACATGTTGAAGCCCATGGCGGTATAGCAGCTTGGCGATGCATCTCCTTAT
TTCTGGGCTCTCTTACCCTGGCCGGCGCAGTAGCCGCCTTCTTCCTGCTC
GGTTGCCCGCATGAAGTGCGGTGGTTGAATGATGATGAGAAACGCATGGC
TTTCTATCTCACATATCTCATCGGGGAATTTCCCTCTGTATATCTTCTGC
AGAGGTTCAATGGTGGCCTTGTCCTCTCCATCTATATGACATGCTGGGTT
ATTTGGAATGGAGGATGAGTTGAAATTACATGGCCAACAGTATCAATGGC
TGACCACAATGTTCTTCTTCTATGGGATACAGCAAACAGACAAGACTTCA
ACGAGTATTCAGGCAGATTACACAGAGCAACAGTACAAGAAACTGACACG
GAAGATCGACTATTACCTCATGCCCATGATTCGCAGGAAAGACCAAGCAA
ACCGTTGTCTCCGCTATGACTTTGATCGCGTATTGCGCCGGGAATATGGC
AGGTGCGCAAGTGTTCAGGACCAAAGATGCGCCCCGGTATGTGTCAGGAA
CGGTGGCCTGCTCGGTATGTTTCGCTCTCGAGGCAATTGTGATTCTTCTA
TGGAGAGGATGGTATATGTGGGAGAATCGACGCAGGGAGCGCATTGTACT
GAGCATGGGGATCTCCAAAGAGGAGCAGGAACGACGGGGTAAGGAGCTGG
GAGAGCAGGATGTTACGGATATGAAGAATATTTATTTTCGATATACCCTA
TCTACGTAGTCGTCTTCCTCATCGTTGGCCTGTACACCCGCAAGTTCCAG
AACCAGCGCATGTGGGTAATGATCGCCAGCTGCATCATTCCCTTTATCGG
CCTCCTGGTGATGTCGCTCCTCCCAAACACACCCGAGTACAAGTGGATTA
AGTGGGGGATGTACATCATGACAGTTGTCTTTTCTCTCGCTATTTTTCTA
GGTTGGAGCTTGACGGCATCACGACTTTCAGCTCCCTCATGTACGAGACA
TTTGGCTTTAACGACTGGCAATCCATGCTCTACGGCTGTCCCCGGAACGA
ACCGCCCGCACACTGAAGAACCAGACAGGCCAGGATACTACAGGTAAACA
GTGGTCCTGGCCACAAGTCTATGAAGCCTTTAAAGACCCTCAATTATACT
TTTCATTTGCCAATTCTTTCCTTGCAAATATCCCCAACGGGGATATGCCT
CATCTGTATCAGCGCCGTACAAAACTGGTCTCAATTGATGGCACTCCGCG
CCCTTCAAGGGTTCTTTGAGAGCAATATATCCCCCGGCTTCCTCCTCATT
ACTGGTCTCTGGTACCGGACCGAAGAACACGCCAACCGCTCCCTCTTCTG
GCAGTCATCCGAGGGCTTCTTCTCCATTGTCTGCAACCTGATCTTATACG
CCATCGCGCGACATGTTGAAGCCCATGGCGGTATAGCAGCTTGGCGATGC
ATCTCCTTATTTCTGGGCTCTCTTACCCTGGCCGGCGCAGTAGCCGCCTT
CTTCCTGCTCGGTTGCCCGCATGAAGTGCGGTGGTTGAATGATGATGAGA
AACGCATGGCTTTCTATCTCACATATCTCATCGGGGAATTTCCCTCTGTA
TATCTTCTGCAGAGGTTCAATGGTGGCCTTGTCCTCTCCATCTATATGAC
ATGCTGGGTTATTTGGAATGGAGGATGAGTTGAAATTACATGGCCAACAG
TATCAATGGCTGACCACAATGTTCTTCTTCTATGGGATACAGCAAACAGA
CAAGACTTCAACGAGTATTCAGGCAGATTACACAGAGCAACAGTACAAGA
AACTGACACGGAAGATCGACTATTACCTCATGCCCATGAT
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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_122027ASPNIDRAFT_122027Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122027-T1ASPNIDRAFT_122027-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122027-T1.cdsASPNIDRAFT_122027-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_122027-T1.exon9ASPNIDRAFT_122027-T1.exon9Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon8ASPNIDRAFT_122027-T1.exon8Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon7ASPNIDRAFT_122027-T1.exon7Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon6ASPNIDRAFT_122027-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon5ASPNIDRAFT_122027-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon4ASPNIDRAFT_122027-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon3ASPNIDRAFT_122027-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon2ASPNIDRAFT_122027-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_122027-T1.exon1ASPNIDRAFT_122027-T1.exon1Aspergillus niger ATCC 1015exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036259
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
ACJE01000001.1supercontigACJE01000001.1:4735..6600 -
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