ASPNIDRAFT_55395-T1, ASPNIDRAFT_55395-T1 (mRNA) Aspergillus niger ATCC 1015

Overview


Name	ASPNIDRAFT_55395-T1
Unique Name	ASPNIDRAFT_55395-T1
Type	mRNA
Organism	Aspergillus niger ATCC 1015

Sequences

The following sequences are available for this feature:

mRNA from alignment at ACJE01000004.1:1595430..1598326+
coding sequence from alignment at ACJE01000004.1:1595430..1598326+

mRNA from alignment at ACJE01000004.1:1595430..1598326+

Legend: polypeptideexonCDSthree_prime_UTR

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

>ASPNIDRAFT_55395-T1 ID=ASPNIDRAFT_55395-T1|Name=ASPNIDRAFT_55395-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2897bp|location=Sequence derived from alignment at ACJE01000004.1:1595430..1598326+ (Aspergillus niger ATCC 1015)
ATGTCTCTCACGGAATCCGCCGCGGCAGCTATGCTGACCGCCGCGGTCGT
GGTAGACAGTCCCATTGACGTGCATGAGCCTAGATGGGATGACCAGACCA
GGGGTCGGGATTTGTACACACAACTAGTGATCAGTTTGCTGGTCGGGCTC
AGCGCCTTTTTTTCATTCTGTGTAAGTCTATGCTGAATGCAAGAATGAAA
CGAATCTCTCTAACAACTCGCGTCTCTATAGATTTTACGACCGAAATGGA
CCGAACTATACGCCGCTCGGCGTCGTCAACGCAACGCGGCTTCATACTTG
CCCGAACTACCCGACAGTTTCTTTGGCTGGATACCCGTACTATATCGGAT
CACTGATGAGCAGGTGTTGGAGTCTGCAGGCTTGGACGCTTTCGTTGTAA
GTTCTACATGTTGTCTTGGTCGCGGACTAGATGTCAGAATCGGCCATTTT
CTGACGTGGGGTCGTTATCCTAGTTCCTCACCTTCCTGAAATTCGCCATT
CGGTTCCTCTCCGCTATATTCTTCTTCGCCTTGGTAATCATTCTACCAAC
ACACTACAAGAATACCGGCAAATCGGGGGTTCCGGGTTGGGATGACGACG
ATGACGAGACATTCGATGGAGACAAAGACAAGAAGAAACTCATATCGGAT
CCGAATTACTTGTGGATGTATGTCATTTTTACATACATTTTCACTGGGCT
TGCTGTCTACATGCTCATCCAAGAAACCAATAAGGTTATCCGCACGAGGC
AGAAATACCTTGGAAGCCAGACCAGTACGACCGATCGGACTATTCGCTTA
TCTGGGATCCCTCCGGATTTGGGAACAGAGGAGAAGATCAAGGATTTCAT
GGAAGGTCTCAAAGTGGGCAAGGTTGAGAGTGTCACACTATGTCGTGACT
GGCGCGAATTAGACCATTTAATCGACGAACGACTGAAACTGCTGCGAAAT
CTTGAGCGGGCCTGGACTAGACATCTAGGCTACAAACGGATTAAGGCAAG
TCCGAACGCATTGACCATGATGCACCAGCAGCCGCGTGGCTCCAGTATTG
TTTCAGATGGAGATAGTGAGCGAATCCAGCTTCTTTCTGAAGGAGGGCGC
GACCACGTTACGGACTATGCACACAAGCGGCCGACAGTGCGCATTTGGTA
TGGGCCTTTCAAGTTACGCTACAAGAACATCGATGCGATCGATTACTATG
AGGAGAAGCTGCGTCGTCTCGACGAGAAAATTCAGGTTGCTCGTCAAAAG
GAATATCCTCCTACCGAGGTTGCCTTCGTAACGATGGAGTCGATCGCCGC
GTCTCAGATGGTTGTACAGGCCATCCTTGATCCTCACCCCATGCAACTAC
TCGCTAGACTGGCTCCAGCTCCAGCTGATGTCGTGTGGAAAAACACATAT
CTCCCGCGCTCGAGGCGGATGATGCAATCCTGGTTCATCACTGTGGTCAT
TGGCTTCCTGACTGTATTCTGGTCGGTGCTTTTGATTCCCGTTGCCTATC
TGCTTGAGTACGAGACTCTCCACAAGGTGTTCCCTCAATTGGCCGACGCC
CTTGCTCGGAACCCACTTGCCAAGTCCCTTGTGCAGACTGGTCTGCCGAC
CTTGGTTCTCTCGCTGTTGACTGTCGCTGTGCCTTATCTCTATAACTGTA
AGATGGTTCCCAACGTTAACTTTTTGTCTACTCACGCGCTAAATTGTCAA
CAGGGCTCTCGAACCAACAAGGCATGATGTCTCGGGGTGACATTGAGCTG
TCGGTAATTTCGAAGACCTTCTTCTTCTCTTTCTTCAACCTCTTCCTCGT
CTTTACGGTATTCGGAACCGCGACGACATTCTACGGGTTCTGGGAGAATC
TCCGAGATGCCTTCAAAGATGCAACGACCATAGCCTTTGCATTGGCCAAA
ACTCTGGAAAACTTTGCTCCTTTTTATATCAACTTCCTATGTCTTCAAGG
AATAGGATTGTTCCCGTTCCGACTCCTTGAGTTTGGAAGTGTTGCCATGT
ATCCCATCAACTTCCTGGCCGCTAAGACGCCTCGAGACTATGCTGAGCTA
TCCACACCCCCTACATTCAGCTACGGGTATTCCATTCCGCAGACGGTCCT
AAGTCTTATCATCTGTGTGGTATACAGCGTGTTCCCTAGCTCATGGTTGA
TATGCCTGTTTGGATTGATTTACTTCACAATCGGCAAGTTCATCTACAAG
TATCAGCTTCTGTACGCGATGGATCATCAGCAGCATTCGACGGGACGAGC
GTGGCCGATGATCTGCAGCCGAATCTTGATGGGCTTGATGGTTTTCCAGC
TGGCGATGATCGGCGTGCTAGCCTTACGCCGGGCTATCACCCGCTCTCTG
CTCATCGTCCCTCTCCTTATGGCAACCGTATGGTTCAGCTACTTCTTTGC
CCGGACCTATGAGCCTCTTATGAAATTCATCGCTTTGAAGAGCATTGACC
GCGAGCGGCCTGGCGGGGGGGATATCTCTCCGTCCCCGTCGTCGACCTTC
TCTCCTCCGTCCGGCCTCGACCGCGATTCTTTTCCGATCCGGATTGGTGG
ACAAGAACTCGGACTACGGCTGAGGAAGTATGTCAACCCAAGCCTGATCC
TGCCTCTTCATGATGCATGGCTTCCGGGACGCACGATGGTTCCAGAGCTT
CAGGGAGAACTGGAGCATCGCAATCCTGGAAACAATGCGGCCGATGAGTC
CGTCTGAGACTGCATCAAAGGCGCCAAAGTGGATTGCTTTCAAAACATCA
CAAGTCAATCGATCTCTATCATTGTCTATATATGTATTACTTTCTAATTA
CCCCTTGTTGTATGAGTTGCTTTTTCCCGCCATGATCTACGATGCCATGC
CTTTGATGTCATAGATGGCCATATACGCCTGATAGTCTTACACCCTC

Coding sequence (CDS) from alignment at ACJE01000004.1:1595430..1598326+

>ASPNIDRAFT_55395-T1 ID=ASPNIDRAFT_55395-T1|Name=ASPNIDRAFT_55395-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10056bp|location=Sequence derived from alignment at ACJE01000004.1:1595430..1598326+ (Aspergillus niger ATCC 1015)
ATGTCTCTCACGGAATCCGCCGCGGCAGCTATGCTGACCGCCGCGGTCGT
GGTAGACAGTCCCATTGACGTGCATGAGCCTAGATGGGATGACCAGACCA
GGGGTCGGGATTTGTACACACAACTAGTGATCAGTTTGCTGGTCGGGCTC
AGCGCCTTTTTTTCATTCTGTATTTTACGACCGAAATGGACCGAACTATA
CGCCGCTCGGCGTCGTCAACGCAACGCGGCTTCATACTTGCCCGAACTAC
CCGACAGTTTCTTTGGCTGGATACCCGTACTATATCGGATCACTGATGAG
CAGGTGTTGGAGTCTGCAGGCTTGGACGCTTTCGTTTTCCTCACCTTCCT
GAAATTCGCCATTCGGTTCCTCTCCGCTATATTCTTCTTCGCCTTGGTAA
TCATTCTACCAACACACTACAAGAATACCGGCAAATCGGGGGTTCCGGGT
TGGGATGACGACGATGACGAGACATTCGATGGAGACAAAGACAAGAAGAA
ACTCATATCGGATCCGAATTACTTGTGGATGTATGTCATTTTTACATACA
TTTTCACTGGGCTTGCTGTCTACATGCTCATCCAAGAAACCAATAAGGTT
ATCCGCACGAGGCAGAAATACCTTGGAAGCCAGACCAGTACGACCGATCG
GACTATTCGCTTATCTGGGATCCCTCCGGATTTGGGAACAGAGGAGAAGA
TCAAGGATTTCATGGAAGGTCTCAAAGTGGGCAAGGTTGAGAGTGTCACA
CTATGTCGTGACTGGCGCGAATTAGACCATTTAATCGACGAACGACTGAA
ACTGCTGCGAAATCTTGAGCGGGCCTGGACTAGACATCTAGGCTACAAAC
GGATTAAGGCAAGTCCGAACGCATTGACCATGATGCACCAGCAGCCGCGT
GGCTCCAGTATTGTTTCAGATGGAGATAGTGAGCGAATCCAGCTTCTTTC
TGAAGGAGGGCGCGACCACGTTACGGACTATGCACACAAGCGGCCGACAG
TGCGCATTTGGTATGGGCCTTTCAAGTTACGCTACAAGAACATCGATGCG
ATCGATTACTATGAGGAGAAGCTGCGTCGTCTCGACGAGAAAATTCAGGT
TGCTCGTCAAAAGGAATATCCTCCTACCGAGGTTGCCTTCGTAACGATGG
AGTCGATCGCCGCGTCTCAGATGGTTGTACAGGCCATCCTTGATCCTCAC
CCCATGCAACTACTCGCTAGACTGGCTCCAGCTCCAGCTGATGTCGTGTG
GAAAAACACATATCTCCCGCGCTCGAGGCGGATGATGCAATCCTGGTTCA
TCACTGTGGTCATTGGCTTCCTGACTGTATTCTGGTCGGTGCTTTTGATT
CCCGTTGCCTATCTGCTTGAGTACGAGACTCTCCACAAGGTGTTCCCTCA
ATTGGCCGACGCCCTTGCTCGGAACCCACTTGCCAAGTCCCTTGTGCAGA
CTGGTCTGCCGACCTTGGTTCTCTCGCTGTTGACTGTCGCTGTGCCTTAT
CTCTATAACTGGCTCTCGAACCAACAAGGCATGATGTCTCGGGGTGACAT
TGAGCTGTCGGTAATTTCGAAGACCTTCTTCTTCTCTTTCTTCAACCTCT
TCCTCGTCTTTACGGTATTCGGAACCGCGACGACATTCTACGGGTTCTGG
GAGAATCTCCGAGATGCCTTCAAAGATGCAACGACCATAGCCTTTGCATT
GGCCAAAACTCTGGAAAACTTTGCTCCTTTTTATATCAACTTCCTATGTC
TTCAAGGAATAGGATTGTTCCCGTTCCGACTCCTTGAGTTTGGAAGTGTT
GCCATGTATCCCATCAACTTCCTGGCCGCTAAGACGCCTCGAGACTATGC
TGAGCTATCCACACCCCCTACATTCAGCTACGGGTATTCCATTCCGCAGA
CGGTCCTAAGTCTTATCATCTGTGTGGTATACAGCGTGTTCCCTAGCTCA
TGGTTGATATGCCTGTTTGGATTGATTTACTTCACAATCGGCAAGTTCAT
CTACAAGTATCAGCTTCTGTACGCGATGGATCATCAGCAGCATTCGACGG
GACGAGCGTGGCCGATGATCTGCAGCCGAATCTTGATGGGCTTGATGGTT
TTCCAGCTGGCGATGATCGGCGTGCTAGCCTTACGCCGGGCTATCACCCG
CTCTCTGCTCATCGTCCCTCTCCTTATGGCAACCGTATGGTTCAGCTACT
TCTTTGCCCGGACCTATGAGCCTCTTATGAAATTCATCGCTTTGAAGAGC
ATTGACCGCGAGCGGCCTGGCGGGGGGGATATCTCTCCGTCCCCGTCGTC
GACCTTCTCTCCTCCGTCCGGCCTCGACCGCGATTCTTTTCCGATCCGGA
TTGGTGGACAAGAACTCGGACTACGGCTGAGGAAGTATGTCAACCCAAGC
CTGATCCTGCCTCTTCATGATGCATGGCTTCCGGGACGCACGATGGTTCC
AGAGCTTCAGGGAGAACTGGAGCATCGCAATCCTGGAAACAATGCGGCCG
ATGAGTCCGTCTGAATGTCTCTCACGGAATCCGCCGCGGCAGCTATGCTG
ACCGCCGCGGTCGTGGTAGACAGTCCCATTGACGTGCATGAGCCTAGATG
GGATGACCAGACCAGGGGTCGGGATTTGTACACACAACTAGTGATCAGTT
TGCTGGTCGGGCTCAGCGCCTTTTTTTCATTCTGTATTTTACGACCGAAA
TGGACCGAACTATACGCCGCTCGGCGTCGTCAACGCAACGCGGCTTCATA
CTTGCCCGAACTACCCGACAGTTTCTTTGGCTGGATACCCGTACTATATC
GGATCACTGATGAGCAGGTGTTGGAGTCTGCAGGCTTGGACGCTTTCGTT
TTCCTCACCTTCCTGAAATTCGCCATTCGGTTCCTCTCCGCTATATTCTT
CTTCGCCTTGGTAATCATTCTACCAACACACTACAAGAATACCGGCAAAT
CGGGGGTTCCGGGTTGGGATGACGACGATGACGAGACATTCGATGGAGAC
AAAGACAAGAAGAAACTCATATCGGATCCGAATTACTTGTGGATGTATGT
CATTTTTACATACATTTTCACTGGGCTTGCTGTCTACATGCTCATCCAAG
AAACCAATAAGGTTATCCGCACGAGGCAGAAATACCTTGGAAGCCAGACC
AGTACGACCGATCGGACTATTCGCTTATCTGGGATCCCTCCGGATTTGGG
AACAGAGGAGAAGATCAAGGATTTCATGGAAGGTCTCAAAGTGGGCAAGG
TTGAGAGTGTCACACTATGTCGTGACTGGCGCGAATTAGACCATTTAATC
GACGAACGACTGAAACTGCTGCGAAATCTTGAGCGGGCCTGGACTAGACA
TCTAGGCTACAAACGGATTAAGGCAAGTCCGAACGCATTGACCATGATGC
ACCAGCAGCCGCGTGGCTCCAGTATTGTTTCAGATGGAGATAGTGAGCGA
ATCCAGCTTCTTTCTGAAGGAGGGCGCGACCACGTTACGGACTATGCACA
CAAGCGGCCGACAGTGCGCATTTGGTATGGGCCTTTCAAGTTACGCTACA
AGAACATCGATGCGATCGATTACTATGAGGAGAAGCTGCGTCGTCTCGAC
GAGAAAATTCAGGTTGCTCGTCAAAAGGAATATCCTCCTACCGAGGTTGC
CTTCGTAACGATGGAGTCGATCGCCGCGTCTCAGATGGTTGTACAGGCCA
TCCTTGATCCTCACCCCATGCAACTACTCGCTAGACTGGCTCCAGCTCCA
GCTGATGTCGTGTGGAAAAACACATATCTCCCGCGCTCGAGGCGGATGAT
GCAATCCTGGTTCATCACTGTGGTCATTGGCTTCCTGACTGTATTCTGGT
CGGTGCTTTTGATTCCCGTTGCCTATCTGCTTGAGTACGAGACTCTCCAC
AAGGTGTTCCCTCAATTGGCCGACGCCCTTGCTCGGAACCCACTTGCCAA
GTCCCTTGTGCAGACTGGTCTGCCGACCTTGGTTCTCTCGCTGTTGACTG
TCGCTGTGCCTTATCTCTATAACTGGCTCTCGAACCAACAAGGCATGATG
TCTCGGGGTGACATTGAGCTGTCGGTAATTTCGAAGACCTTCTTCTTCTC
TTTCTTCAACCTCTTCCTCGTCTTTACGGTATTCGGAACCGCGACGACAT
TCTACGGGTTCTGGGAGAATCTCCGAGATGCCTTCAAAGATGCAACGACC
ATAGCCTTTGCATTGGCCAAAACTCTGGAAAACTTTGCTCCTTTTTATAT
CAACTTCCTATGTCTTCAAGGAATAGGATTGTTCCCGTTCCGACTCCTTG
AGTTTGGAAGTGTTGCCATGTATCCCATCAACTTCCTGGCCGCTAAGACG
CCTCGAGACTATGCTGAGCTATCCACACCCCCTACATTCAGCTACGGGTA
TTCCATTCCGCAGACGGTCCTAAGTCTTATCATCTGTGTGGTATACAGCG
TGTTCCCTAGCTCATGGTTGATATGCCTGTTTGGATTGATTTACTTCACA
ATCGGCAAGTTCATCTACAAGTATCAGCTTCTGTACGCGATGGATCATCA
GCAGCATTCGACGGGACGAGCGTGGCCGATGATCTGCAGCCGAATCTTGA
TGGGCTTGATGGTTTTCCAGCTGGCGATGATCGGCGTGCTAGCCTTACGC
CGGGCTATCACCCGCTCTCTGCTCATCGTCCCTCTCCTTATGGCAACCGT
ATGGTTCAGCTACTTCTTTGCCCGGACCTATGAGCCTCTTATGAAATTCA
TCGCTTTGAAGAGCATTGACCGCGAGCGGCCTGGCGGGGGGGATATCTCT
CCGTCCCCGTCGTCGACCTTCTCTCCTCCGTCCGGCCTCGACCGCGATTC
TTTTCCGATCCGGATTGGTGGACAAGAACTCGGACTACGGCTGAGGAAGT
ATGTCAACCCAAGCCTGATCCTGCCTCTTCATGATGCATGGCTTCCGGGA
CGCACGATGGTTCCAGAGCTTCAGGGAGAACTGGAGCATCGCAATCCTGG
AAACAATGCGGCCGATGAGTCCGTCTGAATGTCTCTCACGGAATCCGCCG
CGGCAGCTATGCTGACCGCCGCGGTCGTGGTAGACAGTCCCATTGACGTG
CATGAGCCTAGATGGGATGACCAGACCAGGGGTCGGGATTTGTACACACA
ACTAGTGATCAGTTTGCTGGTCGGGCTCAGCGCCTTTTTTTCATTCTGTA
TTTTACGACCGAAATGGACCGAACTATACGCCGCTCGGCGTCGTCAACGC
AACGCGGCTTCATACTTGCCCGAACTACCCGACAGTTTCTTTGGCTGGAT
ACCCGTACTATATCGGATCACTGATGAGCAGGTGTTGGAGTCTGCAGGCT
TGGACGCTTTCGTTTTCCTCACCTTCCTGAAATTCGCCATTCGGTTCCTC
TCCGCTATATTCTTCTTCGCCTTGGTAATCATTCTACCAACACACTACAA
GAATACCGGCAAATCGGGGGTTCCGGGTTGGGATGACGACGATGACGAGA
CATTCGATGGAGACAAAGACAAGAAGAAACTCATATCGGATCCGAATTAC
TTGTGGATGTATGTCATTTTTACATACATTTTCACTGGGCTTGCTGTCTA
CATGCTCATCCAAGAAACCAATAAGGTTATCCGCACGAGGCAGAAATACC
TTGGAAGCCAGACCAGTACGACCGATCGGACTATTCGCTTATCTGGGATC
CCTCCGGATTTGGGAACAGAGGAGAAGATCAAGGATTTCATGGAAGGTCT
CAAAGTGGGCAAGGTTGAGAGTGTCACACTATGTCGTGACTGGCGCGAAT
TAGACCATTTAATCGACGAACGACTGAAACTGCTGCGAAATCTTGAGCGG
GCCTGGACTAGACATCTAGGCTACAAACGGATTAAGGCAAGTCCGAACGC
ATTGACCATGATGCACCAGCAGCCGCGTGGCTCCAGTATTGTTTCAGATG
GAGATAGTGAGCGAATCCAGCTTCTTTCTGAAGGAGGGCGCGACCACGTT
ACGGACTATGCACACAAGCGGCCGACAGTGCGCATTTGGTATGGGCCTTT
CAAGTTACGCTACAAGAACATCGATGCGATCGATTACTATGAGGAGAAGC
TGCGTCGTCTCGACGAGAAAATTCAGGTTGCTCGTCAAAAGGAATATCCT
CCTACCGAGGTTGCCTTCGTAACGATGGAGTCGATCGCCGCGTCTCAGAT
GGTTGTACAGGCCATCCTTGATCCTCACCCCATGCAACTACTCGCTAGAC
TGGCTCCAGCTCCAGCTGATGTCGTGTGGAAAAACACATATCTCCCGCGC
TCGAGGCGGATGATGCAATCCTGGTTCATCACTGTGGTCATTGGCTTCCT
GACTGTATTCTGGTCGGTGCTTTTGATTCCCGTTGCCTATCTGCTTGAGT
ACGAGACTCTCCACAAGGTGTTCCCTCAATTGGCCGACGCCCTTGCTCGG
AACCCACTTGCCAAGTCCCTTGTGCAGACTGGTCTGCCGACCTTGGTTCT
CTCGCTGTTGACTGTCGCTGTGCCTTATCTCTATAACTGGCTCTCGAACC
AACAAGGCATGATGTCTCGGGGTGACATTGAGCTGTCGGTAATTTCGAAG
ACCTTCTTCTTCTCTTTCTTCAACCTCTTCCTCGTCTTTACGGTATTCGG
AACCGCGACGACATTCTACGGGTTCTGGGAGAATCTCCGAGATGCCTTCA
AAGATGCAACGACCATAGCCTTTGCATTGGCCAAAACTCTGGAAAACTTT
GCTCCTTTTTATATCAACTTCCTATGTCTTCAAGGAATAGGATTGTTCCC
GTTCCGACTCCTTGAGTTTGGAAGTGTTGCCATGTATCCCATCAACTTCC
TGGCCGCTAAGACGCCTCGAGACTATGCTGAGCTATCCACACCCCCTACA
TTCAGCTACGGGTATTCCATTCCGCAGACGGTCCTAAGTCTTATCATCTG
TGTGGTATACAGCGTGTTCCCTAGCTCATGGTTGATATGCCTGTTTGGAT
TGATTTACTTCACAATCGGCAAGTTCATCTACAAGTATCAGCTTCTGTAC
GCGATGGATCATCAGCAGCATTCGACGGGACGAGCGTGGCCGATGATCTG
CAGCCGAATCTTGATGGGCTTGATGGTTTTCCAGCTGGCGATGATCGGCG
TGCTAGCCTTACGCCGGGCTATCACCCGCTCTCTGCTCATCGTCCCTCTC
CTTATGGCAACCGTATGGTTCAGCTACTTCTTTGCCCGGACCTATGAGCC
TCTTATGAAATTCATCGCTTTGAAGAGCATTGACCGCGAGCGGCCTGGCG
GGGGGGATATCTCTCCGTCCCCGTCGTCGACCTTCTCTCCTCCGTCCGGC
CTCGACCGCGATTCTTTTCCGATCCGGATTGGTGGACAAGAACTCGGACT
ACGGCTGAGGAAGTATGTCAACCCAAGCCTGATCCTGCCTCTTCATGATG
CATGGCTTCCGGGACGCACGATGGTTCCAGAGCTTCAGGGAGAACTGGAG
CATCGCAATCCTGGAAACAATGCGGCCGATGAGTCCGTCTGAATGTCTCT
CACGGAATCCGCCGCGGCAGCTATGCTGACCGCCGCGGTCGTGGTAGACA
GTCCCATTGACGTGCATGAGCCTAGATGGGATGACCAGACCAGGGGTCGG
GATTTGTACACACAACTAGTGATCAGTTTGCTGGTCGGGCTCAGCGCCTT
TTTTTCATTCTGTATTTTACGACCGAAATGGACCGAACTATACGCCGCTC
GGCGTCGTCAACGCAACGCGGCTTCATACTTGCCCGAACTACCCGACAGT
TTCTTTGGCTGGATACCCGTACTATATCGGATCACTGATGAGCAGGTGTT
GGAGTCTGCAGGCTTGGACGCTTTCGTTTTCCTCACCTTCCTGAAATTCG
CCATTCGGTTCCTCTCCGCTATATTCTTCTTCGCCTTGGTAATCATTCTA
CCAACACACTACAAGAATACCGGCAAATCGGGGGTTCCGGGTTGGGATGA
CGACGATGACGAGACATTCGATGGAGACAAAGACAAGAAGAAACTCATAT
CGGATCCGAATTACTTGTGGATGTATGTCATTTTTACATACATTTTCACT
GGGCTTGCTGTCTACATGCTCATCCAAGAAACCAATAAGGTTATCCGCAC
GAGGCAGAAATACCTTGGAAGCCAGACCAGTACGACCGATCGGACTATTC
GCTTATCTGGGATCCCTCCGGATTTGGGAACAGAGGAGAAGATCAAGGAT
TTCATGGAAGGTCTCAAAGTGGGCAAGGTTGAGAGTGTCACACTATGTCG
TGACTGGCGCGAATTAGACCATTTAATCGACGAACGACTGAAACTGCTGC
GAAATCTTGAGCGGGCCTGGACTAGACATCTAGGCTACAAACGGATTAAG
GCAAGTCCGAACGCATTGACCATGATGCACCAGCAGCCGCGTGGCTCCAG
TATTGTTTCAGATGGAGATAGTGAGCGAATCCAGCTTCTTTCTGAAGGAG
GGCGCGACCACGTTACGGACTATGCACACAAGCGGCCGACAGTGCGCATT
TGGTATGGGCCTTTCAAGTTACGCTACAAGAACATCGATGCGATCGATTA
CTATGAGGAGAAGCTGCGTCGTCTCGACGAGAAAATTCAGGTTGCTCGTC
AAAAGGAATATCCTCCTACCGAGGTTGCCTTCGTAACGATGGAGTCGATC
GCCGCGTCTCAGATGGTTGTACAGGCCATCCTTGATCCTCACCCCATGCA
ACTACTCGCTAGACTGGCTCCAGCTCCAGCTGATGTCGTGTGGAAAAACA
CATATCTCCCGCGCTCGAGGCGGATGATGCAATCCTGGTTCATCACTGTG
GTCATTGGCTTCCTGACTGTATTCTGGTCGGTGCTTTTGATTCCCGTTGC
CTATCTGCTTGAGTACGAGACTCTCCACAAGGTGTTCCCTCAATTGGCCG
ACGCCCTTGCTCGGAACCCACTTGCCAAGTCCCTTGTGCAGACTGGTCTG
CCGACCTTGGTTCTCTCGCTGTTGACTGTCGCTGTGCCTTATCTCTATAA
CTGGCTCTCGAACCAACAAGGCATGATGTCTCGGGGTGACATTGAGCTGT
CGGTAATTTCGAAGACCTTCTTCTTCTCTTTCTTCAACCTCTTCCTCGTC
TTTACGGTATTCGGAACCGCGACGACATTCTACGGGTTCTGGGAGAATCT
CCGAGATGCCTTCAAAGATGCAACGACCATAGCCTTTGCATTGGCCAAAA
CTCTGGAAAACTTTGCTCCTTTTTATATCAACTTCCTATGTCTTCAAGGA
ATAGGATTGTTCCCGTTCCGACTCCTTGAGTTTGGAAGTGTTGCCATGTA
TCCCATCAACTTCCTGGCCGCTAAGACGCCTCGAGACTATGCTGAGCTAT
CCACACCCCCTACATTCAGCTACGGGTATTCCATTCCGCAGACGGTCCTA
AGTCTTATCATCTGTGTGGTATACAGCGTGTTCCCTAGCTCATGGTTGAT
ATGCCTGTTTGGATTGATTTACTTCACAATCGGCAAGTTCATCTACAAGT
ATCAGCTTCTGTACGCGATGGATCATCAGCAGCATTCGACGGGACGAGCG
TGGCCGATGATCTGCAGCCGAATCTTGATGGGCTTGATGGTTTTCCAGCT
GGCGATGATCGGCGTGCTAGCCTTACGCCGGGCTATCACCCGCTCTCTGC
TCATCGTCCCTCTCCTTATGGCAACCGTATGGTTCAGCTACTTCTTTGCC
CGGACCTATGAGCCTCTTATGAAATTCATCGCTTTGAAGAGCATTGACCG
CGAGCGGCCTGGCGGGGGGGATATCTCTCCGTCCCCGTCGTCGACCTTCT
CTCCTCCGTCCGGCCTCGACCGCGATTCTTTTCCGATCCGGATTGGTGGA
CAAGAACTCGGACTACGGCTGAGGAAGTATGTCAACCCAAGCCTGATCCT
GCCTCTTCATGATGCATGGCTTCCGGGACGCACGATGGTTCCAGAGCTTC
AGGGAGAACTGGAGCATCGCAATCCTGGAAACAATGCGGCCGATGAGTCC
GTCTGA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Cellular Component**
Term	Definition
GO:0016020	membrane

Relationships

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_55395	ASPNIDRAFT_55395	Aspergillus niger ATCC 1015	gene

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_55395-T1	ASPNIDRAFT_55395-T1-protein	Aspergillus niger ATCC 1015	polypeptide

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_55395-T1.exon1	ASPNIDRAFT_55395-T1.exon1	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_55395-T1.exon2	ASPNIDRAFT_55395-T1.exon2	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_55395-T1.exon3	ASPNIDRAFT_55395-T1.exon3	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_55395-T1.exon4	ASPNIDRAFT_55395-T1.exon4	Aspergillus niger ATCC 1015	exon

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_55395-T1.cds	ASPNIDRAFT_55395-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_55395-T1.utr3p1	ASPNIDRAFT_55395-T1.utr3p1	Aspergillus niger ATCC 1015	three_prime_UTR

Properties


Property Name	Value
DBxref	InterPro:IPR032880
DBxref	InterPro:IPR003864
DBxref	InterPro:IPR027815
DBxref	PFAM:PF13967
DBxref	PFAM:PF02714
DBxref	PFAM:PF14703
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
ACJE01000004.1	supercontig	ACJE01000004.1:1595430..1598326 +

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ASPNIDRAFT_55395-T1, ASPNIDRAFT_55395-T1 (mRNA) Aspergillus niger ATCC 1015

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ASPNIDRAFT_55395-T1, ASPNIDRAFT_55395-T1 (mRNA) Aspergillus niger ATCC 1015