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ASPNIDRAFT_36637-T1, ASPNIDRAFT_36637-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_36637-T1
Unique NameASPNIDRAFT_36637-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000010.1:220276..222249+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_36637-T1 ID=ASPNIDRAFT_36637-T1|Name=ASPNIDRAFT_36637-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1974bp|location=Sequence derived from alignment at ACJE01000010.1:220276..222249+ (Aspergillus niger ATCC 1015)
ATGCTGCTTGAACAGCTTCCAGAAAGAACCGCCGCCTATCTCTCCTTGAC
CATCAACGACCGAATCGTATTCGCGTCATGTCTGGCACAAGACCAAAACG
AAAGGATATTGTGGGGTCAAGAAGCCTACGATAGCCAGCAAGGACCCGTA
TATAAATGGCTCAAGCTATTTCTATACGATCCGGATCACCCAATTCTACA
AGAGCCGGATGCACCGAAGTTGCCCGAGGGTTCCTTGCCCGAGAAGCTTG
TCACACTGTATCTTCGTCAGGTCTACGACGCAATCACTGAGATGATCCGC
ATACATCATTCCGATTGCGATCAAGGGACTGACTATTGGTTTGGTTGGCC
AGCCACGTGGTCCGACGAGAGCCAACAGAAGATGATGAGAGCGGTGCAAG
AAGCAGGATATGGGAATGACTCGGATCGCGTTTTTTTCCTGACGGAGGCC
GAGGCGGTCGCGTTGTTTTTCACGCAGCATGAGAAACTTGGCAAGGTTAG
TGCGAGACCCCGGCAAGCTCCCTTTCCTAGCCCCCAAGTAGCCTTTCAGT
TGATTGACAGTCTGTTAAGTTGGGCGATGGCCGTATTTTGATATGTGATA
TAGGAGGGGGTACAACAGTAAGTCCCCGAGCTTTCCGAGTGCCCCCAAAT
ACTTCAATGCGTTACTGATCTGTTATCTAAAAGGACGTCGTTGCGCTGCA
AATACAGAATAGCGGCACAAATCCTACCTATGAACTGTTGAGCAAATCCT
CCGGTATGATTCATAAAACATGTTTGGCAATCTCTACGCAGATGCTAACA
TTCTACAGGCAACGACTGTGGGGTGGCGGCCATGGATGCTGCACTCCGTG
GGCACGTCAGGGGTCTCCACGGAGTACCTTCCCAACAGCTTTTGGACAAG
ATAGGCAATTTGAAAAGGAGATTCACTGGCAAGGAGGATCGTCCGATATT
TCTTCCTGGATCAGGCCAACGCACTGCTCTCCCAGGAGATATCAAGAAAT
GCTTAAATCCAACTATCGAAAAGATTCTCGCTTTAATCCTGGAAAACATT
AATGCGTCACGCCAAATGCAACTGCCAATCTCGGTAAGCTCTACCCTGTT
CACCACAATTCATCCAAGCTGACAGATTCTCCAACTAGCATGTCCTCCTT
GCTGGAGGTGGCGGGATGATGCCGTATCTCAGGAGTCAGATAGATAACAA
ATTACAGGGGACAGCCGAGGTACTATATCTTCAAGAATACGCGTACGGCA
ATCTTATCCCCTGTAGGAAACGGTATGGGGCTGACACTTCTATAGGCCAA
TATCTGTCGCATGGGGAGCGACTCTCCGAGGCGCCCTGGGTAGGGCTATT
CCCCGCCTAAAGTTTGACAGGAGCTACGGCCTGGAAGTTACCTCTGAGGC
CATTGTCCACGAGGAAGGGCTTGACATGTGGGTTCGGAGGAAGAAGTCCA
CACCTCATTGGTTTGTGCGAAAGGTGCGTATTGGCGTGGCTCCAGCTCCC
TCAACTCAGTCTAGACTAACACGTCCACAAACCCTCTGCAGAACCAGGAA
TACGCGATAGATCAGCAAGAGAGGCGTATTTTCAATATCTTTCACCGTGC
TGGCGATCCGGCGACGACAATAATCAACATTGTCGAGCATCCCGGAACGT
GCCCTTCTCCCGATGACGGAAGTAAGTTCTCTGGATTTCTCCTTGGCAGG
TGTCCGAAGACTGCATCTTCTGGCGCGCATCTAGCTCACATTGCAAATAA
AAATAGTAAATTTGGTGCCCAAAGGAGTCTTCCAGTTTTGCCTTCGGTTG
CAAGATCGCGATAGCATATTGCGCACAGGTGATGAGTGCAGCATTAAGGT
GCAGATCGCTTGGACCCTGACATACTCGGAACAGCAGGCAGGAGTGGATC
TCGTTGCCAGTGTGAAGGATGCCGAACTTGGACGAGAGGTTAAGGTTCTG
GACGGACATGAAGTGGTACATTGA
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Coding sequence (CDS) from alignment at ACJE01000010.1:220276..222249+

>ASPNIDRAFT_36637-T1 ID=ASPNIDRAFT_36637-T1|Name=ASPNIDRAFT_36637-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11712bp|location=Sequence derived from alignment at ACJE01000010.1:220276..222249+ (Aspergillus niger ATCC 1015)
ATGCTGCTTGAACAGCTTCCAGAAAGAACCGCCGCCTATCTCTCCTTGAC
CATCAACGACCGAATCGTATTCGCGTCATGTCTGGCACAAGACCAAAACG
AAAGGATATTGTGGGGTCAAGAAGCCTACGATAGCCAGCAAGGACCCGTA
TATAAATGGCTCAAGCTATTTCTATACGATCCGGATCACCCAATTCTACA
AGAGCCGGATGCACCGAAGTTGCCCGAGGGTTCCTTGCCCGAGAAGCTTG
TCACACTGTATCTTCGTCAGGTCTACGACGCAATCACTGAGATGATCCGC
ATACATCATTCCGATTGCGATCAAGGGACTGACTATTGGTTTGGTTGGCC
AGCCACGTGGTCCGACGAGAGCCAACAGAAGATGATGAGAGCGGTGCAAG
AAGCAGGATATGGGAATGACTCGGATCGCGTTTTTTTCCTGACGGAGGCC
GAGGCGGTCGCGTTGTTTTTCACGCAGCATGAGAAACTTGGCAAGTCTGT
TAAGTTGGGCGATGGCCGTATTTTGATATGTGATATAGGAGGGGGTACAA
CAAATAGCGGCACAAATCCTACCTATGAACTGTTGAGCAAATCCTCCGGC
AACGACTGTGGGGTGGCGGCCATGGATGCTGCACTCCGTGGGCACGTCAG
GGGTCTCCACGGAGTACCTTCCCAACAGCTTTTGGACAAGATAGGCAATT
TGAAAAGGAGATTCACTGGCAAGGAGGATCGTCCGATATTTCTTCCTGGA
TCAGGCCAACGCACTGCTCTCCCAGGAGATATCAAGAAATGCTTAAATCC
AACTATCGAAAAGATTCTCGCTTTAATCCTGGAAAACATTAATGCGTCAC
GCCAAATGCAACTGCCAATCTCGGGGACAGCCGAGGTACTATATCTTCAA
GAATACGCGTACGGCAATCTTATCCCCTGTAGGAAACGGCCAATATCTGT
CGCATGGGGAGCGACTCTCCGAGGCGCCCTGGGTAGGGCTATTCCCCGCC
TAAAGTTTGACAGGAGCTACGGCCTGGAAGTTACCTCTGAGGCCATTGTC
CACGAGGAAGGGCTTGACATGTGGGTTCGGAGGAAGAAGTCCACACCTCA
TTGGTTTGTGCGAAAGAACCAGGAATACGCGATAGATCAGCAAGAGAGGC
GTATTTTCAATATCTTTCACCGTGCTGGCGATCCGGCGACGACAATAATC
AACATTGTCGAGCATCCCGGAACGTGCCCTTCTCCCGATGACGGAATAAA
TTTGGTGCCCAAAGGAGTCTTCCAGTTTTGCCTTCGGTTGCAAGATCGCG
ATAGCATATTGCGCACAGGTGATGAGTGCAGCATTAAGGTGCAGATCGCT
TGGACCCTGACATACTCGGAACAGCAGGCAGGAGTGGATCTCGTTGCCAG
TGTGAAGGATGCCGAACTTGGACGAGAGGTTAAGGTTCTGGACGGACATG
AAGTGGTACATTGAATGCTGCTTGAACAGCTTCCAGAAAGAACCGCCGCC
TATCTCTCCTTGACCATCAACGACCGAATCGTATTCGCGTCATGTCTGGC
ACAAGACCAAAACGAAAGGATATTGTGGGGTCAAGAAGCCTACGATAGCC
AGCAAGGACCCGTATATAAATGGCTCAAGCTATTTCTATACGATCCGGAT
CACCCAATTCTACAAGAGCCGGATGCACCGAAGTTGCCCGAGGGTTCCTT
GCCCGAGAAGCTTGTCACACTGTATCTTCGTCAGGTCTACGACGCAATCA
CTGAGATGATCCGCATACATCATTCCGATTGCGATCAAGGGACTGACTAT
TGGTTTGGTTGGCCAGCCACGTGGTCCGACGAGAGCCAACAGAAGATGAT
GAGAGCGGTGCAAGAAGCAGGATATGGGAATGACTCGGATCGCGTTTTTT
TCCTGACGGAGGCCGAGGCGGTCGCGTTGTTTTTCACGCAGCATGAGAAA
CTTGGCAAGTCTGTTAAGTTGGGCGATGGCCGTATTTTGATATGTGATAT
AGGAGGGGGTACAACAAATAGCGGCACAAATCCTACCTATGAACTGTTGA
GCAAATCCTCCGGCAACGACTGTGGGGTGGCGGCCATGGATGCTGCACTC
CGTGGGCACGTCAGGGGTCTCCACGGAGTACCTTCCCAACAGCTTTTGGA
CAAGATAGGCAATTTGAAAAGGAGATTCACTGGCAAGGAGGATCGTCCGA
TATTTCTTCCTGGATCAGGCCAACGCACTGCTCTCCCAGGAGATATCAAG
AAATGCTTAAATCCAACTATCGAAAAGATTCTCGCTTTAATCCTGGAAAA
CATTAATGCGTCACGCCAAATGCAACTGCCAATCTCGGGGACAGCCGAGG
TACTATATCTTCAAGAATACGCGTACGGCAATCTTATCCCCTGTAGGAAA
CGGCCAATATCTGTCGCATGGGGAGCGACTCTCCGAGGCGCCCTGGGTAG
GGCTATTCCCCGCCTAAAGTTTGACAGGAGCTACGGCCTGGAAGTTACCT
CTGAGGCCATTGTCCACGAGGAAGGGCTTGACATGTGGGTTCGGAGGAAG
AAGTCCACACCTCATTGGTTTGTGCGAAAGAACCAGGAATACGCGATAGA
TCAGCAAGAGAGGCGTATTTTCAATATCTTTCACCGTGCTGGCGATCCGG
CGACGACAATAATCAACATTGTCGAGCATCCCGGAACGTGCCCTTCTCCC
GATGACGGAATAAATTTGGTGCCCAAAGGAGTCTTCCAGTTTTGCCTTCG
GTTGCAAGATCGCGATAGCATATTGCGCACAGGTGATGAGTGCAGCATTA
AGGTGCAGATCGCTTGGACCCTGACATACTCGGAACAGCAGGCAGGAGTG
GATCTCGTTGCCAGTGTGAAGGATGCCGAACTTGGACGAGAGGTTAAGGT
TCTGGACGGACATGAAGTGGTACATTGAATGCTGCTTGAACAGCTTCCAG
AAAGAACCGCCGCCTATCTCTCCTTGACCATCAACGACCGAATCGTATTC
GCGTCATGTCTGGCACAAGACCAAAACGAAAGGATATTGTGGGGTCAAGA
AGCCTACGATAGCCAGCAAGGACCCGTATATAAATGGCTCAAGCTATTTC
TATACGATCCGGATCACCCAATTCTACAAGAGCCGGATGCACCGAAGTTG
CCCGAGGGTTCCTTGCCCGAGAAGCTTGTCACACTGTATCTTCGTCAGGT
CTACGACGCAATCACTGAGATGATCCGCATACATCATTCCGATTGCGATC
AAGGGACTGACTATTGGTTTGGTTGGCCAGCCACGTGGTCCGACGAGAGC
CAACAGAAGATGATGAGAGCGGTGCAAGAAGCAGGATATGGGAATGACTC
GGATCGCGTTTTTTTCCTGACGGAGGCCGAGGCGGTCGCGTTGTTTTTCA
CGCAGCATGAGAAACTTGGCAAGTCTGTTAAGTTGGGCGATGGCCGTATT
TTGATATGTGATATAGGAGGGGGTACAACAAATAGCGGCACAAATCCTAC
CTATGAACTGTTGAGCAAATCCTCCGGCAACGACTGTGGGGTGGCGGCCA
TGGATGCTGCACTCCGTGGGCACGTCAGGGGTCTCCACGGAGTACCTTCC
CAACAGCTTTTGGACAAGATAGGCAATTTGAAAAGGAGATTCACTGGCAA
GGAGGATCGTCCGATATTTCTTCCTGGATCAGGCCAACGCACTGCTCTCC
CAGGAGATATCAAGAAATGCTTAAATCCAACTATCGAAAAGATTCTCGCT
TTAATCCTGGAAAACATTAATGCGTCACGCCAAATGCAACTGCCAATCTC
GGGGACAGCCGAGGTACTATATCTTCAAGAATACGCGTACGGCAATCTTA
TCCCCTGTAGGAAACGGCCAATATCTGTCGCATGGGGAGCGACTCTCCGA
GGCGCCCTGGGTAGGGCTATTCCCCGCCTAAAGTTTGACAGGAGCTACGG
CCTGGAAGTTACCTCTGAGGCCATTGTCCACGAGGAAGGGCTTGACATGT
GGGTTCGGAGGAAGAAGTCCACACCTCATTGGTTTGTGCGAAAGAACCAG
GAATACGCGATAGATCAGCAAGAGAGGCGTATTTTCAATATCTTTCACCG
TGCTGGCGATCCGGCGACGACAATAATCAACATTGTCGAGCATCCCGGAA
CGTGCCCTTCTCCCGATGACGGAATAAATTTGGTGCCCAAAGGAGTCTTC
CAGTTTTGCCTTCGGTTGCAAGATCGCGATAGCATATTGCGCACAGGTGA
TGAGTGCAGCATTAAGGTGCAGATCGCTTGGACCCTGACATACTCGGAAC
AGCAGGCAGGAGTGGATCTCGTTGCCAGTGTGAAGGATGCCGAACTTGGA
CGAGAGGTTAAGGTTCTGGACGGACATGAAGTGGTACATTGAATGCTGCT
TGAACAGCTTCCAGAAAGAACCGCCGCCTATCTCTCCTTGACCATCAACG
ACCGAATCGTATTCGCGTCATGTCTGGCACAAGACCAAAACGAAAGGATA
TTGTGGGGTCAAGAAGCCTACGATAGCCAGCAAGGACCCGTATATAAATG
GCTCAAGCTATTTCTATACGATCCGGATCACCCAATTCTACAAGAGCCGG
ATGCACCGAAGTTGCCCGAGGGTTCCTTGCCCGAGAAGCTTGTCACACTG
TATCTTCGTCAGGTCTACGACGCAATCACTGAGATGATCCGCATACATCA
TTCCGATTGCGATCAAGGGACTGACTATTGGTTTGGTTGGCCAGCCACGT
GGTCCGACGAGAGCCAACAGAAGATGATGAGAGCGGTGCAAGAAGCAGGA
TATGGGAATGACTCGGATCGCGTTTTTTTCCTGACGGAGGCCGAGGCGGT
CGCGTTGTTTTTCACGCAGCATGAGAAACTTGGCAAGTCTGTTAAGTTGG
GCGATGGCCGTATTTTGATATGTGATATAGGAGGGGGTACAACAAATAGC
GGCACAAATCCTACCTATGAACTGTTGAGCAAATCCTCCGGCAACGACTG
TGGGGTGGCGGCCATGGATGCTGCACTCCGTGGGCACGTCAGGGGTCTCC
ACGGAGTACCTTCCCAACAGCTTTTGGACAAGATAGGCAATTTGAAAAGG
AGATTCACTGGCAAGGAGGATCGTCCGATATTTCTTCCTGGATCAGGCCA
ACGCACTGCTCTCCCAGGAGATATCAAGAAATGCTTAAATCCAACTATCG
AAAAGATTCTCGCTTTAATCCTGGAAAACATTAATGCGTCACGCCAAATG
CAACTGCCAATCTCGGGGACAGCCGAGGTACTATATCTTCAAGAATACGC
GTACGGCAATCTTATCCCCTGTAGGAAACGGCCAATATCTGTCGCATGGG
GAGCGACTCTCCGAGGCGCCCTGGGTAGGGCTATTCCCCGCCTAAAGTTT
GACAGGAGCTACGGCCTGGAAGTTACCTCTGAGGCCATTGTCCACGAGGA
AGGGCTTGACATGTGGGTTCGGAGGAAGAAGTCCACACCTCATTGGTTTG
TGCGAAAGAACCAGGAATACGCGATAGATCAGCAAGAGAGGCGTATTTTC
AATATCTTTCACCGTGCTGGCGATCCGGCGACGACAATAATCAACATTGT
CGAGCATCCCGGAACGTGCCCTTCTCCCGATGACGGAATAAATTTGGTGC
CCAAAGGAGTCTTCCAGTTTTGCCTTCGGTTGCAAGATCGCGATAGCATA
TTGCGCACAGGTGATGAGTGCAGCATTAAGGTGCAGATCGCTTGGACCCT
GACATACTCGGAACAGCAGGCAGGAGTGGATCTCGTTGCCAGTGTGAAGG
ATGCCGAACTTGGACGAGAGGTTAAGGTTCTGGACGGACATGAAGTGGTA
CATTGAATGCTGCTTGAACAGCTTCCAGAAAGAACCGCCGCCTATCTCTC
CTTGACCATCAACGACCGAATCGTATTCGCGTCATGTCTGGCACAAGACC
AAAACGAAAGGATATTGTGGGGTCAAGAAGCCTACGATAGCCAGCAAGGA
CCCGTATATAAATGGCTCAAGCTATTTCTATACGATCCGGATCACCCAAT
TCTACAAGAGCCGGATGCACCGAAGTTGCCCGAGGGTTCCTTGCCCGAGA
AGCTTGTCACACTGTATCTTCGTCAGGTCTACGACGCAATCACTGAGATG
ATCCGCATACATCATTCCGATTGCGATCAAGGGACTGACTATTGGTTTGG
TTGGCCAGCCACGTGGTCCGACGAGAGCCAACAGAAGATGATGAGAGCGG
TGCAAGAAGCAGGATATGGGAATGACTCGGATCGCGTTTTTTTCCTGACG
GAGGCCGAGGCGGTCGCGTTGTTTTTCACGCAGCATGAGAAACTTGGCAA
GTCTGTTAAGTTGGGCGATGGCCGTATTTTGATATGTGATATAGGAGGGG
GTACAACAAATAGCGGCACAAATCCTACCTATGAACTGTTGAGCAAATCC
TCCGGCAACGACTGTGGGGTGGCGGCCATGGATGCTGCACTCCGTGGGCA
CGTCAGGGGTCTCCACGGAGTACCTTCCCAACAGCTTTTGGACAAGATAG
GCAATTTGAAAAGGAGATTCACTGGCAAGGAGGATCGTCCGATATTTCTT
CCTGGATCAGGCCAACGCACTGCTCTCCCAGGAGATATCAAGAAATGCTT
AAATCCAACTATCGAAAAGATTCTCGCTTTAATCCTGGAAAACATTAATG
CGTCACGCCAAATGCAACTGCCAATCTCGGGGACAGCCGAGGTACTATAT
CTTCAAGAATACGCGTACGGCAATCTTATCCCCTGTAGGAAACGGCCAAT
ATCTGTCGCATGGGGAGCGACTCTCCGAGGCGCCCTGGGTAGGGCTATTC
CCCGCCTAAAGTTTGACAGGAGCTACGGCCTGGAAGTTACCTCTGAGGCC
ATTGTCCACGAGGAAGGGCTTGACATGTGGGTTCGGAGGAAGAAGTCCAC
ACCTCATTGGTTTGTGCGAAAGAACCAGGAATACGCGATAGATCAGCAAG
AGAGGCGTATTTTCAATATCTTTCACCGTGCTGGCGATCCGGCGACGACA
ATAATCAACATTGTCGAGCATCCCGGAACGTGCCCTTCTCCCGATGACGG
AATAAATTTGGTGCCCAAAGGAGTCTTCCAGTTTTGCCTTCGGTTGCAAG
ATCGCGATAGCATATTGCGCACAGGTGATGAGTGCAGCATTAAGGTGCAG
ATCGCTTGGACCCTGACATACTCGGAACAGCAGGCAGGAGTGGATCTCGT
TGCCAGTGTGAAGGATGCCGAACTTGGACGAGAGGTTAAGGTTCTGGACG
GACATGAAGTGGTACATTGAATGCTGCTTGAACAGCTTCCAGAAAGAACC
GCCGCCTATCTCTCCTTGACCATCAACGACCGAATCGTATTCGCGTCATG
TCTGGCACAAGACCAAAACGAAAGGATATTGTGGGGTCAAGAAGCCTACG
ATAGCCAGCAAGGACCCGTATATAAATGGCTCAAGCTATTTCTATACGAT
CCGGATCACCCAATTCTACAAGAGCCGGATGCACCGAAGTTGCCCGAGGG
TTCCTTGCCCGAGAAGCTTGTCACACTGTATCTTCGTCAGGTCTACGACG
CAATCACTGAGATGATCCGCATACATCATTCCGATTGCGATCAAGGGACT
GACTATTGGTTTGGTTGGCCAGCCACGTGGTCCGACGAGAGCCAACAGAA
GATGATGAGAGCGGTGCAAGAAGCAGGATATGGGAATGACTCGGATCGCG
TTTTTTTCCTGACGGAGGCCGAGGCGGTCGCGTTGTTTTTCACGCAGCAT
GAGAAACTTGGCAAGTCTGTTAAGTTGGGCGATGGCCGTATTTTGATATG
TGATATAGGAGGGGGTACAACAAATAGCGGCACAAATCCTACCTATGAAC
TGTTGAGCAAATCCTCCGGCAACGACTGTGGGGTGGCGGCCATGGATGCT
GCACTCCGTGGGCACGTCAGGGGTCTCCACGGAGTACCTTCCCAACAGCT
TTTGGACAAGATAGGCAATTTGAAAAGGAGATTCACTGGCAAGGAGGATC
GTCCGATATTTCTTCCTGGATCAGGCCAACGCACTGCTCTCCCAGGAGAT
ATCAAGAAATGCTTAAATCCAACTATCGAAAAGATTCTCGCTTTAATCCT
GGAAAACATTAATGCGTCACGCCAAATGCAACTGCCAATCTCGGGGACAG
CCGAGGTACTATATCTTCAAGAATACGCGTACGGCAATCTTATCCCCTGT
AGGAAACGGCCAATATCTGTCGCATGGGGAGCGACTCTCCGAGGCGCCCT
GGGTAGGGCTATTCCCCGCCTAAAGTTTGACAGGAGCTACGGCCTGGAAG
TTACCTCTGAGGCCATTGTCCACGAGGAAGGGCTTGACATGTGGGTTCGG
AGGAAGAAGTCCACACCTCATTGGTTTGTGCGAAAGAACCAGGAATACGC
GATAGATCAGCAAGAGAGGCGTATTTTCAATATCTTTCACCGTGCTGGCG
ATCCGGCGACGACAATAATCAACATTGTCGAGCATCCCGGAACGTGCCCT
TCTCCCGATGACGGAATAAATTTGGTGCCCAAAGGAGTCTTCCAGTTTTG
CCTTCGGTTGCAAGATCGCGATAGCATATTGCGCACAGGTGATGAGTGCA
GCATTAAGGTGCAGATCGCTTGGACCCTGACATACTCGGAACAGCAGGCA
GGAGTGGATCTCGTTGCCAGTGTGAAGGATGCCGAACTTGGACGAGAGGT
TAAGGTTCTGGACGGACATGAAGTGGTACATTGAATGCTGCTTGAACAGC
TTCCAGAAAGAACCGCCGCCTATCTCTCCTTGACCATCAACGACCGAATC
GTATTCGCGTCATGTCTGGCACAAGACCAAAACGAAAGGATATTGTGGGG
TCAAGAAGCCTACGATAGCCAGCAAGGACCCGTATATAAATGGCTCAAGC
TATTTCTATACGATCCGGATCACCCAATTCTACAAGAGCCGGATGCACCG
AAGTTGCCCGAGGGTTCCTTGCCCGAGAAGCTTGTCACACTGTATCTTCG
TCAGGTCTACGACGCAATCACTGAGATGATCCGCATACATCATTCCGATT
GCGATCAAGGGACTGACTATTGGTTTGGTTGGCCAGCCACGTGGTCCGAC
GAGAGCCAACAGAAGATGATGAGAGCGGTGCAAGAAGCAGGATATGGGAA
TGACTCGGATCGCGTTTTTTTCCTGACGGAGGCCGAGGCGGTCGCGTTGT
TTTTCACGCAGCATGAGAAACTTGGCAAGTCTGTTAAGTTGGGCGATGGC
CGTATTTTGATATGTGATATAGGAGGGGGTACAACAAATAGCGGCACAAA
TCCTACCTATGAACTGTTGAGCAAATCCTCCGGCAACGACTGTGGGGTGG
CGGCCATGGATGCTGCACTCCGTGGGCACGTCAGGGGTCTCCACGGAGTA
CCTTCCCAACAGCTTTTGGACAAGATAGGCAATTTGAAAAGGAGATTCAC
TGGCAAGGAGGATCGTCCGATATTTCTTCCTGGATCAGGCCAACGCACTG
CTCTCCCAGGAGATATCAAGAAATGCTTAAATCCAACTATCGAAAAGATT
CTCGCTTTAATCCTGGAAAACATTAATGCGTCACGCCAAATGCAACTGCC
AATCTCGGGGACAGCCGAGGTACTATATCTTCAAGAATACGCGTACGGCA
ATCTTATCCCCTGTAGGAAACGGCCAATATCTGTCGCATGGGGAGCGACT
CTCCGAGGCGCCCTGGGTAGGGCTATTCCCCGCCTAAAGTTTGACAGGAG
CTACGGCCTGGAAGTTACCTCTGAGGCCATTGTCCACGAGGAAGGGCTTG
ACATGTGGGTTCGGAGGAAGAAGTCCACACCTCATTGGTTTGTGCGAAAG
AACCAGGAATACGCGATAGATCAGCAAGAGAGGCGTATTTTCAATATCTT
TCACCGTGCTGGCGATCCGGCGACGACAATAATCAACATTGTCGAGCATC
CCGGAACGTGCCCTTCTCCCGATGACGGAATAAATTTGGTGCCCAAAGGA
GTCTTCCAGTTTTGCCTTCGGTTGCAAGATCGCGATAGCATATTGCGCAC
AGGTGATGAGTGCAGCATTAAGGTGCAGATCGCTTGGACCCTGACATACT
CGGAACAGCAGGCAGGAGTGGATCTCGTTGCCAGTGTGAAGGATGCCGAA
CTTGGACGAGAGGTTAAGGTTCTGGACGGACATGAAGTGGTACATTGAAT
GCTGCTTGAACAGCTTCCAGAAAGAACCGCCGCCTATCTCTCCTTGACCA
TCAACGACCGAATCGTATTCGCGTCATGTCTGGCACAAGACCAAAACGAA
AGGATATTGTGGGGTCAAGAAGCCTACGATAGCCAGCAAGGACCCGTATA
TAAATGGCTCAAGCTATTTCTATACGATCCGGATCACCCAATTCTACAAG
AGCCGGATGCACCGAAGTTGCCCGAGGGTTCCTTGCCCGAGAAGCTTGTC
ACACTGTATCTTCGTCAGGTCTACGACGCAATCACTGAGATGATCCGCAT
ACATCATTCCGATTGCGATCAAGGGACTGACTATTGGTTTGGTTGGCCAG
CCACGTGGTCCGACGAGAGCCAACAGAAGATGATGAGAGCGGTGCAAGAA
GCAGGATATGGGAATGACTCGGATCGCGTTTTTTTCCTGACGGAGGCCGA
GGCGGTCGCGTTGTTTTTCACGCAGCATGAGAAACTTGGCAAGTCTGTTA
AGTTGGGCGATGGCCGTATTTTGATATGTGATATAGGAGGGGGTACAACA
AATAGCGGCACAAATCCTACCTATGAACTGTTGAGCAAATCCTCCGGCAA
CGACTGTGGGGTGGCGGCCATGGATGCTGCACTCCGTGGGCACGTCAGGG
GTCTCCACGGAGTACCTTCCCAACAGCTTTTGGACAAGATAGGCAATTTG
AAAAGGAGATTCACTGGCAAGGAGGATCGTCCGATATTTCTTCCTGGATC
AGGCCAACGCACTGCTCTCCCAGGAGATATCAAGAAATGCTTAAATCCAA
CTATCGAAAAGATTCTCGCTTTAATCCTGGAAAACATTAATGCGTCACGC
CAAATGCAACTGCCAATCTCGGGGACAGCCGAGGTACTATATCTTCAAGA
ATACGCGTACGGCAATCTTATCCCCTGTAGGAAACGGCCAATATCTGTCG
CATGGGGAGCGACTCTCCGAGGCGCCCTGGGTAGGGCTATTCCCCGCCTA
AAGTTTGACAGGAGCTACGGCCTGGAAGTTACCTCTGAGGCCATTGTCCA
CGAGGAAGGGCTTGACATGTGGGTTCGGAGGAAGAAGTCCACACCTCATT
GGTTTGTGCGAAAGAACCAGGAATACGCGATAGATCAGCAAGAGAGGCGT
ATTTTCAATATCTTTCACCGTGCTGGCGATCCGGCGACGACAATAATCAA
CATTGTCGAGCATCCCGGAACGTGCCCTTCTCCCGATGACGGAATAAATT
TGGTGCCCAAAGGAGTCTTCCAGTTTTGCCTTCGGTTGCAAGATCGCGAT
AGCATATTGCGCACAGGTGATGAGTGCAGCATTAAGGTGCAGATCGCTTG
GACCCTGACATACTCGGAACAGCAGGCAGGAGTGGATCTCGTTGCCAGTG
TGAAGGATGCCGAACTTGGACGAGAGGTTAAGGTTCTGGACGGACATGAA
GTGGTACATTGA
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Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_36637ASPNIDRAFT_36637Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_36637-T1ASPNIDRAFT_36637-T1-proteinAspergillus niger ATCC 1015polypeptide


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_36637-T1.exon1ASPNIDRAFT_36637-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon2ASPNIDRAFT_36637-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon3ASPNIDRAFT_36637-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon4ASPNIDRAFT_36637-T1.exon4Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon5ASPNIDRAFT_36637-T1.exon5Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon6ASPNIDRAFT_36637-T1.exon6Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon7ASPNIDRAFT_36637-T1.exon7Aspergillus niger ATCC 1015exon
ASPNIDRAFT_36637-T1.exon8ASPNIDRAFT_36637-T1.exon8Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_36637-T1.cdsASPNIDRAFT_36637-T1.cdsAspergillus niger ATCC 1015CDS


Properties
Property NameValue
NoteEggNog:ENOG41
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
ACJE01000010.1supercontigACJE01000010.1:220276..222249 +
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