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CAN33_23780-T1, CAN33_23780-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_23780-T1
Unique NameCAN33_23780-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000002.1:1305544..1307550-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_23780-T1 ID=CAN33_23780-T1|Name=CAN33_23780-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2007bp|location=Sequence derived from alignment at NKJJ01000002.1:1305544..1307550- (Aspergillus niger FDAARGOS_311)
ATGCAATCATCTACAGTTGACCTTCTGTCTTCAGACCTATTCAAGCATCA
CTACGAGGATGGCCCTAGGGAGGCGCATCTGGAACGCACGTATCTCCGGG
CCAGGGCCTTTGCTCGATTCTGGCGTAGGTCTTCAGTTGTTGCATTTCGG
TTATTTATACATTCTGACAATTACCCAGAGCTGACCCCAGATGATGTTCT
CCAATTCACACCGAAATTCAGGCGCGCACACACTGATGGTATCATACTTC
GGGATATAGCCGCCCAATCCGCATTCAGTGTTCATTACAATCTGGTGGGA
GGGACCATTGCATCATTGGCTCCGCAGCGGCCGGACCTTCAGCCGTTACT
GAGGCAAATATTCAATTTCGATGTTGTGTATGTGATCGTTGAATAGGCTG
CATAGACAATGCTGATGTGATTGTGAGTAGTACTACCTATATGATGACGG
AGGCTGGACACGGCTGCGATGCGAGGAATCTCGAGACTATTGCCGTTTGG
CAGTCTGATGGCAGCTTTATCCTTGACACACCAACGCCTGCCGCAAGAAA
GTATTGTATCACAGTCCACCTTTGAGCAGAAGAATGCTAAGATAAATAGG
CTCATGCCGCCCTCCGCACCTCTTGCAGCAGGGATACCACGTATAGCGCT
TGTCCTTGCGCGCCTGATAGTCGAAGGAGAGGACCGAGGCACCCGACAGT
TCATTGTTCCGGTTAATGATGGGCGACAGATGTATCGGGGAATTAAAGCA
TGGTTGGTACCCGTTAAATGCACCAAATACCTGGTTTAACAATGTCAGGG
GTCTTCCAGCTCCTGGAGCCGGAAGGCTACTCGATTTCGTCCTTACAGCC
TTCGATCATGTCCATCTTCCGTCAACCGCCATGTTAGGAGACCTTGCAAG
ACCTTCCAACATGCGCGATCAGTACCTCACTGCCATCGATCGGCTGAGCA
CAGGTGCACTAATCGTCAGTCTATGGGTCATTCCGTTCCTGAAGGGTGCC
GCTTTTACTGTGGGCAGGTACAGCCAGCGTCGCACAGTTCAGGAAGGCCT
TCAAGGGGAAAGGGTCCCAATTATCTCTTTTAGAACTCAGCAGCTACCCA
TTGCACACGCTTTAGCTGAGGTTGCTGTACTAGCCCCGTTTGCGGATTGG
GTTATCAAGCAACATAAAAGCCATACTATCGGCCCTGGACTCAAACATGC
GCTTAGTATTATCTTGAAGGTCGTTTTCCTTCAGCATGGGAGTGAAAGTC
TCAAACAATTGAACGAAAGAAGTGGTTCCAGGGGGATGTTTCCTATCAAC
GGTCTCGCGGAGATGGAGGTATAGCCAGGCCTCTTGTATGTCTCGAACCT
TGACAGGTGGCTGACACGGTCCTTCTAGACTTATCTTCGAGCTAGCGCTT
CAGCAGAAGGAGAAATCTTAGTCCATTCCATTCGTGAGTGATCCTCCAGC
TTTCACAAATTTATGCTGAATGCCTCATAGGCTCTGCTACTGAGTTGCTT
CATGGCCGGTTCAGGATACCCGATGCTAAGACGCCAGACTCCCTTTTGGG
ACGGCACGAGGCAGGGTTCATTGCAGAGATGAAAGAGTCCCTGAAGAGTA
CCAAAGGTCATAGGACGCCTGAATATAACAGGCTAATTCTACCCCGTTGT
CGCCCCATGCTTCTGGCTATAGGCCAACGGATGGCACATGAGGCAGCCGT
TGATGCGGGTGTTGATCCCAATTTTCTGGCGCTTTATGAAGCCGGAGCGG
TGAGGAACGACTCAAGTTGGTATGTGGAGCAGCTGGGGCTCAGTAGAGCA
TCCCAATATGATATGGAGTGCCAAGCGTGCGATAGTGTGATGTCGCAGCT
TGATAGGCATTTGGACGAATTGGGTATCGAGTCGTACTGCACCGCCCCGA
TGCTGTCGCCGCCCAAATGGGAGAATTTCATCGATACCTGCCCGAAATAC
ACAGGAGACGCAGTCCCTAGCTTGAGTATTGGGTATAGCCGAGAGCAAAA
GCTTTGA
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Coding sequence (CDS) from alignment at NKJJ01000002.1:1305544..1307550-

>CAN33_23780-T1 ID=CAN33_23780-T1|Name=CAN33_23780-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12984bp|location=Sequence derived from alignment at NKJJ01000002.1:1305544..1307550- (Aspergillus niger FDAARGOS_311)
GCCAACGGATGGCACATGAGGCAGCCGTTGATGCGGGTGTTGATCCCAAT
TTTCTGGCGCTTTATGAAGCCGGAGCGGTGAGGAACGACTCAAGTTGGTA
TGTGGAGCAGCTGGGGCTCAGTAGAGCATCCCAATATGATATGGAGTGCC
AAGCGTGCGATAGTGTGATGTCGCAGCTTGATAGGCATTTGGACGAATTG
GGTATCGAGTCGTACTGCACCGCCCCGATGCTGTCGCCGCCCAAATGGGA
GAATTTCATCGATACCTGCCCGAAATACACAGGAGACGCAGTCCCTAGCT
TGAGTATTGGGTATAGCCGAGAGCAAAAGCTTTGAGCTCTGCTACTGAGT
TGCTTCATGGCCGGTTCAGGATACCCGATGCTAAGACGCCAGACTCCCTT
TTGGGACGGCACGAGGCAGGGTTCATTGCAGAGATGAAAGAGTCCCTGAA
GAACTTATCTTCGAGCTAGCGCTTCAGCAGAAGGAGAAATCTTAGTCCAT
TCCATTCGGGTCTTCCAGCTCCTGGAGCCGGAAGGCTACTCGATTTCGTC
CTTACAGCCTTCGATCATGTCCATCTTCCGTCAACCGCCATGTTAGGAGA
CCTTGCAAGACCTTCCAACATGCGCGATCAGTACCTCACTGCCATCGATC
GGCTGAGCACAGGTGCACTAATCGTCAGTCTATGGGTCATTCCGTTCCTG
AAGGGTGCCGCTTTTACTGTGGGCAGGTACAGCCAGCGTCGCACAGTTCA
GGAAGGCCTTCAAGGGGAAAGGGTCCCAATTATCTCTTTTAGAACTCAGC
AGCTACCCATTGCACACGCTTTAGCTGAGGTTGCTGTACTAGCCCCGTTT
GCGGATTGGGTTATCAAGCAACATAAAAGCCATACTATCGGCCCTGGACT
CAAACATGCGCTTAGTATTATCTTGAAGGTCGTTTTCCTTCAGCATGGGA
GTGAAAGTCTCAAACAATTGAACGAAAGAAGTGGTTCCAGGGGGATGTTT
CCTATCAACGGTCTCGCGGAGATGGAGGCTCATGCCGCCCTCCGCACCTC
TTGCAGCAGGGATACCACGTATAGCGCTTGTCCTTGCGCGCCTGATAGTC
GAAGGAGAGGACCGAGGCACCCGACAGTTCATTGTTCCGGTTAATGATGG
GCGACAGATGTATCGGGGAATTAAAGCATGTACTACCTATATGATGACGG
AGGCTGGACACGGCTGCGATGCGAGGAATCTCGAGACTATTGCCGTTTGG
CAGTCTGATGGCAGCTTTATCCTTGACACACCAACGCCTGCCGCAAGAAA
AGCTGACCCCAGATGATGTTCTCCAATTCACACCGAAATTCAGGCGCGCA
CACACTGATGGTATCATACTTCGGGATATAGCCGCCCAATCCGCATTCAG
TGTTCATTACAATCTGGTGGGAGGGACCATTGCATCATTGGCTCCGCAGC
GGCCGGACCTTCAGCCGTTACTGAGGCAAATATTCAATTTCGATGTTGTA
TGCAATCATCTACAGTTGACCTTCTGTCTTCAGACCTATTCAAGCATCAC
TACGAGGATGGCCCTAGGGAGGCGCATCTGGAACGCACGTATCTCCGGGC
CAGGGCCTTTGCTCGATTCTGGCGCCAACGGATGGCACATGAGGCAGCCG
TTGATGCGGGTGTTGATCCCAATTTTCTGGCGCTTTATGAAGCCGGAGCG
GTGAGGAACGACTCAAGTTGGTATGTGGAGCAGCTGGGGCTCAGTAGAGC
ATCCCAATATGATATGGAGTGCCAAGCGTGCGATAGTGTGATGTCGCAGC
TTGATAGGCATTTGGACGAATTGGGTATCGAGTCGTACTGCACCGCCCCG
ATGCTGTCGCCGCCCAAATGGGAGAATTTCATCGATACCTGCCCGAAATA
CACAGGAGACGCAGTCCCTAGCTTGAGTATTGGGTATAGCCGAGAGCAAA
AGCTTTGAGCTCTGCTACTGAGTTGCTTCATGGCCGGTTCAGGATACCCG
ATGCTAAGACGCCAGACTCCCTTTTGGGACGGCACGAGGCAGGGTTCATT
GCAGAGATGAAAGAGTCCCTGAAGAACTTATCTTCGAGCTAGCGCTTCAG
CAGAAGGAGAAATCTTAGTCCATTCCATTCGGGTCTTCCAGCTCCTGGAG
CCGGAAGGCTACTCGATTTCGTCCTTACAGCCTTCGATCATGTCCATCTT
CCGTCAACCGCCATGTTAGGAGACCTTGCAAGACCTTCCAACATGCGCGA
TCAGTACCTCACTGCCATCGATCGGCTGAGCACAGGTGCACTAATCGTCA
GTCTATGGGTCATTCCGTTCCTGAAGGGTGCCGCTTTTACTGTGGGCAGG
TACAGCCAGCGTCGCACAGTTCAGGAAGGCCTTCAAGGGGAAAGGGTCCC
AATTATCTCTTTTAGAACTCAGCAGCTACCCATTGCACACGCTTTAGCTG
AGGTTGCTGTACTAGCCCCGTTTGCGGATTGGGTTATCAAGCAACATAAA
AGCCATACTATCGGCCCTGGACTCAAACATGCGCTTAGTATTATCTTGAA
GGTCGTTTTCCTTCAGCATGGGAGTGAAAGTCTCAAACAATTGAACGAAA
GAAGTGGTTCCAGGGGGATGTTTCCTATCAACGGTCTCGCGGAGATGGAG
GCTCATGCCGCCCTCCGCACCTCTTGCAGCAGGGATACCACGTATAGCGC
TTGTCCTTGCGCGCCTGATAGTCGAAGGAGAGGACCGAGGCACCCGACAG
TTCATTGTTCCGGTTAATGATGGGCGACAGATGTATCGGGGAATTAAAGC
ATGTACTACCTATATGATGACGGAGGCTGGACACGGCTGCGATGCGAGGA
ATCTCGAGACTATTGCCGTTTGGCAGTCTGATGGCAGCTTTATCCTTGAC
ACACCAACGCCTGCCGCAAGAAAAGCTGACCCCAGATGATGTTCTCCAAT
TCACACCGAAATTCAGGCGCGCACACACTGATGGTATCATACTTCGGGAT
ATAGCCGCCCAATCCGCATTCAGTGTTCATTACAATCTGGTGGGAGGGAC
CATTGCATCATTGGCTCCGCAGCGGCCGGACCTTCAGCCGTTACTGAGGC
AAATATTCAATTTCGATGTTGTATGCAATCATCTACAGTTGACCTTCTGT
CTTCAGACCTATTCAAGCATCACTACGAGGATGGCCCTAGGGAGGCGCAT
CTGGAACGCACGTATCTCCGGGCCAGGGCCTTTGCTCGATTCTGGCGCCA
ACGGATGGCACATGAGGCAGCCGTTGATGCGGGTGTTGATCCCAATTTTC
TGGCGCTTTATGAAGCCGGAGCGGTGAGGAACGACTCAAGTTGGTATGTG
GAGCAGCTGGGGCTCAGTAGAGCATCCCAATATGATATGGAGTGCCAAGC
GTGCGATAGTGTGATGTCGCAGCTTGATAGGCATTTGGACGAATTGGGTA
TCGAGTCGTACTGCACCGCCCCGATGCTGTCGCCGCCCAAATGGGAGAAT
TTCATCGATACCTGCCCGAAATACACAGGAGACGCAGTCCCTAGCTTGAG
TATTGGGTATAGCCGAGAGCAAAAGCTTTGAGCTCTGCTACTGAGTTGCT
TCATGGCCGGTTCAGGATACCCGATGCTAAGACGCCAGACTCCCTTTTGG
GACGGCACGAGGCAGGGTTCATTGCAGAGATGAAAGAGTCCCTGAAGAAC
TTATCTTCGAGCTAGCGCTTCAGCAGAAGGAGAAATCTTAGTCCATTCCA
TTCGGGTCTTCCAGCTCCTGGAGCCGGAAGGCTACTCGATTTCGTCCTTA
CAGCCTTCGATCATGTCCATCTTCCGTCAACCGCCATGTTAGGAGACCTT
GCAAGACCTTCCAACATGCGCGATCAGTACCTCACTGCCATCGATCGGCT
GAGCACAGGTGCACTAATCGTCAGTCTATGGGTCATTCCGTTCCTGAAGG
GTGCCGCTTTTACTGTGGGCAGGTACAGCCAGCGTCGCACAGTTCAGGAA
GGCCTTCAAGGGGAAAGGGTCCCAATTATCTCTTTTAGAACTCAGCAGCT
ACCCATTGCACACGCTTTAGCTGAGGTTGCTGTACTAGCCCCGTTTGCGG
ATTGGGTTATCAAGCAACATAAAAGCCATACTATCGGCCCTGGACTCAAA
CATGCGCTTAGTATTATCTTGAAGGTCGTTTTCCTTCAGCATGGGAGTGA
AAGTCTCAAACAATTGAACGAAAGAAGTGGTTCCAGGGGGATGTTTCCTA
TCAACGGTCTCGCGGAGATGGAGGCTCATGCCGCCCTCCGCACCTCTTGC
AGCAGGGATACCACGTATAGCGCTTGTCCTTGCGCGCCTGATAGTCGAAG
GAGAGGACCGAGGCACCCGACAGTTCATTGTTCCGGTTAATGATGGGCGA
CAGATGTATCGGGGAATTAAAGCATGTACTACCTATATGATGACGGAGGC
TGGACACGGCTGCGATGCGAGGAATCTCGAGACTATTGCCGTTTGGCAGT
CTGATGGCAGCTTTATCCTTGACACACCAACGCCTGCCGCAAGAAAAGCT
GACCCCAGATGATGTTCTCCAATTCACACCGAAATTCAGGCGCGCACACA
CTGATGGTATCATACTTCGGGATATAGCCGCCCAATCCGCATTCAGTGTT
CATTACAATCTGGTGGGAGGGACCATTGCATCATTGGCTCCGCAGCGGCC
GGACCTTCAGCCGTTACTGAGGCAAATATTCAATTTCGATGTTGTATGCA
ATCATCTACAGTTGACCTTCTGTCTTCAGACCTATTCAAGCATCACTACG
AGGATGGCCCTAGGGAGGCGCATCTGGAACGCACGTATCTCCGGGCCAGG
GCCTTTGCTCGATTCTGGCGCCAACGGATGGCACATGAGGCAGCCGTTGA
TGCGGGTGTTGATCCCAATTTTCTGGCGCTTTATGAAGCCGGAGCGGTGA
GGAACGACTCAAGTTGGTATGTGGAGCAGCTGGGGCTCAGTAGAGCATCC
CAATATGATATGGAGTGCCAAGCGTGCGATAGTGTGATGTCGCAGCTTGA
TAGGCATTTGGACGAATTGGGTATCGAGTCGTACTGCACCGCCCCGATGC
TGTCGCCGCCCAAATGGGAGAATTTCATCGATACCTGCCCGAAATACACA
GGAGACGCAGTCCCTAGCTTGAGTATTGGGTATAGCCGAGAGCAAAAGCT
TTGAGCTCTGCTACTGAGTTGCTTCATGGCCGGTTCAGGATACCCGATGC
TAAGACGCCAGACTCCCTTTTGGGACGGCACGAGGCAGGGTTCATTGCAG
AGATGAAAGAGTCCCTGAAGAACTTATCTTCGAGCTAGCGCTTCAGCAGA
AGGAGAAATCTTAGTCCATTCCATTCGGGTCTTCCAGCTCCTGGAGCCGG
AAGGCTACTCGATTTCGTCCTTACAGCCTTCGATCATGTCCATCTTCCGT
CAACCGCCATGTTAGGAGACCTTGCAAGACCTTCCAACATGCGCGATCAG
TACCTCACTGCCATCGATCGGCTGAGCACAGGTGCACTAATCGTCAGTCT
ATGGGTCATTCCGTTCCTGAAGGGTGCCGCTTTTACTGTGGGCAGGTACA
GCCAGCGTCGCACAGTTCAGGAAGGCCTTCAAGGGGAAAGGGTCCCAATT
ATCTCTTTTAGAACTCAGCAGCTACCCATTGCACACGCTTTAGCTGAGGT
TGCTGTACTAGCCCCGTTTGCGGATTGGGTTATCAAGCAACATAAAAGCC
ATACTATCGGCCCTGGACTCAAACATGCGCTTAGTATTATCTTGAAGGTC
GTTTTCCTTCAGCATGGGAGTGAAAGTCTCAAACAATTGAACGAAAGAAG
TGGTTCCAGGGGGATGTTTCCTATCAACGGTCTCGCGGAGATGGAGGCTC
ATGCCGCCCTCCGCACCTCTTGCAGCAGGGATACCACGTATAGCGCTTGT
CCTTGCGCGCCTGATAGTCGAAGGAGAGGACCGAGGCACCCGACAGTTCA
TTGTTCCGGTTAATGATGGGCGACAGATGTATCGGGGAATTAAAGCATGT
ACTACCTATATGATGACGGAGGCTGGACACGGCTGCGATGCGAGGAATCT
CGAGACTATTGCCGTTTGGCAGTCTGATGGCAGCTTTATCCTTGACACAC
CAACGCCTGCCGCAAGAAAAGCTGACCCCAGATGATGTTCTCCAATTCAC
ACCGAAATTCAGGCGCGCACACACTGATGGTATCATACTTCGGGATATAG
CCGCCCAATCCGCATTCAGTGTTCATTACAATCTGGTGGGAGGGACCATT
GCATCATTGGCTCCGCAGCGGCCGGACCTTCAGCCGTTACTGAGGCAAAT
ATTCAATTTCGATGTTGTATGCAATCATCTACAGTTGACCTTCTGTCTTC
AGACCTATTCAAGCATCACTACGAGGATGGCCCTAGGGAGGCGCATCTGG
AACGCACGTATCTCCGGGCCAGGGCCTTTGCTCGATTCTGGCGCCAACGG
ATGGCACATGAGGCAGCCGTTGATGCGGGTGTTGATCCCAATTTTCTGGC
GCTTTATGAAGCCGGAGCGGTGAGGAACGACTCAAGTTGGTATGTGGAGC
AGCTGGGGCTCAGTAGAGCATCCCAATATGATATGGAGTGCCAAGCGTGC
GATAGTGTGATGTCGCAGCTTGATAGGCATTTGGACGAATTGGGTATCGA
GTCGTACTGCACCGCCCCGATGCTGTCGCCGCCCAAATGGGAGAATTTCA
TCGATACCTGCCCGAAATACACAGGAGACGCAGTCCCTAGCTTGAGTATT
GGGTATAGCCGAGAGCAAAAGCTTTGAGCTCTGCTACTGAGTTGCTTCAT
GGCCGGTTCAGGATACCCGATGCTAAGACGCCAGACTCCCTTTTGGGACG
GCACGAGGCAGGGTTCATTGCAGAGATGAAAGAGTCCCTGAAGAACTTAT
CTTCGAGCTAGCGCTTCAGCAGAAGGAGAAATCTTAGTCCATTCCATTCG
GGTCTTCCAGCTCCTGGAGCCGGAAGGCTACTCGATTTCGTCCTTACAGC
CTTCGATCATGTCCATCTTCCGTCAACCGCCATGTTAGGAGACCTTGCAA
GACCTTCCAACATGCGCGATCAGTACCTCACTGCCATCGATCGGCTGAGC
ACAGGTGCACTAATCGTCAGTCTATGGGTCATTCCGTTCCTGAAGGGTGC
CGCTTTTACTGTGGGCAGGTACAGCCAGCGTCGCACAGTTCAGGAAGGCC
TTCAAGGGGAAAGGGTCCCAATTATCTCTTTTAGAACTCAGCAGCTACCC
ATTGCACACGCTTTAGCTGAGGTTGCTGTACTAGCCCCGTTTGCGGATTG
GGTTATCAAGCAACATAAAAGCCATACTATCGGCCCTGGACTCAAACATG
CGCTTAGTATTATCTTGAAGGTCGTTTTCCTTCAGCATGGGAGTGAAAGT
CTCAAACAATTGAACGAAAGAAGTGGTTCCAGGGGGATGTTTCCTATCAA
CGGTCTCGCGGAGATGGAGGCTCATGCCGCCCTCCGCACCTCTTGCAGCA
GGGATACCACGTATAGCGCTTGTCCTTGCGCGCCTGATAGTCGAAGGAGA
GGACCGAGGCACCCGACAGTTCATTGTTCCGGTTAATGATGGGCGACAGA
TGTATCGGGGAATTAAAGCATGTACTACCTATATGATGACGGAGGCTGGA
CACGGCTGCGATGCGAGGAATCTCGAGACTATTGCCGTTTGGCAGTCTGA
TGGCAGCTTTATCCTTGACACACCAACGCCTGCCGCAAGAAAAGCTGACC
CCAGATGATGTTCTCCAATTCACACCGAAATTCAGGCGCGCACACACTGA
TGGTATCATACTTCGGGATATAGCCGCCCAATCCGCATTCAGTGTTCATT
ACAATCTGGTGGGAGGGACCATTGCATCATTGGCTCCGCAGCGGCCGGAC
CTTCAGCCGTTACTGAGGCAAATATTCAATTTCGATGTTGTATGCAATCA
TCTACAGTTGACCTTCTGTCTTCAGACCTATTCAAGCATCACTACGAGGA
TGGCCCTAGGGAGGCGCATCTGGAACGCACGTATCTCCGGGCCAGGGCCT
TTGCTCGATTCTGGCGCCAACGGATGGCACATGAGGCAGCCGTTGATGCG
GGTGTTGATCCCAATTTTCTGGCGCTTTATGAAGCCGGAGCGGTGAGGAA
CGACTCAAGTTGGTATGTGGAGCAGCTGGGGCTCAGTAGAGCATCCCAAT
ATGATATGGAGTGCCAAGCGTGCGATAGTGTGATGTCGCAGCTTGATAGG
CATTTGGACGAATTGGGTATCGAGTCGTACTGCACCGCCCCGATGCTGTC
GCCGCCCAAATGGGAGAATTTCATCGATACCTGCCCGAAATACACAGGAG
ACGCAGTCCCTAGCTTGAGTATTGGGTATAGCCGAGAGCAAAAGCTTTGA
GCTCTGCTACTGAGTTGCTTCATGGCCGGTTCAGGATACCCGATGCTAAG
ACGCCAGACTCCCTTTTGGGACGGCACGAGGCAGGGTTCATTGCAGAGAT
GAAAGAGTCCCTGAAGAACTTATCTTCGAGCTAGCGCTTCAGCAGAAGGA
GAAATCTTAGTCCATTCCATTCGGGTCTTCCAGCTCCTGGAGCCGGAAGG
CTACTCGATTTCGTCCTTACAGCCTTCGATCATGTCCATCTTCCGTCAAC
CGCCATGTTAGGAGACCTTGCAAGACCTTCCAACATGCGCGATCAGTACC
TCACTGCCATCGATCGGCTGAGCACAGGTGCACTAATCGTCAGTCTATGG
GTCATTCCGTTCCTGAAGGGTGCCGCTTTTACTGTGGGCAGGTACAGCCA
GCGTCGCACAGTTCAGGAAGGCCTTCAAGGGGAAAGGGTCCCAATTATCT
CTTTTAGAACTCAGCAGCTACCCATTGCACACGCTTTAGCTGAGGTTGCT
GTACTAGCCCCGTTTGCGGATTGGGTTATCAAGCAACATAAAAGCCATAC
TATCGGCCCTGGACTCAAACATGCGCTTAGTATTATCTTGAAGGTCGTTT
TCCTTCAGCATGGGAGTGAAAGTCTCAAACAATTGAACGAAAGAAGTGGT
TCCAGGGGGATGTTTCCTATCAACGGTCTCGCGGAGATGGAGGCTCATGC
CGCCCTCCGCACCTCTTGCAGCAGGGATACCACGTATAGCGCTTGTCCTT
GCGCGCCTGATAGTCGAAGGAGAGGACCGAGGCACCCGACAGTTCATTGT
TCCGGTTAATGATGGGCGACAGATGTATCGGGGAATTAAAGCATGTACTA
CCTATATGATGACGGAGGCTGGACACGGCTGCGATGCGAGGAATCTCGAG
ACTATTGCCGTTTGGCAGTCTGATGGCAGCTTTATCCTTGACACACCAAC
GCCTGCCGCAAGAAAAGCTGACCCCAGATGATGTTCTCCAATTCACACCG
AAATTCAGGCGCGCACACACTGATGGTATCATACTTCGGGATATAGCCGC
CCAATCCGCATTCAGTGTTCATTACAATCTGGTGGGAGGGACCATTGCAT
CATTGGCTCCGCAGCGGCCGGACCTTCAGCCGTTACTGAGGCAAATATTC
AATTTCGATGTTGTATGCAATCATCTACAGTTGACCTTCTGTCTTCAGAC
CTATTCAAGCATCACTACGAGGATGGCCCTAGGGAGGCGCATCTGGAACG
CACGTATCTCCGGGCCAGGGCCTTTGCTCGATTCTGGCGCCAACGGATGG
CACATGAGGCAGCCGTTGATGCGGGTGTTGATCCCAATTTTCTGGCGCTT
TATGAAGCCGGAGCGGTGAGGAACGACTCAAGTTGGTATGTGGAGCAGCT
GGGGCTCAGTAGAGCATCCCAATATGATATGGAGTGCCAAGCGTGCGATA
GTGTGATGTCGCAGCTTGATAGGCATTTGGACGAATTGGGTATCGAGTCG
TACTGCACCGCCCCGATGCTGTCGCCGCCCAAATGGGAGAATTTCATCGA
TACCTGCCCGAAATACACAGGAGACGCAGTCCCTAGCTTGAGTATTGGGT
ATAGCCGAGAGCAAAAGCTTTGAGCTCTGCTACTGAGTTGCTTCATGGCC
GGTTCAGGATACCCGATGCTAAGACGCCAGACTCCCTTTTGGGACGGCAC
GAGGCAGGGTTCATTGCAGAGATGAAAGAGTCCCTGAAGAACTTATCTTC
GAGCTAGCGCTTCAGCAGAAGGAGAAATCTTAGTCCATTCCATTCGGGTC
TTCCAGCTCCTGGAGCCGGAAGGCTACTCGATTTCGTCCTTACAGCCTTC
GATCATGTCCATCTTCCGTCAACCGCCATGTTAGGAGACCTTGCAAGACC
TTCCAACATGCGCGATCAGTACCTCACTGCCATCGATCGGCTGAGCACAG
GTGCACTAATCGTCAGTCTATGGGTCATTCCGTTCCTGAAGGGTGCCGCT
TTTACTGTGGGCAGGTACAGCCAGCGTCGCACAGTTCAGGAAGGCCTTCA
AGGGGAAAGGGTCCCAATTATCTCTTTTAGAACTCAGCAGCTACCCATTG
CACACGCTTTAGCTGAGGTTGCTGTACTAGCCCCGTTTGCGGATTGGGTT
ATCAAGCAACATAAAAGCCATACTATCGGCCCTGGACTCAAACATGCGCT
TAGTATTATCTTGAAGGTCGTTTTCCTTCAGCATGGGAGTGAAAGTCTCA
AACAATTGAACGAAAGAAGTGGTTCCAGGGGGATGTTTCCTATCAACGGT
CTCGCGGAGATGGAGGCTCATGCCGCCCTCCGCACCTCTTGCAGCAGGGA
TACCACGTATAGCGCTTGTCCTTGCGCGCCTGATAGTCGAAGGAGAGGAC
CGAGGCACCCGACAGTTCATTGTTCCGGTTAATGATGGGCGACAGATGTA
TCGGGGAATTAAAGCATGTACTACCTATATGATGACGGAGGCTGGACACG
GCTGCGATGCGAGGAATCTCGAGACTATTGCCGTTTGGCAGTCTGATGGC
AGCTTTATCCTTGACACACCAACGCCTGCCGCAAGAAAAGCTGACCCCAG
ATGATGTTCTCCAATTCACACCGAAATTCAGGCGCGCACACACTGATGGT
ATCATACTTCGGGATATAGCCGCCCAATCCGCATTCAGTGTTCATTACAA
TCTGGTGGGAGGGACCATTGCATCATTGGCTCCGCAGCGGCCGGACCTTC
AGCCGTTACTGAGGCAAATATTCAATTTCGATGTTGTATGCAATCATCTA
CAGTTGACCTTCTGTCTTCAGACCTATTCAAGCATCACTACGAGGATGGC
CCTAGGGAGGCGCATCTGGAACGCACGTATCTCCGGGCCAGGGCCTTTGC
TCGATTCTGGCGCCAACGGATGGCACATGAGGCAGCCGTTGATGCGGGTG
TTGATCCCAATTTTCTGGCGCTTTATGAAGCCGGAGCGGTGAGGAACGAC
TCAAGTTGGTATGTGGAGCAGCTGGGGCTCAGTAGAGCATCCCAATATGA
TATGGAGTGCCAAGCGTGCGATAGTGTGATGTCGCAGCTTGATAGGCATT
TGGACGAATTGGGTATCGAGTCGTACTGCACCGCCCCGATGCTGTCGCCG
CCCAAATGGGAGAATTTCATCGATACCTGCCCGAAATACACAGGAGACGC
AGTCCCTAGCTTGAGTATTGGGTATAGCCGAGAGCAAAAGCTTTGAGCTC
TGCTACTGAGTTGCTTCATGGCCGGTTCAGGATACCCGATGCTAAGACGC
CAGACTCCCTTTTGGGACGGCACGAGGCAGGGTTCATTGCAGAGATGAAA
GAGTCCCTGAAGAACTTATCTTCGAGCTAGCGCTTCAGCAGAAGGAGAAA
TCTTAGTCCATTCCATTCGGGTCTTCCAGCTCCTGGAGCCGGAAGGCTAC
TCGATTTCGTCCTTACAGCCTTCGATCATGTCCATCTTCCGTCAACCGCC
ATGTTAGGAGACCTTGCAAGACCTTCCAACATGCGCGATCAGTACCTCAC
TGCCATCGATCGGCTGAGCACAGGTGCACTAATCGTCAGTCTATGGGTCA
TTCCGTTCCTGAAGGGTGCCGCTTTTACTGTGGGCAGGTACAGCCAGCGT
CGCACAGTTCAGGAAGGCCTTCAAGGGGAAAGGGTCCCAATTATCTCTTT
TAGAACTCAGCAGCTACCCATTGCACACGCTTTAGCTGAGGTTGCTGTAC
TAGCCCCGTTTGCGGATTGGGTTATCAAGCAACATAAAAGCCATACTATC
GGCCCTGGACTCAAACATGCGCTTAGTATTATCTTGAAGGTCGTTTTCCT
TCAGCATGGGAGTGAAAGTCTCAAACAATTGAACGAAAGAAGTGGTTCCA
GGGGGATGTTTCCTATCAACGGTCTCGCGGAGATGGAGGCTCATGCCGCC
CTCCGCACCTCTTGCAGCAGGGATACCACGTATAGCGCTTGTCCTTGCGC
GCCTGATAGTCGAAGGAGAGGACCGAGGCACCCGACAGTTCATTGTTCCG
GTTAATGATGGGCGACAGATGTATCGGGGAATTAAAGCATGTACTACCTA
TATGATGACGGAGGCTGGACACGGCTGCGATGCGAGGAATCTCGAGACTA
TTGCCGTTTGGCAGTCTGATGGCAGCTTTATCCTTGACACACCAACGCCT
GCCGCAAGAAAAGCTGACCCCAGATGATGTTCTCCAATTCACACCGAAAT
TCAGGCGCGCACACACTGATGGTATCATACTTCGGGATATAGCCGCCCAA
TCCGCATTCAGTGTTCATTACAATCTGGTGGGAGGGACCATTGCATCATT
GGCTCCGCAGCGGCCGGACCTTCAGCCGTTACTGAGGCAAATATTCAATT
TCGATGTTGTATGCAATCATCTACAGTTGACCTTCTGTCTTCAGACCTAT
TCAAGCATCACTACGAGGATGGCCCTAGGGAGGCGCATCTGGAACGCACG
TATCTCCGGGCCAGGGCCTTTGCTCGATTCTGGC
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0016627oxidoreductase activity, acting on the CH-CH group of donors
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_23780CAN33_23780Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_23780-T1CAN33_23780-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_23780-T1.cdsCAN33_23780-T1.cdsAspergillus niger FDAARGOS_311CDS


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

Feature NameUnique NameSpeciesType
CAN33_23780-T1.exon8CAN33_23780-T1.exon8Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon7CAN33_23780-T1.exon7Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon6CAN33_23780-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon5CAN33_23780-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon4CAN33_23780-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon3CAN33_23780-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon2CAN33_23780-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_23780-T1.exon1CAN33_23780-T1.exon1Aspergillus niger FDAARGOS_311exon


Properties
Property NameValue
DBxrefInterPro:IPR036250
DBxrefInterPro:IPR009100
ProductAcyl-CoA dehydrogenase middle domain family protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger FDAARGOS_311 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
NKJJ01000002.1supercontigNKJJ01000002.1:1305544..1307550 -
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