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CAN33_42595-T1, CAN33_42595-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_42595-T1
Unique NameCAN33_42595-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000022.1:214806..216780+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_42595-T1 ID=CAN33_42595-T1|Name=CAN33_42595-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1975bp|location=Sequence derived from alignment at NKJJ01000022.1:214806..216780+ (Aspergillus niger FDAARGOS_311)
ATGTCTCTCCCCTGGAAGCGTCTGATTCGCTTTCAAGCCTCGGATGGCCG
CATTCTGCGCGGCGAGCCTATTATCCCGGCAGCGGGAGAAACCGACCTAG
GGCTGATCACCGAGGTCGATGGTCTTCAAGCCAAATTGCTTAGCGGAAGC
GACATTTACGATGTGACCGGCAAGACCCAGGTGACAGACGAGATCGTGAC
CGTGAAGCGCATCCTCTCGCCACTCGCACAGAGTGATGTACCCATCATGC
GATGCGTGGGTCTCAATTACGCCAAGCATAGTATGGACGACTTTCTCCTC
GGATCTATCCAAGTGCCTATGTACCAACCTGACATGAACTTGAACAGTCC
GAGAAGCCGGGCGCAAGCCCCCACCGTTTCCGTTTATTTTCTTCAAGCCG
AATACCTGCGTTCATGATCACGGCGAGCCGGTTGTGATACCAAGGATCGC
ACAGAATGACCAGGCGGACTACGAAGGTGAGCTGGTAGGTATCTCTGAGA
GCCTCCTGACCATTGAGTATGTCGGAATGCCGTTTCTTACTCAGTACTTT
TCTACTATTTTTAGTGCATAGTAATCGGAAAAGATGCCAAAGACGTCCCA
GTCGAGTCCGCGCTCGACTACATCGCAGCCTACACAGTTGGAAATGACAT
TTCCTCCCGGAAGCTTCAGCGTGATCCCGCGTATGCTGGTGTCGTCCCTC
AATGGGGGTTCTCGAAAGGCTTCGATACATTTGCGCCGCTGGGGCCCGTT
CTAGTTGCTGCCTCCGAAATTCCTGATCCATCTCAATTACAACTGACAAC
GATCGTGGATGGAGAGGTGAGGCAGCAAGAATCTGTCGGGGATCTTCTGT
TTGATTGCAGGTACTTGATCTCGTACTTGTCTCAAGGGACTACACTGCAG
AAGGGGAGTGTCATTATGACGGGAACTCCTGGAGGTAAGGGGAAATTCTA
CTGCTAATTATCTATGTTGAAACATGAGTAAGAGCATTACTGACTGGGAC
TCAGGTGTCGGCGCTGGATTTACGCCTCCAAAGTGGTTGGTGCCTGGGAC
TCAAATGGATGTGCATATTTCGGGTATAGGGACGTTGCGGAACAATGTTG
TCTTTGCGTAGAACGGGTCGAACTGTTGACGATAAAGAATCTGATAGAGA
CAACGCATTTTCATGGAAATAATACCAGTATATATTCCACGTTTGTCGCG
CACCATGTGCGGAATTATCAAAACATCATTTATCGATCTCAATTACAACA
TTTGGACCGGTTCCAAGCTCAAGTTCCTCGCGATGTTGTACCAAAGGGTT
CTATGGAAGTGCTGCGAAATCTCATTACTGCTTCAAATCGATTTAAGGAG
GACACCGAGCTAGCAATCGTCGAGACAACGTCAACAGTACGGCTCATACA
TCACTAACTGTAGTCGGACTGATACGATGCACATTTCTACAGCGCAAAAC
CCGGTCTCGTCGGTGGCTTCAAGTCCCTCAAGAGTATAGATCCAAGAAGC
CATTTATGCCTCGCACTATCCCAGCGACCTCAAAGCGAGGACTGGTCTTG
GTATACCACTCCCTACCCCCATTGCTCATAGACGCGATTGCCAGATCATC
GGCCTCGAATACAGACTTCATAGTATCCTGGCTTGCCCTCCCATAGCCTT
CATTAGTAATTCCAATTATCGTCCCGTCATCCGCTTGTATGGTATATCGA
ACGTAGACATGGATCACCCCGTCCGGACGGACCGCGTTCCAGTCCCCGCC
GCTGTTCGCCAGTATCTTGCCGTTGAGTTTTGGGCCCACGACGACTCGTC
CTCCGGTGATGGGGATGAATTTCGATCGCCCGAGAACGTCGCGCCAAAGC
CGACCGCCGGGGCTAGGTCGACCTATGAGTTAAGGAATATGCGAGGAGTG
GAGGAGTTGGCATCAGAAAATAAGGACGAGACGAGAAGCGGCCGCCGCAA
TCTGGGAGGAAAGGTCAGCAACTGA
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Coding sequence (CDS) from alignment at NKJJ01000022.1:214806..216780+

>CAN33_42595-T1 ID=CAN33_42595-T1|Name=CAN33_42595-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10983bp|location=Sequence derived from alignment at NKJJ01000022.1:214806..216780+ (Aspergillus niger FDAARGOS_311)
ATGTCTCTCCCCTGGAAGCGTCTGATTCGCTTTCAAGCCTCGGATGGCCG
CATTCTGCGCGGCGAGCCTATTATCCCGGCAGCGGGAGAAACCGACCTAG
GGCTGATCACCGAGGTCGATGGTCTTCAAGCCAAATTGCTTAGCGGAAGC
GACATTTACGATGTGACCGGCAAGACCCAGGTGACAGACGAGATCGTGAC
CGTGAAGCGCATCCTCTCGCCACTCGCACAGAGTGATGTACCCATCATGC
GATGCGTGGGTCTCAATTACGCCAAGCATATCCGAGAAGCCGGGCGCAAG
CCCCCACCGTTTCCGTTTATTTTCTTCAAGCCGAATACCTGCGTTCATGA
TCACGGCGAGCCGGTTGTGATACCAAGGATCGCACAGAATGACCAGGCGG
ACTACGAAGTAATCGGAAAAGATGCCAAAGACGTCCCAGTCGAGTCCGCG
CTCGACTACATCGCAGCCTACACAGTTGGAAATGACATTTCCTCCCGGAA
GCTTCAGCGTGATCCCGCGTATGCTGGTGTCGTCCCTCAATGGGGGTTCT
CGAAAGGCTTCGATACATTTGCGCCGCTGGGGCCCGTTCTAGTTGCTGCC
TCCGAAATTCCTGATCCATCTCAATTACAACTGACAACGATCGTGGATGG
AGAGGTGAGGCAGCAAGAATCTGTCGGGGATCTTCTGTTTGATTGCAGGT
ACTTGATCTCGTACTTGTCTCAAGGGACTACACTGCAGAAGGGGAGTGTC
ATTATGACGGGAACTCCTGGAGGTGTCGGCGCTGGATTTACGCCTCCAAA
GTGGTTGGTGCCTGGGACTCAAATGGATGTGCATATTTCGGAGACAACGC
ATTTTCATGGAAATAATACCAGTATATATTCCACGTTTGTCGCGCACCAT
GTGCGGAATTATCAAAACATCATTTATCGATCTCAATTACAACATTTGGA
CCGGTTCCAAGCTCAAGTTCCTCGCGATGTTGTACCAAAGGGTTCTATGG
AAGTGCTGCGAAATCTCATTACTGCTTCAAATCGATTTAAGGAGGACACC
GAGCTAGCAATCGTCGAGACAACGTCAACACGCAAAACCCGGTCTCGTCG
GTGGCTTCAAGTCCCTCAAGAGTATAGATCCAAGAAGCCATTTATGCCTC
GCACTATCCCAGCGACCTCAAAGCGAGGACTGGTCTTGATCATCGGCCTC
GAATACAGACTTCATAGTATCCTGGCTTGCCCTCCCATAGCCTTCATTAG
TAATTCCAATTATCGTCCCGTCATCCGCTTGTATGGTATATCGAACGTAG
ACATGGATCACCCCGTCCGGACGGACCGCGTTCCAGTCCCCGCCGCTGTT
CGCCAGTATCTTGCCGTTGAGTTTTGGGCCCACGACGACTCGTCCTCCGG
TGATGGGGATGAATTTCGATCGCCCGAGAACGTCGCGCCAAAGCCGACCG
CCGGGGCTAGGTCGACCTATGAGTTAAGGAATATGCGAGGAGTGGAGGAG
TTGGCATCAGAAAATAAGGACGAGACGAGAAGCGGCCGCCGCAATCTGGG
AGGAAAGGTCAGCAACTGAATGTCTCTCCCCTGGAAGCGTCTGATTCGCT
TTCAAGCCTCGGATGGCCGCATTCTGCGCGGCGAGCCTATTATCCCGGCA
GCGGGAGAAACCGACCTAGGGCTGATCACCGAGGTCGATGGTCTTCAAGC
CAAATTGCTTAGCGGAAGCGACATTTACGATGTGACCGGCAAGACCCAGG
TGACAGACGAGATCGTGACCGTGAAGCGCATCCTCTCGCCACTCGCACAG
AGTGATGTACCCATCATGCGATGCGTGGGTCTCAATTACGCCAAGCATAT
CCGAGAAGCCGGGCGCAAGCCCCCACCGTTTCCGTTTATTTTCTTCAAGC
CGAATACCTGCGTTCATGATCACGGCGAGCCGGTTGTGATACCAAGGATC
GCACAGAATGACCAGGCGGACTACGAAGTAATCGGAAAAGATGCCAAAGA
CGTCCCAGTCGAGTCCGCGCTCGACTACATCGCAGCCTACACAGTTGGAA
ATGACATTTCCTCCCGGAAGCTTCAGCGTGATCCCGCGTATGCTGGTGTC
GTCCCTCAATGGGGGTTCTCGAAAGGCTTCGATACATTTGCGCCGCTGGG
GCCCGTTCTAGTTGCTGCCTCCGAAATTCCTGATCCATCTCAATTACAAC
TGACAACGATCGTGGATGGAGAGGTGAGGCAGCAAGAATCTGTCGGGGAT
CTTCTGTTTGATTGCAGGTACTTGATCTCGTACTTGTCTCAAGGGACTAC
ACTGCAGAAGGGGAGTGTCATTATGACGGGAACTCCTGGAGGTGTCGGCG
CTGGATTTACGCCTCCAAAGTGGTTGGTGCCTGGGACTCAAATGGATGTG
CATATTTCGGAGACAACGCATTTTCATGGAAATAATACCAGTATATATTC
CACGTTTGTCGCGCACCATGTGCGGAATTATCAAAACATCATTTATCGAT
CTCAATTACAACATTTGGACCGGTTCCAAGCTCAAGTTCCTCGCGATGTT
GTACCAAAGGGTTCTATGGAAGTGCTGCGAAATCTCATTACTGCTTCAAA
TCGATTTAAGGAGGACACCGAGCTAGCAATCGTCGAGACAACGTCAACAC
GCAAAACCCGGTCTCGTCGGTGGCTTCAAGTCCCTCAAGAGTATAGATCC
AAGAAGCCATTTATGCCTCGCACTATCCCAGCGACCTCAAAGCGAGGACT
GGTCTTGATCATCGGCCTCGAATACAGACTTCATAGTATCCTGGCTTGCC
CTCCCATAGCCTTCATTAGTAATTCCAATTATCGTCCCGTCATCCGCTTG
TATGGTATATCGAACGTAGACATGGATCACCCCGTCCGGACGGACCGCGT
TCCAGTCCCCGCCGCTGTTCGCCAGTATCTTGCCGTTGAGTTTTGGGCCC
ACGACGACTCGTCCTCCGGTGATGGGGATGAATTTCGATCGCCCGAGAAC
GTCGCGCCAAAGCCGACCGCCGGGGCTAGGTCGACCTATGAGTTAAGGAA
TATGCGAGGAGTGGAGGAGTTGGCATCAGAAAATAAGGACGAGACGAGAA
GCGGCCGCCGCAATCTGGGAGGAAAGGTCAGCAACTGAATGTCTCTCCCC
TGGAAGCGTCTGATTCGCTTTCAAGCCTCGGATGGCCGCATTCTGCGCGG
CGAGCCTATTATCCCGGCAGCGGGAGAAACCGACCTAGGGCTGATCACCG
AGGTCGATGGTCTTCAAGCCAAATTGCTTAGCGGAAGCGACATTTACGAT
GTGACCGGCAAGACCCAGGTGACAGACGAGATCGTGACCGTGAAGCGCAT
CCTCTCGCCACTCGCACAGAGTGATGTACCCATCATGCGATGCGTGGGTC
TCAATTACGCCAAGCATATCCGAGAAGCCGGGCGCAAGCCCCCACCGTTT
CCGTTTATTTTCTTCAAGCCGAATACCTGCGTTCATGATCACGGCGAGCC
GGTTGTGATACCAAGGATCGCACAGAATGACCAGGCGGACTACGAAGTAA
TCGGAAAAGATGCCAAAGACGTCCCAGTCGAGTCCGCGCTCGACTACATC
GCAGCCTACACAGTTGGAAATGACATTTCCTCCCGGAAGCTTCAGCGTGA
TCCCGCGTATGCTGGTGTCGTCCCTCAATGGGGGTTCTCGAAAGGCTTCG
ATACATTTGCGCCGCTGGGGCCCGTTCTAGTTGCTGCCTCCGAAATTCCT
GATCCATCTCAATTACAACTGACAACGATCGTGGATGGAGAGGTGAGGCA
GCAAGAATCTGTCGGGGATCTTCTGTTTGATTGCAGGTACTTGATCTCGT
ACTTGTCTCAAGGGACTACACTGCAGAAGGGGAGTGTCATTATGACGGGA
ACTCCTGGAGGTGTCGGCGCTGGATTTACGCCTCCAAAGTGGTTGGTGCC
TGGGACTCAAATGGATGTGCATATTTCGGAGACAACGCATTTTCATGGAA
ATAATACCAGTATATATTCCACGTTTGTCGCGCACCATGTGCGGAATTAT
CAAAACATCATTTATCGATCTCAATTACAACATTTGGACCGGTTCCAAGC
TCAAGTTCCTCGCGATGTTGTACCAAAGGGTTCTATGGAAGTGCTGCGAA
ATCTCATTACTGCTTCAAATCGATTTAAGGAGGACACCGAGCTAGCAATC
GTCGAGACAACGTCAACACGCAAAACCCGGTCTCGTCGGTGGCTTCAAGT
CCCTCAAGAGTATAGATCCAAGAAGCCATTTATGCCTCGCACTATCCCAG
CGACCTCAAAGCGAGGACTGGTCTTGATCATCGGCCTCGAATACAGACTT
CATAGTATCCTGGCTTGCCCTCCCATAGCCTTCATTAGTAATTCCAATTA
TCGTCCCGTCATCCGCTTGTATGGTATATCGAACGTAGACATGGATCACC
CCGTCCGGACGGACCGCGTTCCAGTCCCCGCCGCTGTTCGCCAGTATCTT
GCCGTTGAGTTTTGGGCCCACGACGACTCGTCCTCCGGTGATGGGGATGA
ATTTCGATCGCCCGAGAACGTCGCGCCAAAGCCGACCGCCGGGGCTAGGT
CGACCTATGAGTTAAGGAATATGCGAGGAGTGGAGGAGTTGGCATCAGAA
AATAAGGACGAGACGAGAAGCGGCCGCCGCAATCTGGGAGGAAAGGTCAG
CAACTGAATGTCTCTCCCCTGGAAGCGTCTGATTCGCTTTCAAGCCTCGG
ATGGCCGCATTCTGCGCGGCGAGCCTATTATCCCGGCAGCGGGAGAAACC
GACCTAGGGCTGATCACCGAGGTCGATGGTCTTCAAGCCAAATTGCTTAG
CGGAAGCGACATTTACGATGTGACCGGCAAGACCCAGGTGACAGACGAGA
TCGTGACCGTGAAGCGCATCCTCTCGCCACTCGCACAGAGTGATGTACCC
ATCATGCGATGCGTGGGTCTCAATTACGCCAAGCATATCCGAGAAGCCGG
GCGCAAGCCCCCACCGTTTCCGTTTATTTTCTTCAAGCCGAATACCTGCG
TTCATGATCACGGCGAGCCGGTTGTGATACCAAGGATCGCACAGAATGAC
CAGGCGGACTACGAAGTAATCGGAAAAGATGCCAAAGACGTCCCAGTCGA
GTCCGCGCTCGACTACATCGCAGCCTACACAGTTGGAAATGACATTTCCT
CCCGGAAGCTTCAGCGTGATCCCGCGTATGCTGGTGTCGTCCCTCAATGG
GGGTTCTCGAAAGGCTTCGATACATTTGCGCCGCTGGGGCCCGTTCTAGT
TGCTGCCTCCGAAATTCCTGATCCATCTCAATTACAACTGACAACGATCG
TGGATGGAGAGGTGAGGCAGCAAGAATCTGTCGGGGATCTTCTGTTTGAT
TGCAGGTACTTGATCTCGTACTTGTCTCAAGGGACTACACTGCAGAAGGG
GAGTGTCATTATGACGGGAACTCCTGGAGGTGTCGGCGCTGGATTTACGC
CTCCAAAGTGGTTGGTGCCTGGGACTCAAATGGATGTGCATATTTCGGAG
ACAACGCATTTTCATGGAAATAATACCAGTATATATTCCACGTTTGTCGC
GCACCATGTGCGGAATTATCAAAACATCATTTATCGATCTCAATTACAAC
ATTTGGACCGGTTCCAAGCTCAAGTTCCTCGCGATGTTGTACCAAAGGGT
TCTATGGAAGTGCTGCGAAATCTCATTACTGCTTCAAATCGATTTAAGGA
GGACACCGAGCTAGCAATCGTCGAGACAACGTCAACACGCAAAACCCGGT
CTCGTCGGTGGCTTCAAGTCCCTCAAGAGTATAGATCCAAGAAGCCATTT
ATGCCTCGCACTATCCCAGCGACCTCAAAGCGAGGACTGGTCTTGATCAT
CGGCCTCGAATACAGACTTCATAGTATCCTGGCTTGCCCTCCCATAGCCT
TCATTAGTAATTCCAATTATCGTCCCGTCATCCGCTTGTATGGTATATCG
AACGTAGACATGGATCACCCCGTCCGGACGGACCGCGTTCCAGTCCCCGC
CGCTGTTCGCCAGTATCTTGCCGTTGAGTTTTGGGCCCACGACGACTCGT
CCTCCGGTGATGGGGATGAATTTCGATCGCCCGAGAACGTCGCGCCAAAG
CCGACCGCCGGGGCTAGGTCGACCTATGAGTTAAGGAATATGCGAGGAGT
GGAGGAGTTGGCATCAGAAAATAAGGACGAGACGAGAAGCGGCCGCCGCA
ATCTGGGAGGAAAGGTCAGCAACTGAATGTCTCTCCCCTGGAAGCGTCTG
ATTCGCTTTCAAGCCTCGGATGGCCGCATTCTGCGCGGCGAGCCTATTAT
CCCGGCAGCGGGAGAAACCGACCTAGGGCTGATCACCGAGGTCGATGGTC
TTCAAGCCAAATTGCTTAGCGGAAGCGACATTTACGATGTGACCGGCAAG
ACCCAGGTGACAGACGAGATCGTGACCGTGAAGCGCATCCTCTCGCCACT
CGCACAGAGTGATGTACCCATCATGCGATGCGTGGGTCTCAATTACGCCA
AGCATATCCGAGAAGCCGGGCGCAAGCCCCCACCGTTTCCGTTTATTTTC
TTCAAGCCGAATACCTGCGTTCATGATCACGGCGAGCCGGTTGTGATACC
AAGGATCGCACAGAATGACCAGGCGGACTACGAAGTAATCGGAAAAGATG
CCAAAGACGTCCCAGTCGAGTCCGCGCTCGACTACATCGCAGCCTACACA
GTTGGAAATGACATTTCCTCCCGGAAGCTTCAGCGTGATCCCGCGTATGC
TGGTGTCGTCCCTCAATGGGGGTTCTCGAAAGGCTTCGATACATTTGCGC
CGCTGGGGCCCGTTCTAGTTGCTGCCTCCGAAATTCCTGATCCATCTCAA
TTACAACTGACAACGATCGTGGATGGAGAGGTGAGGCAGCAAGAATCTGT
CGGGGATCTTCTGTTTGATTGCAGGTACTTGATCTCGTACTTGTCTCAAG
GGACTACACTGCAGAAGGGGAGTGTCATTATGACGGGAACTCCTGGAGGT
GTCGGCGCTGGATTTACGCCTCCAAAGTGGTTGGTGCCTGGGACTCAAAT
GGATGTGCATATTTCGGAGACAACGCATTTTCATGGAAATAATACCAGTA
TATATTCCACGTTTGTCGCGCACCATGTGCGGAATTATCAAAACATCATT
TATCGATCTCAATTACAACATTTGGACCGGTTCCAAGCTCAAGTTCCTCG
CGATGTTGTACCAAAGGGTTCTATGGAAGTGCTGCGAAATCTCATTACTG
CTTCAAATCGATTTAAGGAGGACACCGAGCTAGCAATCGTCGAGACAACG
TCAACACGCAAAACCCGGTCTCGTCGGTGGCTTCAAGTCCCTCAAGAGTA
TAGATCCAAGAAGCCATTTATGCCTCGCACTATCCCAGCGACCTCAAAGC
GAGGACTGGTCTTGATCATCGGCCTCGAATACAGACTTCATAGTATCCTG
GCTTGCCCTCCCATAGCCTTCATTAGTAATTCCAATTATCGTCCCGTCAT
CCGCTTGTATGGTATATCGAACGTAGACATGGATCACCCCGTCCGGACGG
ACCGCGTTCCAGTCCCCGCCGCTGTTCGCCAGTATCTTGCCGTTGAGTTT
TGGGCCCACGACGACTCGTCCTCCGGTGATGGGGATGAATTTCGATCGCC
CGAGAACGTCGCGCCAAAGCCGACCGCCGGGGCTAGGTCGACCTATGAGT
TAAGGAATATGCGAGGAGTGGAGGAGTTGGCATCAGAAAATAAGGACGAG
ACGAGAAGCGGCCGCCGCAATCTGGGAGGAAAGGTCAGCAACTGAATGTC
TCTCCCCTGGAAGCGTCTGATTCGCTTTCAAGCCTCGGATGGCCGCATTC
TGCGCGGCGAGCCTATTATCCCGGCAGCGGGAGAAACCGACCTAGGGCTG
ATCACCGAGGTCGATGGTCTTCAAGCCAAATTGCTTAGCGGAAGCGACAT
TTACGATGTGACCGGCAAGACCCAGGTGACAGACGAGATCGTGACCGTGA
AGCGCATCCTCTCGCCACTCGCACAGAGTGATGTACCCATCATGCGATGC
GTGGGTCTCAATTACGCCAAGCATATCCGAGAAGCCGGGCGCAAGCCCCC
ACCGTTTCCGTTTATTTTCTTCAAGCCGAATACCTGCGTTCATGATCACG
GCGAGCCGGTTGTGATACCAAGGATCGCACAGAATGACCAGGCGGACTAC
GAAGTAATCGGAAAAGATGCCAAAGACGTCCCAGTCGAGTCCGCGCTCGA
CTACATCGCAGCCTACACAGTTGGAAATGACATTTCCTCCCGGAAGCTTC
AGCGTGATCCCGCGTATGCTGGTGTCGTCCCTCAATGGGGGTTCTCGAAA
GGCTTCGATACATTTGCGCCGCTGGGGCCCGTTCTAGTTGCTGCCTCCGA
AATTCCTGATCCATCTCAATTACAACTGACAACGATCGTGGATGGAGAGG
TGAGGCAGCAAGAATCTGTCGGGGATCTTCTGTTTGATTGCAGGTACTTG
ATCTCGTACTTGTCTCAAGGGACTACACTGCAGAAGGGGAGTGTCATTAT
GACGGGAACTCCTGGAGGTGTCGGCGCTGGATTTACGCCTCCAAAGTGGT
TGGTGCCTGGGACTCAAATGGATGTGCATATTTCGGAGACAACGCATTTT
CATGGAAATAATACCAGTATATATTCCACGTTTGTCGCGCACCATGTGCG
GAATTATCAAAACATCATTTATCGATCTCAATTACAACATTTGGACCGGT
TCCAAGCTCAAGTTCCTCGCGATGTTGTACCAAAGGGTTCTATGGAAGTG
CTGCGAAATCTCATTACTGCTTCAAATCGATTTAAGGAGGACACCGAGCT
AGCAATCGTCGAGACAACGTCAACACGCAAAACCCGGTCTCGTCGGTGGC
TTCAAGTCCCTCAAGAGTATAGATCCAAGAAGCCATTTATGCCTCGCACT
ATCCCAGCGACCTCAAAGCGAGGACTGGTCTTGATCATCGGCCTCGAATA
CAGACTTCATAGTATCCTGGCTTGCCCTCCCATAGCCTTCATTAGTAATT
CCAATTATCGTCCCGTCATCCGCTTGTATGGTATATCGAACGTAGACATG
GATCACCCCGTCCGGACGGACCGCGTTCCAGTCCCCGCCGCTGTTCGCCA
GTATCTTGCCGTTGAGTTTTGGGCCCACGACGACTCGTCCTCCGGTGATG
GGGATGAATTTCGATCGCCCGAGAACGTCGCGCCAAAGCCGACCGCCGGG
GCTAGGTCGACCTATGAGTTAAGGAATATGCGAGGAGTGGAGGAGTTGGC
ATCAGAAAATAAGGACGAGACGAGAAGCGGCCGCCGCAATCTGGGAGGAA
AGGTCAGCAACTGAATGTCTCTCCCCTGGAAGCGTCTGATTCGCTTTCAA
GCCTCGGATGGCCGCATTCTGCGCGGCGAGCCTATTATCCCGGCAGCGGG
AGAAACCGACCTAGGGCTGATCACCGAGGTCGATGGTCTTCAAGCCAAAT
TGCTTAGCGGAAGCGACATTTACGATGTGACCGGCAAGACCCAGGTGACA
GACGAGATCGTGACCGTGAAGCGCATCCTCTCGCCACTCGCACAGAGTGA
TGTACCCATCATGCGATGCGTGGGTCTCAATTACGCCAAGCATATCCGAG
AAGCCGGGCGCAAGCCCCCACCGTTTCCGTTTATTTTCTTCAAGCCGAAT
ACCTGCGTTCATGATCACGGCGAGCCGGTTGTGATACCAAGGATCGCACA
GAATGACCAGGCGGACTACGAAGTAATCGGAAAAGATGCCAAAGACGTCC
CAGTCGAGTCCGCGCTCGACTACATCGCAGCCTACACAGTTGGAAATGAC
ATTTCCTCCCGGAAGCTTCAGCGTGATCCCGCGTATGCTGGTGTCGTCCC
TCAATGGGGGTTCTCGAAAGGCTTCGATACATTTGCGCCGCTGGGGCCCG
TTCTAGTTGCTGCCTCCGAAATTCCTGATCCATCTCAATTACAACTGACA
ACGATCGTGGATGGAGAGGTGAGGCAGCAAGAATCTGTCGGGGATCTTCT
GTTTGATTGCAGGTACTTGATCTCGTACTTGTCTCAAGGGACTACACTGC
AGAAGGGGAGTGTCATTATGACGGGAACTCCTGGAGGTGTCGGCGCTGGA
TTTACGCCTCCAAAGTGGTTGGTGCCTGGGACTCAAATGGATGTGCATAT
TTCGGAGACAACGCATTTTCATGGAAATAATACCAGTATATATTCCACGT
TTGTCGCGCACCATGTGCGGAATTATCAAAACATCATTTATCGATCTCAA
TTACAACATTTGGACCGGTTCCAAGCTCAAGTTCCTCGCGATGTTGTACC
AAAGGGTTCTATGGAAGTGCTGCGAAATCTCATTACTGCTTCAAATCGAT
TTAAGGAGGACACCGAGCTAGCAATCGTCGAGACAACGTCAACACGCAAA
ACCCGGTCTCGTCGGTGGCTTCAAGTCCCTCAAGAGTATAGATCCAAGAA
GCCATTTATGCCTCGCACTATCCCAGCGACCTCAAAGCGAGGACTGGTCT
TGATCATCGGCCTCGAATACAGACTTCATAGTATCCTGGCTTGCCCTCCC
ATAGCCTTCATTAGTAATTCCAATTATCGTCCCGTCATCCGCTTGTATGG
TATATCGAACGTAGACATGGATCACCCCGTCCGGACGGACCGCGTTCCAG
TCCCCGCCGCTGTTCGCCAGTATCTTGCCGTTGAGTTTTGGGCCCACGAC
GACTCGTCCTCCGGTGATGGGGATGAATTTCGATCGCCCGAGAACGTCGC
GCCAAAGCCGACCGCCGGGGCTAGGTCGACCTATGAGTTAAGGAATATGC
GAGGAGTGGAGGAGTTGGCATCAGAAAATAAGGACGAGACGAGAAGCGGC
CGCCGCAATCTGGGAGGAAAGGTCAGCAACTGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0003824catalytic activity
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_42595CAN33_42595Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_42595-T1CAN33_42595-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_42595-T1.exon1CAN33_42595-T1.exon1Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon2CAN33_42595-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon3CAN33_42595-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon4CAN33_42595-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon5CAN33_42595-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon6CAN33_42595-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_42595-T1.exon7CAN33_42595-T1.exon7Aspergillus niger FDAARGOS_311exon


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

Feature NameUnique NameSpeciesType
CAN33_42595-T1.cdsCAN33_42595-T1.cdsAspergillus niger FDAARGOS_311CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR011234
DBxrefInterPro:IPR036663
DBxrefPFAM:PF01557
ProductFumarylacetoacetate (FAA) hydrolase 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
NKJJ01000022.1supercontigNKJJ01000022.1:214806..216780 +
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