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CAN33_5350-T1, CAN33_5350-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_5350-T1
Unique NameCAN33_5350-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:966762..969835-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_5350-T1 ID=CAN33_5350-T1|Name=CAN33_5350-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3074bp|location=Sequence derived from alignment at NKJJ01000019.1:966762..969835- (Aspergillus niger FDAARGOS_311)
ATGTCGCGCGAAGCAACAACGAACAGCTTCGCGTCATTTGGCTCCGACTT
TGACCCTGAGCACGAGGCGCTCGCGTCCACCAAGGAGCTCGGTCATGGTA
GCCCCCGGCTTCCGTCCATGCACACCAACGCCCGGAAGCGCCACGAGTAC
GAGGAAGAAGAGCCCGATTATGCTTTCAACACATCCACCTTCGAGCAATA
TTTACCAGATTTCTCCCCGGTCGGCACGTCCGAAGAAGAAGAAGAAGAGG
CCGACAACGACGACAGCATCTCCATCGAGGCCGGACGAGGCCCGACGAAA
CCTCCCCGTCGACTGGACGACTCGAGAAACTCCTACATGAGCATCGAAAA
CAGCGTTCGCTCGTCGTCACCCGCCGTTAGACTCGATTATCCTACTTCTA
ATACCCCTCAAAAGTCCGCTCTGCGGAACCCGGCGAGAAGAGCGGTCAGC
GATAGTCTCCGAAAGGATGCGCAAATCAGACGCGCCAGCCTTGCCCATAA
GGAGAACGTTGATCCTCACACAGCCAAGTCGAACCGCAAAGAGCGACGAA
CTTTGTCAGACATGCACGCAAAGGTTCGCGATACATATGAAGGATCCCTG
ATTGAGGACGAAAGACCTCCGGCTATGGCCAACAGTACGCGTCCGACACG
TTTTGGAAACCCCAACCTCTCTCATCAGATTGCCGATGCGGTGGAGAAGG
CTTCCCAGGAGGCTTATGCTCGCGAACTTCGTCGTGGAAAGTCTAGCACC
AACTCGCGCAACATGGCCCACAATGCGGGTGATACGGCTACTCAGCAGTC
ATTCCTACTACCGGATCTTCCGAACTTGTCTGAGTTGGTCTCGGGCGTCT
ATGAAGACGGCACACCCGTGTATGCGCGTCAGAACAGAGCACGGACGACG
CGCTTTGTCTCCCCTCCACATGATGCTACTGATGTTTCGTTGACCCGCGA
ACACATGCCGCTAGATGCCGTCCCCATTCCGGAAGATGAGAAGGCACTCT
TCGTTTCATTGAGACTTTTGCAGGACAAGGTTGCAGAATTGGAGAGATCC
AAGTCTGACGCTGAACGGAGGTTGGATGACATGAAGCGGGAGAATGAGTC
TTTGAGGACAAACAAGTCACGCTCAAAGGACAAGCATGGCCGCAGCCGAC
CGTACGAATCCGAGGAGGATGACTACCGCAGAGATCAGCTTGCCAGCGAT
AACCAAAGTAAGTACTTTTATACTATTTTTCCGCGACACTCAACTGACTT
TGTATGCCAGAACTGGATGCCGCCAACTTGGCTTTGCAGAATAAACTCGA
CATTATCGAAAGAAAGGCCCAGATTCAGGAGTCGACTTTGAAACGGCTGA
ACCGAGAGCGAGACATGGCGGTATCACAGTTGGGGGTTGCGTATTTGGAA
AGTCAGGACCTCAAAAGCGAGAACGAGAGTCTGCGCCAGGAGAATGCAGA
CTTGAAGTCGCAGATATCAAAGATCCTTTCCGCGGGCTCCAGAGCCCGTG
ACGATACGGTCGAGTCAGAGCAGTCTTCTATGACTGATGCAAGCGACGAG
GATAGCCAGCCTGATACGCAGCATAGCAGACATACGAGCCGAAGCACCAG
GGAAGTTACCGGCAAGAGCTCGCGATCCAAGACTAGACGACAGGAGGACT
CGCGCGCCAAGATCTCGACGCAGGTTGACAAGGAAATATCCCGGCTTGAA
CAGGAGCGTGCAGAAGAGGCACTATTTTCGATCGACGTCCCCCGCACCAG
GGAGAAGTCGAAGTCAAAATCAGGAAAATCCAAGAGCCGGTCGGAGAGCA
GTGATGTGAGCACCAGGAAGCAGTCAAACACTGGCAAACAGCGCGTCAAA
AGAGTAGTTGTCGAGGAGGTGGAGGAGACGGAGCCTGTTGAGTCGAGTGG
GGAGGTTACTGGAAACACCAAGAAATCAAATGCAACTGAGCAGGACTTGA
CTCTGTTGAGCTTCGTTGATGTAAGTTGCCGTCCATGTTTCACCACATAC
ACGTACTTACTCCAGTTCCAGGAACGTGAAATTGCTCAACTACGAAAGAC
TCTGGAAGAGGAACGCCTGGCTCGGAAACGGCGGCAGTCGAGTACAAGCA
AAGAGCAGACTGCAAACGAGACCGGGAACACGACCCGGCAGAGCTTGTCC
AAGTCGACGATTCCCAGAAAGTCTTCCCTCAAGGAAAGCAAGGGGTTGCC
GTCTAGACCCGCCTCGGCCATGGGCGACTTGACCGCCAACTCCAAGGCTA
GCATGACTGAAGGAGAAAGTAACTTGTCGGTGCCTGTCGAACGCCCCAGA
CGGCATTCGGACAACTCCGTGCCCGCTGCTTCTCAGCGACGCCGGCGGCG
GATGGCCGAAGAGATGACTTCGGCCTTTATCCTGCCTGATATCACATTCA
ACCCTGCGCATGTGGTGGATAACAACCTTGCAAAGCTTCCTGAACCCGCT
CAGCGTGCACTTGACAGTGCCACCAAGCACAATGGCAAAAACTGCACGGT
CTGCAAGCAGACGATTCCGGGTGGTTCTTGTGATCACACCGCAGAGGCAG
TGAAGATTCCCAAGCCCGTTCCAGTCTCGGAGCGTATGCCCGAGCCGTCT
GTTTACAATGAGGAGCCTACCATGCGGCCCGCGCAATCGCCGGAACTTGC
CCTGGCGACCGTGCTCAAGGCCTTGGAAGATGAGCTGGCTCATCTGAAGA
TGCAGCTGGTGGCATACCAGGGCTCATACAACAAGCTGGATGCCTCGCTG
AGCAAGCGAAAGAGGAAGTCTCTGGGTGAGAAGATTGAGAAGCTGTTGAA
GGATATCGACATGAAGGCCGACCAGATCTATGCATTGTACGATGTCCTTG
AAGGCCAGAAGCAGAATGGCCGTGAGATGACCGAGCAGGAGATGGAGGTG
ACTCTTCAGTCGATCGGAATTGATACAGCAGGGCGGACAGCAGATGTCAC
TGCCACCACGGACAAGTCGTCTCGCAAGGAACCGGACTCGGAAGACGACG
ATGAGCTCCCTTGGGAGGGATTTGAAAGTACGCTGGAGATGACGGGCAGG
ACTGGTGGAAGCCGTCGCAACTAG
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Coding sequence (CDS) from alignment at NKJJ01000019.1:966762..969835-

>CAN33_5350-T1 ID=CAN33_5350-T1|Name=CAN33_5350-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11724bp|location=Sequence derived from alignment at NKJJ01000019.1:966762..969835- (Aspergillus niger FDAARGOS_311)
GAACGTGAAATTGCTCAACTACGAAAGACTCTGGAAGAGGAACGCCTGGC
TCGGAAACGGCGGCAGTCGAGTACAAGCAAAGAGCAGACTGCAAACGAGA
CCGGGAACACGACCCGGCAGAGCTTGTCCAAGTCGACGATTCCCAGAAAG
TCTTCCCTCAAGGAAAGCAAGGGGTTGCCGTCTAGACCCGCCTCGGCCAT
GGGCGACTTGACCGCCAACTCCAAGGCTAGCATGACTGAAGGAGAAAGTA
ACTTGTCGGTGCCTGTCGAACGCCCCAGACGGCATTCGGACAACTCCGTG
CCCGCTGCTTCTCAGCGACGCCGGCGGCGGATGGCCGAAGAGATGACTTC
GGCCTTTATCCTGCCTGATATCACATTCAACCCTGCGCATGTGGTGGATA
ACAACCTTGCAAAGCTTCCTGAACCCGCTCAGCGTGCACTTGACAGTGCC
ACCAAGCACAATGGCAAAAACTGCACGGTCTGCAAGCAGACGATTCCGGG
TGGTTCTTGTGATCACACCGCAGAGGCAGTGAAGATTCCCAAGCCCGTTC
CAGTCTCGGAGCGTATGCCCGAGCCGTCTGTTTACAATGAGGAGCCTACC
ATGCGGCCCGCGCAATCGCCGGAACTTGCCCTGGCGACCGTGCTCAAGGC
CTTGGAAGATGAGCTGGCTCATCTGAAGATGCAGCTGGTGGCATACCAGG
GCTCATACAACAAGCTGGATGCCTCGCTGAGCAAGCGAAAGAGGAAGTCT
CTGGGTGAGAAGATTGAGAAGCTGTTGAAGGATATCGACATGAAGGCCGA
CCAGATCTATGCATTGTACGATGTCCTTGAAGGCCAGAAGCAGAATGGCC
GTGAGATGACCGAGCAGGAGATGGAGGTGACTCTTCAGTCGATCGGAATT
GATACAGCAGGGCGGACAGCAGATGTCACTGCCACCACGGACAAGTCGTC
TCGCAAGGAACCGGACTCGGAAGACGACGATGAGCTCCCTTGGGAGGGAT
TTGAAAGTACGCTGGAGATGACGGGCAGGACTGGTGGAAGCCGTCGCAAC
TAGAACTGGATGCCGCCAACTTGGCTTTGCAGAATAAACTCGACATTATC
GAAAGAAAGGCCCAGATTCAGGAGTCGACTTTGAAACGGCTGAACCGAGA
GCGAGACATGGCGGTATCACAGTTGGGGGTTGCGTATTTGGAAAGTCAGG
ACCTCAAAAGCGAGAACGAGAGTCTGCGCCAGGAGAATGCAGACTTGAAG
TCGCAGATATCAAAGATCCTTTCCGCGGGCTCCAGAGCCCGTGACGATAC
GGTCGAGTCAGAGCAGTCTTCTATGACTGATGCAAGCGACGAGGATAGCC
AGCCTGATACGCAGCATAGCAGACATACGAGCCGAAGCACCAGGGAAGTT
ACCGGCAAGAGCTCGCGATCCAAGACTAGACGACAGGAGGACTCGCGCGC
CAAGATCTCGACGCAGGTTGACAAGGAAATATCCCGGCTTGAACAGGAGC
GTGCAGAAGAGGCACTATTTTCGATCGACGTCCCCCGCACCAGGGAGAAG
TCGAAGTCAAAATCAGGAAAATCCAAGAGCCGGTCGGAGAGCAGTGATGT
GAGCACCAGGAAGCAGTCAAACACTGGCAAACAGCGCGTCAAAAGAGTAG
TTGTCGAGGAGGTGGAGGAGACGGAGCCTGTTGAGTCGAGTGGGGAGGTT
ACTGGAAACACCAAGAAATCAAATGCAACTGAGCAGGACTTGACTCTGTT
GAGCTTCGTTGATCATCTCCATCGAGGCCGGACGAGGCCCGACGAAACCT
CCCCGTCGACTGGACGACTCGAGAAACTCCTACATGAGCATCGAAAACAG
CGTTCGCTCGTCGTCACCCGCCGTTAGACTCGATTATCCTACTTCTAATA
CCCCTCAAAAGTCCGCTCTGCGGAACCCGGCGAGAAGAGCGGTCAGCGAT
AGTCTCCGAAAGGATGCGCAAATCAGACGCGCCAGCCTTGCCCATAAGGA
GAACGTTGATCCTCACACAGCCAAGTCGAACCGCAAAGAGCGACGAACTT
TGTCAGACATGCACGCAAAGGTTCGCGATACATATGAAGGATCCCTGATT
GAGGACGAAAGACCTCCGGCTATGGCCAACAGTACGCGTCCGACACGTTT
TGGAAACCCCAACCTCTCTCATCAGATTGCCGATGCGGTGGAGAAGGCTT
CCCAGGAGGCTTATGCTCGCGAACTTCGTCGTGGAAAGTCTAGCACCAAC
TCGCGCAACATGGCCCACAATGCGGGTGATACGGCTACTCAGCAGTCATT
CCTACTACCGGATCTTCCGAACTTGTCTGAGTTGGTCTCGGGCGTCTATG
AAGACGGCACACCCGTGTATGCGCGTCAGAACAGAGCACGGACGACGCGC
TTTGTCTCCCCTCCACATGATGCTACTGATGTTTCGTTGACCCGCGAACA
CATGCCGCTAGATGCCGTCCCCATTCCGGAAGATGAGAAGGCACTCTTCG
TTTCATTGAGACTTTTGCAGGACAAGGTTGCAGAATTGGAGAGATCCAAG
TCTGACGCTGAACGGAGGTTGGATGACATGAAGCGGGAGAATGAGTCTTT
GAGGACAAACAAGTCACGCTCAAAGGACAAGCATGGCCGCAGCCGACCGT
ACGAATCCGAGGAGGATGACTACCGCAGAGATCAGCTTGCCAGCGATAAC
CAAAATGTCGCGCGAAGCAACAACGAACAGCTTCGCGTCATTTGGCTCCG
ACTTTGACCCTGAGCACGAGGCGCTCGCGTCCACCAAGGAGCTCGGTCAT
GGTAGCCCCCGGCTTCCGTCCATGCACACCAACGCCCGGAAGCGCCACGA
GTACGAGGAAGAAGAGCCCGATTATGCTTTCAACACATCCACCTTCGAGC
AATATTTACCAGATTTCTCCCCGGTCGGCACGAACGTGAAATTGCTCAAC
TACGAAAGACTCTGGAAGAGGAACGCCTGGCTCGGAAACGGCGGCAGTCG
AGTACAAGCAAAGAGCAGACTGCAAACGAGACCGGGAACACGACCCGGCA
GAGCTTGTCCAAGTCGACGATTCCCAGAAAGTCTTCCCTCAAGGAAAGCA
AGGGGTTGCCGTCTAGACCCGCCTCGGCCATGGGCGACTTGACCGCCAAC
TCCAAGGCTAGCATGACTGAAGGAGAAAGTAACTTGTCGGTGCCTGTCGA
ACGCCCCAGACGGCATTCGGACAACTCCGTGCCCGCTGCTTCTCAGCGAC
GCCGGCGGCGGATGGCCGAAGAGATGACTTCGGCCTTTATCCTGCCTGAT
ATCACATTCAACCCTGCGCATGTGGTGGATAACAACCTTGCAAAGCTTCC
TGAACCCGCTCAGCGTGCACTTGACAGTGCCACCAAGCACAATGGCAAAA
ACTGCACGGTCTGCAAGCAGACGATTCCGGGTGGTTCTTGTGATCACACC
GCAGAGGCAGTGAAGATTCCCAAGCCCGTTCCAGTCTCGGAGCGTATGCC
CGAGCCGTCTGTTTACAATGAGGAGCCTACCATGCGGCCCGCGCAATCGC
CGGAACTTGCCCTGGCGACCGTGCTCAAGGCCTTGGAAGATGAGCTGGCT
CATCTGAAGATGCAGCTGGTGGCATACCAGGGCTCATACAACAAGCTGGA
TGCCTCGCTGAGCAAGCGAAAGAGGAAGTCTCTGGGTGAGAAGATTGAGA
AGCTGTTGAAGGATATCGACATGAAGGCCGACCAGATCTATGCATTGTAC
GATGTCCTTGAAGGCCAGAAGCAGAATGGCCGTGAGATGACCGAGCAGGA
GATGGAGGTGACTCTTCAGTCGATCGGAATTGATACAGCAGGGCGGACAG
CAGATGTCACTGCCACCACGGACAAGTCGTCTCGCAAGGAACCGGACTCG
GAAGACGACGATGAGCTCCCTTGGGAGGGATTTGAAAGTACGCTGGAGAT
GACGGGCAGGACTGGTGGAAGCCGTCGCAACTAGAACTGGATGCCGCCAA
CTTGGCTTTGCAGAATAAACTCGACATTATCGAAAGAAAGGCCCAGATTC
AGGAGTCGACTTTGAAACGGCTGAACCGAGAGCGAGACATGGCGGTATCA
CAGTTGGGGGTTGCGTATTTGGAAAGTCAGGACCTCAAAAGCGAGAACGA
GAGTCTGCGCCAGGAGAATGCAGACTTGAAGTCGCAGATATCAAAGATCC
TTTCCGCGGGCTCCAGAGCCCGTGACGATACGGTCGAGTCAGAGCAGTCT
TCTATGACTGATGCAAGCGACGAGGATAGCCAGCCTGATACGCAGCATAG
CAGACATACGAGCCGAAGCACCAGGGAAGTTACCGGCAAGAGCTCGCGAT
CCAAGACTAGACGACAGGAGGACTCGCGCGCCAAGATCTCGACGCAGGTT
GACAAGGAAATATCCCGGCTTGAACAGGAGCGTGCAGAAGAGGCACTATT
TTCGATCGACGTCCCCCGCACCAGGGAGAAGTCGAAGTCAAAATCAGGAA
AATCCAAGAGCCGGTCGGAGAGCAGTGATGTGAGCACCAGGAAGCAGTCA
AACACTGGCAAACAGCGCGTCAAAAGAGTAGTTGTCGAGGAGGTGGAGGA
GACGGAGCCTGTTGAGTCGAGTGGGGAGGTTACTGGAAACACCAAGAAAT
CAAATGCAACTGAGCAGGACTTGACTCTGTTGAGCTTCGTTGATCATCTC
CATCGAGGCCGGACGAGGCCCGACGAAACCTCCCCGTCGACTGGACGACT
CGAGAAACTCCTACATGAGCATCGAAAACAGCGTTCGCTCGTCGTCACCC
GCCGTTAGACTCGATTATCCTACTTCTAATACCCCTCAAAAGTCCGCTCT
GCGGAACCCGGCGAGAAGAGCGGTCAGCGATAGTCTCCGAAAGGATGCGC
AAATCAGACGCGCCAGCCTTGCCCATAAGGAGAACGTTGATCCTCACACA
GCCAAGTCGAACCGCAAAGAGCGACGAACTTTGTCAGACATGCACGCAAA
GGTTCGCGATACATATGAAGGATCCCTGATTGAGGACGAAAGACCTCCGG
CTATGGCCAACAGTACGCGTCCGACACGTTTTGGAAACCCCAACCTCTCT
CATCAGATTGCCGATGCGGTGGAGAAGGCTTCCCAGGAGGCTTATGCTCG
CGAACTTCGTCGTGGAAAGTCTAGCACCAACTCGCGCAACATGGCCCACA
ATGCGGGTGATACGGCTACTCAGCAGTCATTCCTACTACCGGATCTTCCG
AACTTGTCTGAGTTGGTCTCGGGCGTCTATGAAGACGGCACACCCGTGTA
TGCGCGTCAGAACAGAGCACGGACGACGCGCTTTGTCTCCCCTCCACATG
ATGCTACTGATGTTTCGTTGACCCGCGAACACATGCCGCTAGATGCCGTC
CCCATTCCGGAAGATGAGAAGGCACTCTTCGTTTCATTGAGACTTTTGCA
GGACAAGGTTGCAGAATTGGAGAGATCCAAGTCTGACGCTGAACGGAGGT
TGGATGACATGAAGCGGGAGAATGAGTCTTTGAGGACAAACAAGTCACGC
TCAAAGGACAAGCATGGCCGCAGCCGACCGTACGAATCCGAGGAGGATGA
CTACCGCAGAGATCAGCTTGCCAGCGATAACCAAAATGTCGCGCGAAGCA
ACAACGAACAGCTTCGCGTCATTTGGCTCCGACTTTGACCCTGAGCACGA
GGCGCTCGCGTCCACCAAGGAGCTCGGTCATGGTAGCCCCCGGCTTCCGT
CCATGCACACCAACGCCCGGAAGCGCCACGAGTACGAGGAAGAAGAGCCC
GATTATGCTTTCAACACATCCACCTTCGAGCAATATTTACCAGATTTCTC
CCCGGTCGGCACGAACGTGAAATTGCTCAACTACGAAAGACTCTGGAAGA
GGAACGCCTGGCTCGGAAACGGCGGCAGTCGAGTACAAGCAAAGAGCAGA
CTGCAAACGAGACCGGGAACACGACCCGGCAGAGCTTGTCCAAGTCGACG
ATTCCCAGAAAGTCTTCCCTCAAGGAAAGCAAGGGGTTGCCGTCTAGACC
CGCCTCGGCCATGGGCGACTTGACCGCCAACTCCAAGGCTAGCATGACTG
AAGGAGAAAGTAACTTGTCGGTGCCTGTCGAACGCCCCAGACGGCATTCG
GACAACTCCGTGCCCGCTGCTTCTCAGCGACGCCGGCGGCGGATGGCCGA
AGAGATGACTTCGGCCTTTATCCTGCCTGATATCACATTCAACCCTGCGC
ATGTGGTGGATAACAACCTTGCAAAGCTTCCTGAACCCGCTCAGCGTGCA
CTTGACAGTGCCACCAAGCACAATGGCAAAAACTGCACGGTCTGCAAGCA
GACGATTCCGGGTGGTTCTTGTGATCACACCGCAGAGGCAGTGAAGATTC
CCAAGCCCGTTCCAGTCTCGGAGCGTATGCCCGAGCCGTCTGTTTACAAT
GAGGAGCCTACCATGCGGCCCGCGCAATCGCCGGAACTTGCCCTGGCGAC
CGTGCTCAAGGCCTTGGAAGATGAGCTGGCTCATCTGAAGATGCAGCTGG
TGGCATACCAGGGCTCATACAACAAGCTGGATGCCTCGCTGAGCAAGCGA
AAGAGGAAGTCTCTGGGTGAGAAGATTGAGAAGCTGTTGAAGGATATCGA
CATGAAGGCCGACCAGATCTATGCATTGTACGATGTCCTTGAAGGCCAGA
AGCAGAATGGCCGTGAGATGACCGAGCAGGAGATGGAGGTGACTCTTCAG
TCGATCGGAATTGATACAGCAGGGCGGACAGCAGATGTCACTGCCACCAC
GGACAAGTCGTCTCGCAAGGAACCGGACTCGGAAGACGACGATGAGCTCC
CTTGGGAGGGATTTGAAAGTACGCTGGAGATGACGGGCAGGACTGGTGGA
AGCCGTCGCAACTAGAACTGGATGCCGCCAACTTGGCTTTGCAGAATAAA
CTCGACATTATCGAAAGAAAGGCCCAGATTCAGGAGTCGACTTTGAAACG
GCTGAACCGAGAGCGAGACATGGCGGTATCACAGTTGGGGGTTGCGTATT
TGGAAAGTCAGGACCTCAAAAGCGAGAACGAGAGTCTGCGCCAGGAGAAT
GCAGACTTGAAGTCGCAGATATCAAAGATCCTTTCCGCGGGCTCCAGAGC
CCGTGACGATACGGTCGAGTCAGAGCAGTCTTCTATGACTGATGCAAGCG
ACGAGGATAGCCAGCCTGATACGCAGCATAGCAGACATACGAGCCGAAGC
ACCAGGGAAGTTACCGGCAAGAGCTCGCGATCCAAGACTAGACGACAGGA
GGACTCGCGCGCCAAGATCTCGACGCAGGTTGACAAGGAAATATCCCGGC
TTGAACAGGAGCGTGCAGAAGAGGCACTATTTTCGATCGACGTCCCCCGC
ACCAGGGAGAAGTCGAAGTCAAAATCAGGAAAATCCAAGAGCCGGTCGGA
GAGCAGTGATGTGAGCACCAGGAAGCAGTCAAACACTGGCAAACAGCGCG
TCAAAAGAGTAGTTGTCGAGGAGGTGGAGGAGACGGAGCCTGTTGAGTCG
AGTGGGGAGGTTACTGGAAACACCAAGAAATCAAATGCAACTGAGCAGGA
CTTGACTCTGTTGAGCTTCGTTGATCATCTCCATCGAGGCCGGACGAGGC
CCGACGAAACCTCCCCGTCGACTGGACGACTCGAGAAACTCCTACATGAG
CATCGAAAACAGCGTTCGCTCGTCGTCACCCGCCGTTAGACTCGATTATC
CTACTTCTAATACCCCTCAAAAGTCCGCTCTGCGGAACCCGGCGAGAAGA
GCGGTCAGCGATAGTCTCCGAAAGGATGCGCAAATCAGACGCGCCAGCCT
TGCCCATAAGGAGAACGTTGATCCTCACACAGCCAAGTCGAACCGCAAAG
AGCGACGAACTTTGTCAGACATGCACGCAAAGGTTCGCGATACATATGAA
GGATCCCTGATTGAGGACGAAAGACCTCCGGCTATGGCCAACAGTACGCG
TCCGACACGTTTTGGAAACCCCAACCTCTCTCATCAGATTGCCGATGCGG
TGGAGAAGGCTTCCCAGGAGGCTTATGCTCGCGAACTTCGTCGTGGAAAG
TCTAGCACCAACTCGCGCAACATGGCCCACAATGCGGGTGATACGGCTAC
TCAGCAGTCATTCCTACTACCGGATCTTCCGAACTTGTCTGAGTTGGTCT
CGGGCGTCTATGAAGACGGCACACCCGTGTATGCGCGTCAGAACAGAGCA
CGGACGACGCGCTTTGTCTCCCCTCCACATGATGCTACTGATGTTTCGTT
GACCCGCGAACACATGCCGCTAGATGCCGTCCCCATTCCGGAAGATGAGA
AGGCACTCTTCGTTTCATTGAGACTTTTGCAGGACAAGGTTGCAGAATTG
GAGAGATCCAAGTCTGACGCTGAACGGAGGTTGGATGACATGAAGCGGGA
GAATGAGTCTTTGAGGACAAACAAGTCACGCTCAAAGGACAAGCATGGCC
GCAGCCGACCGTACGAATCCGAGGAGGATGACTACCGCAGAGATCAGCTT
GCCAGCGATAACCAAAATGTCGCGCGAAGCAACAACGAACAGCTTCGCGT
CATTTGGCTCCGACTTTGACCCTGAGCACGAGGCGCTCGCGTCCACCAAG
GAGCTCGGTCATGGTAGCCCCCGGCTTCCGTCCATGCACACCAACGCCCG
GAAGCGCCACGAGTACGAGGAAGAAGAGCCCGATTATGCTTTCAACACAT
CCACCTTCGAGCAATATTTACCAGATTTCTCCCCGGTCGGCACGAACGTG
AAATTGCTCAACTACGAAAGACTCTGGAAGAGGAACGCCTGGCTCGGAAA
CGGCGGCAGTCGAGTACAAGCAAAGAGCAGACTGCAAACGAGACCGGGAA
CACGACCCGGCAGAGCTTGTCCAAGTCGACGATTCCCAGAAAGTCTTCCC
TCAAGGAAAGCAAGGGGTTGCCGTCTAGACCCGCCTCGGCCATGGGCGAC
TTGACCGCCAACTCCAAGGCTAGCATGACTGAAGGAGAAAGTAACTTGTC
GGTGCCTGTCGAACGCCCCAGACGGCATTCGGACAACTCCGTGCCCGCTG
CTTCTCAGCGACGCCGGCGGCGGATGGCCGAAGAGATGACTTCGGCCTTT
ATCCTGCCTGATATCACATTCAACCCTGCGCATGTGGTGGATAACAACCT
TGCAAAGCTTCCTGAACCCGCTCAGCGTGCACTTGACAGTGCCACCAAGC
ACAATGGCAAAAACTGCACGGTCTGCAAGCAGACGATTCCGGGTGGTTCT
TGTGATCACACCGCAGAGGCAGTGAAGATTCCCAAGCCCGTTCCAGTCTC
GGAGCGTATGCCCGAGCCGTCTGTTTACAATGAGGAGCCTACCATGCGGC
CCGCGCAATCGCCGGAACTTGCCCTGGCGACCGTGCTCAAGGCCTTGGAA
GATGAGCTGGCTCATCTGAAGATGCAGCTGGTGGCATACCAGGGCTCATA
CAACAAGCTGGATGCCTCGCTGAGCAAGCGAAAGAGGAAGTCTCTGGGTG
AGAAGATTGAGAAGCTGTTGAAGGATATCGACATGAAGGCCGACCAGATC
TATGCATTGTACGATGTCCTTGAAGGCCAGAAGCAGAATGGCCGTGAGAT
GACCGAGCAGGAGATGGAGGTGACTCTTCAGTCGATCGGAATTGATACAG
CAGGGCGGACAGCAGATGTCACTGCCACCACGGACAAGTCGTCTCGCAAG
GAACCGGACTCGGAAGACGACGATGAGCTCCCTTGGGAGGGATTTGAAAG
TACGCTGGAGATGACGGGCAGGACTGGTGGAAGCCGTCGCAACTAGAACT
GGATGCCGCCAACTTGGCTTTGCAGAATAAACTCGACATTATCGAAAGAA
AGGCCCAGATTCAGGAGTCGACTTTGAAACGGCTGAACCGAGAGCGAGAC
ATGGCGGTATCACAGTTGGGGGTTGCGTATTTGGAAAGTCAGGACCTCAA
AAGCGAGAACGAGAGTCTGCGCCAGGAGAATGCAGACTTGAAGTCGCAGA
TATCAAAGATCCTTTCCGCGGGCTCCAGAGCCCGTGACGATACGGTCGAG
TCAGAGCAGTCTTCTATGACTGATGCAAGCGACGAGGATAGCCAGCCTGA
TACGCAGCATAGCAGACATACGAGCCGAAGCACCAGGGAAGTTACCGGCA
AGAGCTCGCGATCCAAGACTAGACGACAGGAGGACTCGCGCGCCAAGATC
TCGACGCAGGTTGACAAGGAAATATCCCGGCTTGAACAGGAGCGTGCAGA
AGAGGCACTATTTTCGATCGACGTCCCCCGCACCAGGGAGAAGTCGAAGT
CAAAATCAGGAAAATCCAAGAGCCGGTCGGAGAGCAGTGATGTGAGCACC
AGGAAGCAGTCAAACACTGGCAAACAGCGCGTCAAAAGAGTAGTTGTCGA
GGAGGTGGAGGAGACGGAGCCTGTTGAGTCGAGTGGGGAGGTTACTGGAA
ACACCAAGAAATCAAATGCAACTGAGCAGGACTTGACTCTGTTGAGCTTC
GTTGATCATCTCCATCGAGGCCGGACGAGGCCCGACGAAACCTCCCCGTC
GACTGGACGACTCGAGAAACTCCTACATGAGCATCGAAAACAGCGTTCGC
TCGTCGTCACCCGCCGTTAGACTCGATTATCCTACTTCTAATACCCCTCA
AAAGTCCGCTCTGCGGAACCCGGCGAGAAGAGCGGTCAGCGATAGTCTCC
GAAAGGATGCGCAAATCAGACGCGCCAGCCTTGCCCATAAGGAGAACGTT
GATCCTCACACAGCCAAGTCGAACCGCAAAGAGCGACGAACTTTGTCAGA
CATGCACGCAAAGGTTCGCGATACATATGAAGGATCCCTGATTGAGGACG
AAAGACCTCCGGCTATGGCCAACAGTACGCGTCCGACACGTTTTGGAAAC
CCCAACCTCTCTCATCAGATTGCCGATGCGGTGGAGAAGGCTTCCCAGGA
GGCTTATGCTCGCGAACTTCGTCGTGGAAAGTCTAGCACCAACTCGCGCA
ACATGGCCCACAATGCGGGTGATACGGCTACTCAGCAGTCATTCCTACTA
CCGGATCTTCCGAACTTGTCTGAGTTGGTCTCGGGCGTCTATGAAGACGG
CACACCCGTGTATGCGCGTCAGAACAGAGCACGGACGACGCGCTTTGTCT
CCCCTCCACATGATGCTACTGATGTTTCGTTGACCCGCGAACACATGCCG
CTAGATGCCGTCCCCATTCCGGAAGATGAGAAGGCACTCTTCGTTTCATT
GAGACTTTTGCAGGACAAGGTTGCAGAATTGGAGAGATCCAAGTCTGACG
CTGAACGGAGGTTGGATGACATGAAGCGGGAGAATGAGTCTTTGAGGACA
AACAAGTCACGCTCAAAGGACAAGCATGGCCGCAGCCGACCGTACGAATC
CGAGGAGGATGACTACCGCAGAGATCAGCTTGCCAGCGATAACCAAAATG
TCGCGCGAAGCAACAACGAACAGCTTCGCGTCATTTGGCTCCGACTTTGA
CCCTGAGCACGAGGCGCTCGCGTCCACCAAGGAGCTCGGTCATGGTAGCC
CCCGGCTTCCGTCCATGCACACCAACGCCCGGAAGCGCCACGAGTACGAG
GAAGAAGAGCCCGATTATGCTTTCAACACATCCACCTTCGAGCAATATTT
ACCAGATTTCTCCCCGGTCGGCAC
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0008017microtubule binding
Relationships

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

Feature NameUnique NameSpeciesType
CAN33_5350CAN33_5350Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_5350-T1CAN33_5350-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_5350-T1.cdsCAN33_5350-T1.cdsAspergillus niger FDAARGOS_311CDS


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

Feature NameUnique NameSpeciesType
CAN33_5350-T1.exon4CAN33_5350-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_5350-T1.exon3CAN33_5350-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_5350-T1.exon2CAN33_5350-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_5350-T1.exon1CAN33_5350-T1.exon1Aspergillus niger FDAARGOS_311exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR025925
DBxrefInterPro:IPR024957
DBxrefPFAM:PF06657
DBxrefPFAM:PF14197
ProductCentrosome microtubule-binding domain of Cep57 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
NKJJ01000019.1supercontigNKJJ01000019.1:966762..969835 -
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