ATCC64974_54090-T1, ATCC64974_54090-T1 (mRNA) Aspergillus niger N402

Overview


Name	ATCC64974_54090-T1
Unique Name	ATCC64974_54090-T1
Type	mRNA
Organism	Aspergillus niger N402

Sequences

The following sequences are available for this feature:

mRNA from alignment at OGUI01000007.1:3525611..3527709-
coding sequence from alignment at OGUI01000007.1:3525611..3527709-

mRNA from alignment at OGUI01000007.1:3525611..3527709-

Legend: polypeptideCDSexon

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

>ATCC64974_54090-T1 ID=ATCC64974_54090-T1|Name=ATCC64974_54090-T1|organism=Aspergillus niger N402|type=mRNA|length=2099bp|location=Sequence derived from alignment at OGUI01000007.1:3525611..3527709- (Aspergillus niger N402)
ATGGAGGACGACATGTCAGGTCATTATCAGATGCTGGAGGAGCTAGGAAG
TGAGTGGTCCTGCGGAATGTGTCAGTGGAGGCAATCGCATCGGGAACTGA
CCGTTTGCACCTGCAGGTGGAAGTTTTGGGACGGTGTACAAAGCCATTGA
AAAGGCTACCGGAGAGATTGTGGCGATTAAGCATGTGCGTGTGACTCTGC
ATGGCTTTTTGGCCCGGTGAACGTATCAATTTACTGACATACATCTCCCC
GGTTACAGATCGATCTCGAATCCAGTGAAGATGATATCCAAGAAATCCAG
CAGGAAATCTCCGTCCTCGCCACCTGTGCTAGCCAGTTTGTGACGCAATA
CAAGGCGAGTTTTCTGAGAGGTCATAAGCTGTGGATTGTGATGGAGTATC
TCGGTGGTGGATCCTGTCTGGACCTGGTAACCCATGAGTGACCTGTCGAT
TCTGGATGCGCTTCGCTAACCACTTCCAGCTGAAACCCGGCGTTTTTAAC
GAAGCCCACGTCGCCATTATTTGCCAGCAGCTGCTGCTGGGTCTGGATTA
CCTGCACAGCGAAGGCAAGATCCACCGCGACATCAAGGCCGCCAATGTGC
TTCTGTCGCATACCGGAAAGGTCAAGCTGGCGGATTTCGGCGTGGCCGCA
CAATTAATCAACATCAAATCCCAACGCAACACCTTTGTCGGAACGCCGTT
CTGGATGGCGCCCGAAGTGATCCAGCAGGCTGGATACGACTACAAAGCGG
ATATCTGGTCCCTGGGTATTACGGCGATCGAGATGATCAACGGCGAGCCG
CCACACGCCAGCACTCACCCCATGAAAGTGCTTTTCCTGATTCCCAAGGA
ACCTGCCCCCCGCTTGCAAGGCGACGACTATAGCAACACCTTCAAAGACT
TTATCGCACAATGTTTGACCAAGGACCCCGACCGAAGACCGAGCGCCAAG
GATCTCCTGAGACACAAATTCATCCGAAATGCGGGGAAGACGGAGGCTTT
ACAGGAACTGATTCACCGGAGGCAGGACTGGGATGCTGGTCGGGGTGTGA
CACACAAGGTGAAGTACTATGCAGAGTCTCTGTAAGTGGCCCGCCCGCGA
ACACACATCACATCCACTAACTACTTTGCGGCAGCAATACGATTCGGAAT
CTGGATGATGATGACGGATGGGTCTTTGATACCGTGAAAGCCCCAACAAT
GGCTATCCGCGAAGAGCCTGACGACTTTGAGAACGAGCCTGAACCCCAGG
ATTGGGTGTTTGACGAAGCCTCCGAGCTGATGGACGACTTGCACATCTCT
AGCCCACCTCTTCCACCAAAGCATGCAACGAATACCGCCGTGAGACGGAC
ACCGGCCCCCGAACGCAGTCCATCCTTGCGGCGTGCCAAGCGGCGATCCA
GCGGCGTGAAGCAACCTCTGGGCGTGGACATGAGCTTTGGGAACAGCCCA
TCGACCGTCCGTCAATTCCGTCGGGTGTCGGATAAGGTCCCAGCCGACGC
TTCGTACCCTCCGCAGTATTCCTACACGGACGAAAATGCCAGTCCCAAGA
CGCTCTTCTCCGAGCCCAACAGCAAGGAAGCACAGCTGGGCCGTCGCGCA
TACAGCAAGGCGGTGGGACTTGCCTGTCAGGAGGTGTTGGGCACGACGGG
AGATGACGAGAAGCGCGAGGCCATTTCACGGCTGGCCGAGGCGTGGAGTG
ATCTGGAAATGATCGACCCCGAGGGTCTGTATCATATCGTGAGGGCGATG
ACGGAGCGACTGCAAGGGTAAGTGGCGATTTTTCCTGCAGCGAATGGCAA
GGGAAGCTGATTGAAATGGCGGTTACTCTAGCGACCCCAAGTTGGCCAGC
CTCGTCCCACCTGCTCCACCGGCCGAGTCCCCACAGAGGCCGCGACTGGT
TCTGGCACAAAACAACCCACATCTGAAAAGCCACCGGCGCCGCCAGAGTG
CGGCAGTGGCCGAGTCCAACCTGCAGCCGGCGCAGCTGGCGAATCTCCCG
GGCCAGCAAGTACCGGGCATGGAGCACACGAAGCAGTTGTCCGATGTGCT
GTATCAACGATGGTCGGAAGGCCTCCGCAACCGCTGGCCGGGGATCTAA

Coding sequence (CDS) from alignment at OGUI01000007.1:3525611..3527709-

>ATCC64974_54090-T1 ID=ATCC64974_54090-T1|Name=ATCC64974_54090-T1|organism=Aspergillus niger N402|type=CDS|length=10728bp|location=Sequence derived from alignment at OGUI01000007.1:3525611..3527709- (Aspergillus niger N402)
CGACCCCAAGTTGGCCAGCCTCGTCCCACCTGCTCCACCGGCCGAGTCCC
CACAGAGGCCGCGACTGGTTCTGGCACAAAACAACCCACATCTGAAAAGC
CACCGGCGCCGCCAGAGTGCGGCAGTGGCCGAGTCCAACCTGCAGCCGGC
GCAGCTGGCGAATCTCCCGGGCCAGCAAGTACCGGGCATGGAGCACACGA
AGCAGTTGTCCGATGTGCTGTATCAACGATGGTCGGAAGGCCTCCGCAAC
CGCTGGCCGGGGATCTAACAATACGATTCGGAATCTGGATGATGATGACG
GATGGGTCTTTGATACCGTGAAAGCCCCAACAATGGCTATCCGCGAAGAG
CCTGACGACTTTGAGAACGAGCCTGAACCCCAGGATTGGGTGTTTGACGA
AGCCTCCGAGCTGATGGACGACTTGCACATCTCTAGCCCACCTCTTCCAC
CAAAGCATGCAACGAATACCGCCGTGAGACGGACACCGGCCCCCGAACGC
AGTCCATCCTTGCGGCGTGCCAAGCGGCGATCCAGCGGCGTGAAGCAACC
TCTGGGCGTGGACATGAGCTTTGGGAACAGCCCATCGACCGTCCGTCAAT
TCCGTCGGGTGTCGGATAAGGTCCCAGCCGACGCTTCGTACCCTCCGCAG
TATTCCTACACGGACGAAAATGCCAGTCCCAAGACGCTCTTCTCCGAGCC
CAACAGCAAGGAAGCACAGCTGGGCCGTCGCGCATACAGCAAGGCGGTGG
GACTTGCCTGTCAGGAGGTGTTGGGCACGACGGGAGATGACGAGAAGCGC
GAGGCCATTTCACGGCTGGCCGAGGCGTGGAGTGATCTGGAAATGATCGA
CCCCGAGGGTCTGTATCATATCGTGAGGGCGATGACGGAGCGACTGCAAG
GCTGAAACCCGGCGTTTTTAACGAAGCCCACGTCGCCATTATTTGCCAGC
AGCTGCTGCTGGGTCTGGATTACCTGCACAGCGAAGGCAAGATCCACCGC
GACATCAAGGCCGCCAATGTGCTTCTGTCGCATACCGGAAAGGTCAAGCT
GGCGGATTTCGGCGTGGCCGCACAATTAATCAACATCAAATCCCAACGCA
ACACCTTTGTCGGAACGCCGTTCTGGATGGCGCCCGAAGTGATCCAGCAG
GCTGGATACGACTACAAAGCGGATATCTGGTCCCTGGGTATTACGGCGAT
CGAGATGATCAACGGCGAGCCGCCACACGCCAGCACTCACCCCATGAAAG
TGCTTTTCCTGATTCCCAAGGAACCTGCCCCCCGCTTGCAAGGCGACGAC
TATAGCAACACCTTCAAAGACTTTATCGCACAATGTTTGACCAAGGACCC
CGACCGAAGACCGAGCGCCAAGGATCTCCTGAGACACAAATTCATCCGAA
ATGCGGGGAAGACGGAGGCTTTACAGGAACTGATTCACCGGAGGCAGGAC
TGGGATGCTGGTCGGGGTGTGACACACAAGGTGAAGTACTATGCAGAGTC
TCTATCGATCTCGAATCCAGTGAAGATGATATCCAAGAAATCCAGCAGGA
AATCTCCGTCCTCGCCACCTGTGCTAGCCAGTTTGTGACGCAATACAAGG
CGAGTTTTCTGAGAGGTCATAAGCTGTGGATTGTGATGGAGTATCTCGGT
GGTGGATCCTGTCTGGACCTGGTGGAAGTTTTGGGACGGTGTACAAAGCC
ATTGAAAAGGCTACCGGAGAGATTGTGGCGATTAAGCATATGGAGGACGA
CATGTCAGGTCATTATCAGATGCTGGAGGAGCTAGGAACGACCCCAAGTT
GGCCAGCCTCGTCCCACCTGCTCCACCGGCCGAGTCCCCACAGAGGCCGC
GACTGGTTCTGGCACAAAACAACCCACATCTGAAAAGCCACCGGCGCCGC
CAGAGTGCGGCAGTGGCCGAGTCCAACCTGCAGCCGGCGCAGCTGGCGAA
TCTCCCGGGCCAGCAAGTACCGGGCATGGAGCACACGAAGCAGTTGTCCG
ATGTGCTGTATCAACGATGGTCGGAAGGCCTCCGCAACCGCTGGCCGGGG
ATCTAACAATACGATTCGGAATCTGGATGATGATGACGGATGGGTCTTTG
ATACCGTGAAAGCCCCAACAATGGCTATCCGCGAAGAGCCTGACGACTTT
GAGAACGAGCCTGAACCCCAGGATTGGGTGTTTGACGAAGCCTCCGAGCT
GATGGACGACTTGCACATCTCTAGCCCACCTCTTCCACCAAAGCATGCAA
CGAATACCGCCGTGAGACGGACACCGGCCCCCGAACGCAGTCCATCCTTG
CGGCGTGCCAAGCGGCGATCCAGCGGCGTGAAGCAACCTCTGGGCGTGGA
CATGAGCTTTGGGAACAGCCCATCGACCGTCCGTCAATTCCGTCGGGTGT
CGGATAAGGTCCCAGCCGACGCTTCGTACCCTCCGCAGTATTCCTACACG
GACGAAAATGCCAGTCCCAAGACGCTCTTCTCCGAGCCCAACAGCAAGGA
AGCACAGCTGGGCCGTCGCGCATACAGCAAGGCGGTGGGACTTGCCTGTC
AGGAGGTGTTGGGCACGACGGGAGATGACGAGAAGCGCGAGGCCATTTCA
CGGCTGGCCGAGGCGTGGAGTGATCTGGAAATGATCGACCCCGAGGGTCT
GTATCATATCGTGAGGGCGATGACGGAGCGACTGCAAGGCTGAAACCCGG
CGTTTTTAACGAAGCCCACGTCGCCATTATTTGCCAGCAGCTGCTGCTGG
GTCTGGATTACCTGCACAGCGAAGGCAAGATCCACCGCGACATCAAGGCC
GCCAATGTGCTTCTGTCGCATACCGGAAAGGTCAAGCTGGCGGATTTCGG
CGTGGCCGCACAATTAATCAACATCAAATCCCAACGCAACACCTTTGTCG
GAACGCCGTTCTGGATGGCGCCCGAAGTGATCCAGCAGGCTGGATACGAC
TACAAAGCGGATATCTGGTCCCTGGGTATTACGGCGATCGAGATGATCAA
CGGCGAGCCGCCACACGCCAGCACTCACCCCATGAAAGTGCTTTTCCTGA
TTCCCAAGGAACCTGCCCCCCGCTTGCAAGGCGACGACTATAGCAACACC
TTCAAAGACTTTATCGCACAATGTTTGACCAAGGACCCCGACCGAAGACC
GAGCGCCAAGGATCTCCTGAGACACAAATTCATCCGAAATGCGGGGAAGA
CGGAGGCTTTACAGGAACTGATTCACCGGAGGCAGGACTGGGATGCTGGT
CGGGGTGTGACACACAAGGTGAAGTACTATGCAGAGTCTCTATCGATCTC
GAATCCAGTGAAGATGATATCCAAGAAATCCAGCAGGAAATCTCCGTCCT
CGCCACCTGTGCTAGCCAGTTTGTGACGCAATACAAGGCGAGTTTTCTGA
GAGGTCATAAGCTGTGGATTGTGATGGAGTATCTCGGTGGTGGATCCTGT
CTGGACCTGGTGGAAGTTTTGGGACGGTGTACAAAGCCATTGAAAAGGCT
ACCGGAGAGATTGTGGCGATTAAGCATATGGAGGACGACATGTCAGGTCA
TTATCAGATGCTGGAGGAGCTAGGAACGACCCCAAGTTGGCCAGCCTCGT
CCCACCTGCTCCACCGGCCGAGTCCCCACAGAGGCCGCGACTGGTTCTGG
CACAAAACAACCCACATCTGAAAAGCCACCGGCGCCGCCAGAGTGCGGCA
GTGGCCGAGTCCAACCTGCAGCCGGCGCAGCTGGCGAATCTCCCGGGCCA
GCAAGTACCGGGCATGGAGCACACGAAGCAGTTGTCCGATGTGCTGTATC
AACGATGGTCGGAAGGCCTCCGCAACCGCTGGCCGGGGATCTAACAATAC
GATTCGGAATCTGGATGATGATGACGGATGGGTCTTTGATACCGTGAAAG
CCCCAACAATGGCTATCCGCGAAGAGCCTGACGACTTTGAGAACGAGCCT
GAACCCCAGGATTGGGTGTTTGACGAAGCCTCCGAGCTGATGGACGACTT
GCACATCTCTAGCCCACCTCTTCCACCAAAGCATGCAACGAATACCGCCG
TGAGACGGACACCGGCCCCCGAACGCAGTCCATCCTTGCGGCGTGCCAAG
CGGCGATCCAGCGGCGTGAAGCAACCTCTGGGCGTGGACATGAGCTTTGG
GAACAGCCCATCGACCGTCCGTCAATTCCGTCGGGTGTCGGATAAGGTCC
CAGCCGACGCTTCGTACCCTCCGCAGTATTCCTACACGGACGAAAATGCC
AGTCCCAAGACGCTCTTCTCCGAGCCCAACAGCAAGGAAGCACAGCTGGG
CCGTCGCGCATACAGCAAGGCGGTGGGACTTGCCTGTCAGGAGGTGTTGG
GCACGACGGGAGATGACGAGAAGCGCGAGGCCATTTCACGGCTGGCCGAG
GCGTGGAGTGATCTGGAAATGATCGACCCCGAGGGTCTGTATCATATCGT
GAGGGCGATGACGGAGCGACTGCAAGGCTGAAACCCGGCGTTTTTAACGA
AGCCCACGTCGCCATTATTTGCCAGCAGCTGCTGCTGGGTCTGGATTACC
TGCACAGCGAAGGCAAGATCCACCGCGACATCAAGGCCGCCAATGTGCTT
CTGTCGCATACCGGAAAGGTCAAGCTGGCGGATTTCGGCGTGGCCGCACA
ATTAATCAACATCAAATCCCAACGCAACACCTTTGTCGGAACGCCGTTCT
GGATGGCGCCCGAAGTGATCCAGCAGGCTGGATACGACTACAAAGCGGAT
ATCTGGTCCCTGGGTATTACGGCGATCGAGATGATCAACGGCGAGCCGCC
ACACGCCAGCACTCACCCCATGAAAGTGCTTTTCCTGATTCCCAAGGAAC
CTGCCCCCCGCTTGCAAGGCGACGACTATAGCAACACCTTCAAAGACTTT
ATCGCACAATGTTTGACCAAGGACCCCGACCGAAGACCGAGCGCCAAGGA
TCTCCTGAGACACAAATTCATCCGAAATGCGGGGAAGACGGAGGCTTTAC
AGGAACTGATTCACCGGAGGCAGGACTGGGATGCTGGTCGGGGTGTGACA
CACAAGGTGAAGTACTATGCAGAGTCTCTATCGATCTCGAATCCAGTGAA
GATGATATCCAAGAAATCCAGCAGGAAATCTCCGTCCTCGCCACCTGTGC
TAGCCAGTTTGTGACGCAATACAAGGCGAGTTTTCTGAGAGGTCATAAGC
TGTGGATTGTGATGGAGTATCTCGGTGGTGGATCCTGTCTGGACCTGGTG
GAAGTTTTGGGACGGTGTACAAAGCCATTGAAAAGGCTACCGGAGAGATT
GTGGCGATTAAGCATATGGAGGACGACATGTCAGGTCATTATCAGATGCT
GGAGGAGCTAGGAACGACCCCAAGTTGGCCAGCCTCGTCCCACCTGCTCC
ACCGGCCGAGTCCCCACAGAGGCCGCGACTGGTTCTGGCACAAAACAACC
CACATCTGAAAAGCCACCGGCGCCGCCAGAGTGCGGCAGTGGCCGAGTCC
AACCTGCAGCCGGCGCAGCTGGCGAATCTCCCGGGCCAGCAAGTACCGGG
CATGGAGCACACGAAGCAGTTGTCCGATGTGCTGTATCAACGATGGTCGG
AAGGCCTCCGCAACCGCTGGCCGGGGATCTAACAATACGATTCGGAATCT
GGATGATGATGACGGATGGGTCTTTGATACCGTGAAAGCCCCAACAATGG
CTATCCGCGAAGAGCCTGACGACTTTGAGAACGAGCCTGAACCCCAGGAT
TGGGTGTTTGACGAAGCCTCCGAGCTGATGGACGACTTGCACATCTCTAG
CCCACCTCTTCCACCAAAGCATGCAACGAATACCGCCGTGAGACGGACAC
CGGCCCCCGAACGCAGTCCATCCTTGCGGCGTGCCAAGCGGCGATCCAGC
GGCGTGAAGCAACCTCTGGGCGTGGACATGAGCTTTGGGAACAGCCCATC
GACCGTCCGTCAATTCCGTCGGGTGTCGGATAAGGTCCCAGCCGACGCTT
CGTACCCTCCGCAGTATTCCTACACGGACGAAAATGCCAGTCCCAAGACG
CTCTTCTCCGAGCCCAACAGCAAGGAAGCACAGCTGGGCCGTCGCGCATA
CAGCAAGGCGGTGGGACTTGCCTGTCAGGAGGTGTTGGGCACGACGGGAG
ATGACGAGAAGCGCGAGGCCATTTCACGGCTGGCCGAGGCGTGGAGTGAT
CTGGAAATGATCGACCCCGAGGGTCTGTATCATATCGTGAGGGCGATGAC
GGAGCGACTGCAAGGCTGAAACCCGGCGTTTTTAACGAAGCCCACGTCGC
CATTATTTGCCAGCAGCTGCTGCTGGGTCTGGATTACCTGCACAGCGAAG
GCAAGATCCACCGCGACATCAAGGCCGCCAATGTGCTTCTGTCGCATACC
GGAAAGGTCAAGCTGGCGGATTTCGGCGTGGCCGCACAATTAATCAACAT
CAAATCCCAACGCAACACCTTTGTCGGAACGCCGTTCTGGATGGCGCCCG
AAGTGATCCAGCAGGCTGGATACGACTACAAAGCGGATATCTGGTCCCTG
GGTATTACGGCGATCGAGATGATCAACGGCGAGCCGCCACACGCCAGCAC
TCACCCCATGAAAGTGCTTTTCCTGATTCCCAAGGAACCTGCCCCCCGCT
TGCAAGGCGACGACTATAGCAACACCTTCAAAGACTTTATCGCACAATGT
TTGACCAAGGACCCCGACCGAAGACCGAGCGCCAAGGATCTCCTGAGACA
CAAATTCATCCGAAATGCGGGGAAGACGGAGGCTTTACAGGAACTGATTC
ACCGGAGGCAGGACTGGGATGCTGGTCGGGGTGTGACACACAAGGTGAAG
TACTATGCAGAGTCTCTATCGATCTCGAATCCAGTGAAGATGATATCCAA
GAAATCCAGCAGGAAATCTCCGTCCTCGCCACCTGTGCTAGCCAGTTTGT
GACGCAATACAAGGCGAGTTTTCTGAGAGGTCATAAGCTGTGGATTGTGA
TGGAGTATCTCGGTGGTGGATCCTGTCTGGACCTGGTGGAAGTTTTGGGA
CGGTGTACAAAGCCATTGAAAAGGCTACCGGAGAGATTGTGGCGATTAAG
CATATGGAGGACGACATGTCAGGTCATTATCAGATGCTGGAGGAGCTAGG
AACGACCCCAAGTTGGCCAGCCTCGTCCCACCTGCTCCACCGGCCGAGTC
CCCACAGAGGCCGCGACTGGTTCTGGCACAAAACAACCCACATCTGAAAA
GCCACCGGCGCCGCCAGAGTGCGGCAGTGGCCGAGTCCAACCTGCAGCCG
GCGCAGCTGGCGAATCTCCCGGGCCAGCAAGTACCGGGCATGGAGCACAC
GAAGCAGTTGTCCGATGTGCTGTATCAACGATGGTCGGAAGGCCTCCGCA
ACCGCTGGCCGGGGATCTAACAATACGATTCGGAATCTGGATGATGATGA
CGGATGGGTCTTTGATACCGTGAAAGCCCCAACAATGGCTATCCGCGAAG
AGCCTGACGACTTTGAGAACGAGCCTGAACCCCAGGATTGGGTGTTTGAC
GAAGCCTCCGAGCTGATGGACGACTTGCACATCTCTAGCCCACCTCTTCC
ACCAAAGCATGCAACGAATACCGCCGTGAGACGGACACCGGCCCCCGAAC
GCAGTCCATCCTTGCGGCGTGCCAAGCGGCGATCCAGCGGCGTGAAGCAA
CCTCTGGGCGTGGACATGAGCTTTGGGAACAGCCCATCGACCGTCCGTCA
ATTCCGTCGGGTGTCGGATAAGGTCCCAGCCGACGCTTCGTACCCTCCGC
AGTATTCCTACACGGACGAAAATGCCAGTCCCAAGACGCTCTTCTCCGAG
CCCAACAGCAAGGAAGCACAGCTGGGCCGTCGCGCATACAGCAAGGCGGT
GGGACTTGCCTGTCAGGAGGTGTTGGGCACGACGGGAGATGACGAGAAGC
GCGAGGCCATTTCACGGCTGGCCGAGGCGTGGAGTGATCTGGAAATGATC
GACCCCGAGGGTCTGTATCATATCGTGAGGGCGATGACGGAGCGACTGCA
AGGCTGAAACCCGGCGTTTTTAACGAAGCCCACGTCGCCATTATTTGCCA
GCAGCTGCTGCTGGGTCTGGATTACCTGCACAGCGAAGGCAAGATCCACC
GCGACATCAAGGCCGCCAATGTGCTTCTGTCGCATACCGGAAAGGTCAAG
CTGGCGGATTTCGGCGTGGCCGCACAATTAATCAACATCAAATCCCAACG
CAACACCTTTGTCGGAACGCCGTTCTGGATGGCGCCCGAAGTGATCCAGC
AGGCTGGATACGACTACAAAGCGGATATCTGGTCCCTGGGTATTACGGCG
ATCGAGATGATCAACGGCGAGCCGCCACACGCCAGCACTCACCCCATGAA
AGTGCTTTTCCTGATTCCCAAGGAACCTGCCCCCCGCTTGCAAGGCGACG
ACTATAGCAACACCTTCAAAGACTTTATCGCACAATGTTTGACCAAGGAC
CCCGACCGAAGACCGAGCGCCAAGGATCTCCTGAGACACAAATTCATCCG
AAATGCGGGGAAGACGGAGGCTTTACAGGAACTGATTCACCGGAGGCAGG
ACTGGGATGCTGGTCGGGGTGTGACACACAAGGTGAAGTACTATGCAGAG
TCTCTATCGATCTCGAATCCAGTGAAGATGATATCCAAGAAATCCAGCAG
GAAATCTCCGTCCTCGCCACCTGTGCTAGCCAGTTTGTGACGCAATACAA
GGCGAGTTTTCTGAGAGGTCATAAGCTGTGGATTGTGATGGAGTATCTCG
GTGGTGGATCCTGTCTGGACCTGGTGGAAGTTTTGGGACGGTGTACAAAG
CCATTGAAAAGGCTACCGGAGAGATTGTGGCGATTAAGCATATGGAGGAC
GACATGTCAGGTCATTATCAGATGCTGGAGGAGCTAGGAACGACCCCAAG
TTGGCCAGCCTCGTCCCACCTGCTCCACCGGCCGAGTCCCCACAGAGGCC
GCGACTGGTTCTGGCACAAAACAACCCACATCTGAAAAGCCACCGGCGCC
GCCAGAGTGCGGCAGTGGCCGAGTCCAACCTGCAGCCGGCGCAGCTGGCG
AATCTCCCGGGCCAGCAAGTACCGGGCATGGAGCACACGAAGCAGTTGTC
CGATGTGCTGTATCAACGATGGTCGGAAGGCCTCCGCAACCGCTGGCCGG
GGATCTAACAATACGATTCGGAATCTGGATGATGATGACGGATGGGTCTT
TGATACCGTGAAAGCCCCAACAATGGCTATCCGCGAAGAGCCTGACGACT
TTGAGAACGAGCCTGAACCCCAGGATTGGGTGTTTGACGAAGCCTCCGAG
CTGATGGACGACTTGCACATCTCTAGCCCACCTCTTCCACCAAAGCATGC
AACGAATACCGCCGTGAGACGGACACCGGCCCCCGAACGCAGTCCATCCT
TGCGGCGTGCCAAGCGGCGATCCAGCGGCGTGAAGCAACCTCTGGGCGTG
GACATGAGCTTTGGGAACAGCCCATCGACCGTCCGTCAATTCCGTCGGGT
GTCGGATAAGGTCCCAGCCGACGCTTCGTACCCTCCGCAGTATTCCTACA
CGGACGAAAATGCCAGTCCCAAGACGCTCTTCTCCGAGCCCAACAGCAAG
GAAGCACAGCTGGGCCGTCGCGCATACAGCAAGGCGGTGGGACTTGCCTG
TCAGGAGGTGTTGGGCACGACGGGAGATGACGAGAAGCGCGAGGCCATTT
CACGGCTGGCCGAGGCGTGGAGTGATCTGGAAATGATCGACCCCGAGGGT
CTGTATCATATCGTGAGGGCGATGACGGAGCGACTGCAAGGCTGAAACCC
GGCGTTTTTAACGAAGCCCACGTCGCCATTATTTGCCAGCAGCTGCTGCT
GGGTCTGGATTACCTGCACAGCGAAGGCAAGATCCACCGCGACATCAAGG
CCGCCAATGTGCTTCTGTCGCATACCGGAAAGGTCAAGCTGGCGGATTTC
GGCGTGGCCGCACAATTAATCAACATCAAATCCCAACGCAACACCTTTGT
CGGAACGCCGTTCTGGATGGCGCCCGAAGTGATCCAGCAGGCTGGATACG
ACTACAAAGCGGATATCTGGTCCCTGGGTATTACGGCGATCGAGATGATC
AACGGCGAGCCGCCACACGCCAGCACTCACCCCATGAAAGTGCTTTTCCT
GATTCCCAAGGAACCTGCCCCCCGCTTGCAAGGCGACGACTATAGCAACA
CCTTCAAAGACTTTATCGCACAATGTTTGACCAAGGACCCCGACCGAAGA
CCGAGCGCCAAGGATCTCCTGAGACACAAATTCATCCGAAATGCGGGGAA
GACGGAGGCTTTACAGGAACTGATTCACCGGAGGCAGGACTGGGATGCTG
GTCGGGGTGTGACACACAAGGTGAAGTACTATGCAGAGTCTCTATCGATC
TCGAATCCAGTGAAGATGATATCCAAGAAATCCAGCAGGAAATCTCCGTC
CTCGCCACCTGTGCTAGCCAGTTTGTGACGCAATACAAGGCGAGTTTTCT
GAGAGGTCATAAGCTGTGGATTGTGATGGAGTATCTCGGTGGTGGATCCT
GTCTGGACCTGGTGGAAGTTTTGGGACGGTGTACAAAGCCATTGAAAAGG
CTACCGGAGAGATTGTGGCGATTAAGCATATGGAGGACGACATGTCAGGT
CATTATCAGATGCTGGAGGAGCTAGGAA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Biological Process**
Term	Definition
GO:0006468	protein phosphorylation

Vocabulary: **Molecular Function**
Term	Definition
GO:0004672	protein kinase activity
GO:0005524	ATP binding

Relationships

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


Feature Name	Unique Name	Species	Type
ATCC64974_54090	ATCC64974_54090	Aspergillus niger N402	gene

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


Feature Name	Unique Name	Species	Type
ATCC64974_54090-T1	ATCC64974_54090-T1-protein	Aspergillus niger N402	polypeptide

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


Feature Name	Unique Name	Species	Type
ATCC64974_54090-T1.cds	ATCC64974_54090-T1.cds	Aspergillus niger N402	CDS

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


Feature Name	Unique Name	Species	Type
ATCC64974_54090-T1.exon6	ATCC64974_54090-T1.exon6	Aspergillus niger N402	exon
ATCC64974_54090-T1.exon5	ATCC64974_54090-T1.exon5	Aspergillus niger N402	exon
ATCC64974_54090-T1.exon4	ATCC64974_54090-T1.exon4	Aspergillus niger N402	exon
ATCC64974_54090-T1.exon3	ATCC64974_54090-T1.exon3	Aspergillus niger N402	exon
ATCC64974_54090-T1.exon2	ATCC64974_54090-T1.exon2	Aspergillus niger N402	exon
ATCC64974_54090-T1.exon1	ATCC64974_54090-T1.exon1	Aspergillus niger N402	exon

Properties


Property Name	Value
DBxref	InterPro:IPR011009
DBxref	InterPro:IPR017441
DBxref	InterPro:IPR000719
DBxref	PFAM:PF07714
DBxref	PFAM:PF00069
Product	hypothetical protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger N402 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
OGUI01000007.1	supercontig	OGUI01000007.1:3525611..3527709 -

Main menu

You are here

ATCC64974_54090-T1, ATCC64974_54090-T1 (mRNA) Aspergillus niger N402

Main menu

User login

You are here

ATCC64974_54090-T1, ATCC64974_54090-T1 (mRNA) Aspergillus niger N402