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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000007.1:3078787..3080711+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_52630-T1 ID=ATCC64974_52630-T1|Name=ATCC64974_52630-T1|organism=Aspergillus niger N402|type=mRNA|length=1925bp|location=Sequence derived from alignment at OGUI01000007.1:3078787..3080711+ (Aspergillus niger N402)
ATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGT
GTGTCTTTTTTGCGGAGAGAAATACGTGTGGGCCGTTTTCTGATAGACTG
CAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGC
TAGAGGTATGTATCTATTCGGGAAGTGCTCAGGGGTTCAAATGCTAATTG
CAATTAGCCGTCGCCGATGCCATCAGAACAGTACGCTTGCTTCGATATCG
ATATGACAAATGAGGGGCTAACCGCAACGCAGTCTTTGGGACCCAGGGGT
ATGGACAAGATGGTAGGAAACATGTCTACTAACATGGAGGTCCCGTGGCT
AACATAGTAATAGATCCAAACACCCAAGGGAAACACAATCATCGTACGAT
CACCTCTCCGTATACCGACACACACCCCCCGCTAACCCCCGCAGACCAAT
GATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAG
GATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTA
CCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGC
CTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAG
AGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCA
ACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCC
TCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGA
TTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCC
GCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAG
ATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGG
TCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCA
GCCCGCCTAAGCCTGATGTAGGGTCGATGATTTTTTGGACATTGGAATGG
GATACTAACAATAGCTTTAGATGGAGAACCAGATTGTTGTGAACGACTAC
CGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACAT
GGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGT
CCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGT
CTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCT
CTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTG
AGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGT
GCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAA
CCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACG
AGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTG
AAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGC
CCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCT
GCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCA
GAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCG
CCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCG
TGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGT
ACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAAT
TGATGACATTGCTTTGTCGCGGTGA back to topCoding sequence (CDS) from alignment at OGUI01000007.1:3078787..3080711+ >ATCC64974_52630-T1 ID=ATCC64974_52630-T1|Name=ATCC64974_52630-T1|organism=Aspergillus niger N402|type=CDS|length=11277bp|location=Sequence derived from alignment at OGUI01000007.1:3078787..3080711+ (Aspergillus niger N402)
ATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGA
CAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGCTAGAG
CCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGGACAAG
ATGATCCAAACACCCAAGGGAAACACAATCATCACCAATGATGGAAACAC
CATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCTGGTCG
ATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGTCCGTT
GTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAA
GGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCG
CCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGACGGAC
CGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAGATTGT
TTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGTGTTGA
AGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATATCCGT
ATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTTGATGG
CTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTACCAGAA
TTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAG
CCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATGGACAA
GATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAAGATCC
AGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCCGTGAT
GCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATTTTGGC
CGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGG
GCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGCTGGGT
ACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAA
GGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGTTTCGA
TCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGCGTTCC
CTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCT
CATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCTTGCCA
TGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGGCATTC
GCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCCGGTCT
GAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCAGGGCC
AGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACGACATC
ACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCGATCGA
GCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGATGACATTGCTT
TGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAAT
GCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTT
GGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGG
GTATGGACAAGATGATCCAAACACCCAAGGGAAACACAATCATCACCAAT
GATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAG
GATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTA
CCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGC
CTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAG
AGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCA
ACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCC
TCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGA
TTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCC
GCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAG
ATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGG
TCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCA
GCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGC
CAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGT
CAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCA
TCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTC
AAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTG
CAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGG
ACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCT
CGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCA
GACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGG
CTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAG
AAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCA
TGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCT
GGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAG
AATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCA
TGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGA
AGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACC
AGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGA
TGACATTGCTTTGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCC
CCGGCAACAATGCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACG
TCCAACATCTTGGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTT
GGGACCCAGGGGTATGGACAAGATGATCCAAACACCCAAGGGAAACACAA
TCATCACCAATGATGGAAACACCATGTTGAGGGATATGAGCGTCATGCAC
CCCGCCGCTAGGATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGC
TGGTGATGGTACCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTG
CCGCAGAGCGCCTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAG
TCCTTCCAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTC
TCGCCCCATCAACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCA
CCTCCCTCTCCTCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCT
ATGGCCGTGGATTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAA
CGTGGACCTCCGCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTG
AGGACAGTGAGATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAG
AGCAGCGGCGGTCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCA
GTTCCAGCTCAGCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGA
ACGACTACCGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTC
CTCAACATGGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGAT
CCAGAAGTCCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCC
TTTCTCGTCTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTC
GAGTTCCTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTC
TTTCACTGAGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGC
AGTCTGGTGCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCC
GCCGCCAACCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCAT
TCTGGACGAGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTT
GTCTGGTGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATT
GAGATCGCCCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGA
GGCTATCTGCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCA
CGCTGGCAGAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTG
CGCCACCGCCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAG
TGGTGGCGTGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCC
TGGTGAGTACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATT
ATGAGAATTGATGACATTGCTTTGTCGCGGTGAATGGCGTCGACAGCCTC
CCAGCCGGCCCCCGGCAACAATGCTTTCAAGGACAAGGAGAAGCCTATGG
CCGTCCGTACGTCCAACATCTTGGCTGCTAGAGCCGTCGCCGATGCCATC
AGAACATCTTTGGGACCCAGGGGTATGGACAAGATGATCCAAACACCCAA
GGGAAACACAATCATCACCAATGATGGAAACACCATGTTGAGGGATATGA
GCGTCATGCACCCCGCCGCTAGGATGCTGGTCGATCTCAGTGCGGCCCAG
GATGTCGAGGCTGGTGATGGTACCACGTCCGTTGTCGTTATTGCCGGAAG
CCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAAGGGTATCCATCCCACTG
TCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTC
CATAACATGTCTCGCCCCATCAACCTGACGGACCGCTCCACCCTCCTTCA
GGCTGCTTCCACCTCCCTCTCCTCCAAGATTGTTTCGCAGCACTCCGGCC
TCCTCGGCCCTATGGCCGTGGATTCCGTGTTGAAGGTCGTCGACCCCAAG
ACCGCCGAGAACGTGGACCTCCGCAATATCCGTATAGTGAAGAAGGTTGG
CGGAACGATTGAGGACAGTGAGATGGTTGATGGCTTGGTTCTGAACCAGC
AGGTCATCAAGAGCAGCGGCGGTCCTACCAGAATTGAGAAGGCCCGGATA
GGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAGCCTGATATGGAGAACCA
GATTGTTGTGAACGACTACCGCCAGATGGACAAGATCCTCAAGGAAGAGC
GCCAATACCTCCTCAACATGGTCAAGAAGATCCAGAAGACCAAGTGCAAT
GTCCTTCTGATCCAGAAGTCCATCCTCCGTGATGCCGTCAACGACCTTTC
CCTCCACTTCCTTTCTCGTCTCAAAATTTTGGCCGTCAAGGACATTGAGC
GTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCC
AACATCGACTCTTTCACTGAGGACAAGCTGGGTACTGCCGACCTGGTCGA
GGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAAGGTTACCGGTATCAAGA
CCCCTGCTGCCGCCGCCAACCAGACCGTTTCGATCGTCGCTCGTGGCGCC
AACAACCTCATTCTGGACGAGGCTGAGCGTTCCCTTCACGACGCTCTCTG
TGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTG
CCCCTGAGATTGAGATCGCCCATGCCCTTGCCATGCGTGCTCGTCAGCTG
ACCGGCACGGAGGCTATCTGCTGGAAGGCATTCGCTGACGCCATGGAGGT
CATTCCCACCACGCTGGCAGAGAATGCCGGTCTGAACTCGATCAAGGTGG
TCACTGACCTGCGCCACCGCCATGCCCAGGGCCAGCACAACGCAGGAGTC
AGCATTCGCAGTGGTGGCGTGAAGGACGACATCACTGAGGAGAACATCCT
GCAGCCGCTCCTGGTGAGTACCAGCGCGATCGAGCTGGCTGCTGAGACAG
TGAAGATGATTATGAGAATTGATGACATTGCTTTGTCGCGGTGAATGGCG
TCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTCAAGGACAAGGA
GAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGCTAGAGCCGTCG
CCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGGACAAGATGATC
CAAACACCCAAGGGAAACACAATCATCACCAATGATGGAAACACCATGTT
GAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCTGGTCGATCTCA
GTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGTCCGTTGTCGTT
ATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTTGGAAAGGGTAT
CCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGCTGCCGCCGCTG
TCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGACGGACCGCTCC
ACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAGATTGTTTCGCA
GCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGTGTTGAAGGTCG
TCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATATCCGTATAGTG
AAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTTGATGGCTTGGT
TCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTACCAGAATTGAGA
AGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGCCTAAGCCTGAT
ATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATGGACAAGATCCT
CAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAAGATCCAGAAGA
CCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCCGTGATGCCGTC
AACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATTTTGGCCGTCAA
GGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAGTCTGGGCTGCA
AGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGCTGGGTACTGCC
GACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTATGTGAAGGTTAC
CGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGTTTCGATCGTCG
CTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGCGTTCCCTTCAC
GACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGCGCCCTCATCGC
TGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCTTGCCATGCGTG
CTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGGCATTCGCTGAC
GCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCCGGTCTGAACTC
GATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCAGGGCCAGCACA
ACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACGACATCACTGAG
GAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCGATCGAGCTGGC
TGCTGAGACAGTGAAGATGATTATGAGAATTGATGACATTGCTTTGTCGC
GGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCAACAATGCTTTC
AAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAACATCTTGGCTGC
TAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACCCAGGGGTATGG
ACAAGATGATCCAAACACCCAAGGGAAACACAATCATCACCAATGATGGA
AACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCCGCTAGGATGCT
GGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGATGGTACCACGT
CCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAGAGCGCCTGCTT
GGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTCCAAAGAGCCGC
TGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCCCATCAACCTGA
CGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCCTCTCCTCCAAG
ATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCCGTGGATTCCGT
GTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGACCTCCGCAATA
TCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACAGTGAGATGGTT
GATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGCGGCGGTCCTAC
CAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCAGCTCAGCCCGC
CTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACTACCGCCAGATG
GACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAACATGGTCAAGAA
GATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAAGTCCATCCTCC
GTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTCGTCTCAAAATT
TTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTCCTCTGCAAGAG
TCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCACTGAGGACAAGC
TGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTGGTGCTCGCTAT
GTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCCAACCAGACCGT
TTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGACGAGGCTGAGC
GTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGGTGAAGAAGCGC
GCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATCGCCCATGCCCT
TGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTATCTGCTGGAAGG
CATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGGCAGAGAATGCC
GGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCACCGCCATGCCCA
GGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGGCGTGAAGGACG
ACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGAGTACCAGCGCG
ATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGAATTGATGACAT
TGCTTTGTCGCGGTGAATGGCGTCGACAGCCTCCCAGCCGGCCCCCGGCA
ACAATGCTTTCAAGGACAAGGAGAAGCCTATGGCCGTCCGTACGTCCAAC
ATCTTGGCTGCTAGAGCCGTCGCCGATGCCATCAGAACATCTTTGGGACC
CAGGGGTATGGACAAGATGATCCAAACACCCAAGGGAAACACAATCATCA
CCAATGATGGAAACACCATGTTGAGGGATATGAGCGTCATGCACCCCGCC
GCTAGGATGCTGGTCGATCTCAGTGCGGCCCAGGATGTCGAGGCTGGTGA
TGGTACCACGTCCGTTGTCGTTATTGCCGGAAGCCTGCTCGGTGCCGCAG
AGCGCCTGCTTGGAAAGGGTATCCATCCCACTGTCATCTCGGAGTCCTTC
CAAAGAGCCGCTGCCGCCGCTGTCGAAATCCTCCATAACATGTCTCGCCC
CATCAACCTGACGGACCGCTCCACCCTCCTTCAGGCTGCTTCCACCTCCC
TCTCCTCCAAGATTGTTTCGCAGCACTCCGGCCTCCTCGGCCCTATGGCC
GTGGATTCCGTGTTGAAGGTCGTCGACCCCAAGACCGCCGAGAACGTGGA
CCTCCGCAATATCCGTATAGTGAAGAAGGTTGGCGGAACGATTGAGGACA
GTGAGATGGTTGATGGCTTGGTTCTGAACCAGCAGGTCATCAAGAGCAGC
GGCGGTCCTACCAGAATTGAGAAGGCCCGGATAGGTCTGATTCAGTTCCA
GCTCAGCCCGCCTAAGCCTGATATGGAGAACCAGATTGTTGTGAACGACT
ACCGCCAGATGGACAAGATCCTCAAGGAAGAGCGCCAATACCTCCTCAAC
ATGGTCAAGAAGATCCAGAAGACCAAGTGCAATGTCCTTCTGATCCAGAA
GTCCATCCTCCGTGATGCCGTCAACGACCTTTCCCTCCACTTCCTTTCTC
GTCTCAAAATTTTGGCCGTCAAGGACATTGAGCGTGATGAGGTCGAGTTC
CTCTGCAAGAGTCTGGGCTGCAAGCCCGTTGCCAACATCGACTCTTTCAC
TGAGGACAAGCTGGGTACTGCCGACCTGGTCGAGGAAGTGCAGCAGTCTG
GTGCTCGCTATGTGAAGGTTACCGGTATCAAGACCCCTGCTGCCGCCGCC
AACCAGACCGTTTCGATCGTCGCTCGTGGCGCCAACAACCTCATTCTGGA
CGAGGCTGAGCGTTCCCTTCACGACGCTCTCTGTGTCATTCGTTGTCTGG
TGAAGAAGCGCGCCCTCATCGCTGGTGGTGGTGCCCCTGAGATTGAGATC
GCCCATGCCCTTGCCATGCGTGCTCGTCAGCTGACCGGCACGGAGGCTAT
CTGCTGGAAGGCATTCGCTGACGCCATGGAGGTCATTCCCACCACGCTGG
CAGAGAATGCCGGTCTGAACTCGATCAAGGTGGTCACTGACCTGCGCCAC
CGCCATGCCCAGGGCCAGCACAACGCAGGAGTCAGCATTCGCAGTGGTGG
CGTGAAGGACGACATCACTGAGGAGAACATCCTGCAGCCGCTCCTGGTGA
GTACCAGCGCGATCGAGCTGGCTGCTGAGACAGTGAAGATGATTATGAGA
ATTGATGACATTGCTTTGTCGCGGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006457 | protein folding |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0051082 | unfolded protein binding |
| GO:0005524 | ATP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_52630-T1 | ATCC64974_52630-T1-protein | Aspergillus niger N402 | polypeptide |
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09261XNJ |
| DBxref | InterPro:IPR002194 |
| DBxref | InterPro:IPR027413 |
| DBxref | InterPro:IPR027409 |
| DBxref | InterPro:IPR027410 |
| DBxref | InterPro:IPR012717 |
| DBxref | InterPro:IPR002423 |
| DBxref | InterPro:IPR017998 |
| DBxref | PFAM:PF00118 |
| Product | T-complex protein 1 subunit delta |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| OGUI01000007.1 | supercontig | OGUI01000007.1:3078787..3080711 + |
|
