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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000011.1:1293020..1297404- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_18250-T1 ID=CAN33_18250-T1|Name=CAN33_18250-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=4385bp|location=Sequence derived from alignment at NKJJ01000011.1:1293020..1297404- (Aspergillus niger FDAARGOS_311)
ATGGACGCTCACGAACAGCAACCTCCGGTCTCCGAACCTCTACGGTCGAC
GACCCCGATCCCTATCGCGAAGCTTGCACCGGCGCTCGAGAATCTCTCGG
ACAGCTCCATTCACGCCGTAGTGACCTTGCTATGGCCCTACTCATCATCA
ACCCGTTCTCTCAGCCTCCTGCTAGCGGAGCCGGACTTTCGCCTTCGACG
CACGAATGGACAGGTTAAGGTGGTTTTCCATGGGCTGGTCGCAGAAGAAG
TAGCCAAATCGCACGTCGGAATTGGCGATACTGTCTTCATTAGGCTGGCG
GGATCGAGATTTGTGGACAATGAGGTGTCTAAACAAACGCCGGGAAGATG
CATCGCGTGGGACATTAACTTTGATGATAGCGTTTCTATTGAGGTACTTT
TCCGGACTCAGCTAGTAGTGATCAGTTACAGTCCAGTGCTCACCAATGTC
AGATCTGGCGTTCTTCCCAACATCTCTCCACCGTGCAAGTAGACCGCCCA
TCACCCCCGCCGCCCACTATCGACAATGCGATTGAAGAGGCACCCTCTAC
CCCTCCTGCCAACGGATACCCTCGCCTAGATGGAACGAGTCAGAACGCTA
GTCTACAATCGTGGCAGTCACCGGCCTTTGTCGAACGATCGCGCACATCG
CTGGGGCATCTTTCGAGCTCCATATTCGACCCATTTGCAGAAGAGGATGG
CTTCGTGCCGGGGAAAGGAAGGAAGCGACCAAGGTTTAGCATGCGGGGCA
GCGATTGGCGTCTCGTCGATGAACCTGCGAGCCCTGAAGATATCGATATC
CCGGGAGATTGGACGGCTATGTTCGACGACGAGGCATGGCTGAGAGCTGA
GATCGGCGAGGATGATGTTGCGGAGGATGCGAAGCAATCCCCAAGGCCGT
CTGAGACTCGCGACGTTGTACCAGTGCCGGAGGGGCCGTCTGATGGCGCG
CAAGCTGAAAGTACCGCTGCCGAATCAGAACAAGTGGCGCCCGAGTTCAG
TGCAGAGAAGAAATTGGACGATTCACGATCCGATGCGGAGTTTCTTGTGC
CCGGCATTGTGTCGAGGGCCGAGGCTCCAAGCCTGCGAAAGCACGGCATT
CCCAATTTCGCTGGTCATCTCCCAATAGACACTCCGCGCCTTCACCCTAT
ACCTTCACCCGGCCTTCCGATTCCTTCACCTTTGGTTAGCACTTCAAACA
GCCCCTTTGGATATTTCGGATCCGTGTCAACTACTGGCCAAACTCAGTCT
ACTCCGCCGACAACTATCAACCAGGAGGCCGTCGATTTGGCCCTTGAGGC
TATCTCGGAAACGCCACCAGACCCTACCATCAGGAATCTTGATGAGCATG
CAACAACAACGGCTGATGTGGACTCTGAGACTGGATTTGCCCATGCTGTA
CCCTTACACCAATCGGTCACCGCAAGAGCGCAAGAATCAAAGCCTATGCA
TGCTCAAGATACTACGTCGTCTGTGCCTCTTGTAGAAACAGCTACTCCGC
ATGCAGCCTACACTTTAGGTTTTGAAGGTGGAGATACTGAAGGAGCAATG
CCACACGAAGAAGAATGGGCCGAGGTAGAAGAGGATGAGGAAAGGGCTGA
AGCGCATGGGCAATTGGAAGCACGGGCCGATTCCAGCATGGTTCCGGAAG
AGAGAAGATTCTATCACAGCGTGATGGAAACGAAACAGCACGACTTAGAA
GGCGAAGATCACGAATATGAAAGCGCTAGTCAAAGCTCAGTCATCGAGGA
CGCTCGCTCAGAGGTCTTGAGCGAAGAATACGTTTCCGAAGTAGATGAGC
AACCGGACTCTAGAGCAAGACATGACATCGAACTCATCTCCGAAAGTGAG
GCAGAATCACCGGCGAAAGCCCATGATTCCGCCAGGAGAGAATATGGATA
TTACGCCGAAGAGGACGAGGAAGAACTTGATGAGGAGGATGATATTTCAG
ACGAGGAGGCTGAATCCGAGGGACTAGAGAATGATTATGATGAGGACGGG
TATGACGATCGTGTCGACTCTGAACTCGAGTCACAGGGAGATGAGCTGGA
GGCCGAATCGCCTCATCCCATCAAGAAGGCAGAACCAGAGGTTATCGTGC
TCGACAGCGATAGCGACGAGGAGCCTTCACCGAGCGTGCAAAGGCAGCCC
GCTGCAGCACCAGCAGCTACACATACTCGCGAACCCGACGTATCGCCGTC
TGCGGATGAAGCATCCAGCTATGGCACATCAGAGTCAGGCGATTACGAAG
AATATGAGAGCGAAGAGGTTGATGACGCGGAGGCGGAGGACTACAGTGAT
GAAGACGGCGAAGAGGCTGGCGATTGGTCTGTGCGAGACAATCAAGAAGC
CCAGGAGCGAGAGGTCGAGCCGGTCGAGGTCAACTTGATTCGCCAGAGCC
GCGAAACCGAGCGGGATGGAGAATTGCATTCCGACAACCAGGTGCAGGTG
GCTCATGAAGCAACCATGGAGGCGCACAGTGAGGACGAGGCAGTCAACGT
GGAGCAGGCAGAGCAGGGCCAAGAGAGCGAAGGAGATGTGAATATGGACG
ACGACCAGCGGGATGCCGAAGATACTGATATCAAGGAGACGGAAGCCGAA
GCGGTCCAGGATGAAGAGATGCACGACCTACAAACCCACGATTATCAGGT
TACCGATGAACAAGCCCGCGATGAACACGACGAGAAGGCTCACTACGAGC
CTGCTCTTGAACGAGAGATGGGACAGGAACATGTCGAGGAGCCAGCTGAT
ACTAGAGGGTCAGAGGCGGTGCACATAGAAGATGAGGCAACAGAAGAGCA
GGATCATCTTCCAGAAGGTTATGAAGATTCAAGCCTAATCGAATCCACGG
AGGGCGCTGTTCTTAGGGCCCCATCCGAAGGCGCCAAGCAAAGCATTGAT
ATCGACGAACACCCTGATTCCCACATCTACCATGAGGACTTGCGGACAAC
AGAAGTCTTATCACACGAGGCACATCCTGGGCAGGTCGTATATGCTCAAG
AAAACATCCATATCACTCAACATGATGTGACTAGTACCGAACCCATTCTA
CAGTATCCTGAACCTCCAATCGATCCCGAGCTTTTCAACGCGGGCACTTT
CCCGGCAGAAATTAGTAGCGGACAACATGGCGGGGATACATCCCACGAGC
AGCTACAGGATGGCGAGGGCGCAGATCTGCCAGAACAAGCTCAGCACATT
GATCCTAGCTTGTCGCTAGATGGTGCCTCTCAAAGCTTGAGTCTGCCCGA
CTCGGCTGCCCATGTTCCCAAGATGCCAATCCTCCCACAAAATCAGCTGG
TGACGCCAGAGTCATCTCAGATAAATGGAGTGGACATTCCTTCTGTCCCT
GTCCTACCGGTGGGTGCAGCACCGCCAACTCCTGAGCCTACTCAGGAAAG
GTCAGATTTCCAGCCGGAAGACGAACCACAACCGACCGTCGAGGTAGTTA
CAGAAACAACAACGACGGTGGAGACGGACAATCTTCCACCAGACGAAGAC
GCCAAGTCTGAAGCGAGATCCATCTCTACCGCACCCGAAGAACAGGCAAT
AGCCGATGACGACGACAAAGGAGCCCACACAACCCACAGCGAAGACGAAG
TCCTACTTGTTGGCCATGACCGCAAACACCTTGTCAACCTCAACCGCAAC
TATCCAGGCCTACGCAGCAAATTCTCCTACTTCGCACCCCTCGCCACCCT
CATCGACCACTACAACGCACTGACAGACACCATCTCAATCGTATCCGAAA
CCCGGCCCGCCATCCGAGCCACAACAGGCAGAAAGGACTACATACTGACC
TTCGGTGTGACCGATCCCTCCCTAGCCGGCACAATACTGTACGCGCAGAT
CTTCCGACCCTACAAAACCGCCCTGCCAAACGTAGAGGAAGGCGACGCAA
TCCTCCTCCGAAACTTCAAAGTCAAGAGCTTCAAACACTCCATGACCCTG
TCCAGCGTCGACAGCAGCGCCTGGGCCGTCTTTAACGGCCCCAACGAAGC
CCAAATCGACGGCCCACCCGTCGAATACGGCGCGGAGGAGCAAACCTACG
CTACTGATTTGCGCCAATGGTATCACGAAGACGGCATGGCCATGGTAGCC
GATTACCAATTACAAGCCTCGATTGAGCAGGAAAGTCGCGAGGCTACTCC
CTACAGTACCGGTGGATTCAGCGATTCAGGGAGCGTGAATAACGTAGATG
GGCGCGCGGACTCCTCCTTCTCGTCGAGTCGGGGCTCCGGCTCCGGCTCC
CGGAGGAGGAAGTCTCATCGTCGGATCACCATCCATGAGTTGCGCGATGG
GAGGAGATATGCGGAGGTGGGGTCGCCGAGTAGTAAGGAGGATATACATG
AGTTGAGGGATGGGACGGTGTATGCGAATTTTTAA back to topCoding sequence (CDS) from alignment at NKJJ01000011.1:1293020..1297404- >CAN33_18250-T1 ID=CAN33_18250-T1|Name=CAN33_18250-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8652bp|location=Sequence derived from alignment at NKJJ01000011.1:1293020..1297404- (Aspergillus niger FDAARGOS_311)
ATCTGGCGTTCTTCCCAACATCTCTCCACCGTGCAAGTAGACCGCCCATC
ACCCCCGCCGCCCACTATCGACAATGCGATTGAAGAGGCACCCTCTACCC
CTCCTGCCAACGGATACCCTCGCCTAGATGGAACGAGTCAGAACGCTAGT
CTACAATCGTGGCAGTCACCGGCCTTTGTCGAACGATCGCGCACATCGCT
GGGGCATCTTTCGAGCTCCATATTCGACCCATTTGCAGAAGAGGATGGCT
TCGTGCCGGGGAAAGGAAGGAAGCGACCAAGGTTTAGCATGCGGGGCAGC
GATTGGCGTCTCGTCGATGAACCTGCGAGCCCTGAAGATATCGATATCCC
GGGAGATTGGACGGCTATGTTCGACGACGAGGCATGGCTGAGAGCTGAGA
TCGGCGAGGATGATGTTGCGGAGGATGCGAAGCAATCCCCAAGGCCGTCT
GAGACTCGCGACGTTGTACCAGTGCCGGAGGGGCCGTCTGATGGCGCGCA
AGCTGAAAGTACCGCTGCCGAATCAGAACAAGTGGCGCCCGAGTTCAGTG
CAGAGAAGAAATTGGACGATTCACGATCCGATGCGGAGTTTCTTGTGCCC
GGCATTGTGTCGAGGGCCGAGGCTCCAAGCCTGCGAAAGCACGGCATTCC
CAATTTCGCTGGTCATCTCCCAATAGACACTCCGCGCCTTCACCCTATAC
CTTCACCCGGCCTTCCGATTCCTTCACCTTTGGTTAGCACTTCAAACAGC
CCCTTTGGATATTTCGGATCCGTGTCAACTACTGGCCAAACTCAGTCTAC
TCCGCCGACAACTATCAACCAGGAGGCCGTCGATTTGGCCCTTGAGGCTA
TCTCGGAAACGCCACCAGACCCTACCATCAGGAATCTTGATGAGCATGCA
ACAACAACGGCTGATGTGGACTCTGAGACTGGATTTGCCCATGCTGTACC
CTTACACCAATCGGTCACCGCAAGAGCGCAAGAATCAAAGCCTATGCATG
CTCAAGATACTACGTCGTCTGTGCCTCTTGTAGAAACAGCTACTCCGCAT
GCAGCCTACACTTTAGGTTTTGAAGGTGGAGATACTGAAGGAGCAATGCC
ACACGAAGAAGAATGGGCCGAGGTAGAAGAGGATGAGGAAAGGGCTGAAG
CGCATGGGCAATTGGAAGCACGGGCCGATTCCAGCATGGTTCCGGAAGAG
AGAAGATTCTATCACAGCGTGATGGAAACGAAACAGCACGACTTAGAAGG
CGAAGATCACGAATATGAAAGCGCTAGTCAAAGCTCAGTCATCGAGGACG
CTCGCTCAGAGGTCTTGAGCGAAGAATACGTTTCCGAAGTAGATGAGCAA
CCGGACTCTAGAGCAAGACATGACATCGAACTCATCTCCGAAAGTGAGGC
AGAATCACCGGCGAAAGCCCATGATTCCGCCAGGAGAGAATATGGATATT
ACGCCGAAGAGGACGAGGAAGAACTTGATGAGGAGGATGATATTTCAGAC
GAGGAGGCTGAATCCGAGGGACTAGAGAATGATTATGATGAGGACGGGTA
TGACGATCGTGTCGACTCTGAACTCGAGTCACAGGGAGATGAGCTGGAGG
CCGAATCGCCTCATCCCATCAAGAAGGCAGAACCAGAGGTTATCGTGCTC
GACAGCGATAGCGACGAGGAGCCTTCACCGAGCGTGCAAAGGCAGCCCGC
TGCAGCACCAGCAGCTACACATACTCGCGAACCCGACGTATCGCCGTCTG
CGGATGAAGCATCCAGCTATGGCACATCAGAGTCAGGCGATTACGAAGAA
TATGAGAGCGAAGAGGTTGATGACGCGGAGGCGGAGGACTACAGTGATGA
AGACGGCGAAGAGGCTGGCGATTGGTCTGTGCGAGACAATCAAGAAGCCC
AGGAGCGAGAGGTCGAGCCGGTCGAGGTCAACTTGATTCGCCAGAGCCGC
GAAACCGAGCGGGATGGAGAATTGCATTCCGACAACCAGGTGCAGGTGGC
TCATGAAGCAACCATGGAGGCGCACAGTGAGGACGAGGCAGTCAACGTGG
AGCAGGCAGAGCAGGGCCAAGAGAGCGAAGGAGATGTGAATATGGACGAC
GACCAGCGGGATGCCGAAGATACTGATATCAAGGAGACGGAAGCCGAAGC
GGTCCAGGATGAAGAGATGCACGACCTACAAACCCACGATTATCAGGTTA
CCGATGAACAAGCCCGCGATGAACACGACGAGAAGGCTCACTACGAGCCT
GCTCTTGAACGAGAGATGGGACAGGAACATGTCGAGGAGCCAGCTGATAC
TAGAGGGTCAGAGGCGGTGCACATAGAAGATGAGGCAACAGAAGAGCAGG
ATCATCTTCCAGAAGGTTATGAAGATTCAAGCCTAATCGAATCCACGGAG
GGCGCTGTTCTTAGGGCCCCATCCGAAGGCGCCAAGCAAAGCATTGATAT
CGACGAACACCCTGATTCCCACATCTACCATGAGGACTTGCGGACAACAG
AAGTCTTATCACACGAGGCACATCCTGGGCAGGTCGTATATGCTCAAGAA
AACATCCATATCACTCAACATGATGTGACTAGTACCGAACCCATTCTACA
GTATCCTGAACCTCCAATCGATCCCGAGCTTTTCAACGCGGGCACTTTCC
CGGCAGAAATTAGTAGCGGACAACATGGCGGGGATACATCCCACGAGCAG
CTACAGGATGGCGAGGGCGCAGATCTGCCAGAACAAGCTCAGCACATTGA
TCCTAGCTTGTCGCTAGATGGTGCCTCTCAAAGCTTGAGTCTGCCCGACT
CGGCTGCCCATGTTCCCAAGATGCCAATCCTCCCACAAAATCAGCTGGTG
ACGCCAGAGTCATCTCAGATAAATGGAGTGGACATTCCTTCTGTCCCTGT
CCTACCGGTGGGTGCAGCACCGCCAACTCCTGAGCCTACTCAGGAAAGGT
CAGATTTCCAGCCGGAAGACGAACCACAACCGACCGTCGAGGTAGTTACA
GAAACAACAACGACGGTGGAGACGGACAATCTTCCACCAGACGAAGACGC
CAAGTCTGAAGCGAGATCCATCTCTACCGCACCCGAAGAACAGGCAATAG
CCGATGACGACGACAAAGGAGCCCACACAACCCACAGCGAAGACGAAGTC
CTACTTGTTGGCCATGACCGCAAACACCTTGTCAACCTCAACCGCAACTA
TCCAGGCCTACGCAGCAAATTCTCCTACTTCGCACCCCTCGCCACCCTCA
TCGACCACTACAACGCACTGACAGACACCATCTCAATCGTATCCGAAACC
CGGCCCGCCATCCGAGCCACAACAGGCAGAAAGGACTACATACTGACCTT
CGGTGTGACCGATCCCTCCCTAGCCGGCACAATACTGTACGCGCAGATCT
TCCGACCCTACAAAACCGCCCTGCCAAACGTAGAGGAAGGCGACGCAATC
CTCCTCCGAAACTTCAAAGTCAAGAGCTTCAAACACTCCATGACCCTGTC
CAGCGTCGACAGCAGCGCCTGGGCCGTCTTTAACGGCCCCAACGAAGCCC
AAATCGACGGCCCACCCGTCGAATACGGCGCGGAGGAGCAAACCTACGCT
ACTGATTTGCGCCAATGGTATCACGAAGACGGCATGGCCATGGTAGCCGA
TTACCAATTACAAGCCTCGATTGAGCAGGAAAGTCGCGAGGCTACTCCCT
ACAGTACCGGTGGATTCAGCGATTCAGGGAGCGTGAATAACGTAGATGGG
CGCGCGGACTCCTCCTTCTCGTCGAGTCGGGGCTCCGGCTCCGGCTCCCG
GAGGAGGAAGTCTCATCGTCGGATCACCATCCATGAGTTGCGCGATGGGA
GGAGATATGCGGAGGTGGGGTCGCCGAGTAGTAAGGAGGATATACATGAG
TTGAGGGATGGGACGGTGTATGCGAATTTTTAAATGGACGCTCACGAACA
GCAACCTCCGGTCTCCGAACCTCTACGGTCGACGACCCCGATCCCTATCG
CGAAGCTTGCACCGGCGCTCGAGAATCTCTCGGACAGCTCCATTCACGCC
GTAGTGACCTTGCTATGGCCCTACTCATCATCAACCCGTTCTCTCAGCCT
CCTGCTAGCGGAGCCGGACTTTCGCCTTCGACGCACGAATGGACAGGTTA
AGGTGGTTTTCCATGGGCTGGTCGCAGAAGAAGTAGCCAAATCGCACGTC
GGAATTGGCGATACTGTCTTCATTAGGCTGGCGGGATCGAGATTTGTGGA
CAATGAGGTGTCTAAACAAACGCCGGGAAGATGCATCGCGTGGGACATTA
ACTTTGATGATAGCGTTTCTATTGAGATCTGGCGTTCTTCCCAACATCTC
TCCACCGTGCAAGTAGACCGCCCATCACCCCCGCCGCCCACTATCGACAA
TGCGATTGAAGAGGCACCCTCTACCCCTCCTGCCAACGGATACCCTCGCC
TAGATGGAACGAGTCAGAACGCTAGTCTACAATCGTGGCAGTCACCGGCC
TTTGTCGAACGATCGCGCACATCGCTGGGGCATCTTTCGAGCTCCATATT
CGACCCATTTGCAGAAGAGGATGGCTTCGTGCCGGGGAAAGGAAGGAAGC
GACCAAGGTTTAGCATGCGGGGCAGCGATTGGCGTCTCGTCGATGAACCT
GCGAGCCCTGAAGATATCGATATCCCGGGAGATTGGACGGCTATGTTCGA
CGACGAGGCATGGCTGAGAGCTGAGATCGGCGAGGATGATGTTGCGGAGG
ATGCGAAGCAATCCCCAAGGCCGTCTGAGACTCGCGACGTTGTACCAGTG
CCGGAGGGGCCGTCTGATGGCGCGCAAGCTGAAAGTACCGCTGCCGAATC
AGAACAAGTGGCGCCCGAGTTCAGTGCAGAGAAGAAATTGGACGATTCAC
GATCCGATGCGGAGTTTCTTGTGCCCGGCATTGTGTCGAGGGCCGAGGCT
CCAAGCCTGCGAAAGCACGGCATTCCCAATTTCGCTGGTCATCTCCCAAT
AGACACTCCGCGCCTTCACCCTATACCTTCACCCGGCCTTCCGATTCCTT
CACCTTTGGTTAGCACTTCAAACAGCCCCTTTGGATATTTCGGATCCGTG
TCAACTACTGGCCAAACTCAGTCTACTCCGCCGACAACTATCAACCAGGA
GGCCGTCGATTTGGCCCTTGAGGCTATCTCGGAAACGCCACCAGACCCTA
CCATCAGGAATCTTGATGAGCATGCAACAACAACGGCTGATGTGGACTCT
GAGACTGGATTTGCCCATGCTGTACCCTTACACCAATCGGTCACCGCAAG
AGCGCAAGAATCAAAGCCTATGCATGCTCAAGATACTACGTCGTCTGTGC
CTCTTGTAGAAACAGCTACTCCGCATGCAGCCTACACTTTAGGTTTTGAA
GGTGGAGATACTGAAGGAGCAATGCCACACGAAGAAGAATGGGCCGAGGT
AGAAGAGGATGAGGAAAGGGCTGAAGCGCATGGGCAATTGGAAGCACGGG
CCGATTCCAGCATGGTTCCGGAAGAGAGAAGATTCTATCACAGCGTGATG
GAAACGAAACAGCACGACTTAGAAGGCGAAGATCACGAATATGAAAGCGC
TAGTCAAAGCTCAGTCATCGAGGACGCTCGCTCAGAGGTCTTGAGCGAAG
AATACGTTTCCGAAGTAGATGAGCAACCGGACTCTAGAGCAAGACATGAC
ATCGAACTCATCTCCGAAAGTGAGGCAGAATCACCGGCGAAAGCCCATGA
TTCCGCCAGGAGAGAATATGGATATTACGCCGAAGAGGACGAGGAAGAAC
TTGATGAGGAGGATGATATTTCAGACGAGGAGGCTGAATCCGAGGGACTA
GAGAATGATTATGATGAGGACGGGTATGACGATCGTGTCGACTCTGAACT
CGAGTCACAGGGAGATGAGCTGGAGGCCGAATCGCCTCATCCCATCAAGA
AGGCAGAACCAGAGGTTATCGTGCTCGACAGCGATAGCGACGAGGAGCCT
TCACCGAGCGTGCAAAGGCAGCCCGCTGCAGCACCAGCAGCTACACATAC
TCGCGAACCCGACGTATCGCCGTCTGCGGATGAAGCATCCAGCTATGGCA
CATCAGAGTCAGGCGATTACGAAGAATATGAGAGCGAAGAGGTTGATGAC
GCGGAGGCGGAGGACTACAGTGATGAAGACGGCGAAGAGGCTGGCGATTG
GTCTGTGCGAGACAATCAAGAAGCCCAGGAGCGAGAGGTCGAGCCGGTCG
AGGTCAACTTGATTCGCCAGAGCCGCGAAACCGAGCGGGATGGAGAATTG
CATTCCGACAACCAGGTGCAGGTGGCTCATGAAGCAACCATGGAGGCGCA
CAGTGAGGACGAGGCAGTCAACGTGGAGCAGGCAGAGCAGGGCCAAGAGA
GCGAAGGAGATGTGAATATGGACGACGACCAGCGGGATGCCGAAGATACT
GATATCAAGGAGACGGAAGCCGAAGCGGTCCAGGATGAAGAGATGCACGA
CCTACAAACCCACGATTATCAGGTTACCGATGAACAAGCCCGCGATGAAC
ACGACGAGAAGGCTCACTACGAGCCTGCTCTTGAACGAGAGATGGGACAG
GAACATGTCGAGGAGCCAGCTGATACTAGAGGGTCAGAGGCGGTGCACAT
AGAAGATGAGGCAACAGAAGAGCAGGATCATCTTCCAGAAGGTTATGAAG
ATTCAAGCCTAATCGAATCCACGGAGGGCGCTGTTCTTAGGGCCCCATCC
GAAGGCGCCAAGCAAAGCATTGATATCGACGAACACCCTGATTCCCACAT
CTACCATGAGGACTTGCGGACAACAGAAGTCTTATCACACGAGGCACATC
CTGGGCAGGTCGTATATGCTCAAGAAAACATCCATATCACTCAACATGAT
GTGACTAGTACCGAACCCATTCTACAGTATCCTGAACCTCCAATCGATCC
CGAGCTTTTCAACGCGGGCACTTTCCCGGCAGAAATTAGTAGCGGACAAC
ATGGCGGGGATACATCCCACGAGCAGCTACAGGATGGCGAGGGCGCAGAT
CTGCCAGAACAAGCTCAGCACATTGATCCTAGCTTGTCGCTAGATGGTGC
CTCTCAAAGCTTGAGTCTGCCCGACTCGGCTGCCCATGTTCCCAAGATGC
CAATCCTCCCACAAAATCAGCTGGTGACGCCAGAGTCATCTCAGATAAAT
GGAGTGGACATTCCTTCTGTCCCTGTCCTACCGGTGGGTGCAGCACCGCC
AACTCCTGAGCCTACTCAGGAAAGGTCAGATTTCCAGCCGGAAGACGAAC
CACAACCGACCGTCGAGGTAGTTACAGAAACAACAACGACGGTGGAGACG
GACAATCTTCCACCAGACGAAGACGCCAAGTCTGAAGCGAGATCCATCTC
TACCGCACCCGAAGAACAGGCAATAGCCGATGACGACGACAAAGGAGCCC
ACACAACCCACAGCGAAGACGAAGTCCTACTTGTTGGCCATGACCGCAAA
CACCTTGTCAACCTCAACCGCAACTATCCAGGCCTACGCAGCAAATTCTC
CTACTTCGCACCCCTCGCCACCCTCATCGACCACTACAACGCACTGACAG
ACACCATCTCAATCGTATCCGAAACCCGGCCCGCCATCCGAGCCACAACA
GGCAGAAAGGACTACATACTGACCTTCGGTGTGACCGATCCCTCCCTAGC
CGGCACAATACTGTACGCGCAGATCTTCCGACCCTACAAAACCGCCCTGC
CAAACGTAGAGGAAGGCGACGCAATCCTCCTCCGAAACTTCAAAGTCAAG
AGCTTCAAACACTCCATGACCCTGTCCAGCGTCGACAGCAGCGCCTGGGC
CGTCTTTAACGGCCCCAACGAAGCCCAAATCGACGGCCCACCCGTCGAAT
ACGGCGCGGAGGAGCAAACCTACGCTACTGATTTGCGCCAATGGTATCAC
GAAGACGGCATGGCCATGGTAGCCGATTACCAATTACAAGCCTCGATTGA
GCAGGAAAGTCGCGAGGCTACTCCCTACAGTACCGGTGGATTCAGCGATT
CAGGGAGCGTGAATAACGTAGATGGGCGCGCGGACTCCTCCTTCTCGTCG
AGTCGGGGCTCCGGCTCCGGCTCCCGGAGGAGGAAGTCTCATCGTCGGAT
CACCATCCATGAGTTGCGCGATGGGAGGAGATATGCGGAGGTGGGGTCGC
CGAGTAGTAAGGAGGATATACATGAGTTGAGGGATGGGACGGTGTATGCG
AATTTTTAAATGGACGCTCACGAACAGCAACCTCCGGTCTCCGAACCTCT
ACGGTCGACGACCCCGATCCCTATCGCGAAGCTTGCACCGGCGCTCGAGA
ATCTCTCGGACAGCTCCATTCACGCCGTAGTGACCTTGCTATGGCCCTAC
TCATCATCAACCCGTTCTCTCAGCCTCCTGCTAGCGGAGCCGGACTTTCG
CCTTCGACGCACGAATGGACAGGTTAAGGTGGTTTTCCATGGGCTGGTCG
CAGAAGAAGTAGCCAAATCGCACGTCGGAATTGGCGATACTGTCTTCATT
AGGCTGGCGGGATCGAGATTTGTGGACAATGAGGTGTCTAAACAAACGCC
GGGAAGATGCATCGCGTGGGACATTAACTTTGATGATAGCGTTTCTATTG
AG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0000784 | nuclear chromosome, telomeric region |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003677 | DNA binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0000723 | telomere maintenance |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_10000111.8 |
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR012340 |
| DBxref | InterPro:IPR011564 |
| DBxref | PFAM:PF02765 |
| Product | Telomeric single stranded DNA binding POT1/CDC13 family protein |
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 |
|---|
| NKJJ01000011.1 | supercontig | NKJJ01000011.1:1293020..1297404 - |
|
