|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:2176900..2182990- Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_011978-T2 ID=KJC3_011978-T2|Name=KJC3_011978-T2|organism=Aspergillus niger KJC3|type=mRNA|length=6091bp|location=Sequence derived from alignment at ch8:2176900..2182990- (Aspergillus niger KJC3)
TATTCTCAGCGGCCTCCCATCGTTCCTTTGCTGCCTCCACCATTCCATCC
TCCCCTCCCCCCCCACCTTTTCCCTTCAACTTTGTCACCATTTACTTCTT
CGTTTTTCCCTGATTAGGGGTCACCAAGCTATGGAATGTAAGTATTTTAT
TTGTCTTTCCTAGCTTTTCCTAGACGTGTCCTGCCACTGTCGGCCGGGGT
ACTTCTCCACGGTCTCGACCCACCGAAGAACTCCAGATATCCCCTACATC
TGGTGTATTGAGGGGTTCTCGGGTTCCTCCTGGTTAAGGTCTGGCTGGCT
TTCTTCTCCTGTACCTGTTTTTGCCTTTGGATTTGCCCCTATTATCCCCC
ATCTCTTCCCTACCACTCTCCGTCGCGTTTCATCCAGCCCGCCATCAAAA
ACACGCCCATCCATCATACCTTCATCTTCTACCTCGTTCACCTACCTATT
CTGTTCGATTCTAGTGGAATCTGAGTCGCGTAAATCTGTTTTACACTATG
CCGTGCCTTCCATCCCTCTCCGGGCTCGTACCGGGCTTCAATGCTGATGC
CTCTCATCATCAATAGCTACTAGCATGGTGATCCCATCTACCTCCGAGCC
ATCGGCCACAATGGCCCTGATGAATGGGTACTCCGCATCACCTGCCTCCG
ATGCTGCAAGCAGCAGAGACGAGCTTGCAGTCAGCGAGAGTGAAGGCCAC
CTGTCCGACTCCTTTGCAAACCATGCCGCACGCGAATCATCATCCTCCCC
CGAGGAAGACGCCGCAGACGAGTCCTATAATGCCGGCTCCCCGGACGCGG
AGGGAGATGAGGATGCTTTTGGGATGGAAAATGACGAGGATCAGAGCAGT
GCATCCGGCTCTGAAAACTCTTCATCGTCAGAAACCAGGCGTGGCACGAA
ACGGAAATCGTCGTCGGTCAATGAATCAGACTATATCCGACAGAACCCCG
ATCTATACGGCCTTCGCCGAAGCGCAAGAGCCCGCACGACGCGTCAAATA
GTCGAATCAGACTCGGACTCTGACTCTGATGCTGTAGCACCCCGTGCTAA
GCGTCGACGCGCCGCAGCCTCACAACCCTCCTCGAAACGTCCCTCCCGCT
CCGCAACCCAGTCGTCGTTCTCCGAAGACTCGGACAGCGATGAGTATGGA
GGCCCCCGCGCTCGTACAAGTAAGGCAAGGCGACGGCGGCTCCTTCAAGC
CTCATCAAACGATGCACCTTCTCATCCTGAGGTTCGTTTCTCAACGAGGA
ATGCCTCTCGGGTCTCGAATTACAATGAAGATGATGATGATTCCATGTTC
GAGGATGACCCCGATGAGATGACGCAGAATTATTGGGTGAATACCGTGGA
GGATGATCGCCCAGCTGTCGATATTGTGCTCAATCATCGCCTGAAGGATG
GCGTGGACCCAAGTAGCCTCGACGTCGGCCGCCACGACTTTGAGTTCTAC
ATCAAATGGCAAGGCAAATCTCACTACCATGCTACATGGGAAACGGCCGA
GAGTCTTGCCAACTGTCGTAGTACCCGCCGCCTTGACAATTATATACGCA
AAACCCTGTCCGAAGACGTCCGCCTCAAAAATGACGAAGATGTTGCCCCT
GAGGATCGAGAGAAATGGAACCTCGATCGTGAGAGGGATGTAGACGCTAT
TGAGGATTACAAACAAGTTGAGCGAGTCATCGGAATGCGCGAAGGCGACG
AAGGGACAGAGTACTTCGTCAAATGGAAGCGCCTGTTCTATGACTCTTGT
ACATGGGAGAGTGAAGAGCTCGTTAGTAATATTGCTCAGCGCGAGATAGA
CCGTTTTCTAGATCGCTCCTCTCGCCCCCCGGTGTCAGACAAGTCCGAAA
CCAACCCAGCCACGCGAAAGTCATTCGAGACAATCAAAAGCACACCGAGC
TTCCTGCAGAATGGCCAGCTGAAGGAGTTCCAAGTGAAAGGTGTCAACTT
TATGGCCTTCAATTGGGTGAAGAATCGCAATGTTGTGCTGGCCGACGAGA
TGGGTCTTGGGAAGACCGTTCAGACCGTTGCTTTCATCAACTGGCTACGC
CATGTGCGCCGCCAGCAAGGGCCTTTCGTGGTCGTCGTCCCACTGTCGAC
GATGCCATCCTGGGCTGAGACTTTCGACTACTGGACCCCTGACCTGAACT
ATGTCGTCTACAATGGCAATGAGGCTGCACGCACCGTTCTGCGTGAACAT
GAGCTCATGGTAGACGGCAACCCCCGACGGCCCAAGTTCAATGTACTTCT
TACAACATATGAGTATGTCCTACTGGACTCGGCCTTCCTGAGCCAGTTCA
AGTGGCAGTTTATGGCCGTGGATGAGGCACATCGGTTGAAGAATCGCGAA
TCTCAGCTATATTTGAAGTTGCTCGAGTTCAGGTCTCCGGCTCGACTTCT
CATCACAGGCACCCCTATCCAGAACAACCTCGCAGAACTTTCTGCCCTTC
TAGACTTCCTAAATCCGGGCTTGGTTCACATCGATGCCGACATGGATCTG
AACGCAGAAGCGGCCTCTCATAAGCTTGCGGAACTGACGAAGGCTATTCA
ACCCTTCATGCTACGTCGAACGAAGTCGAAGGTGGAGTCAGACCTTCCTC
CCAAGACCGAGAAGATCATTCGCGTCGAGCTTTCCGACGTCCAACTGGAG
TACTACAAGAACATTCTCACCAAGAATTACGCTGCGCTCAATGACGGAGC
CAGAGGTCAGAAACAATCACTTCTGAACATCATGATGGAGCTGAAGAAAG
CAAGTAACCATCCATTCATGTTCCCCAATGCCGAAGCCAGGATTCTCGAA
GGTAGTACTCGCCGGGAGGATGTTCTGAGGGCAATGATCACCAGCAGTGG
TAAAATGATGCTCTTGGATCAGCTTCTCGCCAAGCTGAAACGCGACGGCC
ACCGTGTGTTGATCTTTAGCCAGATGGTAAAGATGCTTGACATCCTCGGT
GATTATATGGAATTCCGTGGATACACATATCAGCGCCTAGATGGTACCAT
CCCTGCGGCTGCACGTCGTTTGGCTATTGAACATTACAATGCCCCCGGGA
GCAATGACTTTGCTTTCATTCTGTCTACCCGAGCCGGTGGTCTTGGAATC
AACCTTATGACGGCAGATACTGTAGTCTTGTTTGATTCAGACTGGAATCC
TCAGGCTGATCTCCAAGCCATGGCCAGAGCGCACCGTATCGGACAGACGA
GACCGGTCAGTGTGTATCGTCTGGTGTCGAAAGATACCGTGGAGGAAGAA
GTGATTGAGAGAGCTCGGAATAAGCTTCTTCTCGAGTTTATCACAATCCA
ACGCGGTGTTACTGACAAGGAGGCGACAGAGATTCAGAACAAGATGGCTC
GTAGTGGGATCTCGGTCAGCGAGCCAAACTCAACGGAGGATATCTCACGT
ATTCTCAAGCGTCGTGGCCAGAGGATGTTCGAGCAGACTGGTAACCAGGA
AAAGCTTGAACAGCTTGACATCGACTCAGTACTCGCAAATGCGGAACTTC
ATCAGACCGAACAGGCCGAGGAAATCCAGGCTGACGGTGGCGAAGAGTTC
CTTCGAGCCTTCGAATATGTTGACATCAAGGTGGACGATCTTAGTTGGGA
CGACATTATACCTAAAGAACAGCTAGAAGAGATAAAGGCAGAGGAGAAGA
AGAAAGCCGACGAACGCTATCTTGCCGAAGTCATTGAGCAGAATCGACCT
CGCAAGCGCAATGCACCGGGTGACGCACGGGATACCCGAGAAGAACGCAA
AGCCAAAAGGTTAGCGAGAGCACAGGTCAGTATGGAGAATGGCGATGATT
CCGATTCGAATGCTCAGTCGGACCCGAAACGACCGCTTGTGGAGAAAGAA
TATCGCCATCTTCTGCGTGCCTACCTTCGTTATGGAAATATGGTAGAACG
TGAGGAGGATGTCGTTCGTGAGGCACGTCTCCTTGACCGTGATAGAGAGA
CGGTCAAGGCTGCTCTCCGCGAAATAACTGACAAGGCTGCCGATCTGGTT
CGGGAAGACATAGAGAAACTCGAGGCCCTTGAACACGCCGGTAAGGTGCC
GACGAAGAAAGAAAAGAAGGCGGTCTTGTTTGATCTCCATGGAGTCAAGC
GTCTTAATGCGTACACTATTGTGGAACGTCCGACGGAAATGCGTATCTTG
AAGGAGGCGACGGCCGCGGTGCCTGACTTCAAGAATTTCCGGATACCGGA
AGCTACCAAAGCCGCGGATTATACGTGTCCATGGGGTGCGCGCGAAGACG
GGATGCTGTGTATCGGTATTGCGCGGCACGGATATGGTGCCTGGACGCAG
ATCCGGGACGATCCCGACCTTGCCCTTGGCGATAAGTTCTTCCTTGAAGA
GCACCGTGTCGAGAGGAAAAATGAACGTATGAATGCTGAGGACAAGACAA
CGAAGTCCCCAGGAGCCGTTCACCTTGTTCGTCGCGCAGACTATCTGTTA
TCTGTTCTTCGTGACAAAGCCACCAACGGTTCAAGTGTCAGCGCGAAGAG
AGCTGTCGATAACCATCATCGGAACAACCGGAAAGGTTCCCGTACGCATG
CCAGCAACAGCGTCTCAGCTTCACCGGCACCGTCTCTTTCTCGTAGAGGC
CACCGGGAAACAGAACGTTCCAGGCATCGGTCTCATACCCACGGCGCCAG
AGATAGTGTTGAACGACACCACACTCCCAGTCACGACGCTCGACCCAGAT
CCGTGCATGAAGGGGAACGAAGCCGTCATAGAACCTCCGACGCGTCCAGT
GAGGATATTCGGCGTCGTAAGCCTAATGAGAATGGCTACTCCGCCGGCAA
AGAGGATATGGCTCGCTTGTTCTTCAAGCCCATTCGCGAGAATCTGAAGA
AGGTGTCGGCCGTTACTAAAGAGAATTTCCCGAATAAGGCTGAACGGGCT
ACGGAGTTGAGACGTCTACTTGGCAAGGTCGGTGAATTTATCGGCCAGAA
TTTGAAGGGCCAGGGCTCCATGACGTCTTTGGAGACTCGTTTATGGTATG
TCCAATGCAATCCGCCTTATGTTCCGAACAGAGTATACTGACTCTAACAA
CAGGCAATATGTTTCGGTACACTACTGGCCCAACAAAGATGCCGGAGGGG
CTAAACTTCAAGAAATGTATCATAAACTGATCGCTGCCCGTAAGGAGGCT
GCTGCTTCCAAGCCAGCCTCCAACGGAGAGTAGATGCCGGTTTCAAACCC
CGGTATTTCTCAGCGAAAAGATGTCAAGGGTCTTGTTTTTTTTTTCATGG
AGTTCTTTTTGCTTCAATTCATGTTAAAAGGTACATATGCATCATTTGGG
TTAGCATGGCGACGGCGTCTGGTATGATCTACGAATAAGGAGTGTTGTGT
GAAGTTGACCCATGAGTGGCCTTCTATGATGTTTGCATGCATGGCAGCTA
TTTCTTTGGCTCTTACGTCTTGCGGTTCCCCCGTATTTGGAGCATCGGGA
TTTGTGATGTGTTCACATATATCGTTTCCTTCTATCTCTCTATCGCTCAT
CATTCGCTTCCCCCCATATACCTCCGGAATGATGAGCGTTCTTGTTGTTT
CCATGATATCGAACCCGGGAAAGAAAAACCCACCGTTGCCTTGATTGTTT
CTTAGCCCTTTTTCCCATACCACTTAAACCATCCGAGCAGGGCTCCTTAT
ATTCTTTGAATTCATGTATCTTCTTTTCATACTATCAGCATCTTTGGGCT
ATTACTATTCTCTGGAGTTTAAATCCATTTTCTTCCATTCAAGCCTGGGA
ATATCCATCTTCTTGTTCTGCTTTCTGTATCGACGTGTCATTAGACCTCG
ATAACTAGTTGGGTTTATTTCATTCACACCAACAGGAAAGAGTGGCTGGC
TTATTATGTGTTGTGCTTTTCCCCATTGTTTAGGACACGTCTTGAAGGCT
ACTACTTGCCATGCTTGTTCACGCGAAAAACAGGAGGCGCGGAGTGCATG
AGTCCCGGATTCTTACATCTCTTCTCTTAACGGAGTACAATTACAGCACG
TTTGAACAGCTATAGGGGGTACATGCATGGAATAAAACAAGATACTCAAT
TTTCGTTCTTTTTCGATGTGATTCATGCTATCAATACTGGA back to topCoding sequence (CDS) from alignment at ch8:2176900..2182990- >KJC3_011978-T2 ID=KJC3_011978-T2|Name=KJC3_011978-T2|organism=Aspergillus niger KJC3|type=CDS|length=9102bp|location=Sequence derived from alignment at ch8:2176900..2182990- (Aspergillus niger KJC3)
GCAATATGTTTCGGTACACTACTGGCCCAACAAAGATGCCGGAGGGGCTA
AACTTCAAGAAATGTATCATAAACTGATCGCTGCCCGTAAGGAGGCTGCT
GCTTCCAAGCCAGCCTCCAACGGAGAGTAGATGGTGATCCCATCTACCTC
CGAGCCATCGGCCACAATGGCCCTGATGAATGGGTACTCCGCATCACCTG
CCTCCGATGCTGCAAGCAGCAGAGACGAGCTTGCAGTCAGCGAGAGTGAA
GGCCACCTGTCCGACTCCTTTGCAAACCATGCCGCACGCGAATCATCATC
CTCCCCCGAGGAAGACGCCGCAGACGAGTCCTATAATGCCGGCTCCCCGG
ACGCGGAGGGAGATGAGGATGCTTTTGGGATGGAAAATGACGAGGATCAG
AGCAGTGCATCCGGCTCTGAAAACTCTTCATCGTCAGAAACCAGGCGTGG
CACGAAACGGAAATCGTCGTCGGTCAATGAATCAGACTATATCCGACAGA
ACCCCGATCTATACGGCCTTCGCCGAAGCGCAAGAGCCCGCACGACGCGT
CAAATAGTCGAATCAGACTCGGACTCTGACTCTGATGCTGTAGCACCCCG
TGCTAAGCGTCGACGCGCCGCAGCCTCACAACCCTCCTCGAAACGTCCCT
CCCGCTCCGCAACCCAGTCGTCGTTCTCCGAAGACTCGGACAGCGATGAG
TATGGAGGCCCCCGCGCTCGTACAAGTAAGGCAAGGCGACGGCGGCTCCT
TCAAGCCTCATCAAACGATGCACCTTCTCATCCTGAGGTTCGTTTCTCAA
CGAGGAATGCCTCTCGGGTCTCGAATTACAATGAAGATGATGATGATTCC
ATGTTCGAGGATGACCCCGATGAGATGACGCAGAATTATTGGGTGAATAC
CGTGGAGGATGATCGCCCAGCTGTCGATATTGTGCTCAATCATCGCCTGA
AGGATGGCGTGGACCCAAGTAGCCTCGACGTCGGCCGCCACGACTTTGAG
TTCTACATCAAATGGCAAGGCAAATCTCACTACCATGCTACATGGGAAAC
GGCCGAGAGTCTTGCCAACTGTCGTAGTACCCGCCGCCTTGACAATTATA
TACGCAAAACCCTGTCCGAAGACGTCCGCCTCAAAAATGACGAAGATGTT
GCCCCTGAGGATCGAGAGAAATGGAACCTCGATCGTGAGAGGGATGTAGA
CGCTATTGAGGATTACAAACAAGTTGAGCGAGTCATCGGAATGCGCGAAG
GCGACGAAGGGACAGAGTACTTCGTCAAATGGAAGCGCCTGTTCTATGAC
TCTTGTACATGGGAGAGTGAAGAGCTCGTTAGTAATATTGCTCAGCGCGA
GATAGACCGTTTTCTAGATCGCTCCTCTCGCCCCCCGGTGTCAGACAAGT
CCGAAACCAACCCAGCCACGCGAAAGTCATTCGAGACAATCAAAAGCACA
CCGAGCTTCCTGCAGAATGGCCAGCTGAAGGAGTTCCAAGTGAAAGGTGT
CAACTTTATGGCCTTCAATTGGGTGAAGAATCGCAATGTTGTGCTGGCCG
ACGAGATGGGTCTTGGGAAGACCGTTCAGACCGTTGCTTTCATCAACTGG
CTACGCCATGTGCGCCGCCAGCAAGGGCCTTTCGTGGTCGTCGTCCCACT
GTCGACGATGCCATCCTGGGCTGAGACTTTCGACTACTGGACCCCTGACC
TGAACTATGTCGTCTACAATGGCAATGAGGCTGCACGCACCGTTCTGCGT
GAACATGAGCTCATGGTAGACGGCAACCCCCGACGGCCCAAGTTCAATGT
ACTTCTTACAACATATGAGTATGTCCTACTGGACTCGGCCTTCCTGAGCC
AGTTCAAGTGGCAGTTTATGGCCGTGGATGAGGCACATCGGTTGAAGAAT
CGCGAATCTCAGCTATATTTGAAGTTGCTCGAGTTCAGGTCTCCGGCTCG
ACTTCTCATCACAGGCACCCCTATCCAGAACAACCTCGCAGAACTTTCTG
CCCTTCTAGACTTCCTAAATCCGGGCTTGGTTCACATCGATGCCGACATG
GATCTGAACGCAGAAGCGGCCTCTCATAAGCTTGCGGAACTGACGAAGGC
TATTCAACCCTTCATGCTACGTCGAACGAAGTCGAAGGTGGAGTCAGACC
TTCCTCCCAAGACCGAGAAGATCATTCGCGTCGAGCTTTCCGACGTCCAA
CTGGAGTACTACAAGAACATTCTCACCAAGAATTACGCTGCGCTCAATGA
CGGAGCCAGAGGTCAGAAACAATCACTTCTGAACATCATGATGGAGCTGA
AGAAAGCAAGTAACCATCCATTCATGTTCCCCAATGCCGAAGCCAGGATT
CTCGAAGGTAGTACTCGCCGGGAGGATGTTCTGAGGGCAATGATCACCAG
CAGTGGTAAAATGATGCTCTTGGATCAGCTTCTCGCCAAGCTGAAACGCG
ACGGCCACCGTGTGTTGATCTTTAGCCAGATGGTAAAGATGCTTGACATC
CTCGGTGATTATATGGAATTCCGTGGATACACATATCAGCGCCTAGATGG
TACCATCCCTGCGGCTGCACGTCGTTTGGCTATTGAACATTACAATGCCC
CCGGGAGCAATGACTTTGCTTTCATTCTGTCTACCCGAGCCGGTGGTCTT
GGAATCAACCTTATGACGGCAGATACTGTAGTCTTGTTTGATTCAGACTG
GAATCCTCAGGCTGATCTCCAAGCCATGGCCAGAGCGCACCGTATCGGAC
AGACGAGACCGGTCAGTGTGTATCGTCTGGTGTCGAAAGATACCGTGGAG
GAAGAAGTGATTGAGAGAGCTCGGAATAAGCTTCTTCTCGAGTTTATCAC
AATCCAACGCGGTGTTACTGACAAGGAGGCGACAGAGATTCAGAACAAGA
TGGCTCGTAGTGGGATCTCGGTCAGCGAGCCAAACTCAACGGAGGATATC
TCACGTATTCTCAAGCGTCGTGGCCAGAGGATGTTCGAGCAGACTGGTAA
CCAGGAAAAGCTTGAACAGCTTGACATCGACTCAGTACTCGCAAATGCGG
AACTTCATCAGACCGAACAGGCCGAGGAAATCCAGGCTGACGGTGGCGAA
GAGTTCCTTCGAGCCTTCGAATATGTTGACATCAAGGTGGACGATCTTAG
TTGGGACGACATTATACCTAAAGAACAGCTAGAAGAGATAAAGGCAGAGG
AGAAGAAGAAAGCCGACGAACGCTATCTTGCCGAAGTCATTGAGCAGAAT
CGACCTCGCAAGCGCAATGCACCGGGTGACGCACGGGATACCCGAGAAGA
ACGCAAAGCCAAAAGGTTAGCGAGAGCACAGGTCAGTATGGAGAATGGCG
ATGATTCCGATTCGAATGCTCAGTCGGACCCGAAACGACCGCTTGTGGAG
AAAGAATATCGCCATCTTCTGCGTGCCTACCTTCGTTATGGAAATATGGT
AGAACGTGAGGAGGATGTCGTTCGTGAGGCACGTCTCCTTGACCGTGATA
GAGAGACGGTCAAGGCTGCTCTCCGCGAAATAACTGACAAGGCTGCCGAT
CTGGTTCGGGAAGACATAGAGAAACTCGAGGCCCTTGAACACGCCGGTAA
GGTGCCGACGAAGAAAGAAAAGAAGGCGGTCTTGTTTGATCTCCATGGAG
TCAAGCGTCTTAATGCGTACACTATTGTGGAACGTCCGACGGAAATGCGT
ATCTTGAAGGAGGCGACGGCCGCGGTGCCTGACTTCAAGAATTTCCGGAT
ACCGGAAGCTACCAAAGCCGCGGATTATACGTGTCCATGGGGTGCGCGCG
AAGACGGGATGCTGTGTATCGGTATTGCGCGGCACGGATATGGTGCCTGG
ACGCAGATCCGGGACGATCCCGACCTTGCCCTTGGCGATAAGTTCTTCCT
TGAAGAGCACCGTGTCGAGAGGAAAAATGAACGTATGAATGCTGAGGACA
AGACAACGAAGTCCCCAGGAGCCGTTCACCTTGTTCGTCGCGCAGACTAT
CTGTTATCTGTTCTTCGTGACAAAGCCACCAACGGTTCAAGTGTCAGCGC
GAAGAGAGCTGTCGATAACCATCATCGGAACAACCGGAAAGGTTCCCGTA
CGCATGCCAGCAACAGCGTCTCAGCTTCACCGGCACCGTCTCTTTCTCGT
AGAGGCCACCGGGAAACAGAACGTTCCAGGCATCGGTCTCATACCCACGG
CGCCAGAGATAGTGTTGAACGACACCACACTCCCAGTCACGACGCTCGAC
CCAGATCCGTGCATGAAGGGGAACGAAGCCGTCATAGAACCTCCGACGCG
TCCAGTGAGGATATTCGGCGTCGTAAGCCTAATGAGAATGGCTACTCCGC
CGGCAAAGAGGATATGGCTCGCTTGTTCTTCAAGCCCATTCGCGAGAATC
TGAAGAAGGTGTCGGCCGTTACTAAAGAGAATTTCCCGAATAAGGCTGAA
CGGGCTACGGAGTTGAGACGTCTACTTGGCAAGGTCGGTGAATTTATCGG
CCAGAATTTGAAGGGCCAGGGCTCCATGACGTCTTTGGAGACTCGTTTAT
GGCAATATGTTTCGGTACACTACTGGCCCAACAAAGATGCCGGAGGGGCT
AAACTTCAAGAAATGTATCATAAACTGATCGCTGCCCGTAAGGAGGCTGC
TGCTTCCAAGCCAGCCTCCAACGGAGAGTAGATGGTGATCCCATCTACCT
CCGAGCCATCGGCCACAATGGCCCTGATGAATGGGTACTCCGCATCACCT
GCCTCCGATGCTGCAAGCAGCAGAGACGAGCTTGCAGTCAGCGAGAGTGA
AGGCCACCTGTCCGACTCCTTTGCAAACCATGCCGCACGCGAATCATCAT
CCTCCCCCGAGGAAGACGCCGCAGACGAGTCCTATAATGCCGGCTCCCCG
GACGCGGAGGGAGATGAGGATGCTTTTGGGATGGAAAATGACGAGGATCA
GAGCAGTGCATCCGGCTCTGAAAACTCTTCATCGTCAGAAACCAGGCGTG
GCACGAAACGGAAATCGTCGTCGGTCAATGAATCAGACTATATCCGACAG
AACCCCGATCTATACGGCCTTCGCCGAAGCGCAAGAGCCCGCACGACGCG
TCAAATAGTCGAATCAGACTCGGACTCTGACTCTGATGCTGTAGCACCCC
GTGCTAAGCGTCGACGCGCCGCAGCCTCACAACCCTCCTCGAAACGTCCC
TCCCGCTCCGCAACCCAGTCGTCGTTCTCCGAAGACTCGGACAGCGATGA
GTATGGAGGCCCCCGCGCTCGTACAAGTAAGGCAAGGCGACGGCGGCTCC
TTCAAGCCTCATCAAACGATGCACCTTCTCATCCTGAGGTTCGTTTCTCA
ACGAGGAATGCCTCTCGGGTCTCGAATTACAATGAAGATGATGATGATTC
CATGTTCGAGGATGACCCCGATGAGATGACGCAGAATTATTGGGTGAATA
CCGTGGAGGATGATCGCCCAGCTGTCGATATTGTGCTCAATCATCGCCTG
AAGGATGGCGTGGACCCAAGTAGCCTCGACGTCGGCCGCCACGACTTTGA
GTTCTACATCAAATGGCAAGGCAAATCTCACTACCATGCTACATGGGAAA
CGGCCGAGAGTCTTGCCAACTGTCGTAGTACCCGCCGCCTTGACAATTAT
ATACGCAAAACCCTGTCCGAAGACGTCCGCCTCAAAAATGACGAAGATGT
TGCCCCTGAGGATCGAGAGAAATGGAACCTCGATCGTGAGAGGGATGTAG
ACGCTATTGAGGATTACAAACAAGTTGAGCGAGTCATCGGAATGCGCGAA
GGCGACGAAGGGACAGAGTACTTCGTCAAATGGAAGCGCCTGTTCTATGA
CTCTTGTACATGGGAGAGTGAAGAGCTCGTTAGTAATATTGCTCAGCGCG
AGATAGACCGTTTTCTAGATCGCTCCTCTCGCCCCCCGGTGTCAGACAAG
TCCGAAACCAACCCAGCCACGCGAAAGTCATTCGAGACAATCAAAAGCAC
ACCGAGCTTCCTGCAGAATGGCCAGCTGAAGGAGTTCCAAGTGAAAGGTG
TCAACTTTATGGCCTTCAATTGGGTGAAGAATCGCAATGTTGTGCTGGCC
GACGAGATGGGTCTTGGGAAGACCGTTCAGACCGTTGCTTTCATCAACTG
GCTACGCCATGTGCGCCGCCAGCAAGGGCCTTTCGTGGTCGTCGTCCCAC
TGTCGACGATGCCATCCTGGGCTGAGACTTTCGACTACTGGACCCCTGAC
CTGAACTATGTCGTCTACAATGGCAATGAGGCTGCACGCACCGTTCTGCG
TGAACATGAGCTCATGGTAGACGGCAACCCCCGACGGCCCAAGTTCAATG
TACTTCTTACAACATATGAGTATGTCCTACTGGACTCGGCCTTCCTGAGC
CAGTTCAAGTGGCAGTTTATGGCCGTGGATGAGGCACATCGGTTGAAGAA
TCGCGAATCTCAGCTATATTTGAAGTTGCTCGAGTTCAGGTCTCCGGCTC
GACTTCTCATCACAGGCACCCCTATCCAGAACAACCTCGCAGAACTTTCT
GCCCTTCTAGACTTCCTAAATCCGGGCTTGGTTCACATCGATGCCGACAT
GGATCTGAACGCAGAAGCGGCCTCTCATAAGCTTGCGGAACTGACGAAGG
CTATTCAACCCTTCATGCTACGTCGAACGAAGTCGAAGGTGGAGTCAGAC
CTTCCTCCCAAGACCGAGAAGATCATTCGCGTCGAGCTTTCCGACGTCCA
ACTGGAGTACTACAAGAACATTCTCACCAAGAATTACGCTGCGCTCAATG
ACGGAGCCAGAGGTCAGAAACAATCACTTCTGAACATCATGATGGAGCTG
AAGAAAGCAAGTAACCATCCATTCATGTTCCCCAATGCCGAAGCCAGGAT
TCTCGAAGGTAGTACTCGCCGGGAGGATGTTCTGAGGGCAATGATCACCA
GCAGTGGTAAAATGATGCTCTTGGATCAGCTTCTCGCCAAGCTGAAACGC
GACGGCCACCGTGTGTTGATCTTTAGCCAGATGGTAAAGATGCTTGACAT
CCTCGGTGATTATATGGAATTCCGTGGATACACATATCAGCGCCTAGATG
GTACCATCCCTGCGGCTGCACGTCGTTTGGCTATTGAACATTACAATGCC
CCCGGGAGCAATGACTTTGCTTTCATTCTGTCTACCCGAGCCGGTGGTCT
TGGAATCAACCTTATGACGGCAGATACTGTAGTCTTGTTTGATTCAGACT
GGAATCCTCAGGCTGATCTCCAAGCCATGGCCAGAGCGCACCGTATCGGA
CAGACGAGACCGGTCAGTGTGTATCGTCTGGTGTCGAAAGATACCGTGGA
GGAAGAAGTGATTGAGAGAGCTCGGAATAAGCTTCTTCTCGAGTTTATCA
CAATCCAACGCGGTGTTACTGACAAGGAGGCGACAGAGATTCAGAACAAG
ATGGCTCGTAGTGGGATCTCGGTCAGCGAGCCAAACTCAACGGAGGATAT
CTCACGTATTCTCAAGCGTCGTGGCCAGAGGATGTTCGAGCAGACTGGTA
ACCAGGAAAAGCTTGAACAGCTTGACATCGACTCAGTACTCGCAAATGCG
GAACTTCATCAGACCGAACAGGCCGAGGAAATCCAGGCTGACGGTGGCGA
AGAGTTCCTTCGAGCCTTCGAATATGTTGACATCAAGGTGGACGATCTTA
GTTGGGACGACATTATACCTAAAGAACAGCTAGAAGAGATAAAGGCAGAG
GAGAAGAAGAAAGCCGACGAACGCTATCTTGCCGAAGTCATTGAGCAGAA
TCGACCTCGCAAGCGCAATGCACCGGGTGACGCACGGGATACCCGAGAAG
AACGCAAAGCCAAAAGGTTAGCGAGAGCACAGGTCAGTATGGAGAATGGC
GATGATTCCGATTCGAATGCTCAGTCGGACCCGAAACGACCGCTTGTGGA
GAAAGAATATCGCCATCTTCTGCGTGCCTACCTTCGTTATGGAAATATGG
TAGAACGTGAGGAGGATGTCGTTCGTGAGGCACGTCTCCTTGACCGTGAT
AGAGAGACGGTCAAGGCTGCTCTCCGCGAAATAACTGACAAGGCTGCCGA
TCTGGTTCGGGAAGACATAGAGAAACTCGAGGCCCTTGAACACGCCGGTA
AGGTGCCGACGAAGAAAGAAAAGAAGGCGGTCTTGTTTGATCTCCATGGA
GTCAAGCGTCTTAATGCGTACACTATTGTGGAACGTCCGACGGAAATGCG
TATCTTGAAGGAGGCGACGGCCGCGGTGCCTGACTTCAAGAATTTCCGGA
TACCGGAAGCTACCAAAGCCGCGGATTATACGTGTCCATGGGGTGCGCGC
GAAGACGGGATGCTGTGTATCGGTATTGCGCGGCACGGATATGGTGCCTG
GACGCAGATCCGGGACGATCCCGACCTTGCCCTTGGCGATAAGTTCTTCC
TTGAAGAGCACCGTGTCGAGAGGAAAAATGAACGTATGAATGCTGAGGAC
AAGACAACGAAGTCCCCAGGAGCCGTTCACCTTGTTCGTCGCGCAGACTA
TCTGTTATCTGTTCTTCGTGACAAAGCCACCAACGGTTCAAGTGTCAGCG
CGAAGAGAGCTGTCGATAACCATCATCGGAACAACCGGAAAGGTTCCCGT
ACGCATGCCAGCAACAGCGTCTCAGCTTCACCGGCACCGTCTCTTTCTCG
TAGAGGCCACCGGGAAACAGAACGTTCCAGGCATCGGTCTCATACCCACG
GCGCCAGAGATAGTGTTGAACGACACCACACTCCCAGTCACGACGCTCGA
CCCAGATCCGTGCATGAAGGGGAACGAAGCCGTCATAGAACCTCCGACGC
GTCCAGTGAGGATATTCGGCGTCGTAAGCCTAATGAGAATGGCTACTCCG
CCGGCAAAGAGGATATGGCTCGCTTGTTCTTCAAGCCCATTCGCGAGAAT
CTGAAGAAGGTGTCGGCCGTTACTAAAGAGAATTTCCCGAATAAGGCTGA
ACGGGCTACGGAGTTGAGACGTCTACTTGGCAAGGTCGGTGAATTTATCG
GCCAGAATTTGAAGGGCCAGGGCTCCATGACGTCTTTGGAGACTCGTTTA
TG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| 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:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_011978-T2.utr3p1 | KJC3_011978-T2.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
The following exon feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG092607ZS |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR016197 |
| DBxref | InterPro:IPR023779 |
| DBxref | InterPro:IPR000330 |
| DBxref | InterPro:IPR038718 |
| DBxref | InterPro:IPR023780 |
| DBxref | InterPro:IPR000953 |
| DBxref | InterPro:IPR001650 |
| DBxref | InterPro:IPR014001 |
| DBxref | InterPro:IPR025260 |
| DBxref | PFAM:PF00176 |
| DBxref | PFAM:PF00271 |
| DBxref | PFAM:PF13907 |
| DBxref | PFAM:PF00385 |
| Product | hypothetical 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 |
|---|
| ch8 | supercontig | ch8:2176900..2182990 - |
|
