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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch2:2351220..2354458+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_002359-T1 ID=KJC3_002359-T1|Name=KJC3_002359-T1|organism=Aspergillus niger KJC3|type=mRNA|length=3239bp|location=Sequence derived from alignment at ch2:2351220..2354458+ (Aspergillus niger KJC3)
ATTTGCTTCGGTGTGTTACTGCTCAGCTTGCGCTCACCAGGCCGACTCCG
ATCTGAGCTACCTATTCAAGATATATAGGCTTCGATGACCTCTTATCGAG
CAGAGAATTCAATTCTTTCTTTCCCAGAGCAAAACGCGTTTTCCCTTCTA
GCTGTACGCCATGCGCCACAGCATCGGATTGGCAGCGGCCCTACTGGCAC
CAACCCTACCTGTAGCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAG
AAATGGACTCTCAGTAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATT
TCCATCGCAGGTTCACTTAGATCTACTAAGGGCCGGAGTAATTGGTGAGT
ACTATTTAGAAGTCAAGTCCTGTGAATATACAACCGCTAACAGCCTCAAT
AGATGATCCGTAAGTCACTTCATCTTCCATGGATGAGAATGAATCGTACT
AAATATTGCTGGAGATACCATGGTTTGAACGATTTCAATCTTCGCTGGAT
CGCCGCTGCCAACTGGACTTATACCAGTCAACCCATCAAAGGCCTGTGAG
TCACTGTTAAGTTCGTGTAATGTCGTTCGACAATACTAAGAACCAATAGC
CTGGACAATTACGACTCAACCTGGCTCGTATTTGACGGACTGGACACTTT
CGCAACCATCTCATTCTGTGGACAGCAAATCGCATTCACCGACAATCAGT
TTCGCCAGTATGCGTTCGATGTATCTACAGCACTAGGGTCCTGCAAAGGA
GATCCTATTTTGAGCATCAACTTTGGAAGCGCACCGAACATTGTTGATGC
TATCGCACAGGATCCTAATTCGCAAAGTAAGTTTCAGAGGTGGCGTGACT
GCCGAGGTTAATACATGCTAATTGCATATAGAATGGCCCGATGACGTCCA
ACTCACCTACGAGTACCCAAATCGGTGGTTTATGCGCAAAGAACAATCGG
ACTTCGGATGGGATTGGGGTCCAGCATTTGCCCCTGCAGGTCCATGGAAG
CCTGCATATATTGTTCAGCTGGACAAGAAAGAAAGTGTCTATGTCCTGAA
CACGGATCTGGATATATACCGAAAGAACCAAATTAACTACCTTCCGCCAG
ACCAGAGCCAACCTTGGGTCGTCAACGCTAGCATTGACATCCTGGGTCCA
CTACCTGCCAAACCAACCATGTCGATTGAAGTGCGCGATACTCATTCTGG
CACGATCCTTACTTCACGGACTCTGAACAATGTCAGTGTGGCTGGTAATG
CCATAACTGGTGTCACCGTTCTTGACGGGCTGAACCCGAAACTGTGGTGG
CCGCAAGGCCTCGGTGATCAGAACCTCTACAATGTTTCTATCACTATCCA
AGGTAGAGGGAACCAGACCGTGGCCAGTGTGAACAAACGGACGGGCTTCC
GCACCATTTTTCTCAACCAGCGCAACATTACTGAGGTACAGCGTGCACAA
GGAATCGCCCCTGGAGCAAATTGGCACTTTGAAGTCAACGGTCATGAATT
CTACGCCAAAGGATCGAACCTTATCCCACCAGACAGTTTCTGGACCCGTG
TTACAGAAGAGAGGATATCACGGCTATTCGATGCAGTCGTGGTTGGAAAC
CAGAATATGCTCCGTGTCTGGTCCTCCGGCGCGTACCTGCATGACTACAT
CTATGATCTGGCCGATGAAAAGGGCATTCTCTTATGGAGCGAGTTCGAGT
TCAGTGACGCTTTATATCCCTCCGACGACGCTTTCCTCGAGAACGTTGCT
GCTGAGATAGTATACAATGTTCGACGAGTGAACCACCATCCCTCCTTGGC
TCTATGGGCTGGCGGAAATGAAATCGAATCCTTGATGCTCCCACGTGTCA
AAGATGCAGCCCCATCTTCATATTCCTACTATGTGGGCGAGTATGAGAAG
ATGTACATCAGCCTCTTCTTGCCTTTGGTCTACGAGAACACGCGTTCCAT
CTCATACTCCCCTAGCAGCACAACCGAAGGCTACCTGTACATTGACCTTT
CTGCCCCTGTCCCAATGGCTGAACGTTACGACAACACTACCTCCGGCTCA
TACTACGGCGATACAGACCACTACGACTACGACACTAGCGTGGCGTTTGA
CTACGGTTCCTATCCGGTAGGCCGCTTTGCCAACGAATTCGGCTTCCACA
GCATGCCCAGCCTCCAGACATGGCAACAAGCTGTTGACACTGAGGATCTT
TACTTCAACAGCAGCGTCGTCATGCTGCGTAACCACCACGATCCCGCAGG
CGGCCTCATGACGGACAACTACGCAAACTCGGCCACTGGCATGGGCGAAA
TGACCATGGGCGTGATAAGCTACTACCCGATACCGAGTAAATCCGACCAC
ATCTCCAACTTTAGCGCCTGGTGCCATGCCACCCAGCTCTTCCAGGCAGA
CATGTACAAAAGTCAGATCCAATTCTACCGTCGTGGAAGTGGCATGCCCG
AGCGCCAGCTTGGCTCCTTGTATTGGCAGCTTGAAGACATCTGGCAAGCG
CCATCATGGGCAGGCATTGAGTACGGTGGTAGATGGAAGGTCCTTCACCA
CGTTATGAGAGATATTTATCAGCCTGTTATTGTTTCACCTTTTTGGAACT
ATACTACAGGCTCGTTGGATGTCTATGTTACTTCTGATCTGTGGAGCCCT
GCAGCAGGTACTGTCGATTTGACCTGGTTGGACCTGTCCGGCCGCCCTAT
TGCGGGTAACGCGGGCACGCCAAAATCTGTTCCTTTTACCGTGGGAGGGC
TCAACAGCACTCGCATCTATGGCACGAATGTTTCTTCTTTGGGCTTGCCG
GATACTAAAGATGCTGTTCTAATCCTCTCGCTCTCGGCTCACGGCCGTCT
TCCGAACTCAGACCGGACCACCAACTTGACTCATGAGAATTACGCTACGC
TTTCTTGGCCCAAGGATTTGAAGATTGTTGACCCGGGACTTAAGCTGGGA
TACAGCTCAAAGAAGACAACTGTTACAGTGGAAGCTACATCTGGCGTTTC
ACTATATACATGGCTCGACTATCCTGAAGGCGTAGTGGGATACTTTGAAG
AGAATGCGTTCGTCTTAGCACCAGGCGAGAAGAAAGAGATTGGTTTTACT
GTTCTAGACGACACGACAAATGGGGCTTGGGTCCGTAACATCACCGTCCA
GAGTCTCTGGGACCAGAAGGTTCGCGGATGATTATCAATAGCATTCGCAT
AGCCACAGACGACAAATGGGGCTTGGGTCCGTAATATCA back to topCoding sequence (CDS) from alignment at ch2:2351220..2354458+ >KJC3_002359-T1 ID=KJC3_002359-T1|Name=KJC3_002359-T1|organism=Aspergillus niger KJC3|type=CDS|length=13995bp|location=Sequence derived from alignment at ch2:2351220..2354458+ (Aspergillus niger KJC3)
ATGCGCCACAGCATCGGATTGGCAGCGGCCCTACTGGCACCAACCCTACC
TGTAGCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAGAAATGGACTC
TCAGTAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATTTCCATCGCAG
GTTCACTTAGATCTACTAAGGGCCGGAGTAATTGATGATCCATACCATGG
TTTGAACGATTTCAATCTTCGCTGGATCGCCGCTGCCAACTGGACTTATA
CCAGTCAACCCATCAAAGGCCTCCTGGACAATTACGACTCAACCTGGCTC
GTATTTGACGGACTGGACACTTTCGCAACCATCTCATTCTGTGGACAGCA
AATCGCATTCACCGACAATCAGTTTCGCCAGTATGCGTTCGATGTATCTA
CAGCACTAGGGTCCTGCAAAGGAGATCCTATTTTGAGCATCAACTTTGGA
AGCGCACCGAACATTGTTGATGCTATCGCACAGGATCCTAATTCGCAAAA
ATGGCCCGATGACGTCCAACTCACCTACGAGTACCCAAATCGGTGGTTTA
TGCGCAAAGAACAATCGGACTTCGGATGGGATTGGGGTCCAGCATTTGCC
CCTGCAGGTCCATGGAAGCCTGCATATATTGTTCAGCTGGACAAGAAAGA
AAGTGTCTATGTCCTGAACACGGATCTGGATATATACCGAAAGAACCAAA
TTAACTACCTTCCGCCAGACCAGAGCCAACCTTGGGTCGTCAACGCTAGC
ATTGACATCCTGGGTCCACTACCTGCCAAACCAACCATGTCGATTGAAGT
GCGCGATACTCATTCTGGCACGATCCTTACTTCACGGACTCTGAACAATG
TCAGTGTGGCTGGTAATGCCATAACTGGTGTCACCGTTCTTGACGGGCTG
AACCCGAAACTGTGGTGGCCGCAAGGCCTCGGTGATCAGAACCTCTACAA
TGTTTCTATCACTATCCAAGGTAGAGGGAACCAGACCGTGGCCAGTGTGA
ACAAACGGACGGGCTTCCGCACCATTTTTCTCAACCAGCGCAACATTACT
GAGGTACAGCGTGCACAAGGAATCGCCCCTGGAGCAAATTGGCACTTTGA
AGTCAACGGTCATGAATTCTACGCCAAAGGATCGAACCTTATCCCACCAG
ACAGTTTCTGGACCCGTGTTACAGAAGAGAGGATATCACGGCTATTCGAT
GCAGTCGTGGTTGGAAACCAGAATATGCTCCGTGTCTGGTCCTCCGGCGC
GTACCTGCATGACTACATCTATGATCTGGCCGATGAAAAGGGCATTCTCT
TATGGAGCGAGTTCGAGTTCAGTGACGCTTTATATCCCTCCGACGACGCT
TTCCTCGAGAACGTTGCTGCTGAGATAGTATACAATGTTCGACGAGTGAA
CCACCATCCCTCCTTGGCTCTATGGGCTGGCGGAAATGAAATCGAATCCT
TGATGCTCCCACGTGTCAAAGATGCAGCCCCATCTTCATATTCCTACTAT
GTGGGCGAGTATGAGAAGATGTACATCAGCCTCTTCTTGCCTTTGGTCTA
CGAGAACACGCGTTCCATCTCATACTCCCCTAGCAGCACAACCGAAGGCT
ACCTGTACATTGACCTTTCTGCCCCTGTCCCAATGGCTGAACGTTACGAC
AACACTACCTCCGGCTCATACTACGGCGATACAGACCACTACGACTACGA
CACTAGCGTGGCGTTTGACTACGGTTCCTATCCGGTAGGCCGCTTTGCCA
ACGAATTCGGCTTCCACAGCATGCCCAGCCTCCAGACATGGCAACAAGCT
GTTGACACTGAGGATCTTTACTTCAACAGCAGCGTCGTCATGCTGCGTAA
CCACCACGATCCCGCAGGCGGCCTCATGACGGACAACTACGCAAACTCGG
CCACTGGCATGGGCGAAATGACCATGGGCGTGATAAGCTACTACCCGATA
CCGAGTAAATCCGACCACATCTCCAACTTTAGCGCCTGGTGCCATGCCAC
CCAGCTCTTCCAGGCAGACATGTACAAAAGTCAGATCCAATTCTACCGTC
GTGGAAGTGGCATGCCCGAGCGCCAGCTTGGCTCCTTGTATTGGCAGCTT
GAAGACATCTGGCAAGCGCCATCATGGGCAGGCATTGAGTACGGTGGTAG
ATGGAAGGTCCTTCACCACGTTATGAGAGATATTTATCAGCCTGTTATTG
TTTCACCTTTTTGGAACTATACTACAGGCTCGTTGGATGTCTATGTTACT
TCTGATCTGTGGAGCCCTGCAGCAGGTACTGTCGATTTGACCTGGTTGGA
CCTGTCCGGCCGCCCTATTGCGGGTAACGCGGGCACGCCAAAATCTGTTC
CTTTTACCGTGGGAGGGCTCAACAGCACTCGCATCTATGGCACGAATGTT
TCTTCTTTGGGCTTGCCGGATACTAAAGATGCTGTTCTAATCCTCTCGCT
CTCGGCTCACGGCCGTCTTCCGAACTCAGACCGGACCACCAACTTGACTC
ATGAGAATTACGCTACGCTTTCTTGGCCCAAGGATTTGAAGATTGTTGAC
CCGGGACTTAAGCTGGGATACAGCTCAAAGAAGACAACTGTTACAGTGGA
AGCTACATCTGGCGTTTCACTATATACATGGCTCGACTATCCTGAAGGCG
TAGTGGGATACTTTGAAGAGAATGCGTTCGTCTTAGCACCAGGCGAGAAG
AAAGAGATTGGTTTTACTGTTCTAGACGACACGACAAATGGGGCTTGGGT
CCGTAACATCACCGTCCAGAGTCTCTGGGACCAGAAGGTTCGCGGATGAA
TGCGCCACAGCATCGGATTGGCAGCGGCCCTACTGGCACCAACCCTACCT
GTAGCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAGAAATGGACTCT
CAGTAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATTTCCATCGCAGG
TTCACTTAGATCTACTAAGGGCCGGAGTAATTGATGATCCATACCATGGT
TTGAACGATTTCAATCTTCGCTGGATCGCCGCTGCCAACTGGACTTATAC
CAGTCAACCCATCAAAGGCCTCCTGGACAATTACGACTCAACCTGGCTCG
TATTTGACGGACTGGACACTTTCGCAACCATCTCATTCTGTGGACAGCAA
ATCGCATTCACCGACAATCAGTTTCGCCAGTATGCGTTCGATGTATCTAC
AGCACTAGGGTCCTGCAAAGGAGATCCTATTTTGAGCATCAACTTTGGAA
GCGCACCGAACATTGTTGATGCTATCGCACAGGATCCTAATTCGCAAAAA
TGGCCCGATGACGTCCAACTCACCTACGAGTACCCAAATCGGTGGTTTAT
GCGCAAAGAACAATCGGACTTCGGATGGGATTGGGGTCCAGCATTTGCCC
CTGCAGGTCCATGGAAGCCTGCATATATTGTTCAGCTGGACAAGAAAGAA
AGTGTCTATGTCCTGAACACGGATCTGGATATATACCGAAAGAACCAAAT
TAACTACCTTCCGCCAGACCAGAGCCAACCTTGGGTCGTCAACGCTAGCA
TTGACATCCTGGGTCCACTACCTGCCAAACCAACCATGTCGATTGAAGTG
CGCGATACTCATTCTGGCACGATCCTTACTTCACGGACTCTGAACAATGT
CAGTGTGGCTGGTAATGCCATAACTGGTGTCACCGTTCTTGACGGGCTGA
ACCCGAAACTGTGGTGGCCGCAAGGCCTCGGTGATCAGAACCTCTACAAT
GTTTCTATCACTATCCAAGGTAGAGGGAACCAGACCGTGGCCAGTGTGAA
CAAACGGACGGGCTTCCGCACCATTTTTCTCAACCAGCGCAACATTACTG
AGGTACAGCGTGCACAAGGAATCGCCCCTGGAGCAAATTGGCACTTTGAA
GTCAACGGTCATGAATTCTACGCCAAAGGATCGAACCTTATCCCACCAGA
CAGTTTCTGGACCCGTGTTACAGAAGAGAGGATATCACGGCTATTCGATG
CAGTCGTGGTTGGAAACCAGAATATGCTCCGTGTCTGGTCCTCCGGCGCG
TACCTGCATGACTACATCTATGATCTGGCCGATGAAAAGGGCATTCTCTT
ATGGAGCGAGTTCGAGTTCAGTGACGCTTTATATCCCTCCGACGACGCTT
TCCTCGAGAACGTTGCTGCTGAGATAGTATACAATGTTCGACGAGTGAAC
CACCATCCCTCCTTGGCTCTATGGGCTGGCGGAAATGAAATCGAATCCTT
GATGCTCCCACGTGTCAAAGATGCAGCCCCATCTTCATATTCCTACTATG
TGGGCGAGTATGAGAAGATGTACATCAGCCTCTTCTTGCCTTTGGTCTAC
GAGAACACGCGTTCCATCTCATACTCCCCTAGCAGCACAACCGAAGGCTA
CCTGTACATTGACCTTTCTGCCCCTGTCCCAATGGCTGAACGTTACGACA
ACACTACCTCCGGCTCATACTACGGCGATACAGACCACTACGACTACGAC
ACTAGCGTGGCGTTTGACTACGGTTCCTATCCGGTAGGCCGCTTTGCCAA
CGAATTCGGCTTCCACAGCATGCCCAGCCTCCAGACATGGCAACAAGCTG
TTGACACTGAGGATCTTTACTTCAACAGCAGCGTCGTCATGCTGCGTAAC
CACCACGATCCCGCAGGCGGCCTCATGACGGACAACTACGCAAACTCGGC
CACTGGCATGGGCGAAATGACCATGGGCGTGATAAGCTACTACCCGATAC
CGAGTAAATCCGACCACATCTCCAACTTTAGCGCCTGGTGCCATGCCACC
CAGCTCTTCCAGGCAGACATGTACAAAAGTCAGATCCAATTCTACCGTCG
TGGAAGTGGCATGCCCGAGCGCCAGCTTGGCTCCTTGTATTGGCAGCTTG
AAGACATCTGGCAAGCGCCATCATGGGCAGGCATTGAGTACGGTGGTAGA
TGGAAGGTCCTTCACCACGTTATGAGAGATATTTATCAGCCTGTTATTGT
TTCACCTTTTTGGAACTATACTACAGGCTCGTTGGATGTCTATGTTACTT
CTGATCTGTGGAGCCCTGCAGCAGGTACTGTCGATTTGACCTGGTTGGAC
CTGTCCGGCCGCCCTATTGCGGGTAACGCGGGCACGCCAAAATCTGTTCC
TTTTACCGTGGGAGGGCTCAACAGCACTCGCATCTATGGCACGAATGTTT
CTTCTTTGGGCTTGCCGGATACTAAAGATGCTGTTCTAATCCTCTCGCTC
TCGGCTCACGGCCGTCTTCCGAACTCAGACCGGACCACCAACTTGACTCA
TGAGAATTACGCTACGCTTTCTTGGCCCAAGGATTTGAAGATTGTTGACC
CGGGACTTAAGCTGGGATACAGCTCAAAGAAGACAACTGTTACAGTGGAA
GCTACATCTGGCGTTTCACTATATACATGGCTCGACTATCCTGAAGGCGT
AGTGGGATACTTTGAAGAGAATGCGTTCGTCTTAGCACCAGGCGAGAAGA
AAGAGATTGGTTTTACTGTTCTAGACGACACGACAAATGGGGCTTGGGTC
CGTAACATCACCGTCCAGAGTCTCTGGGACCAGAAGGTTCGCGGATGAAT
GCGCCACAGCATCGGATTGGCAGCGGCCCTACTGGCACCAACCCTACCTG
TAGCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAGAAATGGACTCTC
AGTAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATTTCCATCGCAGGT
TCACTTAGATCTACTAAGGGCCGGAGTAATTGATGATCCATACCATGGTT
TGAACGATTTCAATCTTCGCTGGATCGCCGCTGCCAACTGGACTTATACC
AGTCAACCCATCAAAGGCCTCCTGGACAATTACGACTCAACCTGGCTCGT
ATTTGACGGACTGGACACTTTCGCAACCATCTCATTCTGTGGACAGCAAA
TCGCATTCACCGACAATCAGTTTCGCCAGTATGCGTTCGATGTATCTACA
GCACTAGGGTCCTGCAAAGGAGATCCTATTTTGAGCATCAACTTTGGAAG
CGCACCGAACATTGTTGATGCTATCGCACAGGATCCTAATTCGCAAAAAT
GGCCCGATGACGTCCAACTCACCTACGAGTACCCAAATCGGTGGTTTATG
CGCAAAGAACAATCGGACTTCGGATGGGATTGGGGTCCAGCATTTGCCCC
TGCAGGTCCATGGAAGCCTGCATATATTGTTCAGCTGGACAAGAAAGAAA
GTGTCTATGTCCTGAACACGGATCTGGATATATACCGAAAGAACCAAATT
AACTACCTTCCGCCAGACCAGAGCCAACCTTGGGTCGTCAACGCTAGCAT
TGACATCCTGGGTCCACTACCTGCCAAACCAACCATGTCGATTGAAGTGC
GCGATACTCATTCTGGCACGATCCTTACTTCACGGACTCTGAACAATGTC
AGTGTGGCTGGTAATGCCATAACTGGTGTCACCGTTCTTGACGGGCTGAA
CCCGAAACTGTGGTGGCCGCAAGGCCTCGGTGATCAGAACCTCTACAATG
TTTCTATCACTATCCAAGGTAGAGGGAACCAGACCGTGGCCAGTGTGAAC
AAACGGACGGGCTTCCGCACCATTTTTCTCAACCAGCGCAACATTACTGA
GGTACAGCGTGCACAAGGAATCGCCCCTGGAGCAAATTGGCACTTTGAAG
TCAACGGTCATGAATTCTACGCCAAAGGATCGAACCTTATCCCACCAGAC
AGTTTCTGGACCCGTGTTACAGAAGAGAGGATATCACGGCTATTCGATGC
AGTCGTGGTTGGAAACCAGAATATGCTCCGTGTCTGGTCCTCCGGCGCGT
ACCTGCATGACTACATCTATGATCTGGCCGATGAAAAGGGCATTCTCTTA
TGGAGCGAGTTCGAGTTCAGTGACGCTTTATATCCCTCCGACGACGCTTT
CCTCGAGAACGTTGCTGCTGAGATAGTATACAATGTTCGACGAGTGAACC
ACCATCCCTCCTTGGCTCTATGGGCTGGCGGAAATGAAATCGAATCCTTG
ATGCTCCCACGTGTCAAAGATGCAGCCCCATCTTCATATTCCTACTATGT
GGGCGAGTATGAGAAGATGTACATCAGCCTCTTCTTGCCTTTGGTCTACG
AGAACACGCGTTCCATCTCATACTCCCCTAGCAGCACAACCGAAGGCTAC
CTGTACATTGACCTTTCTGCCCCTGTCCCAATGGCTGAACGTTACGACAA
CACTACCTCCGGCTCATACTACGGCGATACAGACCACTACGACTACGACA
CTAGCGTGGCGTTTGACTACGGTTCCTATCCGGTAGGCCGCTTTGCCAAC
GAATTCGGCTTCCACAGCATGCCCAGCCTCCAGACATGGCAACAAGCTGT
TGACACTGAGGATCTTTACTTCAACAGCAGCGTCGTCATGCTGCGTAACC
ACCACGATCCCGCAGGCGGCCTCATGACGGACAACTACGCAAACTCGGCC
ACTGGCATGGGCGAAATGACCATGGGCGTGATAAGCTACTACCCGATACC
GAGTAAATCCGACCACATCTCCAACTTTAGCGCCTGGTGCCATGCCACCC
AGCTCTTCCAGGCAGACATGTACAAAAGTCAGATCCAATTCTACCGTCGT
GGAAGTGGCATGCCCGAGCGCCAGCTTGGCTCCTTGTATTGGCAGCTTGA
AGACATCTGGCAAGCGCCATCATGGGCAGGCATTGAGTACGGTGGTAGAT
GGAAGGTCCTTCACCACGTTATGAGAGATATTTATCAGCCTGTTATTGTT
TCACCTTTTTGGAACTATACTACAGGCTCGTTGGATGTCTATGTTACTTC
TGATCTGTGGAGCCCTGCAGCAGGTACTGTCGATTTGACCTGGTTGGACC
TGTCCGGCCGCCCTATTGCGGGTAACGCGGGCACGCCAAAATCTGTTCCT
TTTACCGTGGGAGGGCTCAACAGCACTCGCATCTATGGCACGAATGTTTC
TTCTTTGGGCTTGCCGGATACTAAAGATGCTGTTCTAATCCTCTCGCTCT
CGGCTCACGGCCGTCTTCCGAACTCAGACCGGACCACCAACTTGACTCAT
GAGAATTACGCTACGCTTTCTTGGCCCAAGGATTTGAAGATTGTTGACCC
GGGACTTAAGCTGGGATACAGCTCAAAGAAGACAACTGTTACAGTGGAAG
CTACATCTGGCGTTTCACTATATACATGGCTCGACTATCCTGAAGGCGTA
GTGGGATACTTTGAAGAGAATGCGTTCGTCTTAGCACCAGGCGAGAAGAA
AGAGATTGGTTTTACTGTTCTAGACGACACGACAAATGGGGCTTGGGTCC
GTAACATCACCGTCCAGAGTCTCTGGGACCAGAAGGTTCGCGGATGAATG
CGCCACAGCATCGGATTGGCAGCGGCCCTACTGGCACCAACCCTACCTGT
AGCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAGAAATGGACTCTCA
GTAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATTTCCATCGCAGGTT
CACTTAGATCTACTAAGGGCCGGAGTAATTGATGATCCATACCATGGTTT
GAACGATTTCAATCTTCGCTGGATCGCCGCTGCCAACTGGACTTATACCA
GTCAACCCATCAAAGGCCTCCTGGACAATTACGACTCAACCTGGCTCGTA
TTTGACGGACTGGACACTTTCGCAACCATCTCATTCTGTGGACAGCAAAT
CGCATTCACCGACAATCAGTTTCGCCAGTATGCGTTCGATGTATCTACAG
CACTAGGGTCCTGCAAAGGAGATCCTATTTTGAGCATCAACTTTGGAAGC
GCACCGAACATTGTTGATGCTATCGCACAGGATCCTAATTCGCAAAAATG
GCCCGATGACGTCCAACTCACCTACGAGTACCCAAATCGGTGGTTTATGC
GCAAAGAACAATCGGACTTCGGATGGGATTGGGGTCCAGCATTTGCCCCT
GCAGGTCCATGGAAGCCTGCATATATTGTTCAGCTGGACAAGAAAGAAAG
TGTCTATGTCCTGAACACGGATCTGGATATATACCGAAAGAACCAAATTA
ACTACCTTCCGCCAGACCAGAGCCAACCTTGGGTCGTCAACGCTAGCATT
GACATCCTGGGTCCACTACCTGCCAAACCAACCATGTCGATTGAAGTGCG
CGATACTCATTCTGGCACGATCCTTACTTCACGGACTCTGAACAATGTCA
GTGTGGCTGGTAATGCCATAACTGGTGTCACCGTTCTTGACGGGCTGAAC
CCGAAACTGTGGTGGCCGCAAGGCCTCGGTGATCAGAACCTCTACAATGT
TTCTATCACTATCCAAGGTAGAGGGAACCAGACCGTGGCCAGTGTGAACA
AACGGACGGGCTTCCGCACCATTTTTCTCAACCAGCGCAACATTACTGAG
GTACAGCGTGCACAAGGAATCGCCCCTGGAGCAAATTGGCACTTTGAAGT
CAACGGTCATGAATTCTACGCCAAAGGATCGAACCTTATCCCACCAGACA
GTTTCTGGACCCGTGTTACAGAAGAGAGGATATCACGGCTATTCGATGCA
GTCGTGGTTGGAAACCAGAATATGCTCCGTGTCTGGTCCTCCGGCGCGTA
CCTGCATGACTACATCTATGATCTGGCCGATGAAAAGGGCATTCTCTTAT
GGAGCGAGTTCGAGTTCAGTGACGCTTTATATCCCTCCGACGACGCTTTC
CTCGAGAACGTTGCTGCTGAGATAGTATACAATGTTCGACGAGTGAACCA
CCATCCCTCCTTGGCTCTATGGGCTGGCGGAAATGAAATCGAATCCTTGA
TGCTCCCACGTGTCAAAGATGCAGCCCCATCTTCATATTCCTACTATGTG
GGCGAGTATGAGAAGATGTACATCAGCCTCTTCTTGCCTTTGGTCTACGA
GAACACGCGTTCCATCTCATACTCCCCTAGCAGCACAACCGAAGGCTACC
TGTACATTGACCTTTCTGCCCCTGTCCCAATGGCTGAACGTTACGACAAC
ACTACCTCCGGCTCATACTACGGCGATACAGACCACTACGACTACGACAC
TAGCGTGGCGTTTGACTACGGTTCCTATCCGGTAGGCCGCTTTGCCAACG
AATTCGGCTTCCACAGCATGCCCAGCCTCCAGACATGGCAACAAGCTGTT
GACACTGAGGATCTTTACTTCAACAGCAGCGTCGTCATGCTGCGTAACCA
CCACGATCCCGCAGGCGGCCTCATGACGGACAACTACGCAAACTCGGCCA
CTGGCATGGGCGAAATGACCATGGGCGTGATAAGCTACTACCCGATACCG
AGTAAATCCGACCACATCTCCAACTTTAGCGCCTGGTGCCATGCCACCCA
GCTCTTCCAGGCAGACATGTACAAAAGTCAGATCCAATTCTACCGTCGTG
GAAGTGGCATGCCCGAGCGCCAGCTTGGCTCCTTGTATTGGCAGCTTGAA
GACATCTGGCAAGCGCCATCATGGGCAGGCATTGAGTACGGTGGTAGATG
GAAGGTCCTTCACCACGTTATGAGAGATATTTATCAGCCTGTTATTGTTT
CACCTTTTTGGAACTATACTACAGGCTCGTTGGATGTCTATGTTACTTCT
GATCTGTGGAGCCCTGCAGCAGGTACTGTCGATTTGACCTGGTTGGACCT
GTCCGGCCGCCCTATTGCGGGTAACGCGGGCACGCCAAAATCTGTTCCTT
TTACCGTGGGAGGGCTCAACAGCACTCGCATCTATGGCACGAATGTTTCT
TCTTTGGGCTTGCCGGATACTAAAGATGCTGTTCTAATCCTCTCGCTCTC
GGCTCACGGCCGTCTTCCGAACTCAGACCGGACCACCAACTTGACTCATG
AGAATTACGCTACGCTTTCTTGGCCCAAGGATTTGAAGATTGTTGACCCG
GGACTTAAGCTGGGATACAGCTCAAAGAAGACAACTGTTACAGTGGAAGC
TACATCTGGCGTTTCACTATATACATGGCTCGACTATCCTGAAGGCGTAG
TGGGATACTTTGAAGAGAATGCGTTCGTCTTAGCACCAGGCGAGAAGAAA
GAGATTGGTTTTACTGTTCTAGACGACACGACAAATGGGGCTTGGGTCCG
TAACATCACCGTCCAGAGTCTCTGGGACCAGAAGGTTCGCGGATGAATGC
GCCACAGCATCGGATTGGCAGCGGCCCTACTGGCACCAACCCTACCTGTA
GCGTTGGGTCAACATATTCGAGACTTAAGCAGCGAGAAATGGACTCTCAG
TAGTCGAGCCTTGAATCGGACAGTTCCTGCTCAATTTCCATCGCAGGTTC
ACTTAGATCTACTAAGGGCCGGAGTAATTGATGATCCATACCATGGTTTG
AACGATTTCAATCTTCGCTGGATCGCCGCTGCCAACTGGACTTATACCAG
TCAACCCATCAAAGGCCTCCTGGACAATTACGACTCAACCTGGCTCGTAT
TTGACGGACTGGACACTTTCGCAACCATCTCATTCTGTGGACAGCAAATC
GCATTCACCGACAATCAGTTTCGCCAGTATGCGTTCGATGTATCTACAGC
ACTAGGGTCCTGCAAAGGAGATCCTATTTTGAGCATCAACTTTGGAAGCG
CACCGAACATTGTTGATGCTATCGCACAGGATCCTAATTCGCAAAAATGG
CCCGATGACGTCCAACTCACCTACGAGTACCCAAATCGGTGGTTTATGCG
CAAAGAACAATCGGACTTCGGATGGGATTGGGGTCCAGCATTTGCCCCTG
CAGGTCCATGGAAGCCTGCATATATTGTTCAGCTGGACAAGAAAGAAAGT
GTCTATGTCCTGAACACGGATCTGGATATATACCGAAAGAACCAAATTAA
CTACCTTCCGCCAGACCAGAGCCAACCTTGGGTCGTCAACGCTAGCATTG
ACATCCTGGGTCCACTACCTGCCAAACCAACCATGTCGATTGAAGTGCGC
GATACTCATTCTGGCACGATCCTTACTTCACGGACTCTGAACAATGTCAG
TGTGGCTGGTAATGCCATAACTGGTGTCACCGTTCTTGACGGGCTGAACC
CGAAACTGTGGTGGCCGCAAGGCCTCGGTGATCAGAACCTCTACAATGTT
TCTATCACTATCCAAGGTAGAGGGAACCAGACCGTGGCCAGTGTGAACAA
ACGGACGGGCTTCCGCACCATTTTTCTCAACCAGCGCAACATTACTGAGG
TACAGCGTGCACAAGGAATCGCCCCTGGAGCAAATTGGCACTTTGAAGTC
AACGGTCATGAATTCTACGCCAAAGGATCGAACCTTATCCCACCAGACAG
TTTCTGGACCCGTGTTACAGAAGAGAGGATATCACGGCTATTCGATGCAG
TCGTGGTTGGAAACCAGAATATGCTCCGTGTCTGGTCCTCCGGCGCGTAC
CTGCATGACTACATCTATGATCTGGCCGATGAAAAGGGCATTCTCTTATG
GAGCGAGTTCGAGTTCAGTGACGCTTTATATCCCTCCGACGACGCTTTCC
TCGAGAACGTTGCTGCTGAGATAGTATACAATGTTCGACGAGTGAACCAC
CATCCCTCCTTGGCTCTATGGGCTGGCGGAAATGAAATCGAATCCTTGAT
GCTCCCACGTGTCAAAGATGCAGCCCCATCTTCATATTCCTACTATGTGG
GCGAGTATGAGAAGATGTACATCAGCCTCTTCTTGCCTTTGGTCTACGAG
AACACGCGTTCCATCTCATACTCCCCTAGCAGCACAACCGAAGGCTACCT
GTACATTGACCTTTCTGCCCCTGTCCCAATGGCTGAACGTTACGACAACA
CTACCTCCGGCTCATACTACGGCGATACAGACCACTACGACTACGACACT
AGCGTGGCGTTTGACTACGGTTCCTATCCGGTAGGCCGCTTTGCCAACGA
ATTCGGCTTCCACAGCATGCCCAGCCTCCAGACATGGCAACAAGCTGTTG
ACACTGAGGATCTTTACTTCAACAGCAGCGTCGTCATGCTGCGTAACCAC
CACGATCCCGCAGGCGGCCTCATGACGGACAACTACGCAAACTCGGCCAC
TGGCATGGGCGAAATGACCATGGGCGTGATAAGCTACTACCCGATACCGA
GTAAATCCGACCACATCTCCAACTTTAGCGCCTGGTGCCATGCCACCCAG
CTCTTCCAGGCAGACATGTACAAAAGTCAGATCCAATTCTACCGTCGTGG
AAGTGGCATGCCCGAGCGCCAGCTTGGCTCCTTGTATTGGCAGCTTGAAG
ACATCTGGCAAGCGCCATCATGGGCAGGCATTGAGTACGGTGGTAGATGG
AAGGTCCTTCACCACGTTATGAGAGATATTTATCAGCCTGTTATTGTTTC
ACCTTTTTGGAACTATACTACAGGCTCGTTGGATGTCTATGTTACTTCTG
ATCTGTGGAGCCCTGCAGCAGGTACTGTCGATTTGACCTGGTTGGACCTG
TCCGGCCGCCCTATTGCGGGTAACGCGGGCACGCCAAAATCTGTTCCTTT
TACCGTGGGAGGGCTCAACAGCACTCGCATCTATGGCACGAATGTTTCTT
CTTTGGGCTTGCCGGATACTAAAGATGCTGTTCTAATCCTCTCGCTCTCG
GCTCACGGCCGTCTTCCGAACTCAGACCGGACCACCAACTTGACTCATGA
GAATTACGCTACGCTTTCTTGGCCCAAGGATTTGAAGATTGTTGACCCGG
GACTTAAGCTGGGATACAGCTCAAAGAAGACAACTGTTACAGTGGAAGCT
ACATCTGGCGTTTCACTATATACATGGCTCGACTATCCTGAAGGCGTAGT
GGGATACTTTGAAGAGAATGCGTTCGTCTTAGCACCAGGCGAGAAGAAAG
AGATTGGTTTTACTGTTCTAGACGACACGACAAATGGGGCTTGGGTCCGT
AACATCACCGTCCAGAGTCTCTGGGACCAGAAGGTTCGCGGATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0005975 | carbohydrate metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004553 | hydrolase activity, hydrolyzing O-glycosyl compounds |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_002359-T1.utr5p1 | KJC3_002359-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
The following exon feature(s) are a part of 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_002359-T1.utr3p1 | KJC3_002359-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_2.7 |
| Note | antiSMASH:Cluster_2.8 |
| Note | SECRETED:SignalP(1-21) |
| Note | CAZy:GH2 |
| DBxref | InterPro:IPR017853 |
| DBxref | InterPro:IPR036156 |
| DBxref | InterPro:IPR041625 |
| DBxref | InterPro:IPR041447 |
| DBxref | InterPro:IPR013783 |
| DBxref | InterPro:IPR006102 |
| DBxref | InterPro:IPR008979 |
| DBxref | PFAM:PF17786 |
| DBxref | PFAM:PF17753 |
| DBxref | PFAM:PF00703 |
| 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 |
|---|
| ch2 | supercontig | ch2:2351220..2354458 + |
|
