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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:3225544..3227666+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_012322-T1 ID=KJC3_012322-T1|Name=KJC3_012322-T1|organism=Aspergillus niger KJC3|type=mRNA|length=2123bp|location=Sequence derived from alignment at ch8:3225544..3227666+ (Aspergillus niger KJC3)
CTTGCGGTGATCAAGAAACAAGATGCCCAGGTGAGTTTGACTATCACAGC
TTTCCTGCAATATGTTTAGAAACATGGAATTGTTCTAGCAGGATCTGATC
TCTATATCTAGGGAAATCATAACGATCCAAGCCGGCCAGTGCGGTAACAA
TGGTACGGATTCCCACGAGAAGCAGCTCCAATTATAGCTCTCGAACAAAC
ACCGTTTGGCATATCTTGAGGCGTCGCTAACCTATACTTGCGTTAGTCGG
CGCTCAATTTTGGCAACAGCTCTGTCTTGAGCACGGCATAAGCCAGGATG
GAAACCTGGAGGATTTCGCGACCGAGGGCGGCGATCGTAAAGACGTCTTC
TTCTATCAGGTATACCTGTCACTCTCATTATGCTTCGATAACCTAAGAAA
CTGATGAAACATGCTTCTTAGAGTGATGACACCCGCTATATTCCTCGAGC
GATCCTGCTCGATTTAGAACCTAGGGTACGACCCCTTCCGCGAAAGACCA
TCTCGAAGGAACCAGTGTGATCGCGCGAACGGTGAGCTGAGAATTTTCCG
ATTAGGTCCTCAATGCCATCCAGGCTGGTCCATACCGAAACATCTACAAT
CCAGAGAACTTCTTTATCGGGCAACAGGGTATTGGCGCGGGAAACAACTG
GGGAGCAGGTTATTCTGCAGGCGAGGTCGTGCAAGAAGAGATCTTTGACA
TGATTGACCGTGAAGCAGATGGCAGTGACTCTTTGGAGGTATGATACCGG
TGCAATCATGATACATATATGGTGTGCAATCTTGGGTTTGCGATTGAGCG
TGGTGCTGATGGTCTTTTTTTTTCGGCAGGGATTCATGTTTCTGCATTCA
ATTGCAGGCGGTACAGGCTCAGGGCTGGGCAGTTTCATACTGGAACGCAT
GAATGATCGATTTCCCAAGAAATTGATACAGACTTACTCCGTCTTTCCCG
ATACGCAGTCTGCGGACGTCGTGGTCAACCCATACAATAGTTTGCTTGCA
ATGAGGCGGTTGACACAGAATGCGGACTCTGTGGTAAGGCACTGTCACTC
CAATGAGTTGATGACGGGCTTCGCTAAATTTGCATTCTAGGTGGTATTGG
ATAACGGTGCTCTTTCGAGGATCGTCGCGGATAGGCTCCACGTACAAGAG
CCTTCTTTCCAGCAGACAAACCAGCTCGTAAGTAACCGCCCGTCTGTAAG
CCTACTGGCACTAATCACTCTTAGGTTTCTACTGTTATGTCTGCTTCTAC
GACGACCCTCCGTTACCCCGGATATATGCACAATGACCTCGTGGGAATCA
TTGCTTCCCTCATCCCTACACCGCGCAGCCACTTCCTGATCACCTCATAC
ACCCCATTCACCGGCGACAACATCGAACAGGCCAAGACAGTGCGTAAGAC
CACTGTTTTGGATGTCATGCGCCGTCTGCTGCAGCCGAAGAACCGCATGG
TTTCCATCAACCCCAGCAAATCCAGCTGTTACATCAGTATCCTCAACATA
ATTCAAGGAGAAGCAGACCCGACGGATGTACACAAATCACTCCTCCGTAT
TCGGGAGCGACGCCTGGCATCCTTCATCCCATGGGGACCAGCGAGCATCC
AAGTCGCATTGACAAAGAAATCTCCCTACATGCAGAACACTCACCGAGTC
AGCGGTCTGATGCTGGCGAACCACACCTCAGTCGCGACACTGTTTAAACG
AATTGTCCAGCAATACGACCGTCTGCGGAAGCGAAACGCCTTCTTGGAAC
AATACAAGAAGGAGAGCCCCTTCTCGGACGGCCTGGGCGAGTTCGACGAG
GCCAGAGCAGTGGTGATGGATCTCGTCGGCGAGTACGAAGCCGCGGAGAA
GGAAGATTACCTGGATCCAGATGCAGGAAAAGAGAAGGAGTTGGGGGTGT
GAGTGTGGTTGTGATTGTGCTGGTCCAATCTAATGTCCCACTTGCATCTT
TCCTCATACCTCTTCTTGTTCTTATTTTCCCGTCATGACTTACAAGGGTT
GACCGGTGTCGAGAGGCAAGGGCGTTTCTCTTTTCATTGTTTGTGTTGCA
ACAGAATACCTTATCTTTTGAATTGCTATGACTTGGGCGCGTTATTAATG
AACAAGAAAAATGTTGAGTGGTT back to topCoding sequence (CDS) from alignment at ch8:3225544..3227666+ >KJC3_012322-T1 ID=KJC3_012322-T1|Name=KJC3_012322-T1|organism=Aspergillus niger KJC3|type=CDS|length=10944bp|location=Sequence derived from alignment at ch8:3225544..3227666+ (Aspergillus niger KJC3)
ATGCCCAGGGAAATCATAACGATCCAAGCCGGCCAGTGCGGTAACAATGT
CGGCGCTCAATTTTGGCAACAGCTCTGTCTTGAGCACGGCATAAGCCAGG
ATGGAAACCTGGAGGATTTCGCGACCGAGGGCGGCGATCGTAAAGACGTC
TTCTTCTATCAGAGTGATGACACCCGCTATATTCCTCGAGCGATCCTGCT
CGATTTAGAACCTAGGGTCCTCAATGCCATCCAGGCTGGTCCATACCGAA
ACATCTACAATCCAGAGAACTTCTTTATCGGGCAACAGGGTATTGGCGCG
GGAAACAACTGGGGAGCAGGTTATTCTGCAGGCGAGGTCGTGCAAGAAGA
GATCTTTGACATGATTGACCGTGAAGCAGATGGCAGTGACTCTTTGGAGG
GATTCATGTTTCTGCATTCAATTGCAGGCGGTACAGGCTCAGGGCTGGGC
AGTTTCATACTGGAACGCATGAATGATCGATTTCCCAAGAAATTGATACA
GACTTACTCCGTCTTTCCCGATACGCAGTCTGCGGACGTCGTGGTCAACC
CATACAATAGTTTGCTTGCAATGAGGCGGTTGACACAGAATGCGGACTCT
GTGGTGGTATTGGATAACGGTGCTCTTTCGAGGATCGTCGCGGATAGGCT
CCACGTACAAGAGCCTTCTTTCCAGCAGACAAACCAGCTCGTTTCTACTG
TTATGTCTGCTTCTACGACGACCCTCCGTTACCCCGGATATATGCACAAT
GACCTCGTGGGAATCATTGCTTCCCTCATCCCTACACCGCGCAGCCACTT
CCTGATCACCTCATACACCCCATTCACCGGCGACAACATCGAACAGGCCA
AGACAGTGCGTAAGACCACTGTTTTGGATGTCATGCGCCGTCTGCTGCAG
CCGAAGAACCGCATGGTTTCCATCAACCCCAGCAAATCCAGCTGTTACAT
CAGTATCCTCAACATAATTCAAGGAGAAGCAGACCCGACGGATGTACACA
AATCACTCCTCCGTATTCGGGAGCGACGCCTGGCATCCTTCATCCCATGG
GGACCAGCGAGCATCCAAGTCGCATTGACAAAGAAATCTCCCTACATGCA
GAACACTCACCGAGTCAGCGGTCTGATGCTGGCGAACCACACCTCAGTCG
CGACACTGTTTAAACGAATTGTCCAGCAATACGACCGTCTGCGGAAGCGA
AACGCCTTCTTGGAACAATACAAGAAGGAGAGCCCCTTCTCGGACGGCCT
GGGCGAGTTCGACGAGGCCAGAGCAGTGGTGATGGATCTCGTCGGCGAGT
ACGAAGCCGCGGAGAAGGAAGATTACCTGGATCCAGATGCAGGAAAAGAG
AAGGAGTTGGGGGTGTGAATGCCCAGGGAAATCATAACGATCCAAGCCGG
CCAGTGCGGTAACAATGTCGGCGCTCAATTTTGGCAACAGCTCTGTCTTG
AGCACGGCATAAGCCAGGATGGAAACCTGGAGGATTTCGCGACCGAGGGC
GGCGATCGTAAAGACGTCTTCTTCTATCAGAGTGATGACACCCGCTATAT
TCCTCGAGCGATCCTGCTCGATTTAGAACCTAGGGTCCTCAATGCCATCC
AGGCTGGTCCATACCGAAACATCTACAATCCAGAGAACTTCTTTATCGGG
CAACAGGGTATTGGCGCGGGAAACAACTGGGGAGCAGGTTATTCTGCAGG
CGAGGTCGTGCAAGAAGAGATCTTTGACATGATTGACCGTGAAGCAGATG
GCAGTGACTCTTTGGAGGGATTCATGTTTCTGCATTCAATTGCAGGCGGT
ACAGGCTCAGGGCTGGGCAGTTTCATACTGGAACGCATGAATGATCGATT
TCCCAAGAAATTGATACAGACTTACTCCGTCTTTCCCGATACGCAGTCTG
CGGACGTCGTGGTCAACCCATACAATAGTTTGCTTGCAATGAGGCGGTTG
ACACAGAATGCGGACTCTGTGGTGGTATTGGATAACGGTGCTCTTTCGAG
GATCGTCGCGGATAGGCTCCACGTACAAGAGCCTTCTTTCCAGCAGACAA
ACCAGCTCGTTTCTACTGTTATGTCTGCTTCTACGACGACCCTCCGTTAC
CCCGGATATATGCACAATGACCTCGTGGGAATCATTGCTTCCCTCATCCC
TACACCGCGCAGCCACTTCCTGATCACCTCATACACCCCATTCACCGGCG
ACAACATCGAACAGGCCAAGACAGTGCGTAAGACCACTGTTTTGGATGTC
ATGCGCCGTCTGCTGCAGCCGAAGAACCGCATGGTTTCCATCAACCCCAG
CAAATCCAGCTGTTACATCAGTATCCTCAACATAATTCAAGGAGAAGCAG
ACCCGACGGATGTACACAAATCACTCCTCCGTATTCGGGAGCGACGCCTG
GCATCCTTCATCCCATGGGGACCAGCGAGCATCCAAGTCGCATTGACAAA
GAAATCTCCCTACATGCAGAACACTCACCGAGTCAGCGGTCTGATGCTGG
CGAACCACACCTCAGTCGCGACACTGTTTAAACGAATTGTCCAGCAATAC
GACCGTCTGCGGAAGCGAAACGCCTTCTTGGAACAATACAAGAAGGAGAG
CCCCTTCTCGGACGGCCTGGGCGAGTTCGACGAGGCCAGAGCAGTGGTGA
TGGATCTCGTCGGCGAGTACGAAGCCGCGGAGAAGGAAGATTACCTGGAT
CCAGATGCAGGAAAAGAGAAGGAGTTGGGGGTGTGAATGCCCAGGGAAAT
CATAACGATCCAAGCCGGCCAGTGCGGTAACAATGTCGGCGCTCAATTTT
GGCAACAGCTCTGTCTTGAGCACGGCATAAGCCAGGATGGAAACCTGGAG
GATTTCGCGACCGAGGGCGGCGATCGTAAAGACGTCTTCTTCTATCAGAG
TGATGACACCCGCTATATTCCTCGAGCGATCCTGCTCGATTTAGAACCTA
GGGTCCTCAATGCCATCCAGGCTGGTCCATACCGAAACATCTACAATCCA
GAGAACTTCTTTATCGGGCAACAGGGTATTGGCGCGGGAAACAACTGGGG
AGCAGGTTATTCTGCAGGCGAGGTCGTGCAAGAAGAGATCTTTGACATGA
TTGACCGTGAAGCAGATGGCAGTGACTCTTTGGAGGGATTCATGTTTCTG
CATTCAATTGCAGGCGGTACAGGCTCAGGGCTGGGCAGTTTCATACTGGA
ACGCATGAATGATCGATTTCCCAAGAAATTGATACAGACTTACTCCGTCT
TTCCCGATACGCAGTCTGCGGACGTCGTGGTCAACCCATACAATAGTTTG
CTTGCAATGAGGCGGTTGACACAGAATGCGGACTCTGTGGTGGTATTGGA
TAACGGTGCTCTTTCGAGGATCGTCGCGGATAGGCTCCACGTACAAGAGC
CTTCTTTCCAGCAGACAAACCAGCTCGTTTCTACTGTTATGTCTGCTTCT
ACGACGACCCTCCGTTACCCCGGATATATGCACAATGACCTCGTGGGAAT
CATTGCTTCCCTCATCCCTACACCGCGCAGCCACTTCCTGATCACCTCAT
ACACCCCATTCACCGGCGACAACATCGAACAGGCCAAGACAGTGCGTAAG
ACCACTGTTTTGGATGTCATGCGCCGTCTGCTGCAGCCGAAGAACCGCAT
GGTTTCCATCAACCCCAGCAAATCCAGCTGTTACATCAGTATCCTCAACA
TAATTCAAGGAGAAGCAGACCCGACGGATGTACACAAATCACTCCTCCGT
ATTCGGGAGCGACGCCTGGCATCCTTCATCCCATGGGGACCAGCGAGCAT
CCAAGTCGCATTGACAAAGAAATCTCCCTACATGCAGAACACTCACCGAG
TCAGCGGTCTGATGCTGGCGAACCACACCTCAGTCGCGACACTGTTTAAA
CGAATTGTCCAGCAATACGACCGTCTGCGGAAGCGAAACGCCTTCTTGGA
ACAATACAAGAAGGAGAGCCCCTTCTCGGACGGCCTGGGCGAGTTCGACG
AGGCCAGAGCAGTGGTGATGGATCTCGTCGGCGAGTACGAAGCCGCGGAG
AAGGAAGATTACCTGGATCCAGATGCAGGAAAAGAGAAGGAGTTGGGGGT
GTGAATGCCCAGGGAAATCATAACGATCCAAGCCGGCCAGTGCGGTAACA
ATGTCGGCGCTCAATTTTGGCAACAGCTCTGTCTTGAGCACGGCATAAGC
CAGGATGGAAACCTGGAGGATTTCGCGACCGAGGGCGGCGATCGTAAAGA
CGTCTTCTTCTATCAGAGTGATGACACCCGCTATATTCCTCGAGCGATCC
TGCTCGATTTAGAACCTAGGGTCCTCAATGCCATCCAGGCTGGTCCATAC
CGAAACATCTACAATCCAGAGAACTTCTTTATCGGGCAACAGGGTATTGG
CGCGGGAAACAACTGGGGAGCAGGTTATTCTGCAGGCGAGGTCGTGCAAG
AAGAGATCTTTGACATGATTGACCGTGAAGCAGATGGCAGTGACTCTTTG
GAGGGATTCATGTTTCTGCATTCAATTGCAGGCGGTACAGGCTCAGGGCT
GGGCAGTTTCATACTGGAACGCATGAATGATCGATTTCCCAAGAAATTGA
TACAGACTTACTCCGTCTTTCCCGATACGCAGTCTGCGGACGTCGTGGTC
AACCCATACAATAGTTTGCTTGCAATGAGGCGGTTGACACAGAATGCGGA
CTCTGTGGTGGTATTGGATAACGGTGCTCTTTCGAGGATCGTCGCGGATA
GGCTCCACGTACAAGAGCCTTCTTTCCAGCAGACAAACCAGCTCGTTTCT
ACTGTTATGTCTGCTTCTACGACGACCCTCCGTTACCCCGGATATATGCA
CAATGACCTCGTGGGAATCATTGCTTCCCTCATCCCTACACCGCGCAGCC
ACTTCCTGATCACCTCATACACCCCATTCACCGGCGACAACATCGAACAG
GCCAAGACAGTGCGTAAGACCACTGTTTTGGATGTCATGCGCCGTCTGCT
GCAGCCGAAGAACCGCATGGTTTCCATCAACCCCAGCAAATCCAGCTGTT
ACATCAGTATCCTCAACATAATTCAAGGAGAAGCAGACCCGACGGATGTA
CACAAATCACTCCTCCGTATTCGGGAGCGACGCCTGGCATCCTTCATCCC
ATGGGGACCAGCGAGCATCCAAGTCGCATTGACAAAGAAATCTCCCTACA
TGCAGAACACTCACCGAGTCAGCGGTCTGATGCTGGCGAACCACACCTCA
GTCGCGACACTGTTTAAACGAATTGTCCAGCAATACGACCGTCTGCGGAA
GCGAAACGCCTTCTTGGAACAATACAAGAAGGAGAGCCCCTTCTCGGACG
GCCTGGGCGAGTTCGACGAGGCCAGAGCAGTGGTGATGGATCTCGTCGGC
GAGTACGAAGCCGCGGAGAAGGAAGATTACCTGGATCCAGATGCAGGAAA
AGAGAAGGAGTTGGGGGTGTGAATGCCCAGGGAAATCATAACGATCCAAG
CCGGCCAGTGCGGTAACAATGTCGGCGCTCAATTTTGGCAACAGCTCTGT
CTTGAGCACGGCATAAGCCAGGATGGAAACCTGGAGGATTTCGCGACCGA
GGGCGGCGATCGTAAAGACGTCTTCTTCTATCAGAGTGATGACACCCGCT
ATATTCCTCGAGCGATCCTGCTCGATTTAGAACCTAGGGTCCTCAATGCC
ATCCAGGCTGGTCCATACCGAAACATCTACAATCCAGAGAACTTCTTTAT
CGGGCAACAGGGTATTGGCGCGGGAAACAACTGGGGAGCAGGTTATTCTG
CAGGCGAGGTCGTGCAAGAAGAGATCTTTGACATGATTGACCGTGAAGCA
GATGGCAGTGACTCTTTGGAGGGATTCATGTTTCTGCATTCAATTGCAGG
CGGTACAGGCTCAGGGCTGGGCAGTTTCATACTGGAACGCATGAATGATC
GATTTCCCAAGAAATTGATACAGACTTACTCCGTCTTTCCCGATACGCAG
TCTGCGGACGTCGTGGTCAACCCATACAATAGTTTGCTTGCAATGAGGCG
GTTGACACAGAATGCGGACTCTGTGGTGGTATTGGATAACGGTGCTCTTT
CGAGGATCGTCGCGGATAGGCTCCACGTACAAGAGCCTTCTTTCCAGCAG
ACAAACCAGCTCGTTTCTACTGTTATGTCTGCTTCTACGACGACCCTCCG
TTACCCCGGATATATGCACAATGACCTCGTGGGAATCATTGCTTCCCTCA
TCCCTACACCGCGCAGCCACTTCCTGATCACCTCATACACCCCATTCACC
GGCGACAACATCGAACAGGCCAAGACAGTGCGTAAGACCACTGTTTTGGA
TGTCATGCGCCGTCTGCTGCAGCCGAAGAACCGCATGGTTTCCATCAACC
CCAGCAAATCCAGCTGTTACATCAGTATCCTCAACATAATTCAAGGAGAA
GCAGACCCGACGGATGTACACAAATCACTCCTCCGTATTCGGGAGCGACG
CCTGGCATCCTTCATCCCATGGGGACCAGCGAGCATCCAAGTCGCATTGA
CAAAGAAATCTCCCTACATGCAGAACACTCACCGAGTCAGCGGTCTGATG
CTGGCGAACCACACCTCAGTCGCGACACTGTTTAAACGAATTGTCCAGCA
ATACGACCGTCTGCGGAAGCGAAACGCCTTCTTGGAACAATACAAGAAGG
AGAGCCCCTTCTCGGACGGCCTGGGCGAGTTCGACGAGGCCAGAGCAGTG
GTGATGGATCTCGTCGGCGAGTACGAAGCCGCGGAGAAGGAAGATTACCT
GGATCCAGATGCAGGAAAAGAGAAGGAGTTGGGGGTGTGAATGCCCAGGG
AAATCATAACGATCCAAGCCGGCCAGTGCGGTAACAATGTCGGCGCTCAA
TTTTGGCAACAGCTCTGTCTTGAGCACGGCATAAGCCAGGATGGAAACCT
GGAGGATTTCGCGACCGAGGGCGGCGATCGTAAAGACGTCTTCTTCTATC
AGAGTGATGACACCCGCTATATTCCTCGAGCGATCCTGCTCGATTTAGAA
CCTAGGGTCCTCAATGCCATCCAGGCTGGTCCATACCGAAACATCTACAA
TCCAGAGAACTTCTTTATCGGGCAACAGGGTATTGGCGCGGGAAACAACT
GGGGAGCAGGTTATTCTGCAGGCGAGGTCGTGCAAGAAGAGATCTTTGAC
ATGATTGACCGTGAAGCAGATGGCAGTGACTCTTTGGAGGGATTCATGTT
TCTGCATTCAATTGCAGGCGGTACAGGCTCAGGGCTGGGCAGTTTCATAC
TGGAACGCATGAATGATCGATTTCCCAAGAAATTGATACAGACTTACTCC
GTCTTTCCCGATACGCAGTCTGCGGACGTCGTGGTCAACCCATACAATAG
TTTGCTTGCAATGAGGCGGTTGACACAGAATGCGGACTCTGTGGTGGTAT
TGGATAACGGTGCTCTTTCGAGGATCGTCGCGGATAGGCTCCACGTACAA
GAGCCTTCTTTCCAGCAGACAAACCAGCTCGTTTCTACTGTTATGTCTGC
TTCTACGACGACCCTCCGTTACCCCGGATATATGCACAATGACCTCGTGG
GAATCATTGCTTCCCTCATCCCTACACCGCGCAGCCACTTCCTGATCACC
TCATACACCCCATTCACCGGCGACAACATCGAACAGGCCAAGACAGTGCG
TAAGACCACTGTTTTGGATGTCATGCGCCGTCTGCTGCAGCCGAAGAACC
GCATGGTTTCCATCAACCCCAGCAAATCCAGCTGTTACATCAGTATCCTC
AACATAATTCAAGGAGAAGCAGACCCGACGGATGTACACAAATCACTCCT
CCGTATTCGGGAGCGACGCCTGGCATCCTTCATCCCATGGGGACCAGCGA
GCATCCAAGTCGCATTGACAAAGAAATCTCCCTACATGCAGAACACTCAC
CGAGTCAGCGGTCTGATGCTGGCGAACCACACCTCAGTCGCGACACTGTT
TAAACGAATTGTCCAGCAATACGACCGTCTGCGGAAGCGAAACGCCTTCT
TGGAACAATACAAGAAGGAGAGCCCCTTCTCGGACGGCCTGGGCGAGTTC
GACGAGGCCAGAGCAGTGGTGATGGATCTCGTCGGCGAGTACGAAGCCGC
GGAGAAGGAAGATTACCTGGATCCAGATGCAGGAAAAGAGAAGGAGTTGG
GGGTGTGAATGCCCAGGGAAATCATAACGATCCAAGCCGGCCAGTGCGGT
AACAATGTCGGCGCTCAATTTTGGCAACAGCTCTGTCTTGAGCACGGCAT
AAGCCAGGATGGAAACCTGGAGGATTTCGCGACCGAGGGCGGCGATCGTA
AAGACGTCTTCTTCTATCAGAGTGATGACACCCGCTATATTCCTCGAGCG
ATCCTGCTCGATTTAGAACCTAGGGTCCTCAATGCCATCCAGGCTGGTCC
ATACCGAAACATCTACAATCCAGAGAACTTCTTTATCGGGCAACAGGGTA
TTGGCGCGGGAAACAACTGGGGAGCAGGTTATTCTGCAGGCGAGGTCGTG
CAAGAAGAGATCTTTGACATGATTGACCGTGAAGCAGATGGCAGTGACTC
TTTGGAGGGATTCATGTTTCTGCATTCAATTGCAGGCGGTACAGGCTCAG
GGCTGGGCAGTTTCATACTGGAACGCATGAATGATCGATTTCCCAAGAAA
TTGATACAGACTTACTCCGTCTTTCCCGATACGCAGTCTGCGGACGTCGT
GGTCAACCCATACAATAGTTTGCTTGCAATGAGGCGGTTGACACAGAATG
CGGACTCTGTGGTGGTATTGGATAACGGTGCTCTTTCGAGGATCGTCGCG
GATAGGCTCCACGTACAAGAGCCTTCTTTCCAGCAGACAAACCAGCTCGT
TTCTACTGTTATGTCTGCTTCTACGACGACCCTCCGTTACCCCGGATATA
TGCACAATGACCTCGTGGGAATCATTGCTTCCCTCATCCCTACACCGCGC
AGCCACTTCCTGATCACCTCATACACCCCATTCACCGGCGACAACATCGA
ACAGGCCAAGACAGTGCGTAAGACCACTGTTTTGGATGTCATGCGCCGTC
TGCTGCAGCCGAAGAACCGCATGGTTTCCATCAACCCCAGCAAATCCAGC
TGTTACATCAGTATCCTCAACATAATTCAAGGAGAAGCAGACCCGACGGA
TGTACACAAATCACTCCTCCGTATTCGGGAGCGACGCCTGGCATCCTTCA
TCCCATGGGGACCAGCGAGCATCCAAGTCGCATTGACAAAGAAATCTCCC
TACATGCAGAACACTCACCGAGTCAGCGGTCTGATGCTGGCGAACCACAC
CTCAGTCGCGACACTGTTTAAACGAATTGTCCAGCAATACGACCGTCTGC
GGAAGCGAAACGCCTTCTTGGAACAATACAAGAAGGAGAGCCCCTTCTCG
GACGGCCTGGGCGAGTTCGACGAGGCCAGAGCAGTGGTGATGGATCTCGT
CGGCGAGTACGAAGCCGCGGAGAAGGAAGATTACCTGGATCCAGATGCAG
GAAAAGAGAAGGAGTTGGGGGTGTGAATGCCCAGGGAAATCATAACGATC
CAAGCCGGCCAGTGCGGTAACAATGTCGGCGCTCAATTTTGGCAACAGCT
CTGTCTTGAGCACGGCATAAGCCAGGATGGAAACCTGGAGGATTTCGCGA
CCGAGGGCGGCGATCGTAAAGACGTCTTCTTCTATCAGAGTGATGACACC
CGCTATATTCCTCGAGCGATCCTGCTCGATTTAGAACCTAGGGTCCTCAA
TGCCATCCAGGCTGGTCCATACCGAAACATCTACAATCCAGAGAACTTCT
TTATCGGGCAACAGGGTATTGGCGCGGGAAACAACTGGGGAGCAGGTTAT
TCTGCAGGCGAGGTCGTGCAAGAAGAGATCTTTGACATGATTGACCGTGA
AGCAGATGGCAGTGACTCTTTGGAGGGATTCATGTTTCTGCATTCAATTG
CAGGCGGTACAGGCTCAGGGCTGGGCAGTTTCATACTGGAACGCATGAAT
GATCGATTTCCCAAGAAATTGATACAGACTTACTCCGTCTTTCCCGATAC
GCAGTCTGCGGACGTCGTGGTCAACCCATACAATAGTTTGCTTGCAATGA
GGCGGTTGACACAGAATGCGGACTCTGTGGTGGTATTGGATAACGGTGCT
CTTTCGAGGATCGTCGCGGATAGGCTCCACGTACAAGAGCCTTCTTTCCA
GCAGACAAACCAGCTCGTTTCTACTGTTATGTCTGCTTCTACGACGACCC
TCCGTTACCCCGGATATATGCACAATGACCTCGTGGGAATCATTGCTTCC
CTCATCCCTACACCGCGCAGCCACTTCCTGATCACCTCATACACCCCATT
CACCGGCGACAACATCGAACAGGCCAAGACAGTGCGTAAGACCACTGTTT
TGGATGTCATGCGCCGTCTGCTGCAGCCGAAGAACCGCATGGTTTCCATC
AACCCCAGCAAATCCAGCTGTTACATCAGTATCCTCAACATAATTCAAGG
AGAAGCAGACCCGACGGATGTACACAAATCACTCCTCCGTATTCGGGAGC
GACGCCTGGCATCCTTCATCCCATGGGGACCAGCGAGCATCCAAGTCGCA
TTGACAAAGAAATCTCCCTACATGCAGAACACTCACCGAGTCAGCGGTCT
GATGCTGGCGAACCACACCTCAGTCGCGACACTGTTTAAACGAATTGTCC
AGCAATACGACCGTCTGCGGAAGCGAAACGCCTTCTTGGAACAATACAAG
AAGGAGAGCCCCTTCTCGGACGGCCTGGGCGAGTTCGACGAGGCCAGAGC
AGTGGTGATGGATCTCGTCGGCGAGTACGAAGCCGCGGAGAAGGAAGATT
ACCTGGATCCAGATGCAGGAAAAGAGAAGGAGTTGGGGGTGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0000930 | gamma-tubulin complex |
| GO:0005874 | microtubule |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005525 | GTP binding |
| GO:0003924 | GTPase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0007020 | microtubule nucleation |
| GO:0031122 | cytoplasmic microtubule organization |
| GO:0007017 | microtubule-based process |
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_012322-T1.utr5p1 | KJC3_012322-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_012322-T1.utr3p1 | KJC3_012322-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR008280 |
| DBxref | InterPro:IPR017975 |
| DBxref | InterPro:IPR023123 |
| DBxref | InterPro:IPR036525 |
| DBxref | InterPro:IPR037103 |
| DBxref | InterPro:IPR018316 |
| DBxref | InterPro:IPR003008 |
| DBxref | InterPro:IPR002454 |
| DBxref | InterPro:IPR000217 |
| DBxref | PFAM:PF03953 |
| DBxref | PFAM:PF00091 |
| DBxref | PFAM:PF10644 |
| 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 | ch8:3225544..3227666 + |
|
