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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000172:381818..384865- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_007203-T1 ID=ATCC10864_007203-T1|Name=ATCC10864_007203-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=3048bp|location=Sequence derived from alignment at MCQH01000172:381818..384865- (Aspergillus niger ATCC 10864)
ATGCCTTTGTCCGGCCACTGCCTGTGCAAGGCTGTCACTTACACCGTGGA
CATTGATGCACCCCTCCTCGTGGGGTACGATCATTGTGACGACTGCCAGC
GTCAGAGCGGGTCAACCTACTGTAGGTGCTCTCCTTGGCTTACCCCCACG
GTTCGAACTAAGCATGGCCGTACCATGGTTATTAACCTTCCCAACAGCTC
TAGTTGCTGTTGTCCCCAAGGACAAACTGACTGTCAATGGACCTCTCAAG
AAGTGGTCTGGAACGGGATCCTCCGGCAATGCGGTGCACCGTCTATTCTG
TTCGGAATGTGGCTCTCCCATCGCGCACGATCCCGACGCGGCCCCAGAAA
TTATCGCTCTGAAAGCTGGTACTTTGGACACGGAGATCAAGAAAGCCCTC
AAGCCAGTATGTGCTGCGATCCCGTGGAATAGGCCCCATGCTGATCTGAA
TCCCTTCTAGGACACCGAGATCTGGACCGTTGGCAAGCTTCCTTTCTGCC
AGGAGCACCTGGCTAAGCCTTTCAAGCATATGCCTGAGTAAGCAAACACC
GAATGGAGGGTTCACAAGGCATGCTATGATATGACGAATATTATGCAATG
TAGTTAATGATGTATTCACCTGAATCAACTATCGTTTCTTGGAATATTAC
TCATTTTGACCAATATTTTTTGATCGCCGAGAGGCATGTAGAGGGTCAGA
TATGGCTACCGATGTCAAGAGGCAGTGTTCAGCGGCGATTGGAAAAGACG
TGCCACGGCGGATTGAACATGGTGACACCATAGCTAATTGCCATACACGC
GAGAAATTTACTCCGCAAGAAGCCGAGTAAGCAGCACGAAATTTTGGGAT
TTTGCTGACGGTCGATACTTGGGAAGCAACATTGTCAAGCAACACAATCG
AAAGTCTTGGAAATCCGAAACACTCTGCTACTGTGGACATCCGCTAATCA
CCGGGACATTATGCCGCAGTCTTAGGTGATCTTAAATTGAATGATGGTAT
CGCCTACATTGCGGTGCATCTATACAACAGAGCCCAACTAGCTAACCCGC
TACGGAACATCGTCAATCCACTGTCCTCCGAGATACTTATGTCAAAGACA
CGCACACCGATGCGCAATATGAGATCCCAATTCGAAGAAAGGCGGTCTCA
GCCGTGGACTTCACGAAGATCAGAGCCACAGGAACGGGAACCGACCGCGC
AGATCAGGTCGCGGGTGGCCTCAGGGTACATGACCTGGGGTGAGAAACAC
TACTGTTGTGGAGACGGCCATAAGTTTCTCGTGCGAGGTCCACTGCAGTG
GCGGAACAATCTGACTATTCTAGGGATCTTGAAAGGAGCTTGCTTCTTTT
CGGCGGCCACAGTTTGGAGCAACTCAGTGAAATTGACCTCGAGGACGTAC
TGCATCGCCTTGTTTCGGGGTCTTATCCGACGATGCCGCACATGGATGGT
TTGAGCCACAAATTGACAGAAGCCATGCTAGCCGTGCCAGATGATGTGCA
GAGAACGGTTTGGACCCATCCGTAAGTAAATGTGATCTGCGCCTGCCATT
GCTAACGGATTGGCTGTCTGGAAGCACCTCGTCGCCGCTGCCGCTCATAG
TTGCTGGCATTTCTGCTTGTCTAGCCAGCCACCCTGACATGATTACGGCA
TCGCATGATGCTAATATGTTTCGAAAAAGTCCTGAAGATACCGACCGTGT
AATGATCCGAACTGTGGCAGCCTATGCTGTGGTATCTGGCCTCGCGAATA
GTCACCGGAAGGGTCTACGGTTTACGCCGCCGACGAGGGGGAGATCATAC
TATGAAAAGTCTTTTGTGATGGCTGGACTTGTGGACCCAAGGACAGGTCG
GCCAGGTCGTGTCAAGCTGTCCTGCTTCCGGCAGTTTGATATTCTCAACT
CGGACCACGGAATGGCATTTACAGTCTTCTCTGCCCTGGCCACACCATAA
TCCTTGACGGATCCTATCTTCTCTTTGATCACCGCCATAGGCTCGGCGTG
GGGACGGCTGCATTTCGGTGCCACAGAATCTGCCAAGAGAACTTTGAGAG
ATCTTGGAAATCCGGGAATATACCAGGATATAGCCAGAGAGTGAAGCAGG
GACGCGTGAAGGTGTTTGAGTATGGCCATCGCTCGTACAAAGGCATCAAT
CCGCGAGTGCCGCCAATCCAATCCATACTGAAGAATCTGGATTTGTCTGC
TGACAATCCCCTCAAACTAGCCGAGCGATTGGAGAGAGTTTGTCCAACTG
ATGCCTACTTCAAAGAGCAGGGGCTGTACGTGAACGGTGACTTTTCCGGA
AATTTTGTCTTTACAGCCATGTACGGCGCCCGAAGAACGACATTGCTCGA
TTGGACCAGATGCTGACACGAGTAATGGCTTCTACCCGAAGATCATCTCA
ATGGCTATGTTGGCCCAGCGGATCATGGGAATTATGACGCATTGGCGGGA
GTACATGTGTAAGCAGTGATGTGACGGTAGGATATCGGGACTTTCTAACA
GTCTACAGTGATGCGCGGCAAGTTGTTGCGGCCATCCCACATCTACACGG
GGGAGGCAGAGGGAGGAGTACTGCCGGGGATGTAAGTATGGTTGGATGCT
ACATTAGGTGATGAGCAATTTATGACTTTCACGAGCATGCAATATTGATT
TAGAAGTAGTGTATTCTTGGCTGGATTTGTATGAATTCGGTAATAGAGTC
GAGGATGATGTCAAACAGTCAGCAAGGTCAAGCAACTCTCATGGCAGCTA
GCCAGCCTGCCACCGAAGCTACTGCCCTGCCGGCTGACCAGCCAGCAAAG
AAGCCATACTGTGTCTTCACAGTTCGCCAGAGACGGCTCATCATTTTATC
TGCCGTACTTGCCTCTTCATTACCAGTCGCACTGATCGAGCCAGCTATGT
CAAGGTCTCGCTCGCTTCTGCTGTGGCTGCAGACGTTTTAACTTCCGCCG
AGCGCGGCCCTTATATGAACATCACATCTCTGGGGATCATGCTCGTTCCA
TCTATTGGACCCCTTCTTGGGGGACTTCTAAGCCAGCAACCCGACTGA back to topCoding sequence (CDS) from alignment at MCQH01000172:381818..384865- >ATCC10864_007203-T1 ID=ATCC10864_007203-T1|Name=ATCC10864_007203-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=10128bp|location=Sequence derived from alignment at MCQH01000172:381818..384865- (Aspergillus niger ATCC 10864)
TCGCACTGATCGAGCCAGCTATGTCAAGGTCTCGCTCGCTTCTGCTGTGG
CTGCAGACGTTTTAACTTCCGCCGAGCGCGGCCCTTATATGAACATCACA
TCTCTGGGGATCATGCTCGTTCCATCTATTGGACCCCTTCTTGGGGGACT
TCTAAGCCAGCAACCCGACTGATGATGCGCGGCAAGTTGTTGCGGCCATC
CCACATCTACACGGGGGAGGCAGAGGGAGGAGTACTGCCGGGGATTAATG
GCTTCTACCCGAAGATCATCTCAATGGCTATGTTGGCCCAGCGGATCATG
GGAATTATGACGCATTGGCGGGAGTACATGTGCTCGGCGTGGGGACGGCT
GCATTTCGGTGCCACAGAATCTGCCAAGAGAACTTTGAGAGATCTTGGAA
ATCCGGGAATATACCAGGATATAGCCAGAGAGTGAAGCAGGGACGCGTGA
AGGTGTTTGAGTATGGCCATCGCTCGTACAAAGGCATCAATCCGCGAGTG
CCGCCAATCCAATCCATACTGAAGAATCTGGATTTGTCTGCTGACAATCC
CCTCAAACTAGCCGAGCGATTGGAGAGAGTTTGTCCAACTGATGCCTACT
TCAAAGAGCAGGGGCTGTACGTGAACGGTGACTTTTCCGGAAATTTTGTC
TTTACAGCCATGGATCTTGAAAGGAGCTTGCTTCTTTTCGGCGGCCACAG
TTTGGAGCAACTCAGTGAAATTGACCTCGAGGACGTACTGCATCGCCTTG
TTTCGGGGTCTTATCCGACGATGCCGCACATGGATGGTTTGAGCCACAAA
TTGACAGAAGCCATGCTAGCCGTGCCAGATGATGTGCAGAGAACGGTTTG
GACCCATCCGACACCGAGATCTGGACCGTTGGCAAGCTTCCTTTCTGCCA
GGAGCACCTGGCTAAGCCTTTCAAGCATATGCCTGACTCTAGTTGCTGTT
GTCCCCAAGGACAAACTGACTGTCAATGGACCTCTCAAGAAGTGGTCTGG
AACGGGATCCTCCGGCAATGCGGTGCACCGTCTATTCTGTTCGGAATGTG
GCTCTCCCATCGCGCACGATCCCGACGCGGCCCCAGAAATTATCGCTCTG
AAAGCTGGTACTTTGGACACGGAGATCAAGAAAGCCCTCAAGCCAATGCC
TTTGTCCGGCCACTGCCTGTGCAAGGCTGTCACTTACACCGTGGACATTG
ATGCACCCCTCCTCGTGGGGTACGATCATTGTGACGACTGCCAGCGTCAG
AGCGGGTCAACCTACTTCGCACTGATCGAGCCAGCTATGTCAAGGTCTCG
CTCGCTTCTGCTGTGGCTGCAGACGTTTTAACTTCCGCCGAGCGCGGCCC
TTATATGAACATCACATCTCTGGGGATCATGCTCGTTCCATCTATTGGAC
CCCTTCTTGGGGGACTTCTAAGCCAGCAACCCGACTGATGATGCGCGGCA
AGTTGTTGCGGCCATCCCACATCTACACGGGGGAGGCAGAGGGAGGAGTA
CTGCCGGGGATTAATGGCTTCTACCCGAAGATCATCTCAATGGCTATGTT
GGCCCAGCGGATCATGGGAATTATGACGCATTGGCGGGAGTACATGTGCT
CGGCGTGGGGACGGCTGCATTTCGGTGCCACAGAATCTGCCAAGAGAACT
TTGAGAGATCTTGGAAATCCGGGAATATACCAGGATATAGCCAGAGAGTG
AAGCAGGGACGCGTGAAGGTGTTTGAGTATGGCCATCGCTCGTACAAAGG
CATCAATCCGCGAGTGCCGCCAATCCAATCCATACTGAAGAATCTGGATT
TGTCTGCTGACAATCCCCTCAAACTAGCCGAGCGATTGGAGAGAGTTTGT
CCAACTGATGCCTACTTCAAAGAGCAGGGGCTGTACGTGAACGGTGACTT
TTCCGGAAATTTTGTCTTTACAGCCATGGATCTTGAAAGGAGCTTGCTTC
TTTTCGGCGGCCACAGTTTGGAGCAACTCAGTGAAATTGACCTCGAGGAC
GTACTGCATCGCCTTGTTTCGGGGTCTTATCCGACGATGCCGCACATGGA
TGGTTTGAGCCACAAATTGACAGAAGCCATGCTAGCCGTGCCAGATGATG
TGCAGAGAACGGTTTGGACCCATCCGACACCGAGATCTGGACCGTTGGCA
AGCTTCCTTTCTGCCAGGAGCACCTGGCTAAGCCTTTCAAGCATATGCCT
GACTCTAGTTGCTGTTGTCCCCAAGGACAAACTGACTGTCAATGGACCTC
TCAAGAAGTGGTCTGGAACGGGATCCTCCGGCAATGCGGTGCACCGTCTA
TTCTGTTCGGAATGTGGCTCTCCCATCGCGCACGATCCCGACGCGGCCCC
AGAAATTATCGCTCTGAAAGCTGGTACTTTGGACACGGAGATCAAGAAAG
CCCTCAAGCCAATGCCTTTGTCCGGCCACTGCCTGTGCAAGGCTGTCACT
TACACCGTGGACATTGATGCACCCCTCCTCGTGGGGTACGATCATTGTGA
CGACTGCCAGCGTCAGAGCGGGTCAACCTACTTCGCACTGATCGAGCCAG
CTATGTCAAGGTCTCGCTCGCTTCTGCTGTGGCTGCAGACGTTTTAACTT
CCGCCGAGCGCGGCCCTTATATGAACATCACATCTCTGGGGATCATGCTC
GTTCCATCTATTGGACCCCTTCTTGGGGGACTTCTAAGCCAGCAACCCGA
CTGATGATGCGCGGCAAGTTGTTGCGGCCATCCCACATCTACACGGGGGA
GGCAGAGGGAGGAGTACTGCCGGGGATTAATGGCTTCTACCCGAAGATCA
TCTCAATGGCTATGTTGGCCCAGCGGATCATGGGAATTATGACGCATTGG
CGGGAGTACATGTGCTCGGCGTGGGGACGGCTGCATTTCGGTGCCACAGA
ATCTGCCAAGAGAACTTTGAGAGATCTTGGAAATCCGGGAATATACCAGG
ATATAGCCAGAGAGTGAAGCAGGGACGCGTGAAGGTGTTTGAGTATGGCC
ATCGCTCGTACAAAGGCATCAATCCGCGAGTGCCGCCAATCCAATCCATA
CTGAAGAATCTGGATTTGTCTGCTGACAATCCCCTCAAACTAGCCGAGCG
ATTGGAGAGAGTTTGTCCAACTGATGCCTACTTCAAAGAGCAGGGGCTGT
ACGTGAACGGTGACTTTTCCGGAAATTTTGTCTTTACAGCCATGGATCTT
GAAAGGAGCTTGCTTCTTTTCGGCGGCCACAGTTTGGAGCAACTCAGTGA
AATTGACCTCGAGGACGTACTGCATCGCCTTGTTTCGGGGTCTTATCCGA
CGATGCCGCACATGGATGGTTTGAGCCACAAATTGACAGAAGCCATGCTA
GCCGTGCCAGATGATGTGCAGAGAACGGTTTGGACCCATCCGACACCGAG
ATCTGGACCGTTGGCAAGCTTCCTTTCTGCCAGGAGCACCTGGCTAAGCC
TTTCAAGCATATGCCTGACTCTAGTTGCTGTTGTCCCCAAGGACAAACTG
ACTGTCAATGGACCTCTCAAGAAGTGGTCTGGAACGGGATCCTCCGGCAA
TGCGGTGCACCGTCTATTCTGTTCGGAATGTGGCTCTCCCATCGCGCACG
ATCCCGACGCGGCCCCAGAAATTATCGCTCTGAAAGCTGGTACTTTGGAC
ACGGAGATCAAGAAAGCCCTCAAGCCAATGCCTTTGTCCGGCCACTGCCT
GTGCAAGGCTGTCACTTACACCGTGGACATTGATGCACCCCTCCTCGTGG
GGTACGATCATTGTGACGACTGCCAGCGTCAGAGCGGGTCAACCTACTTC
GCACTGATCGAGCCAGCTATGTCAAGGTCTCGCTCGCTTCTGCTGTGGCT
GCAGACGTTTTAACTTCCGCCGAGCGCGGCCCTTATATGAACATCACATC
TCTGGGGATCATGCTCGTTCCATCTATTGGACCCCTTCTTGGGGGACTTC
TAAGCCAGCAACCCGACTGATGATGCGCGGCAAGTTGTTGCGGCCATCCC
ACATCTACACGGGGGAGGCAGAGGGAGGAGTACTGCCGGGGATTAATGGC
TTCTACCCGAAGATCATCTCAATGGCTATGTTGGCCCAGCGGATCATGGG
AATTATGACGCATTGGCGGGAGTACATGTGCTCGGCGTGGGGACGGCTGC
ATTTCGGTGCCACAGAATCTGCCAAGAGAACTTTGAGAGATCTTGGAAAT
CCGGGAATATACCAGGATATAGCCAGAGAGTGAAGCAGGGACGCGTGAAG
GTGTTTGAGTATGGCCATCGCTCGTACAAAGGCATCAATCCGCGAGTGCC
GCCAATCCAATCCATACTGAAGAATCTGGATTTGTCTGCTGACAATCCCC
TCAAACTAGCCGAGCGATTGGAGAGAGTTTGTCCAACTGATGCCTACTTC
AAAGAGCAGGGGCTGTACGTGAACGGTGACTTTTCCGGAAATTTTGTCTT
TACAGCCATGGATCTTGAAAGGAGCTTGCTTCTTTTCGGCGGCCACAGTT
TGGAGCAACTCAGTGAAATTGACCTCGAGGACGTACTGCATCGCCTTGTT
TCGGGGTCTTATCCGACGATGCCGCACATGGATGGTTTGAGCCACAAATT
GACAGAAGCCATGCTAGCCGTGCCAGATGATGTGCAGAGAACGGTTTGGA
CCCATCCGACACCGAGATCTGGACCGTTGGCAAGCTTCCTTTCTGCCAGG
AGCACCTGGCTAAGCCTTTCAAGCATATGCCTGACTCTAGTTGCTGTTGT
CCCCAAGGACAAACTGACTGTCAATGGACCTCTCAAGAAGTGGTCTGGAA
CGGGATCCTCCGGCAATGCGGTGCACCGTCTATTCTGTTCGGAATGTGGC
TCTCCCATCGCGCACGATCCCGACGCGGCCCCAGAAATTATCGCTCTGAA
AGCTGGTACTTTGGACACGGAGATCAAGAAAGCCCTCAAGCCAATGCCTT
TGTCCGGCCACTGCCTGTGCAAGGCTGTCACTTACACCGTGGACATTGAT
GCACCCCTCCTCGTGGGGTACGATCATTGTGACGACTGCCAGCGTCAGAG
CGGGTCAACCTACTTCGCACTGATCGAGCCAGCTATGTCAAGGTCTCGCT
CGCTTCTGCTGTGGCTGCAGACGTTTTAACTTCCGCCGAGCGCGGCCCTT
ATATGAACATCACATCTCTGGGGATCATGCTCGTTCCATCTATTGGACCC
CTTCTTGGGGGACTTCTAAGCCAGCAACCCGACTGATGATGCGCGGCAAG
TTGTTGCGGCCATCCCACATCTACACGGGGGAGGCAGAGGGAGGAGTACT
GCCGGGGATTAATGGCTTCTACCCGAAGATCATCTCAATGGCTATGTTGG
CCCAGCGGATCATGGGAATTATGACGCATTGGCGGGAGTACATGTGCTCG
GCGTGGGGACGGCTGCATTTCGGTGCCACAGAATCTGCCAAGAGAACTTT
GAGAGATCTTGGAAATCCGGGAATATACCAGGATATAGCCAGAGAGTGAA
GCAGGGACGCGTGAAGGTGTTTGAGTATGGCCATCGCTCGTACAAAGGCA
TCAATCCGCGAGTGCCGCCAATCCAATCCATACTGAAGAATCTGGATTTG
TCTGCTGACAATCCCCTCAAACTAGCCGAGCGATTGGAGAGAGTTTGTCC
AACTGATGCCTACTTCAAAGAGCAGGGGCTGTACGTGAACGGTGACTTTT
CCGGAAATTTTGTCTTTACAGCCATGGATCTTGAAAGGAGCTTGCTTCTT
TTCGGCGGCCACAGTTTGGAGCAACTCAGTGAAATTGACCTCGAGGACGT
ACTGCATCGCCTTGTTTCGGGGTCTTATCCGACGATGCCGCACATGGATG
GTTTGAGCCACAAATTGACAGAAGCCATGCTAGCCGTGCCAGATGATGTG
CAGAGAACGGTTTGGACCCATCCGACACCGAGATCTGGACCGTTGGCAAG
CTTCCTTTCTGCCAGGAGCACCTGGCTAAGCCTTTCAAGCATATGCCTGA
CTCTAGTTGCTGTTGTCCCCAAGGACAAACTGACTGTCAATGGACCTCTC
AAGAAGTGGTCTGGAACGGGATCCTCCGGCAATGCGGTGCACCGTCTATT
CTGTTCGGAATGTGGCTCTCCCATCGCGCACGATCCCGACGCGGCCCCAG
AAATTATCGCTCTGAAAGCTGGTACTTTGGACACGGAGATCAAGAAAGCC
CTCAAGCCAATGCCTTTGTCCGGCCACTGCCTGTGCAAGGCTGTCACTTA
CACCGTGGACATTGATGCACCCCTCCTCGTGGGGTACGATCATTGTGACG
ACTGCCAGCGTCAGAGCGGGTCAACCTACTTCGCACTGATCGAGCCAGCT
ATGTCAAGGTCTCGCTCGCTTCTGCTGTGGCTGCAGACGTTTTAACTTCC
GCCGAGCGCGGCCCTTATATGAACATCACATCTCTGGGGATCATGCTCGT
TCCATCTATTGGACCCCTTCTTGGGGGACTTCTAAGCCAGCAACCCGACT
GATGATGCGCGGCAAGTTGTTGCGGCCATCCCACATCTACACGGGGGAGG
CAGAGGGAGGAGTACTGCCGGGGATTAATGGCTTCTACCCGAAGATCATC
TCAATGGCTATGTTGGCCCAGCGGATCATGGGAATTATGACGCATTGGCG
GGAGTACATGTGCTCGGCGTGGGGACGGCTGCATTTCGGTGCCACAGAAT
CTGCCAAGAGAACTTTGAGAGATCTTGGAAATCCGGGAATATACCAGGAT
ATAGCCAGAGAGTGAAGCAGGGACGCGTGAAGGTGTTTGAGTATGGCCAT
CGCTCGTACAAAGGCATCAATCCGCGAGTGCCGCCAATCCAATCCATACT
GAAGAATCTGGATTTGTCTGCTGACAATCCCCTCAAACTAGCCGAGCGAT
TGGAGAGAGTTTGTCCAACTGATGCCTACTTCAAAGAGCAGGGGCTGTAC
GTGAACGGTGACTTTTCCGGAAATTTTGTCTTTACAGCCATGGATCTTGA
AAGGAGCTTGCTTCTTTTCGGCGGCCACAGTTTGGAGCAACTCAGTGAAA
TTGACCTCGAGGACGTACTGCATCGCCTTGTTTCGGGGTCTTATCCGACG
ATGCCGCACATGGATGGTTTGAGCCACAAATTGACAGAAGCCATGCTAGC
CGTGCCAGATGATGTGCAGAGAACGGTTTGGACCCATCCGACACCGAGAT
CTGGACCGTTGGCAAGCTTCCTTTCTGCCAGGAGCACCTGGCTAAGCCTT
TCAAGCATATGCCTGACTCTAGTTGCTGTTGTCCCCAAGGACAAACTGAC
TGTCAATGGACCTCTCAAGAAGTGGTCTGGAACGGGATCCTCCGGCAATG
CGGTGCACCGTCTATTCTGTTCGGAATGTGGCTCTCCCATCGCGCACGAT
CCCGACGCGGCCCCAGAAATTATCGCTCTGAAAGCTGGTACTTTGGACAC
GGAGATCAAGAAAGCCCTCAAGCCAATGCCTTTGTCCGGCCACTGCCTGT
GCAAGGCTGTCACTTACACCGTGGACATTGATGCACCCCTCCTCGTGGGG
TACGATCATTGTGACGACTGCCAGCGTCAGAGCGGGTCAACCTACTTCGC
ACTGATCGAGCCAGCTATGTCAAGGTCTCGCTCGCTTCTGCTGTGGCTGC
AGACGTTTTAACTTCCGCCGAGCGCGGCCCTTATATGAACATCACATCTC
TGGGGATCATGCTCGTTCCATCTATTGGACCCCTTCTTGGGGGACTTCTA
AGCCAGCAACCCGACTGATGATGCGCGGCAAGTTGTTGCGGCCATCCCAC
ATCTACACGGGGGAGGCAGAGGGAGGAGTACTGCCGGGGATTAATGGCTT
CTACCCGAAGATCATCTCAATGGCTATGTTGGCCCAGCGGATCATGGGAA
TTATGACGCATTGGCGGGAGTACATGTGCTCGGCGTGGGGACGGCTGCAT
TTCGGTGCCACAGAATCTGCCAAGAGAACTTTGAGAGATCTTGGAAATCC
GGGAATATACCAGGATATAGCCAGAGAGTGAAGCAGGGACGCGTGAAGGT
GTTTGAGTATGGCCATCGCTCGTACAAAGGCATCAATCCGCGAGTGCCGC
CAATCCAATCCATACTGAAGAATCTGGATTTGTCTGCTGACAATCCCCTC
AAACTAGCCGAGCGATTGGAGAGAGTTTGTCCAACTGATGCCTACTTCAA
AGAGCAGGGGCTGTACGTGAACGGTGACTTTTCCGGAAATTTTGTCTTTA
CAGCCATGGATCTTGAAAGGAGCTTGCTTCTTTTCGGCGGCCACAGTTTG
GAGCAACTCAGTGAAATTGACCTCGAGGACGTACTGCATCGCCTTGTTTC
GGGGTCTTATCCGACGATGCCGCACATGGATGGTTTGAGCCACAAATTGA
CAGAAGCCATGCTAGCCGTGCCAGATGATGTGCAGAGAACGGTTTGGACC
CATCCGACACCGAGATCTGGACCGTTGGCAAGCTTCCTTTCTGCCAGGAG
CACCTGGCTAAGCCTTTCAAGCATATGCCTGACTCTAGTTGCTGTTGTCC
CCAAGGACAAACTGACTGTCAATGGACCTCTCAAGAAGTGGTCTGGAACG
GGATCCTCCGGCAATGCGGTGCACCGTCTATTCTGTTCGGAATGTGGCTC
TCCCATCGCGCACGATCCCGACGCGGCCCCAGAAATTATCGCTCTGAAAG
CTGGTACTTTGGACACGGAGATCAAGAAAGCCCTCAAGCCAATGCCTTTG
TCCGGCCACTGCCTGTGCAAGGCTGTCACTTACACCGTGGACATTGATGC
ACCCCTCCTCGTGGGGTACGATCATTGTGACGACTGCCAGCGTCAGAGCG
GGTCAACCTACTTCGCACTGATCGAGCCAGCTATGTCAAGGTCTCGCTCG
CTTCTGCTGTGGCTGCAGACGTTTTAACTTCCGCCGAGCGCGGCCCTTAT
ATGAACATCACATCTCTGGGGATCATGCTCGTTCCATCTATTGGACCCCT
TCTTGGGGGACTTCTAAGCCAGCAACCCGACTGATGATGCGCGGCAAGTT
GTTGCGGCCATCCCACATCTACACGGGGGAGGCAGAGGGAGGAGTACTGC
CGGGGATTAATGGCTTCTACCCGAAGATCATCTCAATGGCTATGTTGGCC
CAGCGGATCATGGGAATTATGACGCATTGGCGGGAGTACATGTGCTCGGC
GTGGGGACGGCTGCATTTCGGTGCCACAGAATCTGCCAAGAGAACTTTGA
GAGATCTTGGAAATCCGGGAATATACCAGGATATAGCCAGAGAGTGAAGC
AGGGACGCGTGAAGGTGTTTGAGTATGGCCATCGCTCGTACAAAGGCATC
AATCCGCGAGTGCCGCCAATCCAATCCATACTGAAGAATCTGGATTTGTC
TGCTGACAATCCCCTCAAACTAGCCGAGCGATTGGAGAGAGTTTGTCCAA
CTGATGCCTACTTCAAAGAGCAGGGGCTGTACGTGAACGGTGACTTTTCC
GGAAATTTTGTCTTTACAGCCATGGATCTTGAAAGGAGCTTGCTTCTTTT
CGGCGGCCACAGTTTGGAGCAACTCAGTGAAATTGACCTCGAGGACGTAC
TGCATCGCCTTGTTTCGGGGTCTTATCCGACGATGCCGCACATGGATGGT
TTGAGCCACAAATTGACAGAAGCCATGCTAGCCGTGCCAGATGATGTGCA
GAGAACGGTTTGGACCCATCCGACACCGAGATCTGGACCGTTGGCAAGCT
TCCTTTCTGCCAGGAGCACCTGGCTAAGCCTTTCAAGCATATGCCTGACT
CTAGTTGCTGTTGTCCCCAAGGACAAACTGACTGTCAATGGACCTCTCAA
GAAGTGGTCTGGAACGGGATCCTCCGGCAATGCGGTGCACCGTCTATTCT
GTTCGGAATGTGGCTCTCCCATCGCGCACGATCCCGACGCGGCCCCAGAA
ATTATCGCTCTGAAAGCTGGTACTTTGGACACGGAGATCAAGAAAGCCCT
CAAGCCAATGCCTTTGTCCGGCCACTGCCTGTGCAAGGCTGTCACTTACA
CCGTGGACATTGATGCACCCCTCCTCGTGGGGTACGATCATTGTGACGAC
TGCCAGCGTCAGAGCGGGTCAACCTACT back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0046912 | transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer |
| GO:0016846 | carbon-sulfur lyase activity |
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:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR016143 |
| InterPro | IPR016142 |
| InterPro | IPR002020 |
| InterPro | IPR011057 |
| InterPro | IPR006913 |
| PFAM | PF04828 |
| InterPro | IPR036969 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000172 | supercontig | MCQH01000172:381818..384865 - |
|
