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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000017.1:2597672..2602028+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_103950-T1 ID=ATCC64974_103950-T1|Name=ATCC64974_103950-T1|organism=Aspergillus niger N402|type=mRNA|length=4357bp|location=Sequence derived from alignment at OGUI01000017.1:2597672..2602028+ (Aspergillus niger N402)
ATGTCGGATTCCAGATCGGATGGTCATGATGCTAGGCAGTCAGGGACGAC
TCCCCTGCGACGGGAGCGGGCCCCAACCATCACCATCGATACGTCGGCTG
TAACGTCCCCAACCGACCACCAAGAACCTCCACAGCAGATACTTCCTACC
CCGTCCCATCCCTCTTTGCAAGTGTCTACCGAAAATGTTGATGCGCATGA
TATGAGCGCGCTCCTGAGCAGTGGGGGTGTCTCGCCGTCGTCAGTCCGCT
CATTTGCGTCGTCTGAGAACCGGGACTACGAGAGTCGTCCTACATCTCCG
CACAATATCTCGTCTCCCGCCTCGAAAATGACTGAGAACATGTCGAATTC
GAATTACCTGGCTGTCCCCGGCACTAGGTCTCGCGGCAACTCGTTGGAAT
CTGAGGACTCGAATAATTCGTCGACCAGCTCGTACGGAGGAGATACATAT
GTTCCCACAGCATCCCACGGCTCGCGCACCGATTTGACGCAGAACACGAT
AATCTCCGATGAGGATGCCCTTAAGCCGGATCCGGGGCGAGAGGCCGAGT
TTGAGGTGGAAGACAACAAATTTGCATTCGCGCCTGGCCATTTGAACAAG
CTGTTGAACCCTAAGAGCTTGGGGGCATTCCATGCTTTGGGTGGGTTGCG
TGGAATCGAAAAAGGACTTCGAACCGACACGCGCAGTGGCTTGAGTTTGG
ATGAGGGAGACCTGGATGGTACTGTAAGCTTCGAGGATGCAACCAACACG
CAAACGTCCGAATCGCTGCCAAAGACCGCTTCCTCAACGCCACCGAGCCC
TCCCAGAACCGACACGGGCTCGTCGAAACATGTCGAAAATGCCTTTGGGG
ATCGAAGCCGCGTCTATGGGAGGAACAAGCTTCCTGAAAGGAAGGCTAAG
AGTTTCCTGGAGCTGGCTTGGATTGCCTACAACGACAAGGTTCTGATTCT
GCTTACGATAGCTGCGATCATATCTCTCGCCCTTGGAATCTATCAGTCTG
TGACGGCAACCGGAAAGGAAGCACGCGTGCAATGGGTAGAAGGCGTGGCT
ATCATTGTCGCCATTCTAATCGTGGTCGTTGTGGGTGCTGCTAATGACTG
GCAAAAGGAACGCCAATTCGTCAAGTTGAATAAGAAGAAAGATGATCGAC
TTGTGAAAGTAGTCCGTTCCGGGAAAACTGCAGAGATCTCTATTCACGAC
ATTCTCGTGGGTGACGTTATGCATCTTGAACCCGGTGATCTCATTCCAGT
TGACGGTATCTTTATTACTGGCCACAATGTCAAATGCGACGAATCCTCTG
CGACCGGCGAGTCGGACGTCTTACGCAAGACCCCTGCTCACGATGTCTAT
CGGGCAATCGAGCAACACGAAAACATCTCGAAGCAGGACCCATTCATTGT
GTCCGGTGCCAAAGTTTCTGAAGGTGTAGGGACGTTCTTGGTCACAGCAG
TCGGTGTTAATTCAACATACGGGAAGACCATGATGTCTCTTCAAGATGAA
GGGCAGACGACCCCGCTGCAATCGAAGCTGAACGTACTCGCAGAGTACAT
TGCGAAGCTCGGTCTTGCTTCTGGATTACTCCTGTTCGTCGTGCTTTTCA
TCAAGTTCCTTGCTCAGTTGAAAGATATGGGCGGCGCATCCGAGAAAGGA
CAAGCTTTCCTACAGATCTTCATTGTTGCTGTGACCGTCATTGTTGTCGC
TGTCCCAGAAGGTCTTCCTCTGGCTGTCACCCTGGCGCTCGCCTTTGCAA
CGACCCGGATGCTCAAGGACAATAACCTCGTACGGCTGCTAAGAGCCTGT
GAAACTATGGGAAATGCCACGACTATCTGCTCCGACAAAACAGGTACCCT
GACGGAGAACAAAATGACTGCCGTCGCAGCTACTCTGGGAAAGAATCTAA
GATTTGGAGACAAATCCACGGAAACCTCCAGTCGTCCAGATGGCGACCGG
GGTCGTGATCCTGCGACTACTCTTTCTCCCTCCGAGTTCGCATCCAGCCT
TTCCGCTCCGGCCAAAGACCTTTTGATCAAGTCGATTGTATTGAACTCCA
CGGCATTCGAAGGGGAGCAAGACGGTGTAATGACTTTTATCGGATCGAAG
ACGGAGACTGCTCTCCTGGGATTCGCGCGTACATATCTCGGCCTAGGGTC
GCTTAGCGAGGCGCGGGACAATGCAAATCTTGCCCAGATGGTGCCATTCG
ACTCAGGACGCAAGTGTATGGCAGTGGTCGTCAAGATGGAAAATGGTAAA
TACAGAATGCTGGTCAAAGGTGCATCCGAGATCCTGGTGGCGAGATCCAC
TCGAATTGTTCACAACGCTACGCAGGACTTGGCAGAAGGGCCTATGTCGG
ATCAGGACCGGTCTAACCTGGACAATTTGATCAACCGTTATGCATCTCGT
TCGTTGCGAACTATTGGTCTGGTGTACCGGGACTTCGATCAATGGCCACC
CCGCGGAGCACCCACGCAGGAGGAGGACCGTTCGCTCGCTGTTTTCGATG
CAGTTTTCAAGGATATGATCTTGCTAGGCGTCTTCGGTATCCAAGATCCC
TTGCGACCGGGTGTGACCGAGTCTGTCCACCAGTGTCAGCGCGCAGGTGT
CTTTGTGCGTATGGTGACTGGCGATAACATCATGACTGCTAAAGCTATCG
CCCAAGAATGTGGCATCTTCACCCCTGGAGGTATTGCCATTGAGGGCCCC
AAGTTCCGTCAGCTGAGCAGCCGCCAAATGACGCAGATCATCCCGCGGCT
ACAGGTTTTGGCCAGGTCAAGCCCCGACGACAAGAAGATCCTGGTTAATC
AACTCAAAAAGCTGGGTGAAACGGTGGCTGTGACAGGCGACGGTACAAAT
GATGCACAAGCTCTCAAGACGGCCGATGTTGGCTTTTCCATGGGAATCTC
TGGCACTGAAGTTGCTAAAGAAGCATCCGATATCATCCTCATGGACGACA
ACTTCACCTCGATTATTAAGGCTATGGCTTGGGGTAGGACAGTCAACGAT
GCTGTCAAGAAATTCCTTCAGGTATGGCTTCCTTATATGTTCCTGTGTTT
CGCAAGCAAAACTAACCGAGCTGTAGTTCCAACTTACTGTCAACGTTACT
GCCGTGGTCCTCACTTTCGTTTCCGCAGTAGCAAGTGGAGATGAGGAATC
TGTCCTGACAGCAGTTCAGCTTCTTTGGGTCAACCTTATCATGGACACCT
TTGCGGCCCTTGCCTTGGCTACGGATCCTCCCTCGCCTCATGTTCTCGAC
CGTCGACCTGACCCTAAATCGGCGCCCCTGATCAATCTGACTATGTGGAA
GATGATTATCGGACAAAGCATCTACCAGTTAGTCGTCACGCTGGTTCTGA
ACTTCGCAGGGAAATCGATCTTTCACTACAAAACGGCAGACGACCTCGAT
CGGCTTGAGACCATGGTGTTCAATACGTTTGTGTGGATGCAGATCTTCAA
CCAGTGGAATTGTCGCAGACTCGATAACAACTTCAATATCTTTGAGGGCA
TGTGGCGAAACTTCTGGTTCATGGGGATTCAGTTGATCATCATTGGAGGT
CAAATTCTCATCATCTTCGTTGGTGGACAGGCTTTCTCTGTCAAGCGACT
CGATGGAGCTCAGTGGGGTGTTTCACTGGTTCTGGGCGTGATCTCTCTGC
CGGTAGGCGTGATCATTCGTTTGATACCTGATGAGTTTATTAGCAGACTC
ATTCCTCGGTTCTGGCAGCGCAAGAAGGGCCCCGAACTTCTGGTGTCCGA
CGAGGACCGGCGGTTTGAGTGGAACCCTGCGCTCGAGGAGATCCGTGATC
AGTTGAAGTTCCTCAAGACGGTCCGCGGAGGTCGGCTGAGGCACCTCAAG
CACAAGTTGCAACATCCAGAAGAACTCCTCCCAAGATCACGAAGCGGGTC
ACGGTCCAGAGAAAACTCGATTCCCGGTACTCCTGTTGGCGAACACAGCG
ACAGTACCCCGACGCAGCCACCGACTCCTGATTCGCGGTCTAGACGTCGC
ACTCGGTCCCGCTCGAATTCAGCATTCGGGCCTGCTGCTGCTATGGCCGG
TGTGGTTGCGGGTAGTATTGCAGGCTGGTCTCCAATCGAGCGGGCACCAG
GCGACGGAGAAGCTTTCAAGGTTCAGACGGACAGCCCTCATGGGGGTCTG
GATAAGCAGAAGGGCATTGAAATCCACCCCGATACTGCCGCTGATGACCG
TATTCTGGGCGATTACCAGACCACTTCAAAGACTCCTCCCAGCCAAAACC
CAGGGCTCCTCCCGTTCTTTGAATACGCACCGCCTGAGCGTGCTCCCTCC
CATCGGAGCCAGAGATCCACTTCTCGCTTGTCGCGATCCAGCCAAAGCCA
GGCGTGA back to topCoding sequence (CDS) from alignment at OGUI01000017.1:2597672..2602028+ >ATCC64974_103950-T1 ID=ATCC64974_103950-T1|Name=ATCC64974_103950-T1|organism=Aspergillus niger N402|type=CDS|length=8604bp|location=Sequence derived from alignment at OGUI01000017.1:2597672..2602028+ (Aspergillus niger N402)
ATGTCGGATTCCAGATCGGATGGTCATGATGCTAGGCAGTCAGGGACGAC
TCCCCTGCGACGGGAGCGGGCCCCAACCATCACCATCGATACGTCGGCTG
TAACGTCCCCAACCGACCACCAAGAACCTCCACAGCAGATACTTCCTACC
CCGTCCCATCCCTCTTTGCAAGTGTCTACCGAAAATGTTGATGCGCATGA
TATGAGCGCGCTCCTGAGCAGTGGGGGTGTCTCGCCGTCGTCAGTCCGCT
CATTTGCGTCGTCTGAGAACCGGGACTACGAGAGTCGTCCTACATCTCCG
CACAATATCTCGTCTCCCGCCTCGAAAATGACTGAGAACATGTCGAATTC
GAATTACCTGGCTGTCCCCGGCACTAGGTCTCGCGGCAACTCGTTGGAAT
CTGAGGACTCGAATAATTCGTCGACCAGCTCGTACGGAGGAGATACATAT
GTTCCCACAGCATCCCACGGCTCGCGCACCGATTTGACGCAGAACACGAT
AATCTCCGATGAGGATGCCCTTAAGCCGGATCCGGGGCGAGAGGCCGAGT
TTGAGGTGGAAGACAACAAATTTGCATTCGCGCCTGGCCATTTGAACAAG
CTGTTGAACCCTAAGAGCTTGGGGGCATTCCATGCTTTGGGTGGGTTGCG
TGGAATCGAAAAAGGACTTCGAACCGACACGCGCAGTGGCTTGAGTTTGG
ATGAGGGAGACCTGGATGGTACTGTAAGCTTCGAGGATGCAACCAACACG
CAAACGTCCGAATCGCTGCCAAAGACCGCTTCCTCAACGCCACCGAGCCC
TCCCAGAACCGACACGGGCTCGTCGAAACATGTCGAAAATGCCTTTGGGG
ATCGAAGCCGCGTCTATGGGAGGAACAAGCTTCCTGAAAGGAAGGCTAAG
AGTTTCCTGGAGCTGGCTTGGATTGCCTACAACGACAAGGTTCTGATTCT
GCTTACGATAGCTGCGATCATATCTCTCGCCCTTGGAATCTATCAGTCTG
TGACGGCAACCGGAAAGGAAGCACGCGTGCAATGGGTAGAAGGCGTGGCT
ATCATTGTCGCCATTCTAATCGTGGTCGTTGTGGGTGCTGCTAATGACTG
GCAAAAGGAACGCCAATTCGTCAAGTTGAATAAGAAGAAAGATGATCGAC
TTGTGAAAGTAGTCCGTTCCGGGAAAACTGCAGAGATCTCTATTCACGAC
ATTCTCGTGGGTGACGTTATGCATCTTGAACCCGGTGATCTCATTCCAGT
TGACGGTATCTTTATTACTGGCCACAATGTCAAATGCGACGAATCCTCTG
CGACCGGCGAGTCGGACGTCTTACGCAAGACCCCTGCTCACGATGTCTAT
CGGGCAATCGAGCAACACGAAAACATCTCGAAGCAGGACCCATTCATTGT
GTCCGGTGCCAAAGTTTCTGAAGGTGTAGGGACGTTCTTGGTCACAGCAG
TCGGTGTTAATTCAACATACGGGAAGACCATGATGTCTCTTCAAGATGAA
GGGCAGACGACCCCGCTGCAATCGAAGCTGAACGTACTCGCAGAGTACAT
TGCGAAGCTCGGTCTTGCTTCTGGATTACTCCTGTTCGTCGTGCTTTTCA
TCAAGTTCCTTGCTCAGTTGAAAGATATGGGCGGCGCATCCGAGAAAGGA
CAAGCTTTCCTACAGATCTTCATTGTTGCTGTGACCGTCATTGTTGTCGC
TGTCCCAGAAGGTCTTCCTCTGGCTGTCACCCTGGCGCTCGCCTTTGCAA
CGACCCGGATGCTCAAGGACAATAACCTCGTACGGCTGCTAAGAGCCTGT
GAAACTATGGGAAATGCCACGACTATCTGCTCCGACAAAACAGGTACCCT
GACGGAGAACAAAATGACTGCCGTCGCAGCTACTCTGGGAAAGAATCTAA
GATTTGGAGACAAATCCACGGAAACCTCCAGTCGTCCAGATGGCGACCGG
GGTCGTGATCCTGCGACTACTCTTTCTCCCTCCGAGTTCGCATCCAGCCT
TTCCGCTCCGGCCAAAGACCTTTTGATCAAGTCGATTGTATTGAACTCCA
CGGCATTCGAAGGGGAGCAAGACGGTGTAATGACTTTTATCGGATCGAAG
ACGGAGACTGCTCTCCTGGGATTCGCGCGTACATATCTCGGCCTAGGGTC
GCTTAGCGAGGCGCGGGACAATGCAAATCTTGCCCAGATGGTGCCATTCG
ACTCAGGACGCAAGTGTATGGCAGTGGTCGTCAAGATGGAAAATGGTAAA
TACAGAATGCTGGTCAAAGGTGCATCCGAGATCCTGGTGGCGAGATCCAC
TCGAATTGTTCACAACGCTACGCAGGACTTGGCAGAAGGGCCTATGTCGG
ATCAGGACCGGTCTAACCTGGACAATTTGATCAACCGTTATGCATCTCGT
TCGTTGCGAACTATTGGTCTGGTGTACCGGGACTTCGATCAATGGCCACC
CCGCGGAGCACCCACGCAGGAGGAGGACCGTTCGCTCGCTGTTTTCGATG
CAGTTTTCAAGGATATGATCTTGCTAGGCGTCTTCGGTATCCAAGATCCC
TTGCGACCGGGTGTGACCGAGTCTGTCCACCAGTGTCAGCGCGCAGGTGT
CTTTGTGCGTATGGTGACTGGCGATAACATCATGACTGCTAAAGCTATCG
CCCAAGAATGTGGCATCTTCACCCCTGGAGGTATTGCCATTGAGGGCCCC
AAGTTCCGTCAGCTGAGCAGCCGCCAAATGACGCAGATCATCCCGCGGCT
ACAGGTTTTGGCCAGGTCAAGCCCCGACGACAAGAAGATCCTGGTTAATC
AACTCAAAAAGCTGGGTGAAACGGTGGCTGTGACAGGCGACGGTACAAAT
GATGCACAAGCTCTCAAGACGGCCGATGTTGGCTTTTCCATGGGAATCTC
TGGCACTGAAGTTGCTAAAGAAGCATCCGATATCATCCTCATGGACGACA
ACTTCACCTCGATTATTAAGGCTATGGCTTGGGGTAGGACAGTCAACGAT
GCTGTCAAGAAATTCCTTCAGTTCCAACTTACTGTCAACGTTACTGCCGT
GGTCCTCACTTTCGTTTCCGCAGTAGCAAGTGGAGATGAGGAATCTGTCC
TGACAGCAGTTCAGCTTCTTTGGGTCAACCTTATCATGGACACCTTTGCG
GCCCTTGCCTTGGCTACGGATCCTCCCTCGCCTCATGTTCTCGACCGTCG
ACCTGACCCTAAATCGGCGCCCCTGATCAATCTGACTATGTGGAAGATGA
TTATCGGACAAAGCATCTACCAGTTAGTCGTCACGCTGGTTCTGAACTTC
GCAGGGAAATCGATCTTTCACTACAAAACGGCAGACGACCTCGATCGGCT
TGAGACCATGGTGTTCAATACGTTTGTGTGGATGCAGATCTTCAACCAGT
GGAATTGTCGCAGACTCGATAACAACTTCAATATCTTTGAGGGCATGTGG
CGAAACTTCTGGTTCATGGGGATTCAGTTGATCATCATTGGAGGTCAAAT
TCTCATCATCTTCGTTGGTGGACAGGCTTTCTCTGTCAAGCGACTCGATG
GAGCTCAGTGGGGTGTTTCACTGGTTCTGGGCGTGATCTCTCTGCCGGTA
GGCGTGATCATTCGTTTGATACCTGATGAGTTTATTAGCAGACTCATTCC
TCGGTTCTGGCAGCGCAAGAAGGGCCCCGAACTTCTGGTGTCCGACGAGG
ACCGGCGGTTTGAGTGGAACCCTGCGCTCGAGGAGATCCGTGATCAGTTG
AAGTTCCTCAAGACGGTCCGCGGAGGTCGGCTGAGGCACCTCAAGCACAA
GTTGCAACATCCAGAAGAACTCCTCCCAAGATCACGAAGCGGGTCACGGT
CCAGAGAAAACTCGATTCCCGGTACTCCTGTTGGCGAACACAGCGACAGT
ACCCCGACGCAGCCACCGACTCCTGATTCGCGGTCTAGACGTCGCACTCG
GTCCCGCTCGAATTCAGCATTCGGGCCTGCTGCTGCTATGGCCGGTGTGG
TTGCGGGTAGTATTGCAGGCTGGTCTCCAATCGAGCGGGCACCAGGCGAC
GGAGAAGCTTTCAAGGTTCAGACGGACAGCCCTCATGGGGGTCTGGATAA
GCAGAAGGGCATTGAAATCCACCCCGATACTGCCGCTGATGACCGTATTC
TGGGCGATTACCAGACCACTTCAAAGACTCCTCCCAGCCAAAACCCAGGG
CTCCTCCCGTTCTTTGAATACGCACCGCCTGAGCGTGCTCCCTCCCATCG
GAGCCAGAGATCCACTTCTCGCTTGTCGCGATCCAGCCAAAGCCAGGCGT
GAATGTCGGATTCCAGATCGGATGGTCATGATGCTAGGCAGTCAGGGACG
ACTCCCCTGCGACGGGAGCGGGCCCCAACCATCACCATCGATACGTCGGC
TGTAACGTCCCCAACCGACCACCAAGAACCTCCACAGCAGATACTTCCTA
CCCCGTCCCATCCCTCTTTGCAAGTGTCTACCGAAAATGTTGATGCGCAT
GATATGAGCGCGCTCCTGAGCAGTGGGGGTGTCTCGCCGTCGTCAGTCCG
CTCATTTGCGTCGTCTGAGAACCGGGACTACGAGAGTCGTCCTACATCTC
CGCACAATATCTCGTCTCCCGCCTCGAAAATGACTGAGAACATGTCGAAT
TCGAATTACCTGGCTGTCCCCGGCACTAGGTCTCGCGGCAACTCGTTGGA
ATCTGAGGACTCGAATAATTCGTCGACCAGCTCGTACGGAGGAGATACAT
ATGTTCCCACAGCATCCCACGGCTCGCGCACCGATTTGACGCAGAACACG
ATAATCTCCGATGAGGATGCCCTTAAGCCGGATCCGGGGCGAGAGGCCGA
GTTTGAGGTGGAAGACAACAAATTTGCATTCGCGCCTGGCCATTTGAACA
AGCTGTTGAACCCTAAGAGCTTGGGGGCATTCCATGCTTTGGGTGGGTTG
CGTGGAATCGAAAAAGGACTTCGAACCGACACGCGCAGTGGCTTGAGTTT
GGATGAGGGAGACCTGGATGGTACTGTAAGCTTCGAGGATGCAACCAACA
CGCAAACGTCCGAATCGCTGCCAAAGACCGCTTCCTCAACGCCACCGAGC
CCTCCCAGAACCGACACGGGCTCGTCGAAACATGTCGAAAATGCCTTTGG
GGATCGAAGCCGCGTCTATGGGAGGAACAAGCTTCCTGAAAGGAAGGCTA
AGAGTTTCCTGGAGCTGGCTTGGATTGCCTACAACGACAAGGTTCTGATT
CTGCTTACGATAGCTGCGATCATATCTCTCGCCCTTGGAATCTATCAGTC
TGTGACGGCAACCGGAAAGGAAGCACGCGTGCAATGGGTAGAAGGCGTGG
CTATCATTGTCGCCATTCTAATCGTGGTCGTTGTGGGTGCTGCTAATGAC
TGGCAAAAGGAACGCCAATTCGTCAAGTTGAATAAGAAGAAAGATGATCG
ACTTGTGAAAGTAGTCCGTTCCGGGAAAACTGCAGAGATCTCTATTCACG
ACATTCTCGTGGGTGACGTTATGCATCTTGAACCCGGTGATCTCATTCCA
GTTGACGGTATCTTTATTACTGGCCACAATGTCAAATGCGACGAATCCTC
TGCGACCGGCGAGTCGGACGTCTTACGCAAGACCCCTGCTCACGATGTCT
ATCGGGCAATCGAGCAACACGAAAACATCTCGAAGCAGGACCCATTCATT
GTGTCCGGTGCCAAAGTTTCTGAAGGTGTAGGGACGTTCTTGGTCACAGC
AGTCGGTGTTAATTCAACATACGGGAAGACCATGATGTCTCTTCAAGATG
AAGGGCAGACGACCCCGCTGCAATCGAAGCTGAACGTACTCGCAGAGTAC
ATTGCGAAGCTCGGTCTTGCTTCTGGATTACTCCTGTTCGTCGTGCTTTT
CATCAAGTTCCTTGCTCAGTTGAAAGATATGGGCGGCGCATCCGAGAAAG
GACAAGCTTTCCTACAGATCTTCATTGTTGCTGTGACCGTCATTGTTGTC
GCTGTCCCAGAAGGTCTTCCTCTGGCTGTCACCCTGGCGCTCGCCTTTGC
AACGACCCGGATGCTCAAGGACAATAACCTCGTACGGCTGCTAAGAGCCT
GTGAAACTATGGGAAATGCCACGACTATCTGCTCCGACAAAACAGGTACC
CTGACGGAGAACAAAATGACTGCCGTCGCAGCTACTCTGGGAAAGAATCT
AAGATTTGGAGACAAATCCACGGAAACCTCCAGTCGTCCAGATGGCGACC
GGGGTCGTGATCCTGCGACTACTCTTTCTCCCTCCGAGTTCGCATCCAGC
CTTTCCGCTCCGGCCAAAGACCTTTTGATCAAGTCGATTGTATTGAACTC
CACGGCATTCGAAGGGGAGCAAGACGGTGTAATGACTTTTATCGGATCGA
AGACGGAGACTGCTCTCCTGGGATTCGCGCGTACATATCTCGGCCTAGGG
TCGCTTAGCGAGGCGCGGGACAATGCAAATCTTGCCCAGATGGTGCCATT
CGACTCAGGACGCAAGTGTATGGCAGTGGTCGTCAAGATGGAAAATGGTA
AATACAGAATGCTGGTCAAAGGTGCATCCGAGATCCTGGTGGCGAGATCC
ACTCGAATTGTTCACAACGCTACGCAGGACTTGGCAGAAGGGCCTATGTC
GGATCAGGACCGGTCTAACCTGGACAATTTGATCAACCGTTATGCATCTC
GTTCGTTGCGAACTATTGGTCTGGTGTACCGGGACTTCGATCAATGGCCA
CCCCGCGGAGCACCCACGCAGGAGGAGGACCGTTCGCTCGCTGTTTTCGA
TGCAGTTTTCAAGGATATGATCTTGCTAGGCGTCTTCGGTATCCAAGATC
CCTTGCGACCGGGTGTGACCGAGTCTGTCCACCAGTGTCAGCGCGCAGGT
GTCTTTGTGCGTATGGTGACTGGCGATAACATCATGACTGCTAAAGCTAT
CGCCCAAGAATGTGGCATCTTCACCCCTGGAGGTATTGCCATTGAGGGCC
CCAAGTTCCGTCAGCTGAGCAGCCGCCAAATGACGCAGATCATCCCGCGG
CTACAGGTTTTGGCCAGGTCAAGCCCCGACGACAAGAAGATCCTGGTTAA
TCAACTCAAAAAGCTGGGTGAAACGGTGGCTGTGACAGGCGACGGTACAA
ATGATGCACAAGCTCTCAAGACGGCCGATGTTGGCTTTTCCATGGGAATC
TCTGGCACTGAAGTTGCTAAAGAAGCATCCGATATCATCCTCATGGACGA
CAACTTCACCTCGATTATTAAGGCTATGGCTTGGGGTAGGACAGTCAACG
ATGCTGTCAAGAAATTCCTTCAGTTCCAACTTACTGTCAACGTTACTGCC
GTGGTCCTCACTTTCGTTTCCGCAGTAGCAAGTGGAGATGAGGAATCTGT
CCTGACAGCAGTTCAGCTTCTTTGGGTCAACCTTATCATGGACACCTTTG
CGGCCCTTGCCTTGGCTACGGATCCTCCCTCGCCTCATGTTCTCGACCGT
CGACCTGACCCTAAATCGGCGCCCCTGATCAATCTGACTATGTGGAAGAT
GATTATCGGACAAAGCATCTACCAGTTAGTCGTCACGCTGGTTCTGAACT
TCGCAGGGAAATCGATCTTTCACTACAAAACGGCAGACGACCTCGATCGG
CTTGAGACCATGGTGTTCAATACGTTTGTGTGGATGCAGATCTTCAACCA
GTGGAATTGTCGCAGACTCGATAACAACTTCAATATCTTTGAGGGCATGT
GGCGAAACTTCTGGTTCATGGGGATTCAGTTGATCATCATTGGAGGTCAA
ATTCTCATCATCTTCGTTGGTGGACAGGCTTTCTCTGTCAAGCGACTCGA
TGGAGCTCAGTGGGGTGTTTCACTGGTTCTGGGCGTGATCTCTCTGCCGG
TAGGCGTGATCATTCGTTTGATACCTGATGAGTTTATTAGCAGACTCATT
CCTCGGTTCTGGCAGCGCAAGAAGGGCCCCGAACTTCTGGTGTCCGACGA
GGACCGGCGGTTTGAGTGGAACCCTGCGCTCGAGGAGATCCGTGATCAGT
TGAAGTTCCTCAAGACGGTCCGCGGAGGTCGGCTGAGGCACCTCAAGCAC
AAGTTGCAACATCCAGAAGAACTCCTCCCAAGATCACGAAGCGGGTCACG
GTCCAGAGAAAACTCGATTCCCGGTACTCCTGTTGGCGAACACAGCGACA
GTACCCCGACGCAGCCACCGACTCCTGATTCGCGGTCTAGACGTCGCACT
CGGTCCCGCTCGAATTCAGCATTCGGGCCTGCTGCTGCTATGGCCGGTGT
GGTTGCGGGTAGTATTGCAGGCTGGTCTCCAATCGAGCGGGCACCAGGCG
ACGGAGAAGCTTTCAAGGTTCAGACGGACAGCCCTCATGGGGGTCTGGAT
AAGCAGAAGGGCATTGAAATCCACCCCGATACTGCCGCTGATGACCGTAT
TCTGGGCGATTACCAGACCACTTCAAAGACTCCTCCCAGCCAAAACCCAG
GGCTCCTCCCGTTCTTTGAATACGCACCGCCTGAGCGTGCTCCCTCCCAT
CGGAGCCAGAGATCCACTTCTCGCTTGTCGCGATCCAGCCAAAGCCAGGC
GTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0070588 | calcium ion transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0000166 | nucleotide binding |
| GO:0005524 | ATP binding |
| GO:0005388 | calcium transmembrane transporter activity, phosphorylative mechanism |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_103950-T1 | ATCC64974_103950-T1-protein | Aspergillus niger N402 | polypeptide |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR008250 |
| DBxref | InterPro:IPR023298 |
| DBxref | InterPro:IPR036412 |
| DBxref | InterPro:IPR018303 |
| DBxref | InterPro:IPR004014 |
| DBxref | InterPro:IPR023299 |
| DBxref | InterPro:IPR023214 |
| DBxref | InterPro:IPR001757 |
| DBxref | InterPro:IPR006408 |
| DBxref | InterPro:IPR006068 |
| DBxref | PFAM:PF00702 |
| DBxref | PFAM:PF00122 |
| DBxref | PFAM:PF00690 |
| DBxref | PFAM:PF00689 |
| DBxref | PFAM:PF13246 |
| 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 |
|---|
| OGUI01000017.1 | supercontig | OGUI01000017.1:2597672..2602028 + |
|
