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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000162:33561..36944- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_005790-T1 ID=ATCC10864_005790-T1|Name=ATCC10864_005790-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=3384bp|location=Sequence derived from alignment at MCQH01000162:33561..36944- (Aspergillus niger ATCC 10864)
ATGTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGA
CGACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAAGATACTAAGG
TTTGTTGTGAAAGTGGGTGGCAAAGTGAACTATTTCACTGATACATAATA
AAGCAGGCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGACGA
GGAGGAAGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAG
ACAACGCCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGACGAC
GAAGAGGAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGAGGA
GGATGATGACGAGGATGCCAATGCTGTGAGTATAGGTTTTGGTCCTAAGT
TTGGAAAGGTCACCGGCTGATCATGGTTTCGTTTGTAGGGACGGCCACGG
AAGCGCAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGG
TGTCGACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGAACTGGCGG
AATTCGGTGGAGAGATGCACCCGGATGATATGGACGCCCTGCCTGTCGGT
GCTGAAACGGACGACCGCCGACACAGACAGCTTGATCGTCAGCGTGAACT
GGCAGCCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAAGGAGCGCT
ATGGACGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTCCAAAGCGA
CTGCTTCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTTCGCTGCAA
GGCCGGTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCGTATTGAAG
AGCGACCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGGCTTTCGAA
CGTGGGGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGCAGGCAGGC
CGATGTCATGGATGCACTACAGGACATGACCAATGTGTATCCGAGGACGA
AGATGATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTCGAGTACAG
AAGTCCGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAA
ATACCAGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAACGGCTTGG
CAGTGACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGAACGAAGAT
ATCGGTGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGCATGAACCC
AGCAGTGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGA
AGAAGCATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCG
TGGAACTATCTCGGCGAGACATATGTGGATGGCTTCTTGATCAAGGACTT
GAAGGTTCAACATCTTATCACGAAGAATGTCAACCCTCGACTCGAGGAAG
TCACCATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACTTGGATCTG
GCTTCCTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGACTCCTACCT
GCCCGGTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGCTTAATCG
GTCGCACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGGTTACGGAG
GGCGATCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCCCTTCGCAA
GCGCTTCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAGCAGATACC
AGGATGAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAGTGACATTG
CTTAGCGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAAGATCTCCG
ACTATCTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTTCGACGTTC
ACGACTTGGTGCAATTAGAGTAAGTTCCCTTCTCCGGCTGCCATGGACAC
TAGGATCTAATTCATGCAGTGCTGCCACCGTTGCTTGTATCGTCAAGGTT
GACCGGGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCCGGACGAT
TCTTCCCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGATGCTGTGG
CTACGGATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGTTCGCGAG
GTCTACGGCGAACAGAGAAACGGCGTGATTATCCACATTCACCGTTCATT
CCTGTTCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATCGTGGTTG
TCCGCACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAGATCCACC
GGACCTGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACGGTGTGCC
TGGTGGTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGACAGAATGA
TCGGTAAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGT
ATCGTCAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGCATTCTAA
AAACAAGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAGGACCCTG
TCACAGGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACCGCGCGTG
CCGCATGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTAC
CCCAATGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCT
CATCATCAAGAAGTAAGCATCTCCTTCTATGCCAACACTCGGTTCATCAT
GCTAACCCTTTCTACAGCACCCGCCTGGGCCGGCATGGGCGGTTCCCGCA
CCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATGGC
AGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAATGC
CGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGCCT
TCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTAAC
CGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGACCG
TGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGGCG
CCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAGCT
TGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCCGG
CGACGCATCAAAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGACA
ACGCTGGCGGTAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCGGC
TCTGCCGCGACACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGCGG
TCCGCGATATGAAGAGGGGACACCCAGTCCTTGA back to topCoding sequence (CDS) from alignment at MCQH01000162:33561..36944- >ATCC10864_005790-T1 ID=ATCC10864_005790-T1|Name=ATCC10864_005790-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=15795bp|location=Sequence derived from alignment at MCQH01000162:33561..36944- (Aspergillus niger ATCC 10864)
CACCCGCCTGGGCCGGCATGGGCGGTTCCCGCACCCCAGCCTGGAAGCAA
GACGGCTCCCGAACCTCCAATCCCTACGATGGCAGCCAAACCGCCTACGG
AGGCTTCGGCTCACGTACACCCGCCTGGAATGCCGGAGCCCGCACTCCCT
ACGTTGGCTCTGGCAACAGTGACTTCGACGCCTTCGCCGCTGGCTCCCGA
ACCCCCGCATGGGGCTCCTCGAACGCCGGTAACCGCACTCCCGCCTGGGC
CGGAGCCAGCGCCAGCAACGGCACCAAGGACCGTGGCTACGATGCTCCAA
CTCCTGGAGGCTATTCTGCTCCTACCCCCGGCGCCTACGGAAGCGCACCC
ACCCCTGGTGTTTCCGCACCCACGCCCGGAGCTTGGGCAGATAGTGCCCC
GACCCCGGGTGCCTTCAACGCGCCCACCCCCGGCGACGCATCAAAGCGAC
CCTACGACGCACCTACGCCAGCGGCTTTCGACAACGCTGGCGGTAGTCGT
CCATATGATGCTCCCACACCAGCTCTGGGCGGCTCTGCCGCGACACCAGG
CGCAGGTGCATACGGAGATGGTGACGATGGCGGTCCGCGATATGAAGAGG
GGACACCCAGTCCTTGATGCTGCCACCGTTGCTTGTATCGTCAAGGTTGA
CCGGGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCCGGACGATTC
TTCCCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGATGCTGTGGCT
ACGGATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGTTCGCGAGGT
CTACGGCGAACAGAGAAACGGCGTGATTATCCACATTCACCGTTCATTCC
TGTTCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATCGTGGTTGTC
CGCACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAGATCCACCGG
ACCTGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACGGTGTGCCTG
GTGGTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGACAGAATGATC
GGTAAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGTAT
CGTCAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGCATTCTAAAA
ACAAGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAGGACCCTGTC
ACAGGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACCGCGCGTGCC
GCATGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTACCC
CAATGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCTCA
TCATCAAGAAGGACGGCCACGGAAGCGCAGACGCAAAGCCGGTGTGCACT
CGTTCTTCGAAGAAGAAGCCGGTGTCGACGAGGATGAGGATGAGGCTGAA
GATGACGAGGACGAACTGGCGGAATTCGGTGGAGAGATGCACCCGGATGA
TATGGACGCCCTGCCTGTCGGTGCTGAAACGGACGACCGCCGACACAGAC
AGCTTGATCGTCAGCGTGAACTGGCAGCCAGCATGGATGCGGAGAAACAG
GCACAGATGCTCAAGGAGCGCTATGGACGGAACCGCGCTGCGGCTACTGA
CGCAGTGGTTGTTCCAAAGCGACTGCTTCTTCCTAGTGTGGACGACCCTA
GCATCTGGGGTGTTCGCTGCAAGGCCGGTAAGGAACGTGAAGTCGTATTC
TCAATCCAGAAGCGTATTGAAGAGCGACCTCCGGGATCTCGAAACCCCAT
TAAGATCATGTCGGCTTTCGAACGTGGGGGTGCTATGGCCGGTTATATCT
ATGTTGAGGCGCGCAGGCAGGCCGATGTCATGGATGCACTACAGGACATG
ACCAATGTGTATCCGAGGACGAAGATGATCTTGGTCCCAGTGAGAGAGAT
GCCCGACCTCCTTCGAGTACAGAAGTCCGAAGAGCTCATGCCTGGTGGCT
GGGTTCGTATCAAGCGTGGTAAATACCAGGGCGATCTGGCACAGATTGAG
GAAGTCGAAACAAACGGCTTGGCAGTGACAGTGAGACTGATTCCGCGTTT
GGATTACGGAATGAACGAAGATATCGGTGCCCCTATTTCCGATCCGAAGA
GGAAGCGCCCTGGCATGAACCCAGCAGTGGCACGGCCTCCCCAGCGTGCG
TTCAGTGAAGCTGAGGCCAAGAAGAAGCATGCAAAGTACTTGTCTGCCAC
GTCTGGTTTGGGTGGAAAGTCGTGGAACTATCTCGGCGAGACATATGTGG
ATGGCTTCTTGATCAAGGACTTGAAGGTTCAACATCTTATCACGAAGAAT
GTCAACCCTCGACTCGAGGAAGTCACCATGTTTGCTCGCGGCTCCGAGGA
TGGCACCTCGAACTTGGATCTGGCTTCCTTGGCTGAGACGCTGAAGAATT
CTGCTGCTGAAGACTCCTACCTGCCCGGTGACCCGGTGGAAGTGTTCCGA
GGTGAACAGCAGGGCTTAATCGGTCGCACAAGTTCTACTCGAGGAGACAT
CGTGACTCTGCTGGTTACGGAGGGCGATCTGGCTGGGCAGACAATCGATG
CGCCTGTCAAGTCCCTTCGCAAGCGCTTCAGAGAGGGTGACCATGTCAAG
GTTATTGGCGGCAGCAGATACCAGGATGAGCTGGGTATGGTGGTACAGGT
CAAGGACGACACAGTGACATTGCTTAGCGACATGAGCATGCAGGAAATCA
CAGTCTTCAGCAAAGATCTCCGACTATCTGCTGAGACTGGTGTAGATGGA
AAGCTGGGCATGTTCGACGTTCACGACTTGGTGCAATTAGAGCTGCGCGT
CGCGCTCCAGACGATGACGACGATGACGATGACGAGGAGGAAGTGAACAC
TGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAGACAACGCCGGAAGGG
GCGCTGATGACGATGAGGAGGGCGAGAATGACGACGAAGAGGAGGAAGGG
GATGAAGAGGATGAAGACGAAGAGGAAGAGGAGGAGGATGATGACGAGGA
TGCCAATGCTATGTCTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAG
AGGAGGACGACGACTTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAA
GATACTAAGCACCCGCCTGGGCCGGCATGGGCGGTTCCCGCACCCCAGCC
TGGAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATGGCAGCCAAAC
CGCCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAATGCCGGAGCCC
GCACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGCCTTCGCCGCT
GGCTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTAACCGCACTCC
CGCCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGACCGTGGCTACG
ATGCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGGCGCCTACGGA
AGCGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAGCTTGGGCAGA
TAGTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCCGGCGACGCAT
CAAAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGACAACGCTGGC
GGTAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCGGCTCTGCCGC
GACACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGCGGTCCGCGAT
ATGAAGAGGGGACACCCAGTCCTTGATGCTGCCACCGTTGCTTGTATCGT
CAAGGTTGACCGGGAGTCCCTGCGAGTACTGGACCAAAACGGCTCTATCC
GGACGATTCTTCCCACACAAGTCGCGAATAAGATCACTCCCCGCAAAGAT
GCTGTGGCTACGGATCGCAATGGCGCAGAGATTCGCCATGGAGATACGGT
TCGCGAGGTCTACGGCGAACAGAGAAACGGCGTGATTATCCACATTCACC
GTTCATTCCTGTTCTTGCATAACAAAGCACAAGCCGAGAACTCTGGTATC
GTGGTTGTCCGCACCACCAACGTTGTTACCGTCTCAGCCAAGGGCGGCAG
ATCCACCGGACCTGATCTCACAAAGATGAACCCGGCTTTGATGAGGAACG
GTGTGCCTGGTGGTATGATGGGCCCTCCCCAAAAGAGCTTCGGCCGTGAC
AGAATGATCGGTAAGACTGTCATGGTTCGCAAAGGACCGTTCAAGGGTCT
TGTTGGTATCGTCAAGGACTCTACAGATATGCAGGCTCGTGTGGAGCTGC
ATTCTAAAAACAAGTTGATCTCCATACCCAAGGACATCCTCGTCGTCAAG
GACCCTGTCACAGGACAGACGATAGACATGGGTCGTGGCCGGGGAGGACC
GCGCGTGCCGCATGGAGGATCTGGAGGGCCTCCCTCTGCCTGGCAAGGCG
GCCGTACCCCAATGGGAGCTGGAGATTCGTCCCGGACGCCAGCCTGGGGC
GGTCCCTCATCATCAAGAAGGACGGCCACGGAAGCGCAGACGCAAAGCCG
GTGTGCACTCGTTCTTCGAAGAAGAAGCCGGTGTCGACGAGGATGAGGAT
GAGGCTGAAGATGACGAGGACGAACTGGCGGAATTCGGTGGAGAGATGCA
CCCGGATGATATGGACGCCCTGCCTGTCGGTGCTGAAACGGACGACCGCC
GACACAGACAGCTTGATCGTCAGCGTGAACTGGCAGCCAGCATGGATGCG
GAGAAACAGGCACAGATGCTCAAGGAGCGCTATGGACGGAACCGCGCTGC
GGCTACTGACGCAGTGGTTGTTCCAAAGCGACTGCTTCTTCCTAGTGTGG
ACGACCCTAGCATCTGGGGTGTTCGCTGCAAGGCCGGTAAGGAACGTGAA
GTCGTATTCTCAATCCAGAAGCGTATTGAAGAGCGACCTCCGGGATCTCG
AAACCCCATTAAGATCATGTCGGCTTTCGAACGTGGGGGTGCTATGGCCG
GTTATATCTATGTTGAGGCGCGCAGGCAGGCCGATGTCATGGATGCACTA
CAGGACATGACCAATGTGTATCCGAGGACGAAGATGATCTTGGTCCCAGT
GAGAGAGATGCCCGACCTCCTTCGAGTACAGAAGTCCGAAGAGCTCATGC
CTGGTGGCTGGGTTCGTATCAAGCGTGGTAAATACCAGGGCGATCTGGCA
CAGATTGAGGAAGTCGAAACAAACGGCTTGGCAGTGACAGTGAGACTGAT
TCCGCGTTTGGATTACGGAATGAACGAAGATATCGGTGCCCCTATTTCCG
ATCCGAAGAGGAAGCGCCCTGGCATGAACCCAGCAGTGGCACGGCCTCCC
CAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAAGAAGCATGCAAAGTACTT
GTCTGCCACGTCTGGTTTGGGTGGAAAGTCGTGGAACTATCTCGGCGAGA
CATATGTGGATGGCTTCTTGATCAAGGACTTGAAGGTTCAACATCTTATC
ACGAAGAATGTCAACCCTCGACTCGAGGAAGTCACCATGTTTGCTCGCGG
CTCCGAGGATGGCACCTCGAACTTGGATCTGGCTTCCTTGGCTGAGACGC
TGAAGAATTCTGCTGCTGAAGACTCCTACCTGCCCGGTGACCCGGTGGAA
GTGTTCCGAGGTGAACAGCAGGGCTTAATCGGTCGCACAAGTTCTACTCG
AGGAGACATCGTGACTCTGCTGGTTACGGAGGGCGATCTGGCTGGGCAGA
CAATCGATGCGCCTGTCAAGTCCCTTCGCAAGCGCTTCAGAGAGGGTGAC
CATGTCAAGGTTATTGGCGGCAGCAGATACCAGGATGAGCTGGGTATGGT
GGTACAGGTCAAGGACGACACAGTGACATTGCTTAGCGACATGAGCATGC
AGGAAATCACAGTCTTCAGCAAAGATCTCCGACTATCTGCTGAGACTGGT
GTAGATGGAAAGCTGGGCATGTTCGACGTTCACGACTTGGTGCAATTAGA
GCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGACGAGGAGGA
AGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTGAAGACAACG
CCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGACGACGAAGAG
GAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGAGGAGGATGA
TGACGAGGATGCCAATGCTATGTCTCGAAACGTGCTAGACCAAGACTTCG
GGTCTGAAGAGGAGGACGACGACTTCAACCCCGCTCCTGCGGATGACTCC
GGGGATGAAGATACTAAGCACCCGCCTGGGCCGGCATGGGCGGTTCCCGC
ACCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCAATCCCTACGATGG
CAGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACACCCGCCTGGAATG
CCGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAGTGACTTCGACGCC
TTCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCTCGAACGCCGGTAA
CCGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAACGGCACCAAGGACC
GTGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGCTCCTACCCCCGGC
GCCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCACCCACGCCCGGAGC
TTGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAACGCGCCCACCCCCG
GCGACGCATCAAAGCGACCCTACGACGCACCTACGCCAGCGGCTTTCGAC
AACGCTGGCGGTAGTCGTCCATATGATGCTCCCACACCAGCTCTGGGCGG
CTCTGCCGCGACACCAGGCGCAGGTGCATACGGAGATGGTGACGATGGCG
GTCCGCGATATGAAGAGGGGACACCCAGTCCTTGATGCTGCCACCGTTGC
TTGTATCGTCAAGGTTGACCGGGAGTCCCTGCGAGTACTGGACCAAAACG
GCTCTATCCGGACGATTCTTCCCACACAAGTCGCGAATAAGATCACTCCC
CGCAAAGATGCTGTGGCTACGGATCGCAATGGCGCAGAGATTCGCCATGG
AGATACGGTTCGCGAGGTCTACGGCGAACAGAGAAACGGCGTGATTATCC
ACATTCACCGTTCATTCCTGTTCTTGCATAACAAAGCACAAGCCGAGAAC
TCTGGTATCGTGGTTGTCCGCACCACCAACGTTGTTACCGTCTCAGCCAA
GGGCGGCAGATCCACCGGACCTGATCTCACAAAGATGAACCCGGCTTTGA
TGAGGAACGGTGTGCCTGGTGGTATGATGGGCCCTCCCCAAAAGAGCTTC
GGCCGTGACAGAATGATCGGTAAGACTGTCATGGTTCGCAAAGGACCGTT
CAAGGGTCTTGTTGGTATCGTCAAGGACTCTACAGATATGCAGGCTCGTG
TGGAGCTGCATTCTAAAAACAAGTTGATCTCCATACCCAAGGACATCCTC
GTCGTCAAGGACCCTGTCACAGGACAGACGATAGACATGGGTCGTGGCCG
GGGAGGACCGCGCGTGCCGCATGGAGGATCTGGAGGGCCTCCCTCTGCCT
GGCAAGGCGGCCGTACCCCAATGGGAGCTGGAGATTCGTCCCGGACGCCA
GCCTGGGGCGGTCCCTCATCATCAAGAAGGACGGCCACGGAAGCGCAGAC
GCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGGTGTCGACGAG
GATGAGGATGAGGCTGAAGATGACGAGGACGAACTGGCGGAATTCGGTGG
AGAGATGCACCCGGATGATATGGACGCCCTGCCTGTCGGTGCTGAAACGG
ACGACCGCCGACACAGACAGCTTGATCGTCAGCGTGAACTGGCAGCCAGC
ATGGATGCGGAGAAACAGGCACAGATGCTCAAGGAGCGCTATGGACGGAA
CCGCGCTGCGGCTACTGACGCAGTGGTTGTTCCAAAGCGACTGCTTCTTC
CTAGTGTGGACGACCCTAGCATCTGGGGTGTTCGCTGCAAGGCCGGTAAG
GAACGTGAAGTCGTATTCTCAATCCAGAAGCGTATTGAAGAGCGACCTCC
GGGATCTCGAAACCCCATTAAGATCATGTCGGCTTTCGAACGTGGGGGTG
CTATGGCCGGTTATATCTATGTTGAGGCGCGCAGGCAGGCCGATGTCATG
GATGCACTACAGGACATGACCAATGTGTATCCGAGGACGAAGATGATCTT
GGTCCCAGTGAGAGAGATGCCCGACCTCCTTCGAGTACAGAAGTCCGAAG
AGCTCATGCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAAATACCAGGGC
GATCTGGCACAGATTGAGGAAGTCGAAACAAACGGCTTGGCAGTGACAGT
GAGACTGATTCCGCGTTTGGATTACGGAATGAACGAAGATATCGGTGCCC
CTATTTCCGATCCGAAGAGGAAGCGCCCTGGCATGAACCCAGCAGTGGCA
CGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAAGAAGCATGC
AAAGTACTTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCGTGGAACTATC
TCGGCGAGACATATGTGGATGGCTTCTTGATCAAGGACTTGAAGGTTCAA
CATCTTATCACGAAGAATGTCAACCCTCGACTCGAGGAAGTCACCATGTT
TGCTCGCGGCTCCGAGGATGGCACCTCGAACTTGGATCTGGCTTCCTTGG
CTGAGACGCTGAAGAATTCTGCTGCTGAAGACTCCTACCTGCCCGGTGAC
CCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGCTTAATCGGTCGCACAAG
TTCTACTCGAGGAGACATCGTGACTCTGCTGGTTACGGAGGGCGATCTGG
CTGGGCAGACAATCGATGCGCCTGTCAAGTCCCTTCGCAAGCGCTTCAGA
GAGGGTGACCATGTCAAGGTTATTGGCGGCAGCAGATACCAGGATGAGCT
GGGTATGGTGGTACAGGTCAAGGACGACACAGTGACATTGCTTAGCGACA
TGAGCATGCAGGAAATCACAGTCTTCAGCAAAGATCTCCGACTATCTGCT
GAGACTGGTGTAGATGGAAAGCTGGGCATGTTCGACGTTCACGACTTGGT
GCAATTAGAGCTGCGCGTCGCGCTCCAGACGATGACGACGATGACGATGA
CGAGGAGGAAGTGAACACTGGGCGGAGTGGAAGGCAACGTGCTGGCAGTG
AAGACAACGCCGGAAGGGGCGCTGATGACGATGAGGAGGGCGAGAATGAC
GACGAAGAGGAGGAAGGGGATGAAGAGGATGAAGACGAAGAGGAAGAGGA
GGAGGATGATGACGAGGATGCCAATGCTATGTCTCGAAACGTGCTAGACC
AAGACTTCGGGTCTGAAGAGGAGGACGACGACTTCAACCCCGCTCCTGCG
GATGACTCCGGGGATGAAGATACTAAGCACCCGCCTGGGCCGGCATGGGC
GGTTCCCGCACCCCAGCCTGGAAGCAAGACGGCTCCCGAACCTCCAATCC
CTACGATGGCAGCCAAACCGCCTACGGAGGCTTCGGCTCACGTACACCCG
CCTGGAATGCCGGAGCCCGCACTCCCTACGTTGGCTCTGGCAACAGTGAC
TTCGACGCCTTCGCCGCTGGCTCCCGAACCCCCGCATGGGGCTCCTCGAA
CGCCGGTAACCGCACTCCCGCCTGGGCCGGAGCCAGCGCCAGCAACGGCA
CCAAGGACCGTGGCTACGATGCTCCAACTCCTGGAGGCTATTCTGCTCCT
ACCCCCGGCGCCTACGGAAGCGCACCCACCCCTGGTGTTTCCGCACCCAC
GCCCGGAGCTTGGGCAGATAGTGCCCCGACCCCGGGTGCCTTCAACGCGC
CCACCCCCGGCGACGCATCAAAGCGACCCTACGACGCACCTACGCCAGCG
GCTTTCGACAACGCTGGCGGTAGTCGTCCATATGATGCTCCCACACCAGC
TCTGGGCGGCTCTGCCGCGACACCAGGCGCAGGTGCATACGGAGATGGTG
ACGATGGCGGTCCGCGATATGAAGAGGGGACACCCAGTCCTTGATGCTGC
CACCGTTGCTTGTATCGTCAAGGTTGACCGGGAGTCCCTGCGAGTACTGG
ACCAAAACGGCTCTATCCGGACGATTCTTCCCACACAAGTCGCGAATAAG
ATCACTCCCCGCAAAGATGCTGTGGCTACGGATCGCAATGGCGCAGAGAT
TCGCCATGGAGATACGGTTCGCGAGGTCTACGGCGAACAGAGAAACGGCG
TGATTATCCACATTCACCGTTCATTCCTGTTCTTGCATAACAAAGCACAA
GCCGAGAACTCTGGTATCGTGGTTGTCCGCACCACCAACGTTGTTACCGT
CTCAGCCAAGGGCGGCAGATCCACCGGACCTGATCTCACAAAGATGAACC
CGGCTTTGATGAGGAACGGTGTGCCTGGTGGTATGATGGGCCCTCCCCAA
AAGAGCTTCGGCCGTGACAGAATGATCGGTAAGACTGTCATGGTTCGCAA
AGGACCGTTCAAGGGTCTTGTTGGTATCGTCAAGGACTCTACAGATATGC
AGGCTCGTGTGGAGCTGCATTCTAAAAACAAGTTGATCTCCATACCCAAG
GACATCCTCGTCGTCAAGGACCCTGTCACAGGACAGACGATAGACATGGG
TCGTGGCCGGGGAGGACCGCGCGTGCCGCATGGAGGATCTGGAGGGCCTC
CCTCTGCCTGGCAAGGCGGCCGTACCCCAATGGGAGCTGGAGATTCGTCC
CGGACGCCAGCCTGGGGCGGTCCCTCATCATCAAGAAGGACGGCCACGGA
AGCGCAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAAGAAGCCGGT
GTCGACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGAACTGGCGGA
ATTCGGTGGAGAGATGCACCCGGATGATATGGACGCCCTGCCTGTCGGTG
CTGAAACGGACGACCGCCGACACAGACAGCTTGATCGTCAGCGTGAACTG
GCAGCCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAAGGAGCGCTA
TGGACGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTCCAAAGCGAC
TGCTTCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTTCGCTGCAAG
GCCGGTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCGTATTGAAGA
GCGACCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGGCTTTCGAAC
GTGGGGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGCAGGCAGGCC
GATGTCATGGATGCACTACAGGACATGACCAATGTGTATCCGAGGACGAA
GATGATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTCGAGTACAGA
AGTCCGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAGCGTGGTAAA
TACCAGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAACGGCTTGGC
AGTGACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGAACGAAGATA
TCGGTGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGCATGAACCCA
GCAGTGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGAGGCCAAGAA
GAAGCATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTGGAAAGTCGT
GGAACTATCTCGGCGAGACATATGTGGATGGCTTCTTGATCAAGGACTTG
AAGGTTCAACATCTTATCACGAAGAATGTCAACCCTCGACTCGAGGAAGT
CACCATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACTTGGATCTGG
CTTCCTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGACTCCTACCTG
CCCGGTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGGCTTAATCGG
TCGCACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGGTTACGGAGG
GCGATCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCCCTTCGCAAG
CGCTTCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAGCAGATACCA
GGATGAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAGTGACATTGC
TTAGCGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAAGATCTCCGA
CTATCTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTTCGACGTTCA
CGACTTGGTGCAATTAGAGCTGCGCGTCGCGCTCCAGACGATGACGACGA
TGACGATGACGAGGAGGAAGTGAACACTGGGCGGAGTGGAAGGCAACGTG
CTGGCAGTGAAGACAACGCCGGAAGGGGCGCTGATGACGATGAGGAGGGC
GAGAATGACGACGAAGAGGAGGAAGGGGATGAAGAGGATGAAGACGAAGA
GGAAGAGGAGGAGGATGATGACGAGGATGCCAATGCTATGTCTCGAAACG
TGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGACGACTTCAACCCC
GCTCCTGCGGATGACTCCGGGGATGAAGATACTAAGCACCCGCCTGGGCC
GGCATGGGCGGTTCCCGCACCCCAGCCTGGAAGCAAGACGGCTCCCGAAC
CTCCAATCCCTACGATGGCAGCCAAACCGCCTACGGAGGCTTCGGCTCAC
GTACACCCGCCTGGAATGCCGGAGCCCGCACTCCCTACGTTGGCTCTGGC
AACAGTGACTTCGACGCCTTCGCCGCTGGCTCCCGAACCCCCGCATGGGG
CTCCTCGAACGCCGGTAACCGCACTCCCGCCTGGGCCGGAGCCAGCGCCA
GCAACGGCACCAAGGACCGTGGCTACGATGCTCCAACTCCTGGAGGCTAT
TCTGCTCCTACCCCCGGCGCCTACGGAAGCGCACCCACCCCTGGTGTTTC
CGCACCCACGCCCGGAGCTTGGGCAGATAGTGCCCCGACCCCGGGTGCCT
TCAACGCGCCCACCCCCGGCGACGCATCAAAGCGACCCTACGACGCACCT
ACGCCAGCGGCTTTCGACAACGCTGGCGGTAGTCGTCCATATGATGCTCC
CACACCAGCTCTGGGCGGCTCTGCCGCGACACCAGGCGCAGGTGCATACG
GAGATGGTGACGATGGCGGTCCGCGATATGAAGAGGGGACACCCAGTCCT
TGATGCTGCCACCGTTGCTTGTATCGTCAAGGTTGACCGGGAGTCCCTGC
GAGTACTGGACCAAAACGGCTCTATCCGGACGATTCTTCCCACACAAGTC
GCGAATAAGATCACTCCCCGCAAAGATGCTGTGGCTACGGATCGCAATGG
CGCAGAGATTCGCCATGGAGATACGGTTCGCGAGGTCTACGGCGAACAGA
GAAACGGCGTGATTATCCACATTCACCGTTCATTCCTGTTCTTGCATAAC
AAAGCACAAGCCGAGAACTCTGGTATCGTGGTTGTCCGCACCACCAACGT
TGTTACCGTCTCAGCCAAGGGCGGCAGATCCACCGGACCTGATCTCACAA
AGATGAACCCGGCTTTGATGAGGAACGGTGTGCCTGGTGGTATGATGGGC
CCTCCCCAAAAGAGCTTCGGCCGTGACAGAATGATCGGTAAGACTGTCAT
GGTTCGCAAAGGACCGTTCAAGGGTCTTGTTGGTATCGTCAAGGACTCTA
CAGATATGCAGGCTCGTGTGGAGCTGCATTCTAAAAACAAGTTGATCTCC
ATACCCAAGGACATCCTCGTCGTCAAGGACCCTGTCACAGGACAGACGAT
AGACATGGGTCGTGGCCGGGGAGGACCGCGCGTGCCGCATGGAGGATCTG
GAGGGCCTCCCTCTGCCTGGCAAGGCGGCCGTACCCCAATGGGAGCTGGA
GATTCGTCCCGGACGCCAGCCTGGGGCGGTCCCTCATCATCAAGAAGGAC
GGCCACGGAAGCGCAGACGCAAAGCCGGTGTGCACTCGTTCTTCGAAGAA
GAAGCCGGTGTCGACGAGGATGAGGATGAGGCTGAAGATGACGAGGACGA
ACTGGCGGAATTCGGTGGAGAGATGCACCCGGATGATATGGACGCCCTGC
CTGTCGGTGCTGAAACGGACGACCGCCGACACAGACAGCTTGATCGTCAG
CGTGAACTGGCAGCCAGCATGGATGCGGAGAAACAGGCACAGATGCTCAA
GGAGCGCTATGGACGGAACCGCGCTGCGGCTACTGACGCAGTGGTTGTTC
CAAAGCGACTGCTTCTTCCTAGTGTGGACGACCCTAGCATCTGGGGTGTT
CGCTGCAAGGCCGGTAAGGAACGTGAAGTCGTATTCTCAATCCAGAAGCG
TATTGAAGAGCGACCTCCGGGATCTCGAAACCCCATTAAGATCATGTCGG
CTTTCGAACGTGGGGGTGCTATGGCCGGTTATATCTATGTTGAGGCGCGC
AGGCAGGCCGATGTCATGGATGCACTACAGGACATGACCAATGTGTATCC
GAGGACGAAGATGATCTTGGTCCCAGTGAGAGAGATGCCCGACCTCCTTC
GAGTACAGAAGTCCGAAGAGCTCATGCCTGGTGGCTGGGTTCGTATCAAG
CGTGGTAAATACCAGGGCGATCTGGCACAGATTGAGGAAGTCGAAACAAA
CGGCTTGGCAGTGACAGTGAGACTGATTCCGCGTTTGGATTACGGAATGA
ACGAAGATATCGGTGCCCCTATTTCCGATCCGAAGAGGAAGCGCCCTGGC
ATGAACCCAGCAGTGGCACGGCCTCCCCAGCGTGCGTTCAGTGAAGCTGA
GGCCAAGAAGAAGCATGCAAAGTACTTGTCTGCCACGTCTGGTTTGGGTG
GAAAGTCGTGGAACTATCTCGGCGAGACATATGTGGATGGCTTCTTGATC
AAGGACTTGAAGGTTCAACATCTTATCACGAAGAATGTCAACCCTCGACT
CGAGGAAGTCACCATGTTTGCTCGCGGCTCCGAGGATGGCACCTCGAACT
TGGATCTGGCTTCCTTGGCTGAGACGCTGAAGAATTCTGCTGCTGAAGAC
TCCTACCTGCCCGGTGACCCGGTGGAAGTGTTCCGAGGTGAACAGCAGGG
CTTAATCGGTCGCACAAGTTCTACTCGAGGAGACATCGTGACTCTGCTGG
TTACGGAGGGCGATCTGGCTGGGCAGACAATCGATGCGCCTGTCAAGTCC
CTTCGCAAGCGCTTCAGAGAGGGTGACCATGTCAAGGTTATTGGCGGCAG
CAGATACCAGGATGAGCTGGGTATGGTGGTACAGGTCAAGGACGACACAG
TGACATTGCTTAGCGACATGAGCATGCAGGAAATCACAGTCTTCAGCAAA
GATCTCCGACTATCTGCTGAGACTGGTGTAGATGGAAAGCTGGGCATGTT
CGACGTTCACGACTTGGTGCAATTAGAGCTGCGCGTCGCGCTCCAGACGA
TGACGACGATGACGATGACGAGGAGGAAGTGAACACTGGGCGGAGTGGAA
GGCAACGTGCTGGCAGTGAAGACAACGCCGGAAGGGGCGCTGATGACGAT
GAGGAGGGCGAGAATGACGACGAAGAGGAGGAAGGGGATGAAGAGGATGA
AGACGAAGAGGAAGAGGAGGAGGATGATGACGAGGATGCCAATGCTATGT
CTCGAAACGTGCTAGACCAAGACTTCGGGTCTGAAGAGGAGGACGACGAC
TTCAACCCCGCTCCTGCGGATGACTCCGGGGATGAAGATACTAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0032784 | regulation of DNA-templated transcription, elongation |
| GO:0006357 | regulation of transcription by RNA polymerase II |
| GO:0006355 | regulation of transcription, DNA-templated |
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 | IPR039385 |
| InterPro | IPR005100 |
| InterPro | IPR041978 |
| InterPro | IPR017071 |
| InterPro | IPR006645 |
| InterPro | IPR036735 |
| InterPro | IPR041973 |
| InterPro | IPR005824 |
| InterPro | IPR008991 |
| InterPro | IPR041977 |
| InterPro | IPR014722 |
| InterPro | IPR024945 |
| InterPro | IPR041976 |
| InterPro | IPR041975 |
| PFAM | PF12815 |
| InterPro | IPR039659 |
| PFAM | PF11942 |
| PFAM | PF03439 |
| InterPro | IPR022581 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260NXC |
| Product | transcription elongation factor spt5 |
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 |
|---|
| MCQH01000162 | supercontig | MCQH01000162:33561..36944 - |
|
