|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000004.1:2202104..2206461- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_118881-T1 ID=ASPNIDRAFT_118881-T1|Name=ASPNIDRAFT_118881-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=4358bp|location=Sequence derived from alignment at ACJE01000004.1:2202104..2206461- (Aspergillus niger ATCC 1015)
AGAAATTCGATATCCGAAGTTGGATCTCTGTCATCAAAACGATCCCGGAT
GACAGACCAGAAGATCAACAATATGTTGGTCTATACAGAAACCCGTGCTT
CTCTAGATCCAACCGAGAAGTTACATCTTATCAAGCTTGCCAATGATGAA
GTCTTTGCTCGTGTCAGTCAACTGACCAATGCCTCGTCCGGCAAGCCGTA
TCTTAGCCCAGAATGCCGAGATTTCGATTTATACGGGTGGCTTCGAAATA
CCATGCAAATGTTAAACCAGGGCACATACAAAGAGATCTCGGCAATGGGA
TTTCAAAACCTGCGTGTTATGGGAACTAGGCCCCAGGTTCATCGTAAACT
GACGGCTCTGAGCGTCTTTTCCGCCCTACTGCGTCCGCGAGAAACATTCA
GCGCGAGCCACAAATCGCCCAAGGAGATCATACGGAATCTAAATGGCGTG
TTAGATCATGGAGAACTGCTGCTTGTCTTAGGACGGCCTGGAGCTGGAGG
CAGTACTGTCGCAAAATCATTGTGCGGAGAGCTTAATGGCTTGAAGCTGG
GTCCTGAATCGGTTATTCATTACAATGGCATCCCACACCAGCAGGCACCC
AGTAATGTCAAGAGAGCGATGCTTTATAGCTCCGGAACCGACAAACATTT
CCCGCATTTGACGGTTGGACAGACCTTGGAGATTGCAGCATCTGTACGAG
CTCCCATCCAGAATCTCCAGGGAATAACGCGGACAGAATATGCAAAAGCT
ATGACGAAAGTTGTTATTGCCGTGTTCGGTCTGAGCCACACGTATAGCAC
TAAAGTCAAAGATGTGACAGAAGATGAGCGCAAGCGAGTCAGTATTGCCG
AGATTATCCTGTCGGGAGCATCTTTAGCTGCATGGGACAAGTCAACTCAG
GGTCTAGCTCCAACAGAGGCATTGAAATTTGCGCAGTCTTTGCGGCTGGC
CGCAGATCTGGGCTCATCATCCCATGTTGTAGCTGCATATGAAGCCAGCG
AAGCAATGTATGGTCTCTTTGACAAAACCTTGTTGTTATACGAGGGCCGC
CAGATATTTTACGGCTCTTCTTCTGAAGCCAAGGGCTTTTTCGAGCGCCA
AGGGTGGTATTGCCATCCACAGCAGAGTACTGCCGAATTTTTGACCTCAA
TTACCAATCCCACAGAGAGGCAGCCACGTCGGGATATGGAGAACAGAGTT
CCTCGAACTTCGGAAGAGTTTGAGACGTACTGGTGCCAGTCCGCAGAGTA
TCAAGGGCTGCAGAGGGAGATGAGTGATCATAAGCAGATAGCGGTGTCCC
ACTCGAGAGAACAACTGCCAAATCCTAATCTGGACGAACAACAGAAGCAG
CCAGTCCAAAAACAAAATAATTGGCAGTACCCTAGTCTGATGCTGCAAGT
CAGACTGACTATAATACGCGCTTTTCAGCGTGTTTGGAACGAACGTGCTT
CAGCAGCATGCAAGATCACAGTTAACTTCATTATAGCGCTGCTTATTGGC
TCAATGTTCTACAACACGCCTGCAACGACAGCCGGATTTTTCTCCAAGGG
TGCAGTGCTCTTTTACCTAGTGATGCTCAACTCTCTTCTACCACTTACCG
AGTTGACCAGTCAGCTTTCCCAGCGTCCGGTGGTGGAAAAACATGCCTCA
TTTGGCTTCTACCATCCCATGGCCGAATCACTAGCCGTGCTCCTGAGTGA
AATCCCAATTAATTTTCTACTTGTCTTGGTGAACACTATTGTCATCTATT
TCATGAGCAACCTTCGTCGTGAACCTTCGCAATTCTTCATATGCTTCCTG
ATCAACTTCGTGTTGATCCATGTGACAAGTGCAGCCTTTCACATGACAGC
AGCAGTAACAAAAACGCTCGCGCAAGCACAAGCTCTTGCTGGGATGCTGG
TACTTTGGGTTTTCATATTTACGGGCTTCATTATCCCCGTCCCTCGGATG
CATCATTGGTTCGAATTCGTCCATGATATCAACCCCGTCTACTACGCATA
TGAAGCCCTAGTCGCCAACGAGTTCCACGGTAGGGAGTTTGGATGTGCTG
AGTTCATACCATCTCACCCCAACCTCCAGACGAATGCATATATCTGCTCA
GCTGTCGGAGCTCTCGCTGGCCGTCGTACTGTTAGTGGTGATGATTATAT
ATGGCAGACCTACAGGTATACCTACGACCACGTGTGGAGAAATTTTGGTA
TTCTTATTGTTTTCCTGGTCGGTTGGATGGGTCTTTATTTCGTTGCGACG
CAATTTATTTCACACCCAACTATCCATTCTGGAAGACTTTCTTTGCTTCA
AGGAAGTAAATCTGCTTGCGTTAGGCACGAAGAGCATCACAAAGAGGACG
AAGAAGCTGGGAAAGGTTCTGTGACTCGCGGCCAAGATACCGCTGGCAAT
GTGGGATTGAATCATTTTAGTTTCATTGAGCCTCAGCGAAACAGTTTGAG
CTGGCACGATGTGATATACGAAACAAACACAAGCAGTGGAAACCATCGGG
TCCTGGACAAGGTGACTGGCTGGGCTAAGCCAGGGACAATCACCGCATTG
ATGAGCCTTAACAGTACACAGAAGACGGAATTACTCAGAGTGTTGGCGCA
ACGTACCACAATAGGAGCTGTCAGTGGGGACATACTCTTCAGCAACTGCC
TTTTGAGCCCAAGTTTCCAGCGAAAAATCGGGTATGTTCAACAGCAGGAT
ATCCATTTGGAAACGGCCACGGTTCGTGAGGCTTTGCGTTTCAGCGCATT
GCTACGTCACCCAGAATCTGTCTCCAAGGGAAGCAAATACACATATGTCG
AGCAAATAATCAAGGCACTGGATATGGAGGATTACGCTGAGGCTGTTATT
GGAGTTGTTGGAGAGGGCTTGAACGTCAAGCAGCGGAGGCTTTTGAGTAT
TGGAGTAGAGTTAACTGCGAAGCCAGATGTTCTGTTCGTGGAAGAGCCTG
ACAGGTAAGCTTTCGCAAAATGTATTCTTTGGATAAAGCAGGAGCTAATG
TCTGTAACAGCGGCCTTGACGTGCAAAGTTCACGCACAATCTATCGTATC
CTTCAGAAACTGGCCGACGCCGGACAAACAATCATCTGCACAATGCCACC
CAGCTTGATGGCATTCAAGCAAGTAGACCAGCTCTTATTTCTCTCCAGCG
AGGGTAGAACTGTATACTTTGGACCCACCGGCGAGAATGCACAAACCCTG
CTAAACTATCTCGAATCAAACGGTGCCCACCGGATCCGCACAGAAGACGA
AGACTCCGCCAGCTACATAGTTGAAACCCTTTCCACCGCCACCAATAAAC
ACGGGGAGGCATGGTCGGATGTCTGGGTCAGAAACAACAAAGTCGACCCT
ATCCGCGAAGAATTCGAGAGTATCAACACCCTGAACAACAATCCAACAGA
AGACAAAGCATACGCCATTCCACTATACCTCCAATTCCCCATCGTCTTCC
GCCGAACCCTTCAATACTACTGGCGCTCGCCCCTCTACATCATATCAAGA
ATACTACTCCAAATATGCGCCGCACTCATCATCAGCTTCTCCTTCTACAA
ACACGGCACCTCGGTAAGCGGCCTCCAAGAAACCATCTTCTCCGCGTTCA
TGATCTGCACTCTGTTCGTCCCCCTCGTCCCCCAGATCACCCCTCTCCTC
ACCAAACAACACATCATATACGAAACCCGCGAACGCCACACCAAAACGTA
CTCCAGACTATCCCTCCTCCTCTCCATAATCCTCACCGAACTTCTCTACC
AAATCATCCTCAGCATCTGCGTCTGGGCAAGCTACTACTACCCCATCTCA
GGAACTACCCAATCATCACCCCGCCAAGGTCTCGTCCTCCTCTTCTTCAT
CCAATTCTTCATCTACGCGATAACCTTCGCCCTCCTGGCGGTCACCACCT
CCACCCTCATAACAGGTATATGCTCTTTCATGGCCCTCACCTTCAACGGC
GTCATGCAGCCGCCCCACTCTCTCCCCGGTTTCTGGATGTTCATGTACCG
CGTCTCCCCGTTTACGTACTTCGTTGCTGGAGTGACGTCAACTCAGCTCC
ATGGTGTCACGGTTAATTGTACCAGGACGGAGATGGTGGTGTTTAATCCG
CCTTCGGGGCAATCGTGTATCGAGTATCTGGGAGATTATTTGCGGACGGT
GCCGGGGCAGTTGATGAACCCGGATGCGATGAGGAGCTGCGAGTATTGTC
CGTACTCGGTTGCGGATCAGTTCCTGGCGGAGAGGGAATATCGGTATGAT
CGGAGGTGGATGTATTTTGGCGTCGGGTGGGCTTTTGTGGGGTTTAATAT
TGGGGTCGCTGGGTTGGTTTATTATGTTTTTTGGGTGAGGAGGTGGAGGC
CGGGGTTT back to topCoding sequence (CDS) from alignment at ACJE01000004.1:2202104..2206461- >ASPNIDRAFT_118881-T1 ID=ASPNIDRAFT_118881-T1|Name=ASPNIDRAFT_118881-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=8604bp|location=Sequence derived from alignment at ACJE01000004.1:2202104..2206461- (Aspergillus niger ATCC 1015)
CGGCCTTGACGTGCAAAGTTCACGCACAATCTATCGTATCCTTCAGAAAC
TGGCCGACGCCGGACAAACAATCATCTGCACAATGCCACCCAGCTTGATG
GCATTCAAGCAAGTAGACCAGCTCTTATTTCTCTCCAGCGAGGGTAGAAC
TGTATACTTTGGACCCACCGGCGAGAATGCACAAACCCTGCTAAACTATC
TCGAATCAAACGGTGCCCACCGGATCCGCACAGAAGACGAAGACTCCGCC
AGCTACATAGTTGAAACCCTTTCCACCGCCACCAATAAACACGGGGAGGC
ATGGTCGGATGTCTGGGTCAGAAACAACAAAGTCGACCCTATCCGCGAAG
AATTCGAGAGTATCAACACCCTGAACAACAATCCAACAGAAGACAAAGCA
TACGCCATTCCACTATACCTCCAATTCCCCATCGTCTTCCGCCGAACCCT
TCAATACTACTGGCGCTCGCCCCTCTACATCATATCAAGAATACTACTCC
AAATATGCGCCGCACTCATCATCAGCTTCTCCTTCTACAAACACGGCACC
TCGGTAAGCGGCCTCCAAGAAACCATCTTCTCCGCGTTCATGATCTGCAC
TCTGTTCGTCCCCCTCGTCCCCCAGATCACCCCTCTCCTCACCAAACAAC
ACATCATATACGAAACCCGCGAACGCCACACCAAAACGTACTCCAGACTA
TCCCTCCTCCTCTCCATAATCCTCACCGAACTTCTCTACCAAATCATCCT
CAGCATCTGCGTCTGGGCAAGCTACTACTACCCCATCTCAGGAACTACCC
AATCATCACCCCGCCAAGGTCTCGTCCTCCTCTTCTTCATCCAATTCTTC
ATCTACGCGATAACCTTCGCCCTCCTGGCGGTCACCACCTCCACCCTCAT
AACAGGTATATGCTCTTTCATGGCCCTCACCTTCAACGGCGTCATGCAGC
CGCCCCACTCTCTCCCCGGTTTCTGGATGTTCATGTACCGCGTCTCCCCG
TTTACGTACTTCGTTGCTGGAGTGACGTCAACTCAGCTCCATGGTGTCAC
GGTTAATTGTACCAGGACGGAGATGGTGGTGTTTAATCCGCCTTCGGGGC
AATCGTGTATCGAGTATCTGGGAGATTATTTGCGGACGGTGCCGGGGCAG
TTGATGAACCCGGATGCGATGAGGAGCTGCGAGTATTGTCCGTACTCGGT
TGCGGATCAGTTCCTGGCGGAGAGGGAATATCGGTATGATCGGAGGTGGA
TGTATTTTGGCGTCGGGTGGGCTTTTGTGGGGTTTAATATTGGGGTCGCT
GGGTTGGTTTATTATGTTTTTTGGGTGAGGAGGTGGAGGCCGGGGTTTAG
AAATTCGATATCCGAAGTTGGATCTCTGTCATCAAAACGATCCCGGATGA
CAGACCAGAAGATCAACAATATGTTGGTCTATACAGAAACCCGTGCTTCT
CTAGATCCAACCGAGAAGTTACATCTTATCAAGCTTGCCAATGATGAAGT
CTTTGCTCGTGTCAGTCAACTGACCAATGCCTCGTCCGGCAAGCCGTATC
TTAGCCCAGAATGCCGAGATTTCGATTTATACGGGTGGCTTCGAAATACC
ATGCAAATGTTAAACCAGGGCACATACAAAGAGATCTCGGCAATGGGATT
TCAAAACCTGCGTGTTATGGGAACTAGGCCCCAGGTTCATCGTAAACTGA
CGGCTCTGAGCGTCTTTTCCGCCCTACTGCGTCCGCGAGAAACATTCAGC
GCGAGCCACAAATCGCCCAAGGAGATCATACGGAATCTAAATGGCGTGTT
AGATCATGGAGAACTGCTGCTTGTCTTAGGACGGCCTGGAGCTGGAGGCA
GTACTGTCGCAAAATCATTGTGCGGAGAGCTTAATGGCTTGAAGCTGGGT
CCTGAATCGGTTATTCATTACAATGGCATCCCACACCAGCAGGCACCCAG
TAATGTCAAGAGAGCGATGCTTTATAGCTCCGGAACCGACAAACATTTCC
CGCATTTGACGGTTGGACAGACCTTGGAGATTGCAGCATCTGTACGAGCT
CCCATCCAGAATCTCCAGGGAATAACGCGGACAGAATATGCAAAAGCTAT
GACGAAAGTTGTTATTGCCGTGTTCGGTCTGAGCCACACGTATAGCACTA
AAGTCAAAGATGTGACAGAAGATGAGCGCAAGCGAGTCAGTATTGCCGAG
ATTATCCTGTCGGGAGCATCTTTAGCTGCATGGGACAAGTCAACTCAGGG
TCTAGCTCCAACAGAGGCATTGAAATTTGCGCAGTCTTTGCGGCTGGCCG
CAGATCTGGGCTCATCATCCCATGTTGTAGCTGCATATGAAGCCAGCGAA
GCAATGTATGGTCTCTTTGACAAAACCTTGTTGTTATACGAGGGCCGCCA
GATATTTTACGGCTCTTCTTCTGAAGCCAAGGGCTTTTTCGAGCGCCAAG
GGTGGTATTGCCATCCACAGCAGAGTACTGCCGAATTTTTGACCTCAATT
ACCAATCCCACAGAGAGGCAGCCACGTCGGGATATGGAGAACAGAGTTCC
TCGAACTTCGGAAGAGTTTGAGACGTACTGGTGCCAGTCCGCAGAGTATC
AAGGGCTGCAGAGGGAGATGAGTGATCATAAGCAGATAGCGGTGTCCCAC
TCGAGAGAACAACTGCCAAATCCTAATCTGGACGAACAACAGAAGCAGCC
AGTCCAAAAACAAAATAATTGGCAGTACCCTAGTCTGATGCTGCAAGTCA
GACTGACTATAATACGCGCTTTTCAGCGTGTTTGGAACGAACGTGCTTCA
GCAGCATGCAAGATCACAGTTAACTTCATTATAGCGCTGCTTATTGGCTC
AATGTTCTACAACACGCCTGCAACGACAGCCGGATTTTTCTCCAAGGGTG
CAGTGCTCTTTTACCTAGTGATGCTCAACTCTCTTCTACCACTTACCGAG
TTGACCAGTCAGCTTTCCCAGCGTCCGGTGGTGGAAAAACATGCCTCATT
TGGCTTCTACCATCCCATGGCCGAATCACTAGCCGTGCTCCTGAGTGAAA
TCCCAATTAATTTTCTACTTGTCTTGGTGAACACTATTGTCATCTATTTC
ATGAGCAACCTTCGTCGTGAACCTTCGCAATTCTTCATATGCTTCCTGAT
CAACTTCGTGTTGATCCATGTGACAAGTGCAGCCTTTCACATGACAGCAG
CAGTAACAAAAACGCTCGCGCAAGCACAAGCTCTTGCTGGGATGCTGGTA
CTTTGGGTTTTCATATTTACGGGCTTCATTATCCCCGTCCCTCGGATGCA
TCATTGGTTCGAATTCGTCCATGATATCAACCCCGTCTACTACGCATATG
AAGCCCTAGTCGCCAACGAGTTCCACGGTAGGGAGTTTGGATGTGCTGAG
TTCATACCATCTCACCCCAACCTCCAGACGAATGCATATATCTGCTCAGC
TGTCGGAGCTCTCGCTGGCCGTCGTACTGTTAGTGGTGATGATTATATAT
GGCAGACCTACAGGTATACCTACGACCACGTGTGGAGAAATTTTGGTATT
CTTATTGTTTTCCTGGTCGGTTGGATGGGTCTTTATTTCGTTGCGACGCA
ATTTATTTCACACCCAACTATCCATTCTGGAAGACTTTCTTTGCTTCAAG
GAAGTAAATCTGCTTGCGTTAGGCACGAAGAGCATCACAAAGAGGACGAA
GAAGCTGGGAAAGGTTCTGTGACTCGCGGCCAAGATACCGCTGGCAATGT
GGGATTGAATCATTTTAGTTTCATTGAGCCTCAGCGAAACAGTTTGAGCT
GGCACGATGTGATATACGAAACAAACACAAGCAGTGGAAACCATCGGGTC
CTGGACAAGGTGACTGGCTGGGCTAAGCCAGGGACAATCACCGCATTGAT
GAGCCTTAACAGTACACAGAAGACGGAATTACTCAGAGTGTTGGCGCAAC
GTACCACAATAGGAGCTGTCAGTGGGGACATACTCTTCAGCAACTGCCTT
TTGAGCCCAAGTTTCCAGCGAAAAATCGGGTATGTTCAACAGCAGGATAT
CCATTTGGAAACGGCCACGGTTCGTGAGGCTTTGCGTTTCAGCGCATTGC
TACGTCACCCAGAATCTGTCTCCAAGGGAAGCAAATACACATATGTCGAG
CAAATAATCAAGGCACTGGATATGGAGGATTACGCTGAGGCTGTTATTGG
AGTTGTTGGAGAGGGCTTGAACGTCAAGCAGCGGAGGCTTTTGAGTATTG
GAGTAGAGTTAACTGCGAAGCCAGATGTTCTGTTCGTGGAAGAGCCTGAC
AGCGGCCTTGACGTGCAAAGTTCACGCACAATCTATCGTATCCTTCAGAA
ACTGGCCGACGCCGGACAAACAATCATCTGCACAATGCCACCCAGCTTGA
TGGCATTCAAGCAAGTAGACCAGCTCTTATTTCTCTCCAGCGAGGGTAGA
ACTGTATACTTTGGACCCACCGGCGAGAATGCACAAACCCTGCTAAACTA
TCTCGAATCAAACGGTGCCCACCGGATCCGCACAGAAGACGAAGACTCCG
CCAGCTACATAGTTGAAACCCTTTCCACCGCCACCAATAAACACGGGGAG
GCATGGTCGGATGTCTGGGTCAGAAACAACAAAGTCGACCCTATCCGCGA
AGAATTCGAGAGTATCAACACCCTGAACAACAATCCAACAGAAGACAAAG
CATACGCCATTCCACTATACCTCCAATTCCCCATCGTCTTCCGCCGAACC
CTTCAATACTACTGGCGCTCGCCCCTCTACATCATATCAAGAATACTACT
CCAAATATGCGCCGCACTCATCATCAGCTTCTCCTTCTACAAACACGGCA
CCTCGGTAAGCGGCCTCCAAGAAACCATCTTCTCCGCGTTCATGATCTGC
ACTCTGTTCGTCCCCCTCGTCCCCCAGATCACCCCTCTCCTCACCAAACA
ACACATCATATACGAAACCCGCGAACGCCACACCAAAACGTACTCCAGAC
TATCCCTCCTCCTCTCCATAATCCTCACCGAACTTCTCTACCAAATCATC
CTCAGCATCTGCGTCTGGGCAAGCTACTACTACCCCATCTCAGGAACTAC
CCAATCATCACCCCGCCAAGGTCTCGTCCTCCTCTTCTTCATCCAATTCT
TCATCTACGCGATAACCTTCGCCCTCCTGGCGGTCACCACCTCCACCCTC
ATAACAGGTATATGCTCTTTCATGGCCCTCACCTTCAACGGCGTCATGCA
GCCGCCCCACTCTCTCCCCGGTTTCTGGATGTTCATGTACCGCGTCTCCC
CGTTTACGTACTTCGTTGCTGGAGTGACGTCAACTCAGCTCCATGGTGTC
ACGGTTAATTGTACCAGGACGGAGATGGTGGTGTTTAATCCGCCTTCGGG
GCAATCGTGTATCGAGTATCTGGGAGATTATTTGCGGACGGTGCCGGGGC
AGTTGATGAACCCGGATGCGATGAGGAGCTGCGAGTATTGTCCGTACTCG
GTTGCGGATCAGTTCCTGGCGGAGAGGGAATATCGGTATGATCGGAGGTG
GATGTATTTTGGCGTCGGGTGGGCTTTTGTGGGGTTTAATATTGGGGTCG
CTGGGTTGGTTTATTATGTTTTTTGGGTGAGGAGGTGGAGGCCGGGGTTT
AGAAATTCGATATCCGAAGTTGGATCTCTGTCATCAAAACGATCCCGGAT
GACAGACCAGAAGATCAACAATATGTTGGTCTATACAGAAACCCGTGCTT
CTCTAGATCCAACCGAGAAGTTACATCTTATCAAGCTTGCCAATGATGAA
GTCTTTGCTCGTGTCAGTCAACTGACCAATGCCTCGTCCGGCAAGCCGTA
TCTTAGCCCAGAATGCCGAGATTTCGATTTATACGGGTGGCTTCGAAATA
CCATGCAAATGTTAAACCAGGGCACATACAAAGAGATCTCGGCAATGGGA
TTTCAAAACCTGCGTGTTATGGGAACTAGGCCCCAGGTTCATCGTAAACT
GACGGCTCTGAGCGTCTTTTCCGCCCTACTGCGTCCGCGAGAAACATTCA
GCGCGAGCCACAAATCGCCCAAGGAGATCATACGGAATCTAAATGGCGTG
TTAGATCATGGAGAACTGCTGCTTGTCTTAGGACGGCCTGGAGCTGGAGG
CAGTACTGTCGCAAAATCATTGTGCGGAGAGCTTAATGGCTTGAAGCTGG
GTCCTGAATCGGTTATTCATTACAATGGCATCCCACACCAGCAGGCACCC
AGTAATGTCAAGAGAGCGATGCTTTATAGCTCCGGAACCGACAAACATTT
CCCGCATTTGACGGTTGGACAGACCTTGGAGATTGCAGCATCTGTACGAG
CTCCCATCCAGAATCTCCAGGGAATAACGCGGACAGAATATGCAAAAGCT
ATGACGAAAGTTGTTATTGCCGTGTTCGGTCTGAGCCACACGTATAGCAC
TAAAGTCAAAGATGTGACAGAAGATGAGCGCAAGCGAGTCAGTATTGCCG
AGATTATCCTGTCGGGAGCATCTTTAGCTGCATGGGACAAGTCAACTCAG
GGTCTAGCTCCAACAGAGGCATTGAAATTTGCGCAGTCTTTGCGGCTGGC
CGCAGATCTGGGCTCATCATCCCATGTTGTAGCTGCATATGAAGCCAGCG
AAGCAATGTATGGTCTCTTTGACAAAACCTTGTTGTTATACGAGGGCCGC
CAGATATTTTACGGCTCTTCTTCTGAAGCCAAGGGCTTTTTCGAGCGCCA
AGGGTGGTATTGCCATCCACAGCAGAGTACTGCCGAATTTTTGACCTCAA
TTACCAATCCCACAGAGAGGCAGCCACGTCGGGATATGGAGAACAGAGTT
CCTCGAACTTCGGAAGAGTTTGAGACGTACTGGTGCCAGTCCGCAGAGTA
TCAAGGGCTGCAGAGGGAGATGAGTGATCATAAGCAGATAGCGGTGTCCC
ACTCGAGAGAACAACTGCCAAATCCTAATCTGGACGAACAACAGAAGCAG
CCAGTCCAAAAACAAAATAATTGGCAGTACCCTAGTCTGATGCTGCAAGT
CAGACTGACTATAATACGCGCTTTTCAGCGTGTTTGGAACGAACGTGCTT
CAGCAGCATGCAAGATCACAGTTAACTTCATTATAGCGCTGCTTATTGGC
TCAATGTTCTACAACACGCCTGCAACGACAGCCGGATTTTTCTCCAAGGG
TGCAGTGCTCTTTTACCTAGTGATGCTCAACTCTCTTCTACCACTTACCG
AGTTGACCAGTCAGCTTTCCCAGCGTCCGGTGGTGGAAAAACATGCCTCA
TTTGGCTTCTACCATCCCATGGCCGAATCACTAGCCGTGCTCCTGAGTGA
AATCCCAATTAATTTTCTACTTGTCTTGGTGAACACTATTGTCATCTATT
TCATGAGCAACCTTCGTCGTGAACCTTCGCAATTCTTCATATGCTTCCTG
ATCAACTTCGTGTTGATCCATGTGACAAGTGCAGCCTTTCACATGACAGC
AGCAGTAACAAAAACGCTCGCGCAAGCACAAGCTCTTGCTGGGATGCTGG
TACTTTGGGTTTTCATATTTACGGGCTTCATTATCCCCGTCCCTCGGATG
CATCATTGGTTCGAATTCGTCCATGATATCAACCCCGTCTACTACGCATA
TGAAGCCCTAGTCGCCAACGAGTTCCACGGTAGGGAGTTTGGATGTGCTG
AGTTCATACCATCTCACCCCAACCTCCAGACGAATGCATATATCTGCTCA
GCTGTCGGAGCTCTCGCTGGCCGTCGTACTGTTAGTGGTGATGATTATAT
ATGGCAGACCTACAGGTATACCTACGACCACGTGTGGAGAAATTTTGGTA
TTCTTATTGTTTTCCTGGTCGGTTGGATGGGTCTTTATTTCGTTGCGACG
CAATTTATTTCACACCCAACTATCCATTCTGGAAGACTTTCTTTGCTTCA
AGGAAGTAAATCTGCTTGCGTTAGGCACGAAGAGCATCACAAAGAGGACG
AAGAAGCTGGGAAAGGTTCTGTGACTCGCGGCCAAGATACCGCTGGCAAT
GTGGGATTGAATCATTTTAGTTTCATTGAGCCTCAGCGAAACAGTTTGAG
CTGGCACGATGTGATATACGAAACAAACACAAGCAGTGGAAACCATCGGG
TCCTGGACAAGGTGACTGGCTGGGCTAAGCCAGGGACAATCACCGCATTG
ATGAGCCTTAACAGTACACAGAAGACGGAATTACTCAGAGTGTTGGCGCA
ACGTACCACAATAGGAGCTGTCAGTGGGGACATACTCTTCAGCAACTGCC
TTTTGAGCCCAAGTTTCCAGCGAAAAATCGGGTATGTTCAACAGCAGGAT
ATCCATTTGGAAACGGCCACGGTTCGTGAGGCTTTGCGTTTCAGCGCATT
GCTACGTCACCCAGAATCTGTCTCCAAGGGAAGCAAATACACATATGTCG
AGCAAATAATCAAGGCACTGGATATGGAGGATTACGCTGAGGCTGTTATT
GGAGTTGTTGGAGAGGGCTTGAACGTCAAGCAGCGGAGGCTTTTGAGTAT
TGGAGTAGAGTTAACTGCGAAGCCAGATGTTCTGTTCGTGGAAGAGCCTG
ACAG 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:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0016887 | ATPase activity |
| GO:0005524 | ATP binding |
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:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR027417 |
| DBxref | InterPro:IPR010929 |
| DBxref | InterPro:IPR013525 |
| DBxref | InterPro:IPR003439 |
| DBxref | PFAM:PF06422 |
| DBxref | PFAM:PF00005 |
| DBxref | PFAM:PF01061 |
| 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 |
|---|
| ACJE01000004.1 | supercontig | ACJE01000004.1:2202104..2206461 - |
|
