|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ACJE01000009.1:2368077..2370395+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ASPNIDRAFT_180136-T1 ID=ASPNIDRAFT_180136-T1|Name=ASPNIDRAFT_180136-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2319bp|location=Sequence derived from alignment at ACJE01000009.1:2368077..2370395+ (Aspergillus niger ATCC 1015)
ATGTCATCCGGGTTGGCCTCCGACGAAGTTGCCGAGGATTACAAGAATTC
CTTGGAAGATCTAACCAACAATGACAGGTTTCAGATCAGCAATCTGACTG
TCATAGCCAAAGAAAACACTGAACATGCGATGGCCATCTCCCGCGTGTTG
GAGAACCACATTCGAACAGTAGGTGACACGCTCTCAGAATACCACCGGTT
GGGCCTCGTCGGACCTGACGAGACGCACAACCCGTCTGTAGTCTCTCTTT
GGGATGAAACGAGTTCTAATCTGCTCTGTAGACTCCGCCGGCTCAGAAGT
TGCCCGCCTTGTATGTAGTCGATTCGATTGTCAAGAACGTAGGCACGCCC
TACACTCTGTTCCTGGGTCGCAATCTGTATCAGACCTTTATGAACGCCTA
CACACTGGTCGATTCGCAGACGCGCAAGAAGTTGGATGAGATGCTCAAAA
CCTGGAAGGAGCCGGTTCCGGGTTCCCTCGACACCAGGCCCGTTTTTCCT
CCAGAAATTACTCGCAGTATCGAGAGTGCTCTGATCAAAGCAAGGACTGC
AGCGCTTCAGCAGCAGCAGGCCCGAACCCAACAAGACATCCTCGCTCGCG
GTCGAGTTGGCACTCCTCCAGCTTGGAACAGCACTCCTACACCACCGCAA
GGCATGGGCCGCCATCCACCTGCGGCAAACCAGGCTTTACCCATGCATTA
CCAGCGCAATGGCTCTGGTCACGGATATCCACCATCGGTAAGTATCATCT
TACATTCCAGAGCCATATTATGGCGGAAGGTCTTATATGAATAGCAGGGT
GAATCGTACTCTTCGCGGGGAACGCCAACTCCCCAAGCCCAGCCACGCTC
AACAGAGGTTGATCTCGCGGTTCTCAACCGAGATATCGAGGCTCTTATTG
CCACCGCCAGGAACGATTTTGCAAACAATCCACTGGACCCTTCGATACAG
CAACGACTGAAGGCTCTTCTAGATCTTCAGGGTATCTTGCAACGGCAAGA
ACTTACCCAGGAACAATTGAAGCTCGTCCGCGACCAGGTTTCAGCTCTCG
CTCCGAAGCCTGCAATGCCGGCTCCTCAGGCTATGGCTCCAAGTGTCCCA
GCCGTTTCAACGCCCCCCATGGCTACTCCTCCAGCCCAAACACTTTCGCA
ACCTTTACAACAGCTTCTCAATCCTGGCACGCTTGCCGGGCTCCTCAAAG
CTACTGCTACACGTCAGCAGCCGACTCCGCCACCTCAAATTCACAACATC
CTACCGCAGATGCCCACTAATACCACCGCGCCGCAGCCTTCCGTCAGCGC
CGCACCGGAAAATCCTCTCATTGCAGCCCTAAGAGCACAGGGCTTACTGC
CACCGGCCTCGGCACCTCCAGCCCCTTTCACTGCTGCTCCGCCGCCAAAT
GTCACGCCTGCTTTTCCATTAATTGTACCTGGTCAGGTGCGAGTCACGCC
TCCAGTCGCAACACCGCAGACACAGCAAGGTACATCCAATGCGCAGATCA
ACGTTCAAATGAGCACAGCGTCCATCAAAATGTGAGTGTCTTATGTTAAG
GCTACATTGGTTTTCATATCTCTAACTCAATGAACCCTCAGCCCTCGGCA
AATGCTGATCTCCAGCCTCTACGAGACGCGGTCAAACCGGTGTGGAACAT
GCGGTCAACGTTTCTTTGCAACAGAGGAAGGGAAGGAGAAGAAGGCTCGC
CATTTGGATTGGCACTTCCGCACCAACCAGCGCATGTCTGAGGCAGCTAG
GCGGGCCCAGAACCGCAGCTGGTACGTTGATGAACGGGTAAGTCACGGGC
CAGTCTCGAACCATTTATTCTGCAGGACTAACTATCTCCAGGATTGGATT
AAATCTCGTGAGGCGGGTGACGAACAAGATCTTGCGGAGACGGAGGCCTC
CGCTGAGGGTGTTGCTGGTGCTGACGGCGCTGCGACTAAGAAGGGGCCTC
CCAAGCAGTGGATCCACGCCCCGAATGACGCAACATTGCGAAACACCCCT
TGCCCTATCTGCCAGGAGAAGTTTGAGTCGACATGGTCGGAGGATGTGCA
GGACTGGATCTGGCAGGATGCGGTCAAGGTGGGAAGTCGCGTGTACCATG
CTAGTTGCTATGCCGAAGTTACCAATAACGGACCTACGCCAGCCAGCCGG
GGGACGCCATCAGGACGAACTGGGACTCCCGAGTCTGTTTTGGGCAAACG
CAAGGCCGAGGTGAGTGATGAAATAATGAGAGATATTCAGCAATCCCAGT
GACTAACACGTACTATAGGGGACCGACTCTCCTGGGTCCAATGTGCGGAT
TAAAACAGAGCCCGTGTGA back to topCoding sequence (CDS) from alignment at ACJE01000009.1:2368077..2370395+ >ASPNIDRAFT_180136-T1 ID=ASPNIDRAFT_180136-T1|Name=ASPNIDRAFT_180136-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=11844bp|location=Sequence derived from alignment at ACJE01000009.1:2368077..2370395+ (Aspergillus niger ATCC 1015)
ATGTCATCCGGGTTGGCCTCCGACGAAGTTGCCGAGGATTACAAGAATTC
CTTGGAAGATCTAACCAACAATGACAGGTTTCAGATCAGCAATCTGACTG
TCATAGCCAAAGAAAACACTGAACATGCGATGGCCATCTCCCGCGTGTTG
GAGAACCACATTCGAACAACTCCGCCGGCTCAGAAGTTGCCCGCCTTGTA
TGTAGTCGATTCGATTGTCAAGAACGTAGGCACGCCCTACACTCTGTTCC
TGGGTCGCAATCTGTATCAGACCTTTATGAACGCCTACACACTGGTCGAT
TCGCAGACGCGCAAGAAGTTGGATGAGATGCTCAAAACCTGGAAGGAGCC
GGTTCCGGGTTCCCTCGACACCAGGCCCGTTTTTCCTCCAGAAATTACTC
GCAGTATCGAGAGTGCTCTGATCAAAGCAAGGACTGCAGCGCTTCAGCAG
CAGCAGGCCCGAACCCAACAAGACATCCTCGCTCGCGGTCGAGTTGGCAC
TCCTCCAGCTTGGAACAGCACTCCTACACCACCGCAAGGCATGGGCCGCC
ATCCACCTGCGGCAAACCAGGCTTTACCCATGCATTACCAGCGCAATGGC
TCTGGTCACGGATATCCACCATCGGGTGAATCGTACTCTTCGCGGGGAAC
GCCAACTCCCCAAGCCCAGCCACGCTCAACAGAGGTTGATCTCGCGGTTC
TCAACCGAGATATCGAGGCTCTTATTGCCACCGCCAGGAACGATTTTGCA
AACAATCCACTGGACCCTTCGATACAGCAACGACTGAAGGCTCTTCTAGA
TCTTCAGGGTATCTTGCAACGGCAAGAACTTACCCAGGAACAATTGAAGC
TCGTCCGCGACCAGGTTTCAGCTCTCGCTCCGAAGCCTGCAATGCCGGCT
CCTCAGGCTATGGCTCCAAGTGTCCCAGCCGTTTCAACGCCCCCCATGGC
TACTCCTCCAGCCCAAACACTTTCGCAACCTTTACAACAGCTTCTCAATC
CTGGCACGCTTGCCGGGCTCCTCAAAGCTACTGCTACACGTCAGCAGCCG
ACTCCGCCACCTCAAATTCACAACATCCTACCGCAGATGCCCACTAATAC
CACCGCGCCGCAGCCTTCCGTCAGCGCCGCACCGGAAAATCCTCTCATTG
CAGCCCTAAGAGCACAGGGCTTACTGCCACCGGCCTCGGCACCTCCAGCC
CCTTTCACTGCTGCTCCGCCGCCAAATGTCACGCCTGCTTTTCCATTAAT
TGTACCTGGTCAGGTGCGAGTCACGCCTCCAGTCGCAACACCGCAGACAC
AGCAAGGTACATCCAATGCGCAGATCAACGTTCAAATGAGCACAGCGTCC
ATCAAAATCCCTCGGCAAATGCTGATCTCCAGCCTCTACGAGACGCGGTC
AAACCGGTGTGGAACATGCGGTCAACGTTTCTTTGCAACAGAGGAAGGGA
AGGAGAAGAAGGCTCGCCATTTGGATTGGCACTTCCGCACCAACCAGCGC
ATGTCTGAGGCAGCTAGGCGGGCCCAGAACCGCAGCTGGTACGTTGATGA
ACGGGATTGGATTAAATCTCGTGAGGCGGGTGACGAACAAGATCTTGCGG
AGACGGAGGCCTCCGCTGAGGGTGTTGCTGGTGCTGACGGCGCTGCGACT
AAGAAGGGGCCTCCCAAGCAGTGGATCCACGCCCCGAATGACGCAACATT
GCGAAACACCCCTTGCCCTATCTGCCAGGAGAAGTTTGAGTCGACATGGT
CGGAGGATGTGCAGGACTGGATCTGGCAGGATGCGGTCAAGGTGGGAAGT
CGCGTGTACCATGCTAGTTGCTATGCCGAAGTTACCAATAACGGACCTAC
GCCAGCCAGCCGGGGGACGCCATCAGGACGAACTGGGACTCCCGAGTCTG
TTTTGGGCAAACGCAAGGCCGAGGGGACCGACTCTCCTGGGTCCAATGTG
CGGATTAAAACAGAGCCCGTGTGAATGTCATCCGGGTTGGCCTCCGACGA
AGTTGCCGAGGATTACAAGAATTCCTTGGAAGATCTAACCAACAATGACA
GGTTTCAGATCAGCAATCTGACTGTCATAGCCAAAGAAAACACTGAACAT
GCGATGGCCATCTCCCGCGTGTTGGAGAACCACATTCGAACAACTCCGCC
GGCTCAGAAGTTGCCCGCCTTGTATGTAGTCGATTCGATTGTCAAGAACG
TAGGCACGCCCTACACTCTGTTCCTGGGTCGCAATCTGTATCAGACCTTT
ATGAACGCCTACACACTGGTCGATTCGCAGACGCGCAAGAAGTTGGATGA
GATGCTCAAAACCTGGAAGGAGCCGGTTCCGGGTTCCCTCGACACCAGGC
CCGTTTTTCCTCCAGAAATTACTCGCAGTATCGAGAGTGCTCTGATCAAA
GCAAGGACTGCAGCGCTTCAGCAGCAGCAGGCCCGAACCCAACAAGACAT
CCTCGCTCGCGGTCGAGTTGGCACTCCTCCAGCTTGGAACAGCACTCCTA
CACCACCGCAAGGCATGGGCCGCCATCCACCTGCGGCAAACCAGGCTTTA
CCCATGCATTACCAGCGCAATGGCTCTGGTCACGGATATCCACCATCGGG
TGAATCGTACTCTTCGCGGGGAACGCCAACTCCCCAAGCCCAGCCACGCT
CAACAGAGGTTGATCTCGCGGTTCTCAACCGAGATATCGAGGCTCTTATT
GCCACCGCCAGGAACGATTTTGCAAACAATCCACTGGACCCTTCGATACA
GCAACGACTGAAGGCTCTTCTAGATCTTCAGGGTATCTTGCAACGGCAAG
AACTTACCCAGGAACAATTGAAGCTCGTCCGCGACCAGGTTTCAGCTCTC
GCTCCGAAGCCTGCAATGCCGGCTCCTCAGGCTATGGCTCCAAGTGTCCC
AGCCGTTTCAACGCCCCCCATGGCTACTCCTCCAGCCCAAACACTTTCGC
AACCTTTACAACAGCTTCTCAATCCTGGCACGCTTGCCGGGCTCCTCAAA
GCTACTGCTACACGTCAGCAGCCGACTCCGCCACCTCAAATTCACAACAT
CCTACCGCAGATGCCCACTAATACCACCGCGCCGCAGCCTTCCGTCAGCG
CCGCACCGGAAAATCCTCTCATTGCAGCCCTAAGAGCACAGGGCTTACTG
CCACCGGCCTCGGCACCTCCAGCCCCTTTCACTGCTGCTCCGCCGCCAAA
TGTCACGCCTGCTTTTCCATTAATTGTACCTGGTCAGGTGCGAGTCACGC
CTCCAGTCGCAACACCGCAGACACAGCAAGGTACATCCAATGCGCAGATC
AACGTTCAAATGAGCACAGCGTCCATCAAAATCCCTCGGCAAATGCTGAT
CTCCAGCCTCTACGAGACGCGGTCAAACCGGTGTGGAACATGCGGTCAAC
GTTTCTTTGCAACAGAGGAAGGGAAGGAGAAGAAGGCTCGCCATTTGGAT
TGGCACTTCCGCACCAACCAGCGCATGTCTGAGGCAGCTAGGCGGGCCCA
GAACCGCAGCTGGTACGTTGATGAACGGGATTGGATTAAATCTCGTGAGG
CGGGTGACGAACAAGATCTTGCGGAGACGGAGGCCTCCGCTGAGGGTGTT
GCTGGTGCTGACGGCGCTGCGACTAAGAAGGGGCCTCCCAAGCAGTGGAT
CCACGCCCCGAATGACGCAACATTGCGAAACACCCCTTGCCCTATCTGCC
AGGAGAAGTTTGAGTCGACATGGTCGGAGGATGTGCAGGACTGGATCTGG
CAGGATGCGGTCAAGGTGGGAAGTCGCGTGTACCATGCTAGTTGCTATGC
CGAAGTTACCAATAACGGACCTACGCCAGCCAGCCGGGGGACGCCATCAG
GACGAACTGGGACTCCCGAGTCTGTTTTGGGCAAACGCAAGGCCGAGGGG
ACCGACTCTCCTGGGTCCAATGTGCGGATTAAAACAGAGCCCGTGTGAAT
GTCATCCGGGTTGGCCTCCGACGAAGTTGCCGAGGATTACAAGAATTCCT
TGGAAGATCTAACCAACAATGACAGGTTTCAGATCAGCAATCTGACTGTC
ATAGCCAAAGAAAACACTGAACATGCGATGGCCATCTCCCGCGTGTTGGA
GAACCACATTCGAACAACTCCGCCGGCTCAGAAGTTGCCCGCCTTGTATG
TAGTCGATTCGATTGTCAAGAACGTAGGCACGCCCTACACTCTGTTCCTG
GGTCGCAATCTGTATCAGACCTTTATGAACGCCTACACACTGGTCGATTC
GCAGACGCGCAAGAAGTTGGATGAGATGCTCAAAACCTGGAAGGAGCCGG
TTCCGGGTTCCCTCGACACCAGGCCCGTTTTTCCTCCAGAAATTACTCGC
AGTATCGAGAGTGCTCTGATCAAAGCAAGGACTGCAGCGCTTCAGCAGCA
GCAGGCCCGAACCCAACAAGACATCCTCGCTCGCGGTCGAGTTGGCACTC
CTCCAGCTTGGAACAGCACTCCTACACCACCGCAAGGCATGGGCCGCCAT
CCACCTGCGGCAAACCAGGCTTTACCCATGCATTACCAGCGCAATGGCTC
TGGTCACGGATATCCACCATCGGGTGAATCGTACTCTTCGCGGGGAACGC
CAACTCCCCAAGCCCAGCCACGCTCAACAGAGGTTGATCTCGCGGTTCTC
AACCGAGATATCGAGGCTCTTATTGCCACCGCCAGGAACGATTTTGCAAA
CAATCCACTGGACCCTTCGATACAGCAACGACTGAAGGCTCTTCTAGATC
TTCAGGGTATCTTGCAACGGCAAGAACTTACCCAGGAACAATTGAAGCTC
GTCCGCGACCAGGTTTCAGCTCTCGCTCCGAAGCCTGCAATGCCGGCTCC
TCAGGCTATGGCTCCAAGTGTCCCAGCCGTTTCAACGCCCCCCATGGCTA
CTCCTCCAGCCCAAACACTTTCGCAACCTTTACAACAGCTTCTCAATCCT
GGCACGCTTGCCGGGCTCCTCAAAGCTACTGCTACACGTCAGCAGCCGAC
TCCGCCACCTCAAATTCACAACATCCTACCGCAGATGCCCACTAATACCA
CCGCGCCGCAGCCTTCCGTCAGCGCCGCACCGGAAAATCCTCTCATTGCA
GCCCTAAGAGCACAGGGCTTACTGCCACCGGCCTCGGCACCTCCAGCCCC
TTTCACTGCTGCTCCGCCGCCAAATGTCACGCCTGCTTTTCCATTAATTG
TACCTGGTCAGGTGCGAGTCACGCCTCCAGTCGCAACACCGCAGACACAG
CAAGGTACATCCAATGCGCAGATCAACGTTCAAATGAGCACAGCGTCCAT
CAAAATCCCTCGGCAAATGCTGATCTCCAGCCTCTACGAGACGCGGTCAA
ACCGGTGTGGAACATGCGGTCAACGTTTCTTTGCAACAGAGGAAGGGAAG
GAGAAGAAGGCTCGCCATTTGGATTGGCACTTCCGCACCAACCAGCGCAT
GTCTGAGGCAGCTAGGCGGGCCCAGAACCGCAGCTGGTACGTTGATGAAC
GGGATTGGATTAAATCTCGTGAGGCGGGTGACGAACAAGATCTTGCGGAG
ACGGAGGCCTCCGCTGAGGGTGTTGCTGGTGCTGACGGCGCTGCGACTAA
GAAGGGGCCTCCCAAGCAGTGGATCCACGCCCCGAATGACGCAACATTGC
GAAACACCCCTTGCCCTATCTGCCAGGAGAAGTTTGAGTCGACATGGTCG
GAGGATGTGCAGGACTGGATCTGGCAGGATGCGGTCAAGGTGGGAAGTCG
CGTGTACCATGCTAGTTGCTATGCCGAAGTTACCAATAACGGACCTACGC
CAGCCAGCCGGGGGACGCCATCAGGACGAACTGGGACTCCCGAGTCTGTT
TTGGGCAAACGCAAGGCCGAGGGGACCGACTCTCCTGGGTCCAATGTGCG
GATTAAAACAGAGCCCGTGTGAATGTCATCCGGGTTGGCCTCCGACGAAG
TTGCCGAGGATTACAAGAATTCCTTGGAAGATCTAACCAACAATGACAGG
TTTCAGATCAGCAATCTGACTGTCATAGCCAAAGAAAACACTGAACATGC
GATGGCCATCTCCCGCGTGTTGGAGAACCACATTCGAACAACTCCGCCGG
CTCAGAAGTTGCCCGCCTTGTATGTAGTCGATTCGATTGTCAAGAACGTA
GGCACGCCCTACACTCTGTTCCTGGGTCGCAATCTGTATCAGACCTTTAT
GAACGCCTACACACTGGTCGATTCGCAGACGCGCAAGAAGTTGGATGAGA
TGCTCAAAACCTGGAAGGAGCCGGTTCCGGGTTCCCTCGACACCAGGCCC
GTTTTTCCTCCAGAAATTACTCGCAGTATCGAGAGTGCTCTGATCAAAGC
AAGGACTGCAGCGCTTCAGCAGCAGCAGGCCCGAACCCAACAAGACATCC
TCGCTCGCGGTCGAGTTGGCACTCCTCCAGCTTGGAACAGCACTCCTACA
CCACCGCAAGGCATGGGCCGCCATCCACCTGCGGCAAACCAGGCTTTACC
CATGCATTACCAGCGCAATGGCTCTGGTCACGGATATCCACCATCGGGTG
AATCGTACTCTTCGCGGGGAACGCCAACTCCCCAAGCCCAGCCACGCTCA
ACAGAGGTTGATCTCGCGGTTCTCAACCGAGATATCGAGGCTCTTATTGC
CACCGCCAGGAACGATTTTGCAAACAATCCACTGGACCCTTCGATACAGC
AACGACTGAAGGCTCTTCTAGATCTTCAGGGTATCTTGCAACGGCAAGAA
CTTACCCAGGAACAATTGAAGCTCGTCCGCGACCAGGTTTCAGCTCTCGC
TCCGAAGCCTGCAATGCCGGCTCCTCAGGCTATGGCTCCAAGTGTCCCAG
CCGTTTCAACGCCCCCCATGGCTACTCCTCCAGCCCAAACACTTTCGCAA
CCTTTACAACAGCTTCTCAATCCTGGCACGCTTGCCGGGCTCCTCAAAGC
TACTGCTACACGTCAGCAGCCGACTCCGCCACCTCAAATTCACAACATCC
TACCGCAGATGCCCACTAATACCACCGCGCCGCAGCCTTCCGTCAGCGCC
GCACCGGAAAATCCTCTCATTGCAGCCCTAAGAGCACAGGGCTTACTGCC
ACCGGCCTCGGCACCTCCAGCCCCTTTCACTGCTGCTCCGCCGCCAAATG
TCACGCCTGCTTTTCCATTAATTGTACCTGGTCAGGTGCGAGTCACGCCT
CCAGTCGCAACACCGCAGACACAGCAAGGTACATCCAATGCGCAGATCAA
CGTTCAAATGAGCACAGCGTCCATCAAAATCCCTCGGCAAATGCTGATCT
CCAGCCTCTACGAGACGCGGTCAAACCGGTGTGGAACATGCGGTCAACGT
TTCTTTGCAACAGAGGAAGGGAAGGAGAAGAAGGCTCGCCATTTGGATTG
GCACTTCCGCACCAACCAGCGCATGTCTGAGGCAGCTAGGCGGGCCCAGA
ACCGCAGCTGGTACGTTGATGAACGGGATTGGATTAAATCTCGTGAGGCG
GGTGACGAACAAGATCTTGCGGAGACGGAGGCCTCCGCTGAGGGTGTTGC
TGGTGCTGACGGCGCTGCGACTAAGAAGGGGCCTCCCAAGCAGTGGATCC
ACGCCCCGAATGACGCAACATTGCGAAACACCCCTTGCCCTATCTGCCAG
GAGAAGTTTGAGTCGACATGGTCGGAGGATGTGCAGGACTGGATCTGGCA
GGATGCGGTCAAGGTGGGAAGTCGCGTGTACCATGCTAGTTGCTATGCCG
AAGTTACCAATAACGGACCTACGCCAGCCAGCCGGGGGACGCCATCAGGA
CGAACTGGGACTCCCGAGTCTGTTTTGGGCAAACGCAAGGCCGAGGGGAC
CGACTCTCCTGGGTCCAATGTGCGGATTAAAACAGAGCCCGTGTGAATGT
CATCCGGGTTGGCCTCCGACGAAGTTGCCGAGGATTACAAGAATTCCTTG
GAAGATCTAACCAACAATGACAGGTTTCAGATCAGCAATCTGACTGTCAT
AGCCAAAGAAAACACTGAACATGCGATGGCCATCTCCCGCGTGTTGGAGA
ACCACATTCGAACAACTCCGCCGGCTCAGAAGTTGCCCGCCTTGTATGTA
GTCGATTCGATTGTCAAGAACGTAGGCACGCCCTACACTCTGTTCCTGGG
TCGCAATCTGTATCAGACCTTTATGAACGCCTACACACTGGTCGATTCGC
AGACGCGCAAGAAGTTGGATGAGATGCTCAAAACCTGGAAGGAGCCGGTT
CCGGGTTCCCTCGACACCAGGCCCGTTTTTCCTCCAGAAATTACTCGCAG
TATCGAGAGTGCTCTGATCAAAGCAAGGACTGCAGCGCTTCAGCAGCAGC
AGGCCCGAACCCAACAAGACATCCTCGCTCGCGGTCGAGTTGGCACTCCT
CCAGCTTGGAACAGCACTCCTACACCACCGCAAGGCATGGGCCGCCATCC
ACCTGCGGCAAACCAGGCTTTACCCATGCATTACCAGCGCAATGGCTCTG
GTCACGGATATCCACCATCGGGTGAATCGTACTCTTCGCGGGGAACGCCA
ACTCCCCAAGCCCAGCCACGCTCAACAGAGGTTGATCTCGCGGTTCTCAA
CCGAGATATCGAGGCTCTTATTGCCACCGCCAGGAACGATTTTGCAAACA
ATCCACTGGACCCTTCGATACAGCAACGACTGAAGGCTCTTCTAGATCTT
CAGGGTATCTTGCAACGGCAAGAACTTACCCAGGAACAATTGAAGCTCGT
CCGCGACCAGGTTTCAGCTCTCGCTCCGAAGCCTGCAATGCCGGCTCCTC
AGGCTATGGCTCCAAGTGTCCCAGCCGTTTCAACGCCCCCCATGGCTACT
CCTCCAGCCCAAACACTTTCGCAACCTTTACAACAGCTTCTCAATCCTGG
CACGCTTGCCGGGCTCCTCAAAGCTACTGCTACACGTCAGCAGCCGACTC
CGCCACCTCAAATTCACAACATCCTACCGCAGATGCCCACTAATACCACC
GCGCCGCAGCCTTCCGTCAGCGCCGCACCGGAAAATCCTCTCATTGCAGC
CCTAAGAGCACAGGGCTTACTGCCACCGGCCTCGGCACCTCCAGCCCCTT
TCACTGCTGCTCCGCCGCCAAATGTCACGCCTGCTTTTCCATTAATTGTA
CCTGGTCAGGTGCGAGTCACGCCTCCAGTCGCAACACCGCAGACACAGCA
AGGTACATCCAATGCGCAGATCAACGTTCAAATGAGCACAGCGTCCATCA
AAATCCCTCGGCAAATGCTGATCTCCAGCCTCTACGAGACGCGGTCAAAC
CGGTGTGGAACATGCGGTCAACGTTTCTTTGCAACAGAGGAAGGGAAGGA
GAAGAAGGCTCGCCATTTGGATTGGCACTTCCGCACCAACCAGCGCATGT
CTGAGGCAGCTAGGCGGGCCCAGAACCGCAGCTGGTACGTTGATGAACGG
GATTGGATTAAATCTCGTGAGGCGGGTGACGAACAAGATCTTGCGGAGAC
GGAGGCCTCCGCTGAGGGTGTTGCTGGTGCTGACGGCGCTGCGACTAAGA
AGGGGCCTCCCAAGCAGTGGATCCACGCCCCGAATGACGCAACATTGCGA
AACACCCCTTGCCCTATCTGCCAGGAGAAGTTTGAGTCGACATGGTCGGA
GGATGTGCAGGACTGGATCTGGCAGGATGCGGTCAAGGTGGGAAGTCGCG
TGTACCATGCTAGTTGCTATGCCGAAGTTACCAATAACGGACCTACGCCA
GCCAGCCGGGGGACGCCATCAGGACGAACTGGGACTCCCGAGTCTGTTTT
GGGCAAACGCAAGGCCGAGGGGACCGACTCTCCTGGGTCCAATGTGCGGA
TTAAAACAGAGCCCGTGTGAATGTCATCCGGGTTGGCCTCCGACGAAGTT
GCCGAGGATTACAAGAATTCCTTGGAAGATCTAACCAACAATGACAGGTT
TCAGATCAGCAATCTGACTGTCATAGCCAAAGAAAACACTGAACATGCGA
TGGCCATCTCCCGCGTGTTGGAGAACCACATTCGAACAACTCCGCCGGCT
CAGAAGTTGCCCGCCTTGTATGTAGTCGATTCGATTGTCAAGAACGTAGG
CACGCCCTACACTCTGTTCCTGGGTCGCAATCTGTATCAGACCTTTATGA
ACGCCTACACACTGGTCGATTCGCAGACGCGCAAGAAGTTGGATGAGATG
CTCAAAACCTGGAAGGAGCCGGTTCCGGGTTCCCTCGACACCAGGCCCGT
TTTTCCTCCAGAAATTACTCGCAGTATCGAGAGTGCTCTGATCAAAGCAA
GGACTGCAGCGCTTCAGCAGCAGCAGGCCCGAACCCAACAAGACATCCTC
GCTCGCGGTCGAGTTGGCACTCCTCCAGCTTGGAACAGCACTCCTACACC
ACCGCAAGGCATGGGCCGCCATCCACCTGCGGCAAACCAGGCTTTACCCA
TGCATTACCAGCGCAATGGCTCTGGTCACGGATATCCACCATCGGGTGAA
TCGTACTCTTCGCGGGGAACGCCAACTCCCCAAGCCCAGCCACGCTCAAC
AGAGGTTGATCTCGCGGTTCTCAACCGAGATATCGAGGCTCTTATTGCCA
CCGCCAGGAACGATTTTGCAAACAATCCACTGGACCCTTCGATACAGCAA
CGACTGAAGGCTCTTCTAGATCTTCAGGGTATCTTGCAACGGCAAGAACT
TACCCAGGAACAATTGAAGCTCGTCCGCGACCAGGTTTCAGCTCTCGCTC
CGAAGCCTGCAATGCCGGCTCCTCAGGCTATGGCTCCAAGTGTCCCAGCC
GTTTCAACGCCCCCCATGGCTACTCCTCCAGCCCAAACACTTTCGCAACC
TTTACAACAGCTTCTCAATCCTGGCACGCTTGCCGGGCTCCTCAAAGCTA
CTGCTACACGTCAGCAGCCGACTCCGCCACCTCAAATTCACAACATCCTA
CCGCAGATGCCCACTAATACCACCGCGCCGCAGCCTTCCGTCAGCGCCGC
ACCGGAAAATCCTCTCATTGCAGCCCTAAGAGCACAGGGCTTACTGCCAC
CGGCCTCGGCACCTCCAGCCCCTTTCACTGCTGCTCCGCCGCCAAATGTC
ACGCCTGCTTTTCCATTAATTGTACCTGGTCAGGTGCGAGTCACGCCTCC
AGTCGCAACACCGCAGACACAGCAAGGTACATCCAATGCGCAGATCAACG
TTCAAATGAGCACAGCGTCCATCAAAATCCCTCGGCAAATGCTGATCTCC
AGCCTCTACGAGACGCGGTCAAACCGGTGTGGAACATGCGGTCAACGTTT
CTTTGCAACAGAGGAAGGGAAGGAGAAGAAGGCTCGCCATTTGGATTGGC
ACTTCCGCACCAACCAGCGCATGTCTGAGGCAGCTAGGCGGGCCCAGAAC
CGCAGCTGGTACGTTGATGAACGGGATTGGATTAAATCTCGTGAGGCGGG
TGACGAACAAGATCTTGCGGAGACGGAGGCCTCCGCTGAGGGTGTTGCTG
GTGCTGACGGCGCTGCGACTAAGAAGGGGCCTCCCAAGCAGTGGATCCAC
GCCCCGAATGACGCAACATTGCGAAACACCCCTTGCCCTATCTGCCAGGA
GAAGTTTGAGTCGACATGGTCGGAGGATGTGCAGGACTGGATCTGGCAGG
ATGCGGTCAAGGTGGGAAGTCGCGTGTACCATGCTAGTTGCTATGCCGAA
GTTACCAATAACGGACCTACGCCAGCCAGCCGGGGGACGCCATCAGGACG
AACTGGGACTCCCGAGTCTGTTTTGGGCAAACGCAAGGCCGAGGGGACCG
ACTCTCCTGGGTCCAATGTGCGGATTAAAACAGAGCCCGTGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005849 | mRNA cleavage factor complex |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006378 | mRNA polyadenylation |
| GO:0006379 | mRNA cleavage |
| GO:0006369 | termination of RNA polymerase II transcription |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR008942 |
| DBxref | InterPro:IPR021605 |
| DBxref | InterPro:IPR006569 |
| 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 |
|---|
| ACJE01000009.1 | supercontig | ACJE01000009.1:2368077..2370395 + |
|
