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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000017.1:2519485..2522264+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_40195-T1 ID=CAN33_40195-T1|Name=CAN33_40195-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2780bp|location=Sequence derived from alignment at NKJJ01000017.1:2519485..2522264+ (Aspergillus niger FDAARGOS_311)
ATGTCTAGACCGAACGCCGCGTCTAAAAAGTTCTTAGTGAACCAAGCCTT
GGTAATTATCTCACTCTTTCCTACTTACCACTTGATGTCGATCACCACAA
TAAAGGTTCTTCGGACTAACCAGTAGCCAGAAAGCCGAACGAGATGCATC
TAGTGCTCTTACTCAAGGCCAGGCCCTTGAGTCTGCCATTGACGCCGCTG
AAAACTACATGAAGGCGCTGAGTCTGACTACCGAGTCAAAGGATAGACAG
GCTCTCGATGCTAAATGTAAAGAATGGCTCACTCGAGCAGAAAGGATCAA
ACAGGACAAGGACTGGCAGGCGGTTCTCCAAATTCATGAGAAAAGCGGTC
TCACGGCGCGTTTCCCCAAATCCACACGTAAACTTACCACCCGAGAAGAG
ATCATTCTGCTCGAGAGCGCAAAGCTGAACGGCTTTATCTTTCCTCCATG
GAAAAATGCGCCGGGCCCCGAGGACTTTGAGAAGGGCGATGAAGGCCTTT
TCACGTAAGTGTACTCTAGTCCCTGATGGTGGAGGCTTCGTCAAATGTTG
ATGTCCAATTGCTGACTGGATCCAGTGACAAGCCAGACCTTCATCTGTCT
AAACTGCAAAGGCGCATTCTGGCAGGCTGGGAGCGTCCCTTTGATTTGTT
GTCCAAACATGCAAATGGTATCGATGGCCTGAAGTCAAAAATGCCTGTAA
TGTCGGTCTCGGGCCCCACAGATCTCGTACAAGATATGTTGACCGACTGC
TCCGTCGTTGCCAGTCTTTGTGCTGCTACATCAAGGTCCGAGCGTGGTCT
AGATAAGGTATGAGAAATATCAACGTGACATTTTTGCAAGACACAAGTGT
CTAATAATTGCAGCACCATCTTCCCATAGTCTTCCCCTGTGAATACGGGC
AGGTAAATCCAAGAATTTCTCCTTCTGGGAAATACATTTTTCGCTTTTAT
TTCAATGGATGTTTCAGGAAAGTTGTCATTGATGATCGCTTGCCTGCGTC
CAAAACATCAAGATCACTTCATGTTGTCGATCGGAACCATCCTAACTTCC
TATGGCCGGCCTTTGTAGAAAAGGCATATCTGAAACTTCGCGGGGGTTAT
GATTTTCCTGGGAGCAATTCTGGTACAGATCTGTGGGTCTTGACAGGTTG
GATTCCCGAGCAGGTTTTCCTTCATCAAGATGATGTGACTGCAGAGCAAC
TCTGGAGACGGCTATTCAAACGCTTCCGGAATGGCGATGTCCTACTGACG
ATAGGTACGGGCAAATTAACCGAGAGGGAGCAAAAAGAACTAGGCTTTGC
GAGCGAACACGACTACGCTATTTTGGATATGAGAGAACAGAGAGACCGTC
GCCAAATGCTTGTAAAGAACCCATGGGCAGGTGATGATGCGATCACCGGA
GATATTGCAGACAGTTTCGCACTTGGACACACATCTCACACCCCTGCGTC
CTCTTTACCTAGAACATATTGGATGGATTGCGAGAGTGTCCTTCAGAATT
TCGAGAATCTGTATCTGAACTGGAACCCGGGAATCTTTCGCTATCGGGAA
GATATCCACTTCGCATGGGACCTTTCGACTGCCAGAGGGGTGGCTGGCTG
TTTCGCGAAAAATCCTCAGTTTGCTGTCACCTCTGAGGTTGGCGGCAAAG
TTTGGCTACTACTTGGGAAGCACTTCAGGTCGATTCATCATGACGAACAA
ACTCAGGTGCCCCAAGACGATCTGGAACCAGGATTTATTAGTATCTACGT
ATTCAACGCAAACGGGAAACGAGTGGCATTGAGTGAAGGCGCTCTTCATC
GTGGACCATACGTTGACTCGCCAAATACTCTCATGAGACTTGAAATGCCC
CCAGGCACGACCTACACTGTCGTTGTGTCCGAGCAGTCATTGCCCGCTGT
CAGCCAGAACTTCACATTGTCAGCTCTTTCCGACAACCCTTTACTCTTGG
CGCCTGCTCAGAACCGATACGCTTGCCTGACAAAAACTCAGGGATTGTGG
ATGCCCTCCACGGCAGGAGGAAACGCCGAATCTGCCCGTTACCCTTTCAA
TCCCCAGTTCCGACTAGAGGTTCATGACGATACAGATATCTCCATCCTGC
TGGAACCATCGGAGCCGGAGCTCGCTACGCATGTCAAGTTATTCTGGTCC
AATGGAGAGCGTGTGACTAGGGTTCGGAATCGCGATATAATCACCGATAG
CGGTGACTACCGGCGTGGCGGGTCTCTTGCGGAAAAAAAGAGACTTGGCG
AAGGAGTGTACACTCTCGTCTGTTCAACTTTCGCCCCGGACCAGCTTGGA
CGATTCACACTCTGGATTTCGTCAGCACTACCGTGCGTCGTTAAGCCGCT
TGCGCCGGAGGCAGCTGGGCGACGGGCGGTCATATCAGATATTGGAATCC
TGACTCCTGGAAAAGATCGGATGCTGGCTTCCTTGGAGACCAAGCGCTTG
ACCCGCATTAAACTGATAGGACGGAGCAGACTGTCTACGATCGGGAATCA
CGCCGTTGGCCCGTCCCCGATGTTGATGACAGTAGAGCTGGGTCAAGGGC
CGTACAAAGAGATACTGGCTACCTCTGAAGATGGAATCCACAGTGATGCG
ATATCTGGAGTACGAATTGAGGATTTCGATCTGCATCCGGGTCTCGCAGA
TCAGGGTGGGGCCTGGATAGTCATTGAGAGAATCGGGGGACCTGGGGGAC
AAGTTGAGGACCACTTTGAAGTTGAAGCTTTGGCCGAGGAGCGGGTGGAT
ATCGGCGAATGGATCGTCGAGGATGCATGA back to topCoding sequence (CDS) from alignment at NKJJ01000017.1:2519485..2522264+ >CAN33_40195-T1 ID=CAN33_40195-T1|Name=CAN33_40195-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10296bp|location=Sequence derived from alignment at NKJJ01000017.1:2519485..2522264+ (Aspergillus niger FDAARGOS_311)
ATGTCTAGACCGAACGCCGCGTCTAAAAAGTTCTTAGTGAACCAAGCCTT
GAAAGCCGAACGAGATGCATCTAGTGCTCTTACTCAAGGCCAGGCCCTTG
AGTCTGCCATTGACGCCGCTGAAAACTACATGAAGGCGCTGAGTCTGACT
ACCGAGTCAAAGGATAGACAGGCTCTCGATGCTAAATGTAAAGAATGGCT
CACTCGAGCAGAAAGGATCAAACAGGACAAGGACTGGCAGGCGGTTCTCC
AAATTCATGAGAAAAGCGGTCTCACGGCGCGTTTCCCCAAATCCACACGT
AAACTTACCACCCGAGAAGAGATCATTCTGCTCGAGAGCGCAAAGCTGAA
CGGCTTTATCTTTCCTCCATGGAAAAATGCGCCGGGCCCCGAGGACTTTG
AGAAGGGCGATGAAGGCCTTTTCACTGACAAGCCAGACCTTCATCTGTCT
AAACTGCAAAGGCGCATTCTGGCAGGCTGGGAGCGTCCCTTTGATTTGTT
GTCCAAACATGCAAATGGTATCGATGGCCTGAAGTCAAAAATGCCTGTAA
TGTCGGTCTCGGGCCCCACAGATCTCGTACAAGATATGTTGACCGACTGC
TCCGTCGTTGCCAGTCTTTGTGCTGCTACATCAAGGTCCGAGCGTGGTCT
AGATAAGCACCATCTTCCCATAGTCTTCCCCTGTGAATACGGGCAGGTAA
ATCCAAGAATTTCTCCTTCTGGGAAATACATTTTTCGCTTTTATTTCAAT
GGATGTTTCAGGAAAGTTGTCATTGATGATCGCTTGCCTGCGTCCAAAAC
ATCAAGATCACTTCATGTTGTCGATCGGAACCATCCTAACTTCCTATGGC
CGGCCTTTGTAGAAAAGGCATATCTGAAACTTCGCGGGGGTTATGATTTT
CCTGGGAGCAATTCTGGTACAGATCTGTGGGTCTTGACAGGTTGGATTCC
CGAGCAGGTTTTCCTTCATCAAGATGATGTGACTGCAGAGCAACTCTGGA
GACGGCTATTCAAACGCTTCCGGAATGGCGATGTCCTACTGACGATAGGT
ACGGGCAAATTAACCGAGAGGGAGCAAAAAGAACTAGGCTTTGCGAGCGA
ACACGACTACGCTATTTTGGATATGAGAGAACAGAGAGACCGTCGCCAAA
TGCTTGTAAAGAACCCATGGGCAGGTGATGATGCGATCACCGGAGATATT
GCAGACAGTTTCGCACTTGGACACACATCTCACACCCCTGCGTCCTCTTT
ACCTAGAACATATTGGATGGATTGCGAGAGTGTCCTTCAGAATTTCGAGA
ATCTGTATCTGAACTGGAACCCGGGAATCTTTCGCTATCGGGAAGATATC
CACTTCGCATGGGACCTTTCGACTGCCAGAGGGGTGGCTGGCTGTTTCGC
GAAAAATCCTCAGTTTGCTGTCACCTCTGAGGTTGGCGGCAAAGTTTGGC
TACTACTTGGGAAGCACTTCAGGTCGATTCATCATGACGAACAAACTCAG
GTGCCCCAAGACGATCTGGAACCAGGATTTATTAGTATCTACGTATTCAA
CGCAAACGGGAAACGAGTGGCATTGAGTGAAGGCGCTCTTCATCGTGGAC
CATACGTTGACTCGCCAAATACTCTCATGAGACTTGAAATGCCCCCAGGC
ACGACCTACACTGTCGTTGTGTCCGAGCAGTCATTGCCCGCTGTCAGCCA
GAACTTCACATTGTCAGCTCTTTCCGACAACCCTTTACTCTTGGCGCCTG
CTCAGAACCGATACGCTTGCCTGACAAAAACTCAGGGATTGTGGATGCCC
TCCACGGCAGGAGGAAACGCCGAATCTGCCCGTTACCCTTTCAATCCCCA
GTTCCGACTAGAGGTTCATGACGATACAGATATCTCCATCCTGCTGGAAC
CATCGGAGCCGGAGCTCGCTACGCATGTCAAGTTATTCTGGTCCAATGGA
GAGCGTGTGACTAGGGTTCGGAATCGCGATATAATCACCGATAGCGGTGA
CTACCGGCGTGGCGGGTCTCTTGCGGAAAAAAAGAGACTTGGCGAAGGAG
TGTACACTCTCGTCTGTTCAACTTTCGCCCCGGACCAGCTTGGACGATTC
ACACTCTGGATTTCGTCAGCACTACCGTGCGTCGTTAAGCCGCTTGCGCC
GGAGGCAGCTGGGCGACGGGCGGTCATATCAGATATTGGAATCCTGACTC
CTGGAAAAGATCGGATGCTGGCTTCCTTGGAGACCAAGCGCTTGACCCGC
ATTAAACTGATAGGACGGAGCAGACTGTCTACGATCGGGAATCACGCCGT
TGGCCCGTCCCCGATGTTGATGACAGTAGAGCTGGGTCAAGGGCCGTACA
AAGAGATACTGGCTACCTCTGAAGATGGAATCCACAGTGATGCGATATCT
GGAGTACGAATTGAGGATTTCGATCTGCATCCGGGTCTCGCAGATCAGGG
TGGGGCCTGGATAGTCATTGAGAGAATCGGGGGACCTGGGGGACAAGTTG
AGGACCACTTTGAAGTTGAAGCTTTGGCCGAGGAGCGGGTGGATATCGGC
GAATGGATCGTCGAGGATGCATGAATGTCTAGACCGAACGCCGCGTCTAA
AAAGTTCTTAGTGAACCAAGCCTTGAAAGCCGAACGAGATGCATCTAGTG
CTCTTACTCAAGGCCAGGCCCTTGAGTCTGCCATTGACGCCGCTGAAAAC
TACATGAAGGCGCTGAGTCTGACTACCGAGTCAAAGGATAGACAGGCTCT
CGATGCTAAATGTAAAGAATGGCTCACTCGAGCAGAAAGGATCAAACAGG
ACAAGGACTGGCAGGCGGTTCTCCAAATTCATGAGAAAAGCGGTCTCACG
GCGCGTTTCCCCAAATCCACACGTAAACTTACCACCCGAGAAGAGATCAT
TCTGCTCGAGAGCGCAAAGCTGAACGGCTTTATCTTTCCTCCATGGAAAA
ATGCGCCGGGCCCCGAGGACTTTGAGAAGGGCGATGAAGGCCTTTTCACT
GACAAGCCAGACCTTCATCTGTCTAAACTGCAAAGGCGCATTCTGGCAGG
CTGGGAGCGTCCCTTTGATTTGTTGTCCAAACATGCAAATGGTATCGATG
GCCTGAAGTCAAAAATGCCTGTAATGTCGGTCTCGGGCCCCACAGATCTC
GTACAAGATATGTTGACCGACTGCTCCGTCGTTGCCAGTCTTTGTGCTGC
TACATCAAGGTCCGAGCGTGGTCTAGATAAGCACCATCTTCCCATAGTCT
TCCCCTGTGAATACGGGCAGGTAAATCCAAGAATTTCTCCTTCTGGGAAA
TACATTTTTCGCTTTTATTTCAATGGATGTTTCAGGAAAGTTGTCATTGA
TGATCGCTTGCCTGCGTCCAAAACATCAAGATCACTTCATGTTGTCGATC
GGAACCATCCTAACTTCCTATGGCCGGCCTTTGTAGAAAAGGCATATCTG
AAACTTCGCGGGGGTTATGATTTTCCTGGGAGCAATTCTGGTACAGATCT
GTGGGTCTTGACAGGTTGGATTCCCGAGCAGGTTTTCCTTCATCAAGATG
ATGTGACTGCAGAGCAACTCTGGAGACGGCTATTCAAACGCTTCCGGAAT
GGCGATGTCCTACTGACGATAGGTACGGGCAAATTAACCGAGAGGGAGCA
AAAAGAACTAGGCTTTGCGAGCGAACACGACTACGCTATTTTGGATATGA
GAGAACAGAGAGACCGTCGCCAAATGCTTGTAAAGAACCCATGGGCAGGT
GATGATGCGATCACCGGAGATATTGCAGACAGTTTCGCACTTGGACACAC
ATCTCACACCCCTGCGTCCTCTTTACCTAGAACATATTGGATGGATTGCG
AGAGTGTCCTTCAGAATTTCGAGAATCTGTATCTGAACTGGAACCCGGGA
ATCTTTCGCTATCGGGAAGATATCCACTTCGCATGGGACCTTTCGACTGC
CAGAGGGGTGGCTGGCTGTTTCGCGAAAAATCCTCAGTTTGCTGTCACCT
CTGAGGTTGGCGGCAAAGTTTGGCTACTACTTGGGAAGCACTTCAGGTCG
ATTCATCATGACGAACAAACTCAGGTGCCCCAAGACGATCTGGAACCAGG
ATTTATTAGTATCTACGTATTCAACGCAAACGGGAAACGAGTGGCATTGA
GTGAAGGCGCTCTTCATCGTGGACCATACGTTGACTCGCCAAATACTCTC
ATGAGACTTGAAATGCCCCCAGGCACGACCTACACTGTCGTTGTGTCCGA
GCAGTCATTGCCCGCTGTCAGCCAGAACTTCACATTGTCAGCTCTTTCCG
ACAACCCTTTACTCTTGGCGCCTGCTCAGAACCGATACGCTTGCCTGACA
AAAACTCAGGGATTGTGGATGCCCTCCACGGCAGGAGGAAACGCCGAATC
TGCCCGTTACCCTTTCAATCCCCAGTTCCGACTAGAGGTTCATGACGATA
CAGATATCTCCATCCTGCTGGAACCATCGGAGCCGGAGCTCGCTACGCAT
GTCAAGTTATTCTGGTCCAATGGAGAGCGTGTGACTAGGGTTCGGAATCG
CGATATAATCACCGATAGCGGTGACTACCGGCGTGGCGGGTCTCTTGCGG
AAAAAAAGAGACTTGGCGAAGGAGTGTACACTCTCGTCTGTTCAACTTTC
GCCCCGGACCAGCTTGGACGATTCACACTCTGGATTTCGTCAGCACTACC
GTGCGTCGTTAAGCCGCTTGCGCCGGAGGCAGCTGGGCGACGGGCGGTCA
TATCAGATATTGGAATCCTGACTCCTGGAAAAGATCGGATGCTGGCTTCC
TTGGAGACCAAGCGCTTGACCCGCATTAAACTGATAGGACGGAGCAGACT
GTCTACGATCGGGAATCACGCCGTTGGCCCGTCCCCGATGTTGATGACAG
TAGAGCTGGGTCAAGGGCCGTACAAAGAGATACTGGCTACCTCTGAAGAT
GGAATCCACAGTGATGCGATATCTGGAGTACGAATTGAGGATTTCGATCT
GCATCCGGGTCTCGCAGATCAGGGTGGGGCCTGGATAGTCATTGAGAGAA
TCGGGGGACCTGGGGGACAAGTTGAGGACCACTTTGAAGTTGAAGCTTTG
GCCGAGGAGCGGGTGGATATCGGCGAATGGATCGTCGAGGATGCATGAAT
GTCTAGACCGAACGCCGCGTCTAAAAAGTTCTTAGTGAACCAAGCCTTGA
AAGCCGAACGAGATGCATCTAGTGCTCTTACTCAAGGCCAGGCCCTTGAG
TCTGCCATTGACGCCGCTGAAAACTACATGAAGGCGCTGAGTCTGACTAC
CGAGTCAAAGGATAGACAGGCTCTCGATGCTAAATGTAAAGAATGGCTCA
CTCGAGCAGAAAGGATCAAACAGGACAAGGACTGGCAGGCGGTTCTCCAA
ATTCATGAGAAAAGCGGTCTCACGGCGCGTTTCCCCAAATCCACACGTAA
ACTTACCACCCGAGAAGAGATCATTCTGCTCGAGAGCGCAAAGCTGAACG
GCTTTATCTTTCCTCCATGGAAAAATGCGCCGGGCCCCGAGGACTTTGAG
AAGGGCGATGAAGGCCTTTTCACTGACAAGCCAGACCTTCATCTGTCTAA
ACTGCAAAGGCGCATTCTGGCAGGCTGGGAGCGTCCCTTTGATTTGTTGT
CCAAACATGCAAATGGTATCGATGGCCTGAAGTCAAAAATGCCTGTAATG
TCGGTCTCGGGCCCCACAGATCTCGTACAAGATATGTTGACCGACTGCTC
CGTCGTTGCCAGTCTTTGTGCTGCTACATCAAGGTCCGAGCGTGGTCTAG
ATAAGCACCATCTTCCCATAGTCTTCCCCTGTGAATACGGGCAGGTAAAT
CCAAGAATTTCTCCTTCTGGGAAATACATTTTTCGCTTTTATTTCAATGG
ATGTTTCAGGAAAGTTGTCATTGATGATCGCTTGCCTGCGTCCAAAACAT
CAAGATCACTTCATGTTGTCGATCGGAACCATCCTAACTTCCTATGGCCG
GCCTTTGTAGAAAAGGCATATCTGAAACTTCGCGGGGGTTATGATTTTCC
TGGGAGCAATTCTGGTACAGATCTGTGGGTCTTGACAGGTTGGATTCCCG
AGCAGGTTTTCCTTCATCAAGATGATGTGACTGCAGAGCAACTCTGGAGA
CGGCTATTCAAACGCTTCCGGAATGGCGATGTCCTACTGACGATAGGTAC
GGGCAAATTAACCGAGAGGGAGCAAAAAGAACTAGGCTTTGCGAGCGAAC
ACGACTACGCTATTTTGGATATGAGAGAACAGAGAGACCGTCGCCAAATG
CTTGTAAAGAACCCATGGGCAGGTGATGATGCGATCACCGGAGATATTGC
AGACAGTTTCGCACTTGGACACACATCTCACACCCCTGCGTCCTCTTTAC
CTAGAACATATTGGATGGATTGCGAGAGTGTCCTTCAGAATTTCGAGAAT
CTGTATCTGAACTGGAACCCGGGAATCTTTCGCTATCGGGAAGATATCCA
CTTCGCATGGGACCTTTCGACTGCCAGAGGGGTGGCTGGCTGTTTCGCGA
AAAATCCTCAGTTTGCTGTCACCTCTGAGGTTGGCGGCAAAGTTTGGCTA
CTACTTGGGAAGCACTTCAGGTCGATTCATCATGACGAACAAACTCAGGT
GCCCCAAGACGATCTGGAACCAGGATTTATTAGTATCTACGTATTCAACG
CAAACGGGAAACGAGTGGCATTGAGTGAAGGCGCTCTTCATCGTGGACCA
TACGTTGACTCGCCAAATACTCTCATGAGACTTGAAATGCCCCCAGGCAC
GACCTACACTGTCGTTGTGTCCGAGCAGTCATTGCCCGCTGTCAGCCAGA
ACTTCACATTGTCAGCTCTTTCCGACAACCCTTTACTCTTGGCGCCTGCT
CAGAACCGATACGCTTGCCTGACAAAAACTCAGGGATTGTGGATGCCCTC
CACGGCAGGAGGAAACGCCGAATCTGCCCGTTACCCTTTCAATCCCCAGT
TCCGACTAGAGGTTCATGACGATACAGATATCTCCATCCTGCTGGAACCA
TCGGAGCCGGAGCTCGCTACGCATGTCAAGTTATTCTGGTCCAATGGAGA
GCGTGTGACTAGGGTTCGGAATCGCGATATAATCACCGATAGCGGTGACT
ACCGGCGTGGCGGGTCTCTTGCGGAAAAAAAGAGACTTGGCGAAGGAGTG
TACACTCTCGTCTGTTCAACTTTCGCCCCGGACCAGCTTGGACGATTCAC
ACTCTGGATTTCGTCAGCACTACCGTGCGTCGTTAAGCCGCTTGCGCCGG
AGGCAGCTGGGCGACGGGCGGTCATATCAGATATTGGAATCCTGACTCCT
GGAAAAGATCGGATGCTGGCTTCCTTGGAGACCAAGCGCTTGACCCGCAT
TAAACTGATAGGACGGAGCAGACTGTCTACGATCGGGAATCACGCCGTTG
GCCCGTCCCCGATGTTGATGACAGTAGAGCTGGGTCAAGGGCCGTACAAA
GAGATACTGGCTACCTCTGAAGATGGAATCCACAGTGATGCGATATCTGG
AGTACGAATTGAGGATTTCGATCTGCATCCGGGTCTCGCAGATCAGGGTG
GGGCCTGGATAGTCATTGAGAGAATCGGGGGACCTGGGGGACAAGTTGAG
GACCACTTTGAAGTTGAAGCTTTGGCCGAGGAGCGGGTGGATATCGGCGA
ATGGATCGTCGAGGATGCATGAATGTCTAGACCGAACGCCGCGTCTAAAA
AGTTCTTAGTGAACCAAGCCTTGAAAGCCGAACGAGATGCATCTAGTGCT
CTTACTCAAGGCCAGGCCCTTGAGTCTGCCATTGACGCCGCTGAAAACTA
CATGAAGGCGCTGAGTCTGACTACCGAGTCAAAGGATAGACAGGCTCTCG
ATGCTAAATGTAAAGAATGGCTCACTCGAGCAGAAAGGATCAAACAGGAC
AAGGACTGGCAGGCGGTTCTCCAAATTCATGAGAAAAGCGGTCTCACGGC
GCGTTTCCCCAAATCCACACGTAAACTTACCACCCGAGAAGAGATCATTC
TGCTCGAGAGCGCAAAGCTGAACGGCTTTATCTTTCCTCCATGGAAAAAT
GCGCCGGGCCCCGAGGACTTTGAGAAGGGCGATGAAGGCCTTTTCACTGA
CAAGCCAGACCTTCATCTGTCTAAACTGCAAAGGCGCATTCTGGCAGGCT
GGGAGCGTCCCTTTGATTTGTTGTCCAAACATGCAAATGGTATCGATGGC
CTGAAGTCAAAAATGCCTGTAATGTCGGTCTCGGGCCCCACAGATCTCGT
ACAAGATATGTTGACCGACTGCTCCGTCGTTGCCAGTCTTTGTGCTGCTA
CATCAAGGTCCGAGCGTGGTCTAGATAAGCACCATCTTCCCATAGTCTTC
CCCTGTGAATACGGGCAGGTAAATCCAAGAATTTCTCCTTCTGGGAAATA
CATTTTTCGCTTTTATTTCAATGGATGTTTCAGGAAAGTTGTCATTGATG
ATCGCTTGCCTGCGTCCAAAACATCAAGATCACTTCATGTTGTCGATCGG
AACCATCCTAACTTCCTATGGCCGGCCTTTGTAGAAAAGGCATATCTGAA
ACTTCGCGGGGGTTATGATTTTCCTGGGAGCAATTCTGGTACAGATCTGT
GGGTCTTGACAGGTTGGATTCCCGAGCAGGTTTTCCTTCATCAAGATGAT
GTGACTGCAGAGCAACTCTGGAGACGGCTATTCAAACGCTTCCGGAATGG
CGATGTCCTACTGACGATAGGTACGGGCAAATTAACCGAGAGGGAGCAAA
AAGAACTAGGCTTTGCGAGCGAACACGACTACGCTATTTTGGATATGAGA
GAACAGAGAGACCGTCGCCAAATGCTTGTAAAGAACCCATGGGCAGGTGA
TGATGCGATCACCGGAGATATTGCAGACAGTTTCGCACTTGGACACACAT
CTCACACCCCTGCGTCCTCTTTACCTAGAACATATTGGATGGATTGCGAG
AGTGTCCTTCAGAATTTCGAGAATCTGTATCTGAACTGGAACCCGGGAAT
CTTTCGCTATCGGGAAGATATCCACTTCGCATGGGACCTTTCGACTGCCA
GAGGGGTGGCTGGCTGTTTCGCGAAAAATCCTCAGTTTGCTGTCACCTCT
GAGGTTGGCGGCAAAGTTTGGCTACTACTTGGGAAGCACTTCAGGTCGAT
TCATCATGACGAACAAACTCAGGTGCCCCAAGACGATCTGGAACCAGGAT
TTATTAGTATCTACGTATTCAACGCAAACGGGAAACGAGTGGCATTGAGT
GAAGGCGCTCTTCATCGTGGACCATACGTTGACTCGCCAAATACTCTCAT
GAGACTTGAAATGCCCCCAGGCACGACCTACACTGTCGTTGTGTCCGAGC
AGTCATTGCCCGCTGTCAGCCAGAACTTCACATTGTCAGCTCTTTCCGAC
AACCCTTTACTCTTGGCGCCTGCTCAGAACCGATACGCTTGCCTGACAAA
AACTCAGGGATTGTGGATGCCCTCCACGGCAGGAGGAAACGCCGAATCTG
CCCGTTACCCTTTCAATCCCCAGTTCCGACTAGAGGTTCATGACGATACA
GATATCTCCATCCTGCTGGAACCATCGGAGCCGGAGCTCGCTACGCATGT
CAAGTTATTCTGGTCCAATGGAGAGCGTGTGACTAGGGTTCGGAATCGCG
ATATAATCACCGATAGCGGTGACTACCGGCGTGGCGGGTCTCTTGCGGAA
AAAAAGAGACTTGGCGAAGGAGTGTACACTCTCGTCTGTTCAACTTTCGC
CCCGGACCAGCTTGGACGATTCACACTCTGGATTTCGTCAGCACTACCGT
GCGTCGTTAAGCCGCTTGCGCCGGAGGCAGCTGGGCGACGGGCGGTCATA
TCAGATATTGGAATCCTGACTCCTGGAAAAGATCGGATGCTGGCTTCCTT
GGAGACCAAGCGCTTGACCCGCATTAAACTGATAGGACGGAGCAGACTGT
CTACGATCGGGAATCACGCCGTTGGCCCGTCCCCGATGTTGATGACAGTA
GAGCTGGGTCAAGGGCCGTACAAAGAGATACTGGCTACCTCTGAAGATGG
AATCCACAGTGATGCGATATCTGGAGTACGAATTGAGGATTTCGATCTGC
ATCCGGGTCTCGCAGATCAGGGTGGGGCCTGGATAGTCATTGAGAGAATC
GGGGGACCTGGGGGACAAGTTGAGGACCACTTTGAAGTTGAAGCTTTGGC
CGAGGAGCGGGTGGATATCGGCGAATGGATCGTCGAGGATGCATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006508 | proteolysis |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004198 | calcium-dependent cysteine-type endopeptidase activity |
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:
Properties
| Property Name | Value |
|---|
| Note | MEROPS:MER0005406 |
| DBxref | InterPro:IPR036213 |
| DBxref | InterPro:IPR036181 |
| DBxref | InterPro:IPR038765 |
| DBxref | InterPro:IPR022683 |
| DBxref | InterPro:IPR007330 |
| DBxref | InterPro:IPR001300 |
| DBxref | PFAM:PF00648 |
| Product | Calpain family cysteine protease family 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 |
|---|
| NKJJ01000017.1 | supercontig | NKJJ01000017.1:2519485..2522264 + |
|
