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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000010.1:2226572..2228506- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_15665-T1 ID=CAN33_15665-T1|Name=CAN33_15665-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1935bp|location=Sequence derived from alignment at NKJJ01000010.1:2226572..2228506- (Aspergillus niger FDAARGOS_311)
ATGTCTTTCAAACATGGAGAGATGGCAATCCAGGAGCTGGGCTCCCGGCA
ATACAAGGATCGTGATGATGAAGACATGGCAAAGTTTGGCAGGAAGCAGC
GTTTCGAGGTGAGCACTCAATTTATGTCTGTGTCTCGTAACTAATGGAGG
CAGAGAAATTTTGGCTTCCTGTCCATGCTGGGCTTCACAACCACGATGAT
GTGTACTTGGGAGGCGGTTCTCACGTGGGTGTCAACATTTCCATGATCGA
TGTCACCGGGCTGACTAGTATACAGCGCCAATCCGGCAGCCATGGTTGAC
GGAGGACCAGCGACCCTCGTCTACGGGTTCATCTTCTGCTGGATTGGAGC
TTTGTTAACAGCAGCCTCTCTCGCCGAAATGGCCTCGATGTACAGAGCCC
CCTATACCACGCTCGAATTACACAACACTAAGTCAATTGTTATGCAGGGC
TCCAACGTCAGCCGGTCAATACCACTGGGTATCCATACTCGCCCCTAAAG
GCCAAGCTGTCTTCCTCAGCTGGGTAACCGGATGGTTGGACATGATCGGA
TGGTGGGCCAACACTGCATCGGGAGTGTATTTCGCCGCCACCGTCCTGCA
GGGTCTTCTGGTGCTGAACTATGACGGGTATGACTTTCAACGCTGGCATG
GCACACTGCTCATGTTCGCGGCGTTGGTAATCTGCCTTCTAGTCAACTCT
TTTGGGGCACGGCTTCTCCCCAAGATCGAAGGGCTGATCCTCATTCTCCA
TACCGCCGGCTTCCTAGCCATCCTGATCCCTCTGGTCTATCTGGCCCCGC
ATAAGAACGCCGAATTCGTCTTTGCGAACTTCACCAACACCTCGGGATGG
AAGAACTCTGGTCTTACCTGGCTGATTGGGTTGATGGGGACAAATCTTCC
TTTTATTGGTACGCTACAAAGTCCTCGTGTTGACGCTGTGGATAGACTAA
CCTGGTAACCTAGGATACGATGGCCCCTGTCATATGTGTAAGCCATTTAC
ACCCACTTCCCAGCCAAAAATAATCTATATCTAACGAAACAACAGCAGAA
GAAGTAGTCAACGCTTCCGTCATAGTCCCCTGGTGCATGATCGCGACTAT
CATGCTAAACGGCACTCTGGGCTTCGCCATGGTCCTAGCCTTCCTCTTCT
GCGTAGGCGACCTGGACGCCGCCCTCGACAGCGCCACCGGATACGACTTC
ATCGAAGTCTTCTTCAATGCGACAAAATCCCACGCCGGAACATCCGTAAT
GAGTGCCATCGTGATCGCCCTGACAATTTGCGCCTCGTTTGGATTCCTTG
CCTCCTCATCGCGCCTTACCTGGGCATTAGCCAAGGACAAGGGAATTCCA
TTCGCTGATTTCCTGTCGCACGTACGAAGAGATCGCACCCCTCCGCACAA
ATACCATCAATACTAACATAGACTAAAACAGATAAGCACCAGGACCTCCG
GCTCTGCCCTGCCCCTCCGCGCCATCGCTTTCTGCGCCATAATAACAGCC
ATCACCTGCCTCATCAACATCGGCTCCAGCGCAGCCTTCAACGCCATGAT
CTCTCTGACAACAGCGGGACTGTTCTCATCATACGAGATTGCCATCGTGC
TGATACTCATCAAGAAGCTCAAGAACGAGCCGCTCCAATACGGCCCGTGG
AAGATGGGTAGGCTGTGGGGAATCCTGATCAATATTGGGTCGATCTGTTT
CTTGACCATTACTATTTTCTTCTCATTCTTTCCCGAGGAGTTGCCCGTGA
CGCCGACGAATATGAATTGGTCGGTGGTGGTGTTTATGGGCGAATTCCTA
CTCGGGTTGGGGTGGTATTTGGTTAGGGGAGGAAGATCTATCATGGGCCG
GTCATGGATGTTCCGGTTGCTGTTGGAGAAGGGGGAGTGGTGGGCGGCGA
TGGCGGAGATGACGAGTAGTAGTACGCTCTTATAG back to topCoding sequence (CDS) from alignment at NKJJ01000010.1:2226572..2228506- >CAN33_15665-T1 ID=CAN33_15665-T1|Name=CAN33_15665-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11256bp|location=Sequence derived from alignment at NKJJ01000010.1:2226572..2228506- (Aspergillus niger FDAARGOS_311)
ATAAGCACCAGGACCTCCGGCTCTGCCCTGCCCCTCCGCGCCATCGCTTT
CTGCGCCATAATAACAGCCATCACCTGCCTCATCAACATCGGCTCCAGCG
CAGCCTTCAACGCCATGATCTCTCTGACAACAGCGGGACTGTTCTCATCA
TACGAGATTGCCATCGTGCTGATACTCATCAAGAAGCTCAAGAACGAGCC
GCTCCAATACGGCCCGTGGAAGATGGGTAGGCTGTGGGGAATCCTGATCA
ATATTGGGTCGATCTGTTTCTTGACCATTACTATTTTCTTCTCATTCTTT
CCCGAGGAGTTGCCCGTGACGCCGACGAATATGAATTGGTCGGTGGTGGT
GTTTATGGGCGAATTCCTACTCGGGTTGGGGTGGTATTTGGTTAGGGGAG
GAAGATCTATCATGGGCCGGTCATGGATGTTCCGGTTGCTGTTGGAGAAG
GGGGAGTGGTGGGCGGCGATGGCGGAGATGACGAGTAGTAGTACGCTCTT
ATAGCAGAAGAAGTAGTCAACGCTTCCGTCATAGTCCCCTGGTGCATGAT
CGCGACTATCATGCTAAACGGCACTCTGGGCTTCGCCATGGTCCTAGCCT
TCCTCTTCTGCGTAGGCGACCTGGACGCCGCCCTCGACAGCGCCACCGGA
TACGACTTCATCGAAGTCTTCTTCAATGCGACAAAATCCCACGCCGGAAC
ATCCGTAATGAGTGCCATCGTGATCGCCCTGACAATTTGCGCCTCGTTTG
GATTCCTTGCCTCCTCATCGCGCCTTACCTGGGCATTAGCCAAGGACAAG
GGAATTCCATTCGCTGATTTCCTGTCGCACGATACGATGGCCCCTGTCAT
ATGTGGCTCCAACGTCAGCCGGTCAATACCACTGGGTATCCATACTCGCC
CCTAAAGGCCAAGCTGTCTTCCTCAGCTGGGTAACCGGATGGTTGGACAT
GATCGGATGGTGGGCCAACACTGCATCGGGAGTGTATTTCGCCGCCACCG
TCCTGCAGGGTCTTCTGGTGCTGAACTATGACGGGTATGACTTTCAACGC
TGGCATGGCACACTGCTCATGTTCGCGGCGTTGGTAATCTGCCTTCTAGT
CAACTCTTTTGGGGCACGGCTTCTCCCCAAGATCGAAGGGCTGATCCTCA
TTCTCCATACCGCCGGCTTCCTAGCCATCCTGATCCCTCTGGTCTATCTG
GCCCCGCATAAGAACGCCGAATTCGTCTTTGCGAACTTCACCAACACCTC
GGGATGGAAGAACTCTGGTCTTACCTGGCTGATTGGGTTGATGGGGACAA
ATCTTCCTTTTATTGCGCCAATCCGGCAGCCATGGTTGACGGAGGACCAG
CGACCCTCGTCTACGGGTTCATCTTCTGCTGGATTGGAGCTTTGTTAACA
GCAGCCTCTCTCGCCGAAATGGCCTCGATAGAAATTTTGGCTTCCTGTCC
ATGCTGGGCTTCACAACCACGATGATGTGTACTTGGGAGGCGGTTCTCAC
ATGTCTTTCAAACATGGAGAGATGGCAATCCAGGAGCTGGGCTCCCGGCA
ATACAAGGATCGTGATGATGAAGACATGGCAAAGTTTGGCAGGAAGCAGC
GTTTCGAGATAAGCACCAGGACCTCCGGCTCTGCCCTGCCCCTCCGCGCC
ATCGCTTTCTGCGCCATAATAACAGCCATCACCTGCCTCATCAACATCGG
CTCCAGCGCAGCCTTCAACGCCATGATCTCTCTGACAACAGCGGGACTGT
TCTCATCATACGAGATTGCCATCGTGCTGATACTCATCAAGAAGCTCAAG
AACGAGCCGCTCCAATACGGCCCGTGGAAGATGGGTAGGCTGTGGGGAAT
CCTGATCAATATTGGGTCGATCTGTTTCTTGACCATTACTATTTTCTTCT
CATTCTTTCCCGAGGAGTTGCCCGTGACGCCGACGAATATGAATTGGTCG
GTGGTGGTGTTTATGGGCGAATTCCTACTCGGGTTGGGGTGGTATTTGGT
TAGGGGAGGAAGATCTATCATGGGCCGGTCATGGATGTTCCGGTTGCTGT
TGGAGAAGGGGGAGTGGTGGGCGGCGATGGCGGAGATGACGAGTAGTAGT
ACGCTCTTATAGCAGAAGAAGTAGTCAACGCTTCCGTCATAGTCCCCTGG
TGCATGATCGCGACTATCATGCTAAACGGCACTCTGGGCTTCGCCATGGT
CCTAGCCTTCCTCTTCTGCGTAGGCGACCTGGACGCCGCCCTCGACAGCG
CCACCGGATACGACTTCATCGAAGTCTTCTTCAATGCGACAAAATCCCAC
GCCGGAACATCCGTAATGAGTGCCATCGTGATCGCCCTGACAATTTGCGC
CTCGTTTGGATTCCTTGCCTCCTCATCGCGCCTTACCTGGGCATTAGCCA
AGGACAAGGGAATTCCATTCGCTGATTTCCTGTCGCACGATACGATGGCC
CCTGTCATATGTGGCTCCAACGTCAGCCGGTCAATACCACTGGGTATCCA
TACTCGCCCCTAAAGGCCAAGCTGTCTTCCTCAGCTGGGTAACCGGATGG
TTGGACATGATCGGATGGTGGGCCAACACTGCATCGGGAGTGTATTTCGC
CGCCACCGTCCTGCAGGGTCTTCTGGTGCTGAACTATGACGGGTATGACT
TTCAACGCTGGCATGGCACACTGCTCATGTTCGCGGCGTTGGTAATCTGC
CTTCTAGTCAACTCTTTTGGGGCACGGCTTCTCCCCAAGATCGAAGGGCT
GATCCTCATTCTCCATACCGCCGGCTTCCTAGCCATCCTGATCCCTCTGG
TCTATCTGGCCCCGCATAAGAACGCCGAATTCGTCTTTGCGAACTTCACC
AACACCTCGGGATGGAAGAACTCTGGTCTTACCTGGCTGATTGGGTTGAT
GGGGACAAATCTTCCTTTTATTGCGCCAATCCGGCAGCCATGGTTGACGG
AGGACCAGCGACCCTCGTCTACGGGTTCATCTTCTGCTGGATTGGAGCTT
TGTTAACAGCAGCCTCTCTCGCCGAAATGGCCTCGATAGAAATTTTGGCT
TCCTGTCCATGCTGGGCTTCACAACCACGATGATGTGTACTTGGGAGGCG
GTTCTCACATGTCTTTCAAACATGGAGAGATGGCAATCCAGGAGCTGGGC
TCCCGGCAATACAAGGATCGTGATGATGAAGACATGGCAAAGTTTGGCAG
GAAGCAGCGTTTCGAGATAAGCACCAGGACCTCCGGCTCTGCCCTGCCCC
TCCGCGCCATCGCTTTCTGCGCCATAATAACAGCCATCACCTGCCTCATC
AACATCGGCTCCAGCGCAGCCTTCAACGCCATGATCTCTCTGACAACAGC
GGGACTGTTCTCATCATACGAGATTGCCATCGTGCTGATACTCATCAAGA
AGCTCAAGAACGAGCCGCTCCAATACGGCCCGTGGAAGATGGGTAGGCTG
TGGGGAATCCTGATCAATATTGGGTCGATCTGTTTCTTGACCATTACTAT
TTTCTTCTCATTCTTTCCCGAGGAGTTGCCCGTGACGCCGACGAATATGA
ATTGGTCGGTGGTGGTGTTTATGGGCGAATTCCTACTCGGGTTGGGGTGG
TATTTGGTTAGGGGAGGAAGATCTATCATGGGCCGGTCATGGATGTTCCG
GTTGCTGTTGGAGAAGGGGGAGTGGTGGGCGGCGATGGCGGAGATGACGA
GTAGTAGTACGCTCTTATAGCAGAAGAAGTAGTCAACGCTTCCGTCATAG
TCCCCTGGTGCATGATCGCGACTATCATGCTAAACGGCACTCTGGGCTTC
GCCATGGTCCTAGCCTTCCTCTTCTGCGTAGGCGACCTGGACGCCGCCCT
CGACAGCGCCACCGGATACGACTTCATCGAAGTCTTCTTCAATGCGACAA
AATCCCACGCCGGAACATCCGTAATGAGTGCCATCGTGATCGCCCTGACA
ATTTGCGCCTCGTTTGGATTCCTTGCCTCCTCATCGCGCCTTACCTGGGC
ATTAGCCAAGGACAAGGGAATTCCATTCGCTGATTTCCTGTCGCACGATA
CGATGGCCCCTGTCATATGTGGCTCCAACGTCAGCCGGTCAATACCACTG
GGTATCCATACTCGCCCCTAAAGGCCAAGCTGTCTTCCTCAGCTGGGTAA
CCGGATGGTTGGACATGATCGGATGGTGGGCCAACACTGCATCGGGAGTG
TATTTCGCCGCCACCGTCCTGCAGGGTCTTCTGGTGCTGAACTATGACGG
GTATGACTTTCAACGCTGGCATGGCACACTGCTCATGTTCGCGGCGTTGG
TAATCTGCCTTCTAGTCAACTCTTTTGGGGCACGGCTTCTCCCCAAGATC
GAAGGGCTGATCCTCATTCTCCATACCGCCGGCTTCCTAGCCATCCTGAT
CCCTCTGGTCTATCTGGCCCCGCATAAGAACGCCGAATTCGTCTTTGCGA
ACTTCACCAACACCTCGGGATGGAAGAACTCTGGTCTTACCTGGCTGATT
GGGTTGATGGGGACAAATCTTCCTTTTATTGCGCCAATCCGGCAGCCATG
GTTGACGGAGGACCAGCGACCCTCGTCTACGGGTTCATCTTCTGCTGGAT
TGGAGCTTTGTTAACAGCAGCCTCTCTCGCCGAAATGGCCTCGATAGAAA
TTTTGGCTTCCTGTCCATGCTGGGCTTCACAACCACGATGATGTGTACTT
GGGAGGCGGTTCTCACATGTCTTTCAAACATGGAGAGATGGCAATCCAGG
AGCTGGGCTCCCGGCAATACAAGGATCGTGATGATGAAGACATGGCAAAG
TTTGGCAGGAAGCAGCGTTTCGAGATAAGCACCAGGACCTCCGGCTCTGC
CCTGCCCCTCCGCGCCATCGCTTTCTGCGCCATAATAACAGCCATCACCT
GCCTCATCAACATCGGCTCCAGCGCAGCCTTCAACGCCATGATCTCTCTG
ACAACAGCGGGACTGTTCTCATCATACGAGATTGCCATCGTGCTGATACT
CATCAAGAAGCTCAAGAACGAGCCGCTCCAATACGGCCCGTGGAAGATGG
GTAGGCTGTGGGGAATCCTGATCAATATTGGGTCGATCTGTTTCTTGACC
ATTACTATTTTCTTCTCATTCTTTCCCGAGGAGTTGCCCGTGACGCCGAC
GAATATGAATTGGTCGGTGGTGGTGTTTATGGGCGAATTCCTACTCGGGT
TGGGGTGGTATTTGGTTAGGGGAGGAAGATCTATCATGGGCCGGTCATGG
ATGTTCCGGTTGCTGTTGGAGAAGGGGGAGTGGTGGGCGGCGATGGCGGA
GATGACGAGTAGTAGTACGCTCTTATAGCAGAAGAAGTAGTCAACGCTTC
CGTCATAGTCCCCTGGTGCATGATCGCGACTATCATGCTAAACGGCACTC
TGGGCTTCGCCATGGTCCTAGCCTTCCTCTTCTGCGTAGGCGACCTGGAC
GCCGCCCTCGACAGCGCCACCGGATACGACTTCATCGAAGTCTTCTTCAA
TGCGACAAAATCCCACGCCGGAACATCCGTAATGAGTGCCATCGTGATCG
CCCTGACAATTTGCGCCTCGTTTGGATTCCTTGCCTCCTCATCGCGCCTT
ACCTGGGCATTAGCCAAGGACAAGGGAATTCCATTCGCTGATTTCCTGTC
GCACGATACGATGGCCCCTGTCATATGTGGCTCCAACGTCAGCCGGTCAA
TACCACTGGGTATCCATACTCGCCCCTAAAGGCCAAGCTGTCTTCCTCAG
CTGGGTAACCGGATGGTTGGACATGATCGGATGGTGGGCCAACACTGCAT
CGGGAGTGTATTTCGCCGCCACCGTCCTGCAGGGTCTTCTGGTGCTGAAC
TATGACGGGTATGACTTTCAACGCTGGCATGGCACACTGCTCATGTTCGC
GGCGTTGGTAATCTGCCTTCTAGTCAACTCTTTTGGGGCACGGCTTCTCC
CCAAGATCGAAGGGCTGATCCTCATTCTCCATACCGCCGGCTTCCTAGCC
ATCCTGATCCCTCTGGTCTATCTGGCCCCGCATAAGAACGCCGAATTCGT
CTTTGCGAACTTCACCAACACCTCGGGATGGAAGAACTCTGGTCTTACCT
GGCTGATTGGGTTGATGGGGACAAATCTTCCTTTTATTGCGCCAATCCGG
CAGCCATGGTTGACGGAGGACCAGCGACCCTCGTCTACGGGTTCATCTTC
TGCTGGATTGGAGCTTTGTTAACAGCAGCCTCTCTCGCCGAAATGGCCTC
GATAGAAATTTTGGCTTCCTGTCCATGCTGGGCTTCACAACCACGATGAT
GTGTACTTGGGAGGCGGTTCTCACATGTCTTTCAAACATGGAGAGATGGC
AATCCAGGAGCTGGGCTCCCGGCAATACAAGGATCGTGATGATGAAGACA
TGGCAAAGTTTGGCAGGAAGCAGCGTTTCGAGATAAGCACCAGGACCTCC
GGCTCTGCCCTGCCCCTCCGCGCCATCGCTTTCTGCGCCATAATAACAGC
CATCACCTGCCTCATCAACATCGGCTCCAGCGCAGCCTTCAACGCCATGA
TCTCTCTGACAACAGCGGGACTGTTCTCATCATACGAGATTGCCATCGTG
CTGATACTCATCAAGAAGCTCAAGAACGAGCCGCTCCAATACGGCCCGTG
GAAGATGGGTAGGCTGTGGGGAATCCTGATCAATATTGGGTCGATCTGTT
TCTTGACCATTACTATTTTCTTCTCATTCTTTCCCGAGGAGTTGCCCGTG
ACGCCGACGAATATGAATTGGTCGGTGGTGGTGTTTATGGGCGAATTCCT
ACTCGGGTTGGGGTGGTATTTGGTTAGGGGAGGAAGATCTATCATGGGCC
GGTCATGGATGTTCCGGTTGCTGTTGGAGAAGGGGGAGTGGTGGGCGGCG
ATGGCGGAGATGACGAGTAGTAGTACGCTCTTATAGCAGAAGAAGTAGTC
AACGCTTCCGTCATAGTCCCCTGGTGCATGATCGCGACTATCATGCTAAA
CGGCACTCTGGGCTTCGCCATGGTCCTAGCCTTCCTCTTCTGCGTAGGCG
ACCTGGACGCCGCCCTCGACAGCGCCACCGGATACGACTTCATCGAAGTC
TTCTTCAATGCGACAAAATCCCACGCCGGAACATCCGTAATGAGTGCCAT
CGTGATCGCCCTGACAATTTGCGCCTCGTTTGGATTCCTTGCCTCCTCAT
CGCGCCTTACCTGGGCATTAGCCAAGGACAAGGGAATTCCATTCGCTGAT
TTCCTGTCGCACGATACGATGGCCCCTGTCATATGTGGCTCCAACGTCAG
CCGGTCAATACCACTGGGTATCCATACTCGCCCCTAAAGGCCAAGCTGTC
TTCCTCAGCTGGGTAACCGGATGGTTGGACATGATCGGATGGTGGGCCAA
CACTGCATCGGGAGTGTATTTCGCCGCCACCGTCCTGCAGGGTCTTCTGG
TGCTGAACTATGACGGGTATGACTTTCAACGCTGGCATGGCACACTGCTC
ATGTTCGCGGCGTTGGTAATCTGCCTTCTAGTCAACTCTTTTGGGGCACG
GCTTCTCCCCAAGATCGAAGGGCTGATCCTCATTCTCCATACCGCCGGCT
TCCTAGCCATCCTGATCCCTCTGGTCTATCTGGCCCCGCATAAGAACGCC
GAATTCGTCTTTGCGAACTTCACCAACACCTCGGGATGGAAGAACTCTGG
TCTTACCTGGCTGATTGGGTTGATGGGGACAAATCTTCCTTTTATTGCGC
CAATCCGGCAGCCATGGTTGACGGAGGACCAGCGACCCTCGTCTACGGGT
TCATCTTCTGCTGGATTGGAGCTTTGTTAACAGCAGCCTCTCTCGCCGAA
ATGGCCTCGATAGAAATTTTGGCTTCCTGTCCATGCTGGGCTTCACAACC
ACGATGATGTGTACTTGGGAGGCGGTTCTCACATGTCTTTCAAACATGGA
GAGATGGCAATCCAGGAGCTGGGCTCCCGGCAATACAAGGATCGTGATGA
TGAAGACATGGCAAAGTTTGGCAGGAAGCAGCGTTTCGAGATAAGCACCA
GGACCTCCGGCTCTGCCCTGCCCCTCCGCGCCATCGCTTTCTGCGCCATA
ATAACAGCCATCACCTGCCTCATCAACATCGGCTCCAGCGCAGCCTTCAA
CGCCATGATCTCTCTGACAACAGCGGGACTGTTCTCATCATACGAGATTG
CCATCGTGCTGATACTCATCAAGAAGCTCAAGAACGAGCCGCTCCAATAC
GGCCCGTGGAAGATGGGTAGGCTGTGGGGAATCCTGATCAATATTGGGTC
GATCTGTTTCTTGACCATTACTATTTTCTTCTCATTCTTTCCCGAGGAGT
TGCCCGTGACGCCGACGAATATGAATTGGTCGGTGGTGGTGTTTATGGGC
GAATTCCTACTCGGGTTGGGGTGGTATTTGGTTAGGGGAGGAAGATCTAT
CATGGGCCGGTCATGGATGTTCCGGTTGCTGTTGGAGAAGGGGGAGTGGT
GGGCGGCGATGGCGGAGATGACGAGTAGTAGTACGCTCTTATAGCAGAAG
AAGTAGTCAACGCTTCCGTCATAGTCCCCTGGTGCATGATCGCGACTATC
ATGCTAAACGGCACTCTGGGCTTCGCCATGGTCCTAGCCTTCCTCTTCTG
CGTAGGCGACCTGGACGCCGCCCTCGACAGCGCCACCGGATACGACTTCA
TCGAAGTCTTCTTCAATGCGACAAAATCCCACGCCGGAACATCCGTAATG
AGTGCCATCGTGATCGCCCTGACAATTTGCGCCTCGTTTGGATTCCTTGC
CTCCTCATCGCGCCTTACCTGGGCATTAGCCAAGGACAAGGGAATTCCAT
TCGCTGATTTCCTGTCGCACGATACGATGGCCCCTGTCATATGTGGCTCC
AACGTCAGCCGGTCAATACCACTGGGTATCCATACTCGCCCCTAAAGGCC
AAGCTGTCTTCCTCAGCTGGGTAACCGGATGGTTGGACATGATCGGATGG
TGGGCCAACACTGCATCGGGAGTGTATTTCGCCGCCACCGTCCTGCAGGG
TCTTCTGGTGCTGAACTATGACGGGTATGACTTTCAACGCTGGCATGGCA
CACTGCTCATGTTCGCGGCGTTGGTAATCTGCCTTCTAGTCAACTCTTTT
GGGGCACGGCTTCTCCCCAAGATCGAAGGGCTGATCCTCATTCTCCATAC
CGCCGGCTTCCTAGCCATCCTGATCCCTCTGGTCTATCTGGCCCCGCATA
AGAACGCCGAATTCGTCTTTGCGAACTTCACCAACACCTCGGGATGGAAG
AACTCTGGTCTTACCTGGCTGATTGGGTTGATGGGGACAAATCTTCCTTT
TATTGCGCCAATCCGGCAGCCATGGTTGACGGAGGACCAGCGACCCTCGT
CTACGGGTTCATCTTCTGCTGGATTGGAGCTTTGTTAACAGCAGCCTCTC
TCGCCGAAATGGCCTCGATAGAAATTTTGGCTTCCTGTCCATGCTGGGCT
TCACAACCACGATGATGTGTACTTGGGAGGCGGTTCTCACATGTCTTTCA
AACATGGAGAGATGGCAATCCAGGAGCTGGGCTCCCGGCAATACAAGGAT
CGTGATGATGAAGACATGGCAAAGTTTGGCAGGAAGCAGCGTTTCGAGAT
AAGCACCAGGACCTCCGGCTCTGCCCTGCCCCTCCGCGCCATCGCTTTCT
GCGCCATAATAACAGCCATCACCTGCCTCATCAACATCGGCTCCAGCGCA
GCCTTCAACGCCATGATCTCTCTGACAACAGCGGGACTGTTCTCATCATA
CGAGATTGCCATCGTGCTGATACTCATCAAGAAGCTCAAGAACGAGCCGC
TCCAATACGGCCCGTGGAAGATGGGTAGGCTGTGGGGAATCCTGATCAAT
ATTGGGTCGATCTGTTTCTTGACCATTACTATTTTCTTCTCATTCTTTCC
CGAGGAGTTGCCCGTGACGCCGACGAATATGAATTGGTCGGTGGTGGTGT
TTATGGGCGAATTCCTACTCGGGTTGGGGTGGTATTTGGTTAGGGGAGGA
AGATCTATCATGGGCCGGTCATGGATGTTCCGGTTGCTGTTGGAGAAGGG
GGAGTGGTGGGCGGCGATGGCGGAGATGACGAGTAGTAGTACGCTCTTAT
AGCAGAAGAAGTAGTCAACGCTTCCGTCATAGTCCCCTGGTGCATGATCG
CGACTATCATGCTAAACGGCACTCTGGGCTTCGCCATGGTCCTAGCCTTC
CTCTTCTGCGTAGGCGACCTGGACGCCGCCCTCGACAGCGCCACCGGATA
CGACTTCATCGAAGTCTTCTTCAATGCGACAAAATCCCACGCCGGAACAT
CCGTAATGAGTGCCATCGTGATCGCCCTGACAATTTGCGCCTCGTTTGGA
TTCCTTGCCTCCTCATCGCGCCTTACCTGGGCATTAGCCAAGGACAAGGG
AATTCCATTCGCTGATTTCCTGTCGCACGATACGATGGCCCCTGTCATAT
GTGGCTCCAACGTCAGCCGGTCAATACCACTGGGTATCCATACTCGCCCC
TAAAGGCCAAGCTGTCTTCCTCAGCTGGGTAACCGGATGGTTGGACATGA
TCGGATGGTGGGCCAACACTGCATCGGGAGTGTATTTCGCCGCCACCGTC
CTGCAGGGTCTTCTGGTGCTGAACTATGACGGGTATGACTTTCAACGCTG
GCATGGCACACTGCTCATGTTCGCGGCGTTGGTAATCTGCCTTCTAGTCA
ACTCTTTTGGGGCACGGCTTCTCCCCAAGATCGAAGGGCTGATCCTCATT
CTCCATACCGCCGGCTTCCTAGCCATCCTGATCCCTCTGGTCTATCTGGC
CCCGCATAAGAACGCCGAATTCGTCTTTGCGAACTTCACCAACACCTCGG
GATGGAAGAACTCTGGTCTTACCTGGCTGATTGGGTTGATGGGGACAAAT
CTTCCTTTTATTGCGCCAATCCGGCAGCCATGGTTGACGGAGGACCAGCG
ACCCTCGTCTACGGGTTCATCTTCTGCTGGATTGGAGCTTTGTTAACAGC
AGCCTCTCTCGCCGAAATGGCCTCGATAGAAATTTTGGCTTCCTGTCCAT
GCTGGGCTTCACAACCACGATGATGTGTACTTGGGAGGCGGTTCTCACAT
GTCTTTCAAACATGGAGAGATGGCAATCCAGGAGCTGGGCTCCCGGCAAT
ACAAGGATCGTGATGATGAAGACATGGCAAAGTTTGGCAGGAAGCAGCGT
TTCGAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016020 | membrane |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0022857 | transmembrane transporter activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
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:IPR002293 |
| DBxref | PFAM:PF13520 |
| DBxref | PFAM:PF00324 |
| Product | Amino acid permease 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 |
|---|
| NKJJ01000010.1 | supercontig | NKJJ01000010.1:2226572..2228506 - |
|
