CAN33_28775-T1, CAN33_28775-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_28775-T1
Unique Name	CAN33_28775-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000008.1:366570..368483+
coding sequence from alignment at NKJJ01000008.1:366570..368483+

mRNA from alignment at NKJJ01000008.1:366570..368483+

Legend: polypeptideexonCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>CAN33_28775-T1 ID=CAN33_28775-T1|Name=CAN33_28775-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1914bp|location=Sequence derived from alignment at NKJJ01000008.1:366570..368483+ (Aspergillus niger FDAARGOS_311)
ATGTCGAAGAAGCCTGACCAATATTCAGATGAACAAGAAGGAGGAAATGA
CGGCCGCCAGATTATGCTCAATCCAGTCCCATCCAGCGATCCCAATGAAC
CGTTGGTAGGTATCCCAAGTTTCAGCAGCAATCAAATTCCCTGACAGTCA
TAGAATTGGAGCACAGCACGAAAAATATGCAACTTTACCCTCGTTCTCGC
AGTGACAGCACTCATATTCACAGCGTGGGTTACTTCTATGGGTCATGGAT
GGCACTGATCTAATAGTGGTCGATAGGCTTTCGATCCAGGCAATCTTTTG
GCAATTGATGGTGGTGGATCTCAATGTGACATATACACAACTGAATCGTG
CCATGTCAGTGAACTTCGTTGGTCTTGCCGTGGGTTGCGTATTCTTCATT
CCCCTAGCGAAGAAGTTCGGACGAAGGCCCGTGTATCTCGTTTCGACTGC
CCTCATGTTGGCGACTTCCTTTTGGACGTCGAGGTTGCAATCTCTTGCGG
AATTGTATGCTACAAATCTGCTTCAGGGGTTAGCTGGAGCTACCAATGAG
TCGATTGTCCAGATTACGGTAGCGCAGCCCTTCCGGTTAAAGTAACCATT
ACTGACTGCTACAGATTTCTGACCTCTTCTTCGTGCACCATCGCGGGGGG
ATGAATGGTTTGTATATGACTATGGTTATGATCGGTGTAGGTCAAATCTC
TTGGGCAATGACTATTATCTGCCTGACCCCGTCATACTTACTAATCCCTT
GACAGAGCTTTCTCACCCCCATGGCAGCCGGGACTCAAGCAACAAACCAA
GGCTGGCGGGCATCATACCAAGCACTTGGTATCACTAACGCGGTTCTATT
CGTCCTATTCTTGTTTTTCTACGAGGAAACCAAATATACTCCAATCATTC
CCGGGGTCGACGAATCCCCAGAGGCTACAATAGACAGCATCAAGGCCGAT
CACAAACGCGATATTGAGTGTTCTACCAGTAGAGCCGAAACAAGCCCGAT
ACCAGCAGACCACCACGAGCTAGATTATAGGATTCCGATGAGAACATGGA
GACAGCGATTTGCCTTGATAACATACACCCCCGAGTCCATTTGGCCCTAC
TTCTATCGTCCCTTCTACGTTGTGGCCTCCTTTCCTGCCGTCCTCTTCTG
TGCCTTGCAGTATGCCTTTGGCGTGGTCTGGCTGACTATCCTATCCTCCA
CCCTGAGCTTAGTATTCCCATTGCCGCCCTATCTATTCACTTCGGAGCAG
ATTGGGTTCATGAGTGTTGGCCCGTTCATTGGGAATTTGATCGGATCGGT
CTATGGTGGGTTCCTCGGTGATTGGTCGATCTTGTTCTTTTCCAAGCGCA
ACAAGGGATACTATGAACCTGAGATGCGATTGTATATTCTTCACTTGCCG
GCACTGGCAATGGCTGGGGGTCTGATAATGTTTGGGGCCACAATTGCACG
GGTAAGCCTTTTAGCTTGTTTAACGTCGTTTGGAAACAAGCTAATGAAAT
CCAATCAGGGCATGCACTGGATCTATCCCAGTATCGGTGGTGCTTTGTTT
GGCTTCGGACTGGGCAGTATTAGCGATGCAGCACTGACGTTGGTTATCGA
CTCATATCGTGATGTAAGAATCTGCCGCTTTTTAGTACCTTTCCATGATA
CTCGAACACTCTTACTCATTGTCCTATCATGAGCAGATCACTGGGGACGC
CTTCACAGGAGTCGCCTTCATGCGAAATGCCATCAGTATCGGCATTCCCT
TTGCAATAAGTCCGTGGCTATCCCGATCCGGCGCGCAAAACATGTTCATT
GCATGTGGATTCATCAGCTTGGCAATCACTTTGACTATTGTTCCTATGGT
AATTTGGGGCAAGCGGATGAGGAGGGCAACTGCAGAGAGGTATCGGGTTA
TGGCTGGGAAGTAA

Coding sequence (CDS) from alignment at NKJJ01000008.1:366570..368483+

>CAN33_28775-T1 ID=CAN33_28775-T1|Name=CAN33_28775-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10983bp|location=Sequence derived from alignment at NKJJ01000008.1:366570..368483+ (Aspergillus niger FDAARGOS_311)
ATGTCGAAGAAGCCTGACCAATATTCAGATGAACAAGAAGGAGGAAATGA
CGGCCGCCAGATTATGCTCAATCCAGTCCCATCCAGCGATCCCAATGAAC
CGTTGAATTGGAGCACAGCACGAAAAATATGCAACTTTACCCTCGTTCTC
GCAGTGACAGCACTCATATTCACAGCGCTTTCGATCCAGGCAATCTTTTG
GCAATTGATGGTGGTGGATCTCAATGTGACATATACACAACTGAATCGTG
CCATGTCAGTGAACTTCGTTGGTCTTGCCGTGGGTTGCGTATTCTTCATT
CCCCTAGCGAAGAAGTTCGGACGAAGGCCCGTGTATCTCGTTTCGACTGC
CCTCATGTTGGCGACTTCCTTTTGGACGTCGAGGTTGCAATCTCTTGCGG
AATTGTATGCTACAAATCTGCTTCAGGGGTTAGCTGGAGCTACCAATGAG
TCGATTGTCCAGATTACGATTTCTGACCTCTTCTTCGTGCACCATCGCGG
GGGGATGAATGGTTTGTATATGACTATGGTTATGATCGGTAGCTTTCTCA
CCCCCATGGCAGCCGGGACTCAAGCAACAAACCAAGGCTGGCGGGCATCA
TACCAAGCACTTGGTATCACTAACGCGGTTCTATTCGTCCTATTCTTGTT
TTTCTACGAGGAAACCAAATATACTCCAATCATTCCCGGGGTCGACGAAT
CCCCAGAGGCTACAATAGACAGCATCAAGGCCGATCACAAACGCGATATT
GAGTGTTCTACCAGTAGAGCCGAAACAAGCCCGATACCAGCAGACCACCA
CGAGCTAGATTATAGGATTCCGATGAGAACATGGAGACAGCGATTTGCCT
TGATAACATACACCCCCGAGTCCATTTGGCCCTACTTCTATCGTCCCTTC
TACGTTGTGGCCTCCTTTCCTGCCGTCCTCTTCTGTGCCTTGCAGTATGC
CTTTGGCGTGGTCTGGCTGACTATCCTATCCTCCACCCTGAGCTTAGTAT
TCCCATTGCCGCCCTATCTATTCACTTCGGAGCAGATTGGGTTCATGAGT
GTTGGCCCGTTCATTGGGAATTTGATCGGATCGGTCTATGGTGGGTTCCT
CGGTGATTGGTCGATCTTGTTCTTTTCCAAGCGCAACAAGGGATACTATG
AACCTGAGATGCGATTGTATATTCTTCACTTGCCGGCACTGGCAATGGCT
GGGGGTCTGATAATGTTTGGGGCCACAATTGCACGGGGCATGCACTGGAT
CTATCCCAGTATCGGTGGTGCTTTGTTTGGCTTCGGACTGGGCAGTATTA
GCGATGCAGCACTGACGTTGGTTATCGACTCATATCGTGATATCACTGGG
GACGCCTTCACAGGAGTCGCCTTCATGCGAAATGCCATCAGTATCGGCAT
TCCCTTTGCAATAAGTCCGTGGCTATCCCGATCCGGCGCGCAAAACATGT
TCATTGCATGTGGATTCATCAGCTTGGCAATCACTTTGACTATTGTTCCT
ATGGTAATTTGGGGCAAGCGGATGAGGAGGGCAACTGCAGAGAGGTATCG
GGTTATGGCTGGGAAGTAAATGTCGAAGAAGCCTGACCAATATTCAGATG
AACAAGAAGGAGGAAATGACGGCCGCCAGATTATGCTCAATCCAGTCCCA
TCCAGCGATCCCAATGAACCGTTGAATTGGAGCACAGCACGAAAAATATG
CAACTTTACCCTCGTTCTCGCAGTGACAGCACTCATATTCACAGCGCTTT
CGATCCAGGCAATCTTTTGGCAATTGATGGTGGTGGATCTCAATGTGACA
TATACACAACTGAATCGTGCCATGTCAGTGAACTTCGTTGGTCTTGCCGT
GGGTTGCGTATTCTTCATTCCCCTAGCGAAGAAGTTCGGACGAAGGCCCG
TGTATCTCGTTTCGACTGCCCTCATGTTGGCGACTTCCTTTTGGACGTCG
AGGTTGCAATCTCTTGCGGAATTGTATGCTACAAATCTGCTTCAGGGGTT
AGCTGGAGCTACCAATGAGTCGATTGTCCAGATTACGATTTCTGACCTCT
TCTTCGTGCACCATCGCGGGGGGATGAATGGTTTGTATATGACTATGGTT
ATGATCGGTAGCTTTCTCACCCCCATGGCAGCCGGGACTCAAGCAACAAA
CCAAGGCTGGCGGGCATCATACCAAGCACTTGGTATCACTAACGCGGTTC
TATTCGTCCTATTCTTGTTTTTCTACGAGGAAACCAAATATACTCCAATC
ATTCCCGGGGTCGACGAATCCCCAGAGGCTACAATAGACAGCATCAAGGC
CGATCACAAACGCGATATTGAGTGTTCTACCAGTAGAGCCGAAACAAGCC
CGATACCAGCAGACCACCACGAGCTAGATTATAGGATTCCGATGAGAACA
TGGAGACAGCGATTTGCCTTGATAACATACACCCCCGAGTCCATTTGGCC
CTACTTCTATCGTCCCTTCTACGTTGTGGCCTCCTTTCCTGCCGTCCTCT
TCTGTGCCTTGCAGTATGCCTTTGGCGTGGTCTGGCTGACTATCCTATCC
TCCACCCTGAGCTTAGTATTCCCATTGCCGCCCTATCTATTCACTTCGGA
GCAGATTGGGTTCATGAGTGTTGGCCCGTTCATTGGGAATTTGATCGGAT
CGGTCTATGGTGGGTTCCTCGGTGATTGGTCGATCTTGTTCTTTTCCAAG
CGCAACAAGGGATACTATGAACCTGAGATGCGATTGTATATTCTTCACTT
GCCGGCACTGGCAATGGCTGGGGGTCTGATAATGTTTGGGGCCACAATTG
CACGGGGCATGCACTGGATCTATCCCAGTATCGGTGGTGCTTTGTTTGGC
TTCGGACTGGGCAGTATTAGCGATGCAGCACTGACGTTGGTTATCGACTC
ATATCGTGATATCACTGGGGACGCCTTCACAGGAGTCGCCTTCATGCGAA
ATGCCATCAGTATCGGCATTCCCTTTGCAATAAGTCCGTGGCTATCCCGA
TCCGGCGCGCAAAACATGTTCATTGCATGTGGATTCATCAGCTTGGCAAT
CACTTTGACTATTGTTCCTATGGTAATTTGGGGCAAGCGGATGAGGAGGG
CAACTGCAGAGAGGTATCGGGTTATGGCTGGGAAGTAAATGTCGAAGAAG
CCTGACCAATATTCAGATGAACAAGAAGGAGGAAATGACGGCCGCCAGAT
TATGCTCAATCCAGTCCCATCCAGCGATCCCAATGAACCGTTGAATTGGA
GCACAGCACGAAAAATATGCAACTTTACCCTCGTTCTCGCAGTGACAGCA
CTCATATTCACAGCGCTTTCGATCCAGGCAATCTTTTGGCAATTGATGGT
GGTGGATCTCAATGTGACATATACACAACTGAATCGTGCCATGTCAGTGA
ACTTCGTTGGTCTTGCCGTGGGTTGCGTATTCTTCATTCCCCTAGCGAAG
AAGTTCGGACGAAGGCCCGTGTATCTCGTTTCGACTGCCCTCATGTTGGC
GACTTCCTTTTGGACGTCGAGGTTGCAATCTCTTGCGGAATTGTATGCTA
CAAATCTGCTTCAGGGGTTAGCTGGAGCTACCAATGAGTCGATTGTCCAG
ATTACGATTTCTGACCTCTTCTTCGTGCACCATCGCGGGGGGATGAATGG
TTTGTATATGACTATGGTTATGATCGGTAGCTTTCTCACCCCCATGGCAG
CCGGGACTCAAGCAACAAACCAAGGCTGGCGGGCATCATACCAAGCACTT
GGTATCACTAACGCGGTTCTATTCGTCCTATTCTTGTTTTTCTACGAGGA
AACCAAATATACTCCAATCATTCCCGGGGTCGACGAATCCCCAGAGGCTA
CAATAGACAGCATCAAGGCCGATCACAAACGCGATATTGAGTGTTCTACC
AGTAGAGCCGAAACAAGCCCGATACCAGCAGACCACCACGAGCTAGATTA
TAGGATTCCGATGAGAACATGGAGACAGCGATTTGCCTTGATAACATACA
CCCCCGAGTCCATTTGGCCCTACTTCTATCGTCCCTTCTACGTTGTGGCC
TCCTTTCCTGCCGTCCTCTTCTGTGCCTTGCAGTATGCCTTTGGCGTGGT
CTGGCTGACTATCCTATCCTCCACCCTGAGCTTAGTATTCCCATTGCCGC
CCTATCTATTCACTTCGGAGCAGATTGGGTTCATGAGTGTTGGCCCGTTC
ATTGGGAATTTGATCGGATCGGTCTATGGTGGGTTCCTCGGTGATTGGTC
GATCTTGTTCTTTTCCAAGCGCAACAAGGGATACTATGAACCTGAGATGC
GATTGTATATTCTTCACTTGCCGGCACTGGCAATGGCTGGGGGTCTGATA
ATGTTTGGGGCCACAATTGCACGGGGCATGCACTGGATCTATCCCAGTAT
CGGTGGTGCTTTGTTTGGCTTCGGACTGGGCAGTATTAGCGATGCAGCAC
TGACGTTGGTTATCGACTCATATCGTGATATCACTGGGGACGCCTTCACA
GGAGTCGCCTTCATGCGAAATGCCATCAGTATCGGCATTCCCTTTGCAAT
AAGTCCGTGGCTATCCCGATCCGGCGCGCAAAACATGTTCATTGCATGTG
GATTCATCAGCTTGGCAATCACTTTGACTATTGTTCCTATGGTAATTTGG
GGCAAGCGGATGAGGAGGGCAACTGCAGAGAGGTATCGGGTTATGGCTGG
GAAGTAAATGTCGAAGAAGCCTGACCAATATTCAGATGAACAAGAAGGAG
GAAATGACGGCCGCCAGATTATGCTCAATCCAGTCCCATCCAGCGATCCC
AATGAACCGTTGAATTGGAGCACAGCACGAAAAATATGCAACTTTACCCT
CGTTCTCGCAGTGACAGCACTCATATTCACAGCGCTTTCGATCCAGGCAA
TCTTTTGGCAATTGATGGTGGTGGATCTCAATGTGACATATACACAACTG
AATCGTGCCATGTCAGTGAACTTCGTTGGTCTTGCCGTGGGTTGCGTATT
CTTCATTCCCCTAGCGAAGAAGTTCGGACGAAGGCCCGTGTATCTCGTTT
CGACTGCCCTCATGTTGGCGACTTCCTTTTGGACGTCGAGGTTGCAATCT
CTTGCGGAATTGTATGCTACAAATCTGCTTCAGGGGTTAGCTGGAGCTAC
CAATGAGTCGATTGTCCAGATTACGATTTCTGACCTCTTCTTCGTGCACC
ATCGCGGGGGGATGAATGGTTTGTATATGACTATGGTTATGATCGGTAGC
TTTCTCACCCCCATGGCAGCCGGGACTCAAGCAACAAACCAAGGCTGGCG
GGCATCATACCAAGCACTTGGTATCACTAACGCGGTTCTATTCGTCCTAT
TCTTGTTTTTCTACGAGGAAACCAAATATACTCCAATCATTCCCGGGGTC
GACGAATCCCCAGAGGCTACAATAGACAGCATCAAGGCCGATCACAAACG
CGATATTGAGTGTTCTACCAGTAGAGCCGAAACAAGCCCGATACCAGCAG
ACCACCACGAGCTAGATTATAGGATTCCGATGAGAACATGGAGACAGCGA
TTTGCCTTGATAACATACACCCCCGAGTCCATTTGGCCCTACTTCTATCG
TCCCTTCTACGTTGTGGCCTCCTTTCCTGCCGTCCTCTTCTGTGCCTTGC
AGTATGCCTTTGGCGTGGTCTGGCTGACTATCCTATCCTCCACCCTGAGC
TTAGTATTCCCATTGCCGCCCTATCTATTCACTTCGGAGCAGATTGGGTT
CATGAGTGTTGGCCCGTTCATTGGGAATTTGATCGGATCGGTCTATGGTG
GGTTCCTCGGTGATTGGTCGATCTTGTTCTTTTCCAAGCGCAACAAGGGA
TACTATGAACCTGAGATGCGATTGTATATTCTTCACTTGCCGGCACTGGC
AATGGCTGGGGGTCTGATAATGTTTGGGGCCACAATTGCACGGGGCATGC
ACTGGATCTATCCCAGTATCGGTGGTGCTTTGTTTGGCTTCGGACTGGGC
AGTATTAGCGATGCAGCACTGACGTTGGTTATCGACTCATATCGTGATAT
CACTGGGGACGCCTTCACAGGAGTCGCCTTCATGCGAAATGCCATCAGTA
TCGGCATTCCCTTTGCAATAAGTCCGTGGCTATCCCGATCCGGCGCGCAA
AACATGTTCATTGCATGTGGATTCATCAGCTTGGCAATCACTTTGACTAT
TGTTCCTATGGTAATTTGGGGCAAGCGGATGAGGAGGGCAACTGCAGAGA
GGTATCGGGTTATGGCTGGGAAGTAAATGTCGAAGAAGCCTGACCAATAT
TCAGATGAACAAGAAGGAGGAAATGACGGCCGCCAGATTATGCTCAATCC
AGTCCCATCCAGCGATCCCAATGAACCGTTGAATTGGAGCACAGCACGAA
AAATATGCAACTTTACCCTCGTTCTCGCAGTGACAGCACTCATATTCACA
GCGCTTTCGATCCAGGCAATCTTTTGGCAATTGATGGTGGTGGATCTCAA
TGTGACATATACACAACTGAATCGTGCCATGTCAGTGAACTTCGTTGGTC
TTGCCGTGGGTTGCGTATTCTTCATTCCCCTAGCGAAGAAGTTCGGACGA
AGGCCCGTGTATCTCGTTTCGACTGCCCTCATGTTGGCGACTTCCTTTTG
GACGTCGAGGTTGCAATCTCTTGCGGAATTGTATGCTACAAATCTGCTTC
AGGGGTTAGCTGGAGCTACCAATGAGTCGATTGTCCAGATTACGATTTCT
GACCTCTTCTTCGTGCACCATCGCGGGGGGATGAATGGTTTGTATATGAC
TATGGTTATGATCGGTAGCTTTCTCACCCCCATGGCAGCCGGGACTCAAG
CAACAAACCAAGGCTGGCGGGCATCATACCAAGCACTTGGTATCACTAAC
GCGGTTCTATTCGTCCTATTCTTGTTTTTCTACGAGGAAACCAAATATAC
TCCAATCATTCCCGGGGTCGACGAATCCCCAGAGGCTACAATAGACAGCA
TCAAGGCCGATCACAAACGCGATATTGAGTGTTCTACCAGTAGAGCCGAA
ACAAGCCCGATACCAGCAGACCACCACGAGCTAGATTATAGGATTCCGAT
GAGAACATGGAGACAGCGATTTGCCTTGATAACATACACCCCCGAGTCCA
TTTGGCCCTACTTCTATCGTCCCTTCTACGTTGTGGCCTCCTTTCCTGCC
GTCCTCTTCTGTGCCTTGCAGTATGCCTTTGGCGTGGTCTGGCTGACTAT
CCTATCCTCCACCCTGAGCTTAGTATTCCCATTGCCGCCCTATCTATTCA
CTTCGGAGCAGATTGGGTTCATGAGTGTTGGCCCGTTCATTGGGAATTTG
ATCGGATCGGTCTATGGTGGGTTCCTCGGTGATTGGTCGATCTTGTTCTT
TTCCAAGCGCAACAAGGGATACTATGAACCTGAGATGCGATTGTATATTC
TTCACTTGCCGGCACTGGCAATGGCTGGGGGTCTGATAATGTTTGGGGCC
ACAATTGCACGGGGCATGCACTGGATCTATCCCAGTATCGGTGGTGCTTT
GTTTGGCTTCGGACTGGGCAGTATTAGCGATGCAGCACTGACGTTGGTTA
TCGACTCATATCGTGATATCACTGGGGACGCCTTCACAGGAGTCGCCTTC
ATGCGAAATGCCATCAGTATCGGCATTCCCTTTGCAATAAGTCCGTGGCT
ATCCCGATCCGGCGCGCAAAACATGTTCATTGCATGTGGATTCATCAGCT
TGGCAATCACTTTGACTATTGTTCCTATGGTAATTTGGGGCAAGCGGATG
AGGAGGGCAACTGCAGAGAGGTATCGGGTTATGGCTGGGAAGTAAATGTC
GAAGAAGCCTGACCAATATTCAGATGAACAAGAAGGAGGAAATGACGGCC
GCCAGATTATGCTCAATCCAGTCCCATCCAGCGATCCCAATGAACCGTTG
AATTGGAGCACAGCACGAAAAATATGCAACTTTACCCTCGTTCTCGCAGT
GACAGCACTCATATTCACAGCGCTTTCGATCCAGGCAATCTTTTGGCAAT
TGATGGTGGTGGATCTCAATGTGACATATACACAACTGAATCGTGCCATG
TCAGTGAACTTCGTTGGTCTTGCCGTGGGTTGCGTATTCTTCATTCCCCT
AGCGAAGAAGTTCGGACGAAGGCCCGTGTATCTCGTTTCGACTGCCCTCA
TGTTGGCGACTTCCTTTTGGACGTCGAGGTTGCAATCTCTTGCGGAATTG
TATGCTACAAATCTGCTTCAGGGGTTAGCTGGAGCTACCAATGAGTCGAT
TGTCCAGATTACGATTTCTGACCTCTTCTTCGTGCACCATCGCGGGGGGA
TGAATGGTTTGTATATGACTATGGTTATGATCGGTAGCTTTCTCACCCCC
ATGGCAGCCGGGACTCAAGCAACAAACCAAGGCTGGCGGGCATCATACCA
AGCACTTGGTATCACTAACGCGGTTCTATTCGTCCTATTCTTGTTTTTCT
ACGAGGAAACCAAATATACTCCAATCATTCCCGGGGTCGACGAATCCCCA
GAGGCTACAATAGACAGCATCAAGGCCGATCACAAACGCGATATTGAGTG
TTCTACCAGTAGAGCCGAAACAAGCCCGATACCAGCAGACCACCACGAGC
TAGATTATAGGATTCCGATGAGAACATGGAGACAGCGATTTGCCTTGATA
ACATACACCCCCGAGTCCATTTGGCCCTACTTCTATCGTCCCTTCTACGT
TGTGGCCTCCTTTCCTGCCGTCCTCTTCTGTGCCTTGCAGTATGCCTTTG
GCGTGGTCTGGCTGACTATCCTATCCTCCACCCTGAGCTTAGTATTCCCA
TTGCCGCCCTATCTATTCACTTCGGAGCAGATTGGGTTCATGAGTGTTGG
CCCGTTCATTGGGAATTTGATCGGATCGGTCTATGGTGGGTTCCTCGGTG
ATTGGTCGATCTTGTTCTTTTCCAAGCGCAACAAGGGATACTATGAACCT
GAGATGCGATTGTATATTCTTCACTTGCCGGCACTGGCAATGGCTGGGGG
TCTGATAATGTTTGGGGCCACAATTGCACGGGGCATGCACTGGATCTATC
CCAGTATCGGTGGTGCTTTGTTTGGCTTCGGACTGGGCAGTATTAGCGAT
GCAGCACTGACGTTGGTTATCGACTCATATCGTGATATCACTGGGGACGC
CTTCACAGGAGTCGCCTTCATGCGAAATGCCATCAGTATCGGCATTCCCT
TTGCAATAAGTCCGTGGCTATCCCGATCCGGCGCGCAAAACATGTTCATT
GCATGTGGATTCATCAGCTTGGCAATCACTTTGACTATTGTTCCTATGGT
AATTTGGGGCAAGCGGATGAGGAGGGCAACTGCAGAGAGGTATCGGGTTA
TGGCTGGGAAGTAAATGTCGAAGAAGCCTGACCAATATTCAGATGAACAA
GAAGGAGGAAATGACGGCCGCCAGATTATGCTCAATCCAGTCCCATCCAG
CGATCCCAATGAACCGTTGAATTGGAGCACAGCACGAAAAATATGCAACT
TTACCCTCGTTCTCGCAGTGACAGCACTCATATTCACAGCGCTTTCGATC
CAGGCAATCTTTTGGCAATTGATGGTGGTGGATCTCAATGTGACATATAC
ACAACTGAATCGTGCCATGTCAGTGAACTTCGTTGGTCTTGCCGTGGGTT
GCGTATTCTTCATTCCCCTAGCGAAGAAGTTCGGACGAAGGCCCGTGTAT
CTCGTTTCGACTGCCCTCATGTTGGCGACTTCCTTTTGGACGTCGAGGTT
GCAATCTCTTGCGGAATTGTATGCTACAAATCTGCTTCAGGGGTTAGCTG
GAGCTACCAATGAGTCGATTGTCCAGATTACGATTTCTGACCTCTTCTTC
GTGCACCATCGCGGGGGGATGAATGGTTTGTATATGACTATGGTTATGAT
CGGTAGCTTTCTCACCCCCATGGCAGCCGGGACTCAAGCAACAAACCAAG
GCTGGCGGGCATCATACCAAGCACTTGGTATCACTAACGCGGTTCTATTC
GTCCTATTCTTGTTTTTCTACGAGGAAACCAAATATACTCCAATCATTCC
CGGGGTCGACGAATCCCCAGAGGCTACAATAGACAGCATCAAGGCCGATC
ACAAACGCGATATTGAGTGTTCTACCAGTAGAGCCGAAACAAGCCCGATA
CCAGCAGACCACCACGAGCTAGATTATAGGATTCCGATGAGAACATGGAG
ACAGCGATTTGCCTTGATAACATACACCCCCGAGTCCATTTGGCCCTACT
TCTATCGTCCCTTCTACGTTGTGGCCTCCTTTCCTGCCGTCCTCTTCTGT
GCCTTGCAGTATGCCTTTGGCGTGGTCTGGCTGACTATCCTATCCTCCAC
CCTGAGCTTAGTATTCCCATTGCCGCCCTATCTATTCACTTCGGAGCAGA
TTGGGTTCATGAGTGTTGGCCCGTTCATTGGGAATTTGATCGGATCGGTC
TATGGTGGGTTCCTCGGTGATTGGTCGATCTTGTTCTTTTCCAAGCGCAA
CAAGGGATACTATGAACCTGAGATGCGATTGTATATTCTTCACTTGCCGG
CACTGGCAATGGCTGGGGGTCTGATAATGTTTGGGGCCACAATTGCACGG
GGCATGCACTGGATCTATCCCAGTATCGGTGGTGCTTTGTTTGGCTTCGG
ACTGGGCAGTATTAGCGATGCAGCACTGACGTTGGTTATCGACTCATATC
GTGATATCACTGGGGACGCCTTCACAGGAGTCGCCTTCATGCGAAATGCC
ATCAGTATCGGCATTCCCTTTGCAATAAGTCCGTGGCTATCCCGATCCGG
CGCGCAAAACATGTTCATTGCATGTGGATTCATCAGCTTGGCAATCACTT
TGACTATTGTTCCTATGGTAATTTGGGGCAAGCGGATGAGGAGGGCAACT
GCAGAGAGGTATCGGGTTATGGCTGGGAAGTAA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Cellular Component**
Term	Definition
GO:0005887	integral component of plasma membrane

Vocabulary: **Biological Process**
Term	Definition
GO:0055085	transmembrane transport

Relationships

This mRNA is a part of the following gene feature(s):


Feature Name	Unique Name	Species	Type
CAN33_28775	CAN33_28775	Aspergillus niger FDAARGOS_311	gene

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Species	Type
CAN33_28775-T1	CAN33_28775-T1-protein	Aspergillus niger FDAARGOS_311	polypeptide

The following exon feature(s) are a part of this mRNA:


Feature Name	Unique Name	Species	Type
CAN33_28775-T1.exon1	CAN33_28775-T1.exon1	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon2	CAN33_28775-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon3	CAN33_28775-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon4	CAN33_28775-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon5	CAN33_28775-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon6	CAN33_28775-T1.exon6	Aspergillus niger FDAARGOS_311	exon
CAN33_28775-T1.exon7	CAN33_28775-T1.exon7	Aspergillus niger FDAARGOS_311	exon

The following CDS feature(s) are a part of this mRNA:


Feature Name	Unique Name	Species	Type
CAN33_28775-T1.cds	CAN33_28775-T1.cds	Aspergillus niger FDAARGOS_311	CDS

Properties


Property Name	Value
Note	EggNog:ENOG41
DBxref	InterPro:IPR036259
DBxref	InterPro:IPR020846
DBxref	InterPro:IPR011701
DBxref	PFAM:PF07690
Product	major facilitator superfamily protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger FDAARGOS_311 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
NKJJ01000008.1	supercontig	NKJJ01000008.1:366570..368483 +

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CAN33_28775-T1, CAN33_28775-T1 (mRNA) Aspergillus niger FDAARGOS_311

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CAN33_28775-T1, CAN33_28775-T1 (mRNA) Aspergillus niger FDAARGOS_311