CAN33_37520-T1, CAN33_37520-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_37520-T1
Unique Name	CAN33_37520-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000017.1:904067..905991+
coding sequence from alignment at NKJJ01000017.1:904067..905991+

mRNA from alignment at NKJJ01000017.1:904067..905991+

Legend: polypeptideexonCDS

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

>CAN33_37520-T1 ID=CAN33_37520-T1|Name=CAN33_37520-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1925bp|location=Sequence derived from alignment at NKJJ01000017.1:904067..905991+ (Aspergillus niger FDAARGOS_311)
ATGCCGTGGTTTTCCTCACGCAACCAAACCATCATGGAGAAGCAGCATAA
CGACCCTCCTCCCGGGGTGACACCCGAATTAGACGATCTAAAGTTGAAGG
AAGAAGCAACCCTGGCCCGGGATGTCGGACTGGGACAAGTATTGGAGGTG
GAAGCCACGCCAGAGCAGGAACGCAAGGTCTTGCGAAAGCTGGACATAAT
GTATGTGTAATCAGTATAGCATTGAATGCTCTTTTCTCACTGCTCAAACA
AGATTGATTCCTCTGATGGGAGTCTGTTACATGATGCAATATATGGACAA
GCTGGCTCTGAGTCAAGCTACCCTGTTCAATCTTCGGCAGGATCTGGTAT
GTTGCCAATCTCAATTGAAACCATATTTATACTGACATTGAACAGAACCT
GAAGGGACAGGAGTATACCTGGACATCTGCCGTCTTCTATTTCGGGTATT
TTGCCTGGAGCTGGCCCAGCTCATATCTCATTGTCCGTTTGCCCCTCGGA
AAATACATTAGTGCCTCAGTGTTGGTTCCTCCCCCCAATACTACTCCAAA
ATACCACTAATGTCAAATAGATTAATATGGGGAGGCATCCTGATGTGCCA
CGCTGCAGCAACGAACTTGGGAGGCTTGATGGCCGCCCGATTCTTCCTAG
GAGTGGGCGAAGCCGCCATAGCCCCGGGATTCTCCCTCATCACAGGCATG
TTCTACAAGCGTGAGGAGCAGCCAGCACGGTACGCCTCATCCATAACCAA
AGCATGTATCATAGGTATACAAACTAACAACAAATCAGGCAATCTGCCTG
GTTCCTCGGAAATTGCATCGCCTCTGTCATCGGCGGTGTCGTGGCCTACG
GCATCGGCAACATCAAAGCCGACGCCGTAACTAGCTGGCAACTCCTCTTC
CTCGTCCTCGGCGCCATAACGGCATTCATCTCCTTCTTCCTCATCGTCCT
CCTCCCCGACTCCCCCAAGAAAGCCATCTTCCTCACCAAACCCGAGCGCG
CCATCGCCATGCACCGCACCCTGGCCAACAAAACCGGCGTCGCGGACGAG
GGATCCTTCAGATGGGACCAAGCCTGGCAAGCAATCCGCGACCCTCAAAC
CTGGTTCTTGGTTCTATACACCTTCTCCGTGAACCTCTGCAACGGCGGAA
TTACCAGCGTAATCCTCCCCTCCTCCCTAACATACATACCAATCCCTCAA
TCGAACTAACGATAAACAATTGAACAGTTCTCCTCAATAATCATCAACGG
CTTCGGCTTCTCCCAAATCCGCTCCCTCCTTATGCAAATGCCCCTGGGCG
GCGCCCAAATCGTCTTCCTCATCCTCACCGCCGGCATCGCGACCTTCATC
CCGCGCACGCGAATCCTAATGATGATCTTCAACACCTTAACCTCCCTGAT
CGGCATGATTCTCGTCTGGAAACTGGATGAAGATAATCGTCGAGGCAGAC
TGACGGGTCTGGCACTGGGCGCTGTCTTCGCTGTTAATATTCCCCTCTCG
CTGAGCATTATCAGTTCGAATGTCGCGGGATTCACGAAACGAAGTACCAC
CAGCGCGTTGTTGTTTGTTGCGTATTGTGTGGGGAATATTGTCGGACCGC
AGTTCTTTTATAGCTCGGAGGAGCCTTATTATCCGGTATGCTCCCTACCC
CTTCCTTTGTTGGCTGTTTACCTTGCTTTTTTTTGGCAGCATATACTAAT
GTGATGATTGTTGGGGGGATATAGACAGGCATGAAAGCGGCTACGTCGGG
ACTGGCGTTGGGGGCATTCTTCCTGGTGTGTTTGTTGGGGTATTATATTT
GGGAGAATAAACGGAGGGATCGACTGTATGGAGTTCCGGAGCAGATGACG
GAGAGTCAGGAGTTGGCGTTGGGGCTGTCGAGTAAGACGGATTTGGAGAT
TGAGGATTTTAGATATGTTTTGTAG

Coding sequence (CDS) from alignment at NKJJ01000017.1:904067..905991+

>CAN33_37520-T1 ID=CAN33_37520-T1|Name=CAN33_37520-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10899bp|location=Sequence derived from alignment at NKJJ01000017.1:904067..905991+ (Aspergillus niger FDAARGOS_311)
ATGCCGTGGTTTTCCTCACGCAACCAAACCATCATGGAGAAGCAGCATAA
CGACCCTCCTCCCGGGGTGACACCCGAATTAGACGATCTAAAGTTGAAGG
AAGAAGCAACCCTGGCCCGGGATGTCGGACTGGGACAAGTATTGGAGGTG
GAAGCCACGCCAGAGCAGGAACGCAAGGTCTTGCGAAAGCTGGACATAAT
ATTGATTCCTCTGATGGGAGTCTGTTACATGATGCAATATATGGACAAGC
TGGCTCTGAGTCAAGCTACCCTGTTCAATCTTCGGCAGGATCTGAACCTG
AAGGGACAGGAGTATACCTGGACATCTGCCGTCTTCTATTTCGGGTATTT
TGCCTGGAGCTGGCCCAGCTCATATCTCATTGTCCGTTTGCCCCTCGGAA
AATACATTAGTGCCTCAGTATTAATATGGGGAGGCATCCTGATGTGCCAC
GCTGCAGCAACGAACTTGGGAGGCTTGATGGCCGCCCGATTCTTCCTAGG
AGTGGGCGAAGCCGCCATAGCCCCGGGATTCTCCCTCATCACAGGCATGT
TCTACAAGCGTGAGGAGCAGCCAGCACGGCAATCTGCCTGGTTCCTCGGA
AATTGCATCGCCTCTGTCATCGGCGGTGTCGTGGCCTACGGCATCGGCAA
CATCAAAGCCGACGCCGTAACTAGCTGGCAACTCCTCTTCCTCGTCCTCG
GCGCCATAACGGCATTCATCTCCTTCTTCCTCATCGTCCTCCTCCCCGAC
TCCCCCAAGAAAGCCATCTTCCTCACCAAACCCGAGCGCGCCATCGCCAT
GCACCGCACCCTGGCCAACAAAACCGGCGTCGCGGACGAGGGATCCTTCA
GATGGGACCAAGCCTGGCAAGCAATCCGCGACCCTCAAACCTGGTTCTTG
GTTCTATACACCTTCTCCGTGAACCTCTGCAACGGCGGAATTACCAGCTT
CTCCTCAATAATCATCAACGGCTTCGGCTTCTCCCAAATCCGCTCCCTCC
TTATGCAAATGCCCCTGGGCGGCGCCCAAATCGTCTTCCTCATCCTCACC
GCCGGCATCGCGACCTTCATCCCGCGCACGCGAATCCTAATGATGATCTT
CAACACCTTAACCTCCCTGATCGGCATGATTCTCGTCTGGAAACTGGATG
AAGATAATCGTCGAGGCAGACTGACGGGTCTGGCACTGGGCGCTGTCTTC
GCTGTTAATATTCCCCTCTCGCTGAGCATTATCAGTTCGAATGTCGCGGG
ATTCACGAAACGAAGTACCACCAGCGCGTTGTTGTTTGTTGCGTATTGTG
TGGGGAATATTGTCGGACCGCAGTTCTTTTATAGCTCGGAGGAGCCTTAT
TATCCGACAGGCATGAAAGCGGCTACGTCGGGACTGGCGTTGGGGGCATT
CTTCCTGGTGTGTTTGTTGGGGTATTATATTTGGGAGAATAAACGGAGGG
ATCGACTGTATGGAGTTCCGGAGCAGATGACGGAGAGTCAGGAGTTGGCG
TTGGGGCTGTCGAGTAAGACGGATTTGGAGATTGAGGATTTTAGATATGT
TTTGTAGATGCCGTGGTTTTCCTCACGCAACCAAACCATCATGGAGAAGC
AGCATAACGACCCTCCTCCCGGGGTGACACCCGAATTAGACGATCTAAAG
TTGAAGGAAGAAGCAACCCTGGCCCGGGATGTCGGACTGGGACAAGTATT
GGAGGTGGAAGCCACGCCAGAGCAGGAACGCAAGGTCTTGCGAAAGCTGG
ACATAATATTGATTCCTCTGATGGGAGTCTGTTACATGATGCAATATATG
GACAAGCTGGCTCTGAGTCAAGCTACCCTGTTCAATCTTCGGCAGGATCT
GAACCTGAAGGGACAGGAGTATACCTGGACATCTGCCGTCTTCTATTTCG
GGTATTTTGCCTGGAGCTGGCCCAGCTCATATCTCATTGTCCGTTTGCCC
CTCGGAAAATACATTAGTGCCTCAGTATTAATATGGGGAGGCATCCTGAT
GTGCCACGCTGCAGCAACGAACTTGGGAGGCTTGATGGCCGCCCGATTCT
TCCTAGGAGTGGGCGAAGCCGCCATAGCCCCGGGATTCTCCCTCATCACA
GGCATGTTCTACAAGCGTGAGGAGCAGCCAGCACGGCAATCTGCCTGGTT
CCTCGGAAATTGCATCGCCTCTGTCATCGGCGGTGTCGTGGCCTACGGCA
TCGGCAACATCAAAGCCGACGCCGTAACTAGCTGGCAACTCCTCTTCCTC
GTCCTCGGCGCCATAACGGCATTCATCTCCTTCTTCCTCATCGTCCTCCT
CCCCGACTCCCCCAAGAAAGCCATCTTCCTCACCAAACCCGAGCGCGCCA
TCGCCATGCACCGCACCCTGGCCAACAAAACCGGCGTCGCGGACGAGGGA
TCCTTCAGATGGGACCAAGCCTGGCAAGCAATCCGCGACCCTCAAACCTG
GTTCTTGGTTCTATACACCTTCTCCGTGAACCTCTGCAACGGCGGAATTA
CCAGCTTCTCCTCAATAATCATCAACGGCTTCGGCTTCTCCCAAATCCGC
TCCCTCCTTATGCAAATGCCCCTGGGCGGCGCCCAAATCGTCTTCCTCAT
CCTCACCGCCGGCATCGCGACCTTCATCCCGCGCACGCGAATCCTAATGA
TGATCTTCAACACCTTAACCTCCCTGATCGGCATGATTCTCGTCTGGAAA
CTGGATGAAGATAATCGTCGAGGCAGACTGACGGGTCTGGCACTGGGCGC
TGTCTTCGCTGTTAATATTCCCCTCTCGCTGAGCATTATCAGTTCGAATG
TCGCGGGATTCACGAAACGAAGTACCACCAGCGCGTTGTTGTTTGTTGCG
TATTGTGTGGGGAATATTGTCGGACCGCAGTTCTTTTATAGCTCGGAGGA
GCCTTATTATCCGACAGGCATGAAAGCGGCTACGTCGGGACTGGCGTTGG
GGGCATTCTTCCTGGTGTGTTTGTTGGGGTATTATATTTGGGAGAATAAA
CGGAGGGATCGACTGTATGGAGTTCCGGAGCAGATGACGGAGAGTCAGGA
GTTGGCGTTGGGGCTGTCGAGTAAGACGGATTTGGAGATTGAGGATTTTA
GATATGTTTTGTAGATGCCGTGGTTTTCCTCACGCAACCAAACCATCATG
GAGAAGCAGCATAACGACCCTCCTCCCGGGGTGACACCCGAATTAGACGA
TCTAAAGTTGAAGGAAGAAGCAACCCTGGCCCGGGATGTCGGACTGGGAC
AAGTATTGGAGGTGGAAGCCACGCCAGAGCAGGAACGCAAGGTCTTGCGA
AAGCTGGACATAATATTGATTCCTCTGATGGGAGTCTGTTACATGATGCA
ATATATGGACAAGCTGGCTCTGAGTCAAGCTACCCTGTTCAATCTTCGGC
AGGATCTGAACCTGAAGGGACAGGAGTATACCTGGACATCTGCCGTCTTC
TATTTCGGGTATTTTGCCTGGAGCTGGCCCAGCTCATATCTCATTGTCCG
TTTGCCCCTCGGAAAATACATTAGTGCCTCAGTATTAATATGGGGAGGCA
TCCTGATGTGCCACGCTGCAGCAACGAACTTGGGAGGCTTGATGGCCGCC
CGATTCTTCCTAGGAGTGGGCGAAGCCGCCATAGCCCCGGGATTCTCCCT
CATCACAGGCATGTTCTACAAGCGTGAGGAGCAGCCAGCACGGCAATCTG
CCTGGTTCCTCGGAAATTGCATCGCCTCTGTCATCGGCGGTGTCGTGGCC
TACGGCATCGGCAACATCAAAGCCGACGCCGTAACTAGCTGGCAACTCCT
CTTCCTCGTCCTCGGCGCCATAACGGCATTCATCTCCTTCTTCCTCATCG
TCCTCCTCCCCGACTCCCCCAAGAAAGCCATCTTCCTCACCAAACCCGAG
CGCGCCATCGCCATGCACCGCACCCTGGCCAACAAAACCGGCGTCGCGGA
CGAGGGATCCTTCAGATGGGACCAAGCCTGGCAAGCAATCCGCGACCCTC
AAACCTGGTTCTTGGTTCTATACACCTTCTCCGTGAACCTCTGCAACGGC
GGAATTACCAGCTTCTCCTCAATAATCATCAACGGCTTCGGCTTCTCCCA
AATCCGCTCCCTCCTTATGCAAATGCCCCTGGGCGGCGCCCAAATCGTCT
TCCTCATCCTCACCGCCGGCATCGCGACCTTCATCCCGCGCACGCGAATC
CTAATGATGATCTTCAACACCTTAACCTCCCTGATCGGCATGATTCTCGT
CTGGAAACTGGATGAAGATAATCGTCGAGGCAGACTGACGGGTCTGGCAC
TGGGCGCTGTCTTCGCTGTTAATATTCCCCTCTCGCTGAGCATTATCAGT
TCGAATGTCGCGGGATTCACGAAACGAAGTACCACCAGCGCGTTGTTGTT
TGTTGCGTATTGTGTGGGGAATATTGTCGGACCGCAGTTCTTTTATAGCT
CGGAGGAGCCTTATTATCCGACAGGCATGAAAGCGGCTACGTCGGGACTG
GCGTTGGGGGCATTCTTCCTGGTGTGTTTGTTGGGGTATTATATTTGGGA
GAATAAACGGAGGGATCGACTGTATGGAGTTCCGGAGCAGATGACGGAGA
GTCAGGAGTTGGCGTTGGGGCTGTCGAGTAAGACGGATTTGGAGATTGAG
GATTTTAGATATGTTTTGTAGATGCCGTGGTTTTCCTCACGCAACCAAAC
CATCATGGAGAAGCAGCATAACGACCCTCCTCCCGGGGTGACACCCGAAT
TAGACGATCTAAAGTTGAAGGAAGAAGCAACCCTGGCCCGGGATGTCGGA
CTGGGACAAGTATTGGAGGTGGAAGCCACGCCAGAGCAGGAACGCAAGGT
CTTGCGAAAGCTGGACATAATATTGATTCCTCTGATGGGAGTCTGTTACA
TGATGCAATATATGGACAAGCTGGCTCTGAGTCAAGCTACCCTGTTCAAT
CTTCGGCAGGATCTGAACCTGAAGGGACAGGAGTATACCTGGACATCTGC
CGTCTTCTATTTCGGGTATTTTGCCTGGAGCTGGCCCAGCTCATATCTCA
TTGTCCGTTTGCCCCTCGGAAAATACATTAGTGCCTCAGTATTAATATGG
GGAGGCATCCTGATGTGCCACGCTGCAGCAACGAACTTGGGAGGCTTGAT
GGCCGCCCGATTCTTCCTAGGAGTGGGCGAAGCCGCCATAGCCCCGGGAT
TCTCCCTCATCACAGGCATGTTCTACAAGCGTGAGGAGCAGCCAGCACGG
CAATCTGCCTGGTTCCTCGGAAATTGCATCGCCTCTGTCATCGGCGGTGT
CGTGGCCTACGGCATCGGCAACATCAAAGCCGACGCCGTAACTAGCTGGC
AACTCCTCTTCCTCGTCCTCGGCGCCATAACGGCATTCATCTCCTTCTTC
CTCATCGTCCTCCTCCCCGACTCCCCCAAGAAAGCCATCTTCCTCACCAA
ACCCGAGCGCGCCATCGCCATGCACCGCACCCTGGCCAACAAAACCGGCG
TCGCGGACGAGGGATCCTTCAGATGGGACCAAGCCTGGCAAGCAATCCGC
GACCCTCAAACCTGGTTCTTGGTTCTATACACCTTCTCCGTGAACCTCTG
CAACGGCGGAATTACCAGCTTCTCCTCAATAATCATCAACGGCTTCGGCT
TCTCCCAAATCCGCTCCCTCCTTATGCAAATGCCCCTGGGCGGCGCCCAA
ATCGTCTTCCTCATCCTCACCGCCGGCATCGCGACCTTCATCCCGCGCAC
GCGAATCCTAATGATGATCTTCAACACCTTAACCTCCCTGATCGGCATGA
TTCTCGTCTGGAAACTGGATGAAGATAATCGTCGAGGCAGACTGACGGGT
CTGGCACTGGGCGCTGTCTTCGCTGTTAATATTCCCCTCTCGCTGAGCAT
TATCAGTTCGAATGTCGCGGGATTCACGAAACGAAGTACCACCAGCGCGT
TGTTGTTTGTTGCGTATTGTGTGGGGAATATTGTCGGACCGCAGTTCTTT
TATAGCTCGGAGGAGCCTTATTATCCGACAGGCATGAAAGCGGCTACGTC
GGGACTGGCGTTGGGGGCATTCTTCCTGGTGTGTTTGTTGGGGTATTATA
TTTGGGAGAATAAACGGAGGGATCGACTGTATGGAGTTCCGGAGCAGATG
ACGGAGAGTCAGGAGTTGGCGTTGGGGCTGTCGAGTAAGACGGATTTGGA
GATTGAGGATTTTAGATATGTTTTGTAGATGCCGTGGTTTTCCTCACGCA
ACCAAACCATCATGGAGAAGCAGCATAACGACCCTCCTCCCGGGGTGACA
CCCGAATTAGACGATCTAAAGTTGAAGGAAGAAGCAACCCTGGCCCGGGA
TGTCGGACTGGGACAAGTATTGGAGGTGGAAGCCACGCCAGAGCAGGAAC
GCAAGGTCTTGCGAAAGCTGGACATAATATTGATTCCTCTGATGGGAGTC
TGTTACATGATGCAATATATGGACAAGCTGGCTCTGAGTCAAGCTACCCT
GTTCAATCTTCGGCAGGATCTGAACCTGAAGGGACAGGAGTATACCTGGA
CATCTGCCGTCTTCTATTTCGGGTATTTTGCCTGGAGCTGGCCCAGCTCA
TATCTCATTGTCCGTTTGCCCCTCGGAAAATACATTAGTGCCTCAGTATT
AATATGGGGAGGCATCCTGATGTGCCACGCTGCAGCAACGAACTTGGGAG
GCTTGATGGCCGCCCGATTCTTCCTAGGAGTGGGCGAAGCCGCCATAGCC
CCGGGATTCTCCCTCATCACAGGCATGTTCTACAAGCGTGAGGAGCAGCC
AGCACGGCAATCTGCCTGGTTCCTCGGAAATTGCATCGCCTCTGTCATCG
GCGGTGTCGTGGCCTACGGCATCGGCAACATCAAAGCCGACGCCGTAACT
AGCTGGCAACTCCTCTTCCTCGTCCTCGGCGCCATAACGGCATTCATCTC
CTTCTTCCTCATCGTCCTCCTCCCCGACTCCCCCAAGAAAGCCATCTTCC
TCACCAAACCCGAGCGCGCCATCGCCATGCACCGCACCCTGGCCAACAAA
ACCGGCGTCGCGGACGAGGGATCCTTCAGATGGGACCAAGCCTGGCAAGC
AATCCGCGACCCTCAAACCTGGTTCTTGGTTCTATACACCTTCTCCGTGA
ACCTCTGCAACGGCGGAATTACCAGCTTCTCCTCAATAATCATCAACGGC
TTCGGCTTCTCCCAAATCCGCTCCCTCCTTATGCAAATGCCCCTGGGCGG
CGCCCAAATCGTCTTCCTCATCCTCACCGCCGGCATCGCGACCTTCATCC
CGCGCACGCGAATCCTAATGATGATCTTCAACACCTTAACCTCCCTGATC
GGCATGATTCTCGTCTGGAAACTGGATGAAGATAATCGTCGAGGCAGACT
GACGGGTCTGGCACTGGGCGCTGTCTTCGCTGTTAATATTCCCCTCTCGC
TGAGCATTATCAGTTCGAATGTCGCGGGATTCACGAAACGAAGTACCACC
AGCGCGTTGTTGTTTGTTGCGTATTGTGTGGGGAATATTGTCGGACCGCA
GTTCTTTTATAGCTCGGAGGAGCCTTATTATCCGACAGGCATGAAAGCGG
CTACGTCGGGACTGGCGTTGGGGGCATTCTTCCTGGTGTGTTTGTTGGGG
TATTATATTTGGGAGAATAAACGGAGGGATCGACTGTATGGAGTTCCGGA
GCAGATGACGGAGAGTCAGGAGTTGGCGTTGGGGCTGTCGAGTAAGACGG
ATTTGGAGATTGAGGATTTTAGATATGTTTTGTAGATGCCGTGGTTTTCC
TCACGCAACCAAACCATCATGGAGAAGCAGCATAACGACCCTCCTCCCGG
GGTGACACCCGAATTAGACGATCTAAAGTTGAAGGAAGAAGCAACCCTGG
CCCGGGATGTCGGACTGGGACAAGTATTGGAGGTGGAAGCCACGCCAGAG
CAGGAACGCAAGGTCTTGCGAAAGCTGGACATAATATTGATTCCTCTGAT
GGGAGTCTGTTACATGATGCAATATATGGACAAGCTGGCTCTGAGTCAAG
CTACCCTGTTCAATCTTCGGCAGGATCTGAACCTGAAGGGACAGGAGTAT
ACCTGGACATCTGCCGTCTTCTATTTCGGGTATTTTGCCTGGAGCTGGCC
CAGCTCATATCTCATTGTCCGTTTGCCCCTCGGAAAATACATTAGTGCCT
CAGTATTAATATGGGGAGGCATCCTGATGTGCCACGCTGCAGCAACGAAC
TTGGGAGGCTTGATGGCCGCCCGATTCTTCCTAGGAGTGGGCGAAGCCGC
CATAGCCCCGGGATTCTCCCTCATCACAGGCATGTTCTACAAGCGTGAGG
AGCAGCCAGCACGGCAATCTGCCTGGTTCCTCGGAAATTGCATCGCCTCT
GTCATCGGCGGTGTCGTGGCCTACGGCATCGGCAACATCAAAGCCGACGC
CGTAACTAGCTGGCAACTCCTCTTCCTCGTCCTCGGCGCCATAACGGCAT
TCATCTCCTTCTTCCTCATCGTCCTCCTCCCCGACTCCCCCAAGAAAGCC
ATCTTCCTCACCAAACCCGAGCGCGCCATCGCCATGCACCGCACCCTGGC
CAACAAAACCGGCGTCGCGGACGAGGGATCCTTCAGATGGGACCAAGCCT
GGCAAGCAATCCGCGACCCTCAAACCTGGTTCTTGGTTCTATACACCTTC
TCCGTGAACCTCTGCAACGGCGGAATTACCAGCTTCTCCTCAATAATCAT
CAACGGCTTCGGCTTCTCCCAAATCCGCTCCCTCCTTATGCAAATGCCCC
TGGGCGGCGCCCAAATCGTCTTCCTCATCCTCACCGCCGGCATCGCGACC
TTCATCCCGCGCACGCGAATCCTAATGATGATCTTCAACACCTTAACCTC
CCTGATCGGCATGATTCTCGTCTGGAAACTGGATGAAGATAATCGTCGAG
GCAGACTGACGGGTCTGGCACTGGGCGCTGTCTTCGCTGTTAATATTCCC
CTCTCGCTGAGCATTATCAGTTCGAATGTCGCGGGATTCACGAAACGAAG
TACCACCAGCGCGTTGTTGTTTGTTGCGTATTGTGTGGGGAATATTGTCG
GACCGCAGTTCTTTTATAGCTCGGAGGAGCCTTATTATCCGACAGGCATG
AAAGCGGCTACGTCGGGACTGGCGTTGGGGGCATTCTTCCTGGTGTGTTT
GTTGGGGTATTATATTTGGGAGAATAAACGGAGGGATCGACTGTATGGAG
TTCCGGAGCAGATGACGGAGAGTCAGGAGTTGGCGTTGGGGCTGTCGAGT
AAGACGGATTTGGAGATTGAGGATTTTAGATATGTTTTGTAGATGCCGTG
GTTTTCCTCACGCAACCAAACCATCATGGAGAAGCAGCATAACGACCCTC
CTCCCGGGGTGACACCCGAATTAGACGATCTAAAGTTGAAGGAAGAAGCA
ACCCTGGCCCGGGATGTCGGACTGGGACAAGTATTGGAGGTGGAAGCCAC
GCCAGAGCAGGAACGCAAGGTCTTGCGAAAGCTGGACATAATATTGATTC
CTCTGATGGGAGTCTGTTACATGATGCAATATATGGACAAGCTGGCTCTG
AGTCAAGCTACCCTGTTCAATCTTCGGCAGGATCTGAACCTGAAGGGACA
GGAGTATACCTGGACATCTGCCGTCTTCTATTTCGGGTATTTTGCCTGGA
GCTGGCCCAGCTCATATCTCATTGTCCGTTTGCCCCTCGGAAAATACATT
AGTGCCTCAGTATTAATATGGGGAGGCATCCTGATGTGCCACGCTGCAGC
AACGAACTTGGGAGGCTTGATGGCCGCCCGATTCTTCCTAGGAGTGGGCG
AAGCCGCCATAGCCCCGGGATTCTCCCTCATCACAGGCATGTTCTACAAG
CGTGAGGAGCAGCCAGCACGGCAATCTGCCTGGTTCCTCGGAAATTGCAT
CGCCTCTGTCATCGGCGGTGTCGTGGCCTACGGCATCGGCAACATCAAAG
CCGACGCCGTAACTAGCTGGCAACTCCTCTTCCTCGTCCTCGGCGCCATA
ACGGCATTCATCTCCTTCTTCCTCATCGTCCTCCTCCCCGACTCCCCCAA
GAAAGCCATCTTCCTCACCAAACCCGAGCGCGCCATCGCCATGCACCGCA
CCCTGGCCAACAAAACCGGCGTCGCGGACGAGGGATCCTTCAGATGGGAC
CAAGCCTGGCAAGCAATCCGCGACCCTCAAACCTGGTTCTTGGTTCTATA
CACCTTCTCCGTGAACCTCTGCAACGGCGGAATTACCAGCTTCTCCTCAA
TAATCATCAACGGCTTCGGCTTCTCCCAAATCCGCTCCCTCCTTATGCAA
ATGCCCCTGGGCGGCGCCCAAATCGTCTTCCTCATCCTCACCGCCGGCAT
CGCGACCTTCATCCCGCGCACGCGAATCCTAATGATGATCTTCAACACCT
TAACCTCCCTGATCGGCATGATTCTCGTCTGGAAACTGGATGAAGATAAT
CGTCGAGGCAGACTGACGGGTCTGGCACTGGGCGCTGTCTTCGCTGTTAA
TATTCCCCTCTCGCTGAGCATTATCAGTTCGAATGTCGCGGGATTCACGA
AACGAAGTACCACCAGCGCGTTGTTGTTTGTTGCGTATTGTGTGGGGAAT
ATTGTCGGACCGCAGTTCTTTTATAGCTCGGAGGAGCCTTATTATCCGAC
AGGCATGAAAGCGGCTACGTCGGGACTGGCGTTGGGGGCATTCTTCCTGG
TGTGTTTGTTGGGGTATTATATTTGGGAGAATAAACGGAGGGATCGACTG
TATGGAGTTCCGGAGCAGATGACGGAGAGTCAGGAGTTGGCGTTGGGGCT
GTCGAGTAAGACGGATTTGGAGATTGAGGATTTTAGATATGTTTTGTAG

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_37520	CAN33_37520	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_37520-T1	CAN33_37520-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_37520-T1.exon1	CAN33_37520-T1.exon1	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon2	CAN33_37520-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon3	CAN33_37520-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon4	CAN33_37520-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon5	CAN33_37520-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon6	CAN33_37520-T1.exon6	Aspergillus niger FDAARGOS_311	exon
CAN33_37520-T1.exon7	CAN33_37520-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_37520-T1.cds	CAN33_37520-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
NKJJ01000017.1	supercontig	NKJJ01000017.1:904067..905991 +

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CAN33_37520-T1, CAN33_37520-T1 (mRNA) Aspergillus niger FDAARGOS_311