CAN33_7245-T1, CAN33_7245-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview


Name	CAN33_7245-T1
Unique Name	CAN33_7245-T1
Type	mRNA
Organism	Aspergillus niger FDAARGOS_311

Sequences

The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:2237430..2239225+
coding sequence from alignment at NKJJ01000019.1:2237430..2239225+

mRNA from alignment at NKJJ01000019.1:2237430..2239225+

Legend: polypeptideexonCDS

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

>CAN33_7245-T1 ID=CAN33_7245-T1|Name=CAN33_7245-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1796bp|location=Sequence derived from alignment at NKJJ01000019.1:2237430..2239225+ (Aspergillus niger FDAARGOS_311)
ATGGCTGTTGCTGATTACAAGAGGTACCTTGCTGAGAATGTCCTCAATGA
GCGACGCACGGTGAGTGACGTCTATTGTGCTGCAAGCTAGATATCCACTC
ACAGCTTCGGCGCATACTACAGGTCACCTACCGGTCCTTAGGTCGAGCCC
TTCGGGTTCATAGTACCCTGGCCAAGCAGTATGTCTATATGCGAACTACA
TGTGTTTTTACACAGGAAACACTCTGATTGGTATTTGAAAGGATGCTCTT
CGATTTTCACCGTAACGAAAACAGCAAGAAGCCAAACAGCGTCAATGCGA
CTTATATTATTACGGGAGTTCAGAAAGCGCCCGAGACTCCTTCCACAACA
AATGGCGCTCAGGACAGCTTTGATGGAATTCCCCAGAGCAGTCCCTACAT
TAGCAGTTCGATGCCGAATCAGGACGTCGCTACGGATGAGATCGCCATGT
CCTCGGTTGTGCTTGTGCGAGAGGAAGACTTGGAGGGTACATGAAATTGC
TTCCACGATGTTGCACAAAGGATGGAGCCTGCTAACACAGCCTGTAGATG
CCAAGACGACCTTCCAATCAGTCTCATCGATATACGTCTACAGCCTTCAG
CCAGCGGTACTCCAGGATCTCAATGTCTTGACAGATGTCGCGAGTGAAAT
GATTGCCAAGCATGCTCAGGAGGATCCTCTAGAATACGGCAAATCTTGGG
GCATGATCCAGGGCAACAATGTCCGGGTAAGACGTGCCCTTGCGCTTACA
TACATCTCTGATTCTAATGCAATTTGTGCTGCAGAGAAGAACCGGGGGCC
GCCCTCCCGTTCCAGCCCCCGCTCAGGCTCCAGCTCCTCCCAAGACGACC
ATTCCAGCTAAGCGTCCTATCAAGAATGAAGAGACACCACAACCAAAGAA
AGAAACTGAAGCCGAGGCTGCGAAGCCAGAGCCGACGACTAAACGCGAGG
AAACACCGGCGTCTACTAAACCGACTGAGAAGACAGCTCCTCCGAAGCAA
AAGGGCAGTATATTTAGCTCCTTTGCAAAGGCCAAGCCGAAGCAGAAAAT
AGAGGATTCAACCACGCCGGCCACTTCTGCTGCCGAATCGGTCAGTTTGA
CTTTACCCTAATTGGCTTGGTATTGAGTGACTGACGATCAACCAGGCCGA
ACCCAGTGGTGCTGAAGATGGTGAGTGTTTACCGTCTATCTTGGCCTTTG
ACACGACACTAATGAGTAGCAGTGGTTCTAGACGATGCATCGGACGGGGA
TGAGGAACCTGAGGAGCTTTTCCGGGACTCAGGGAAGTCCGCGTCCGCCG
GTACACGTGAGTCGCGGAAAGAGCGTGAAGAAAGGCTCAGAAAGATGATG
GAAGATGATGGTATGTTACCTCCCTGTTATCGGTAACTTTGCTGACTGGT
ACCAGACGAAGACGAAGACGAAGAAATGCCTGACGCTGCACCCTCACCGG
AAGAGTCTAAGCCTATCGACGAGCCGCCGCCGCCGAAACAAGCTGAGCTC
AAGGAAGAAGTCACGGTTAAGGGCGGTCGTCGCAGGGGCAGGCGCCAAGT
CATGAAGAAGAAGACAGTCAAGGACGATGAGGGCTATCTGGGTAAGATCA
TCCGGTGCTACCTGGATATCAACAGCAGCTGACTGGTTGGTGCTAAGTGA
CCGTTGAGGAGCCAAGCTGGGAGTCATTCTCAGAAGACGAGCCAGCACCG
CCTCCTAAGAAGAAGCCCGCTGTGAGCGCGCCCAAGGGCAAACCAGCAGC
GAAACCAGGACAAGGCAGCATTATGTCCTTCTTCTCAAAGAAGTGA

Coding sequence (CDS) from alignment at NKJJ01000019.1:2237430..2239225+

>CAN33_7245-T1 ID=CAN33_7245-T1|Name=CAN33_7245-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=11556bp|location=Sequence derived from alignment at NKJJ01000019.1:2237430..2239225+ (Aspergillus niger FDAARGOS_311)
ATGGCTGTTGCTGATTACAAGAGGTACCTTGCTGAGAATGTCCTCAATGA
GCGACGCACGGTCACCTACCGGTCCTTAGGTCGAGCCCTTCGGGTTCATA
GTACCCTGGCCAAGCAGATGCTCTTCGATTTTCACCGTAACGAAAACAGC
AAGAAGCCAAACAGCGTCAATGCGACTTATATTATTACGGGAGTTCAGAA
AGCGCCCGAGACTCCTTCCACAACAAATGGCGCTCAGGACAGCTTTGATG
GAATTCCCCAGAGCAGTCCCTACATTAGCAGTTCGATGCCGAATCAGGAC
GTCGCTACGGATGAGATCGCCATGTCCTCGGTTGTGCTTGTGCGAGAGGA
AGACTTGGAGGATGCCAAGACGACCTTCCAATCAGTCTCATCGATATACG
TCTACAGCCTTCAGCCAGCGGTACTCCAGGATCTCAATGTCTTGACAGAT
GTCGCGAGTGAAATGATTGCCAAGCATGCTCAGGAGGATCCTCTAGAATA
CGGCAAATCTTGGGGCATGATCCAGGGCAACAATGTCCGGACGACCATTC
CAGCTAAGCGTCCTATCAAGAATGAAGAGACACCACAACCAAAGAAAGAA
ACTGAAGCCGAGGCTGCGAAGCCAGAGCCGACGACTAAACGCGAGGAAAC
ACCGGCGTCTACTAAACCGACTGAGAAGACAGCTCCTCCGAAGCAAAAGG
GCAGTATATTTAGCTCCTTTGCAAAGGCCAAGCCGAAGCAGAAAATAGAG
GATTCAACCACGCCGGCCACTTCTGCTGCCGAATCGGCCGAACCCAGTGG
TGCTGAAGATGTGGTTCTAGACGATGCATCGGACGGGGATGAGGAACCTG
AGGAGCTTTTCCGGGACTCAGGGAAGTCCGCGTCCGCCGGTACACGTGAG
TCGCGGAAAGAGCGTGAAGAAAGGCTCAGAAAGATGATGGAAGATGATGA
CGAAGACGAAGACGAAGAAATGCCTGACGCTGCACCCTCACCGGAAGAGT
CTAAGCCTATCGACGAGCCGCCGCCGCCGAAACAAGCTGAGCTCAAGGAA
GAAGTCACGGTTAAGGGCGGTCGTCGCAGGGGCAGGCGCCAAGTCATGAA
GAAGAAGACAGTCAAGGACGATGAGGGCTATCTGGTGACCGTTGAGGAGC
CAAGCTGGGAGTCATTCTCAGAAGACGAGCCAGCACCGCCTCCTAAGAAG
AAGCCCGCTGTGAGCGCGCCCAAGGGCAAACCAGCAGCGAAACCAGGACA
AGGCAGCATTATGTCCTTCTTCTCAAAGAAGTGAATGGCTGTTGCTGATT
ACAAGAGGTACCTTGCTGAGAATGTCCTCAATGAGCGACGCACGGTCACC
TACCGGTCCTTAGGTCGAGCCCTTCGGGTTCATAGTACCCTGGCCAAGCA
GATGCTCTTCGATTTTCACCGTAACGAAAACAGCAAGAAGCCAAACAGCG
TCAATGCGACTTATATTATTACGGGAGTTCAGAAAGCGCCCGAGACTCCT
TCCACAACAAATGGCGCTCAGGACAGCTTTGATGGAATTCCCCAGAGCAG
TCCCTACATTAGCAGTTCGATGCCGAATCAGGACGTCGCTACGGATGAGA
TCGCCATGTCCTCGGTTGTGCTTGTGCGAGAGGAAGACTTGGAGGATGCC
AAGACGACCTTCCAATCAGTCTCATCGATATACGTCTACAGCCTTCAGCC
AGCGGTACTCCAGGATCTCAATGTCTTGACAGATGTCGCGAGTGAAATGA
TTGCCAAGCATGCTCAGGAGGATCCTCTAGAATACGGCAAATCTTGGGGC
ATGATCCAGGGCAACAATGTCCGGACGACCATTCCAGCTAAGCGTCCTAT
CAAGAATGAAGAGACACCACAACCAAAGAAAGAAACTGAAGCCGAGGCTG
CGAAGCCAGAGCCGACGACTAAACGCGAGGAAACACCGGCGTCTACTAAA
CCGACTGAGAAGACAGCTCCTCCGAAGCAAAAGGGCAGTATATTTAGCTC
CTTTGCAAAGGCCAAGCCGAAGCAGAAAATAGAGGATTCAACCACGCCGG
CCACTTCTGCTGCCGAATCGGCCGAACCCAGTGGTGCTGAAGATGTGGTT
CTAGACGATGCATCGGACGGGGATGAGGAACCTGAGGAGCTTTTCCGGGA
CTCAGGGAAGTCCGCGTCCGCCGGTACACGTGAGTCGCGGAAAGAGCGTG
AAGAAAGGCTCAGAAAGATGATGGAAGATGATGACGAAGACGAAGACGAA
GAAATGCCTGACGCTGCACCCTCACCGGAAGAGTCTAAGCCTATCGACGA
GCCGCCGCCGCCGAAACAAGCTGAGCTCAAGGAAGAAGTCACGGTTAAGG
GCGGTCGTCGCAGGGGCAGGCGCCAAGTCATGAAGAAGAAGACAGTCAAG
GACGATGAGGGCTATCTGGTGACCGTTGAGGAGCCAAGCTGGGAGTCATT
CTCAGAAGACGAGCCAGCACCGCCTCCTAAGAAGAAGCCCGCTGTGAGCG
CGCCCAAGGGCAAACCAGCAGCGAAACCAGGACAAGGCAGCATTATGTCC
TTCTTCTCAAAGAAGTGAATGGCTGTTGCTGATTACAAGAGGTACCTTGC
TGAGAATGTCCTCAATGAGCGACGCACGGTCACCTACCGGTCCTTAGGTC
GAGCCCTTCGGGTTCATAGTACCCTGGCCAAGCAGATGCTCTTCGATTTT
CACCGTAACGAAAACAGCAAGAAGCCAAACAGCGTCAATGCGACTTATAT
TATTACGGGAGTTCAGAAAGCGCCCGAGACTCCTTCCACAACAAATGGCG
CTCAGGACAGCTTTGATGGAATTCCCCAGAGCAGTCCCTACATTAGCAGT
TCGATGCCGAATCAGGACGTCGCTACGGATGAGATCGCCATGTCCTCGGT
TGTGCTTGTGCGAGAGGAAGACTTGGAGGATGCCAAGACGACCTTCCAAT
CAGTCTCATCGATATACGTCTACAGCCTTCAGCCAGCGGTACTCCAGGAT
CTCAATGTCTTGACAGATGTCGCGAGTGAAATGATTGCCAAGCATGCTCA
GGAGGATCCTCTAGAATACGGCAAATCTTGGGGCATGATCCAGGGCAACA
ATGTCCGGACGACCATTCCAGCTAAGCGTCCTATCAAGAATGAAGAGACA
CCACAACCAAAGAAAGAAACTGAAGCCGAGGCTGCGAAGCCAGAGCCGAC
GACTAAACGCGAGGAAACACCGGCGTCTACTAAACCGACTGAGAAGACAG
CTCCTCCGAAGCAAAAGGGCAGTATATTTAGCTCCTTTGCAAAGGCCAAG
CCGAAGCAGAAAATAGAGGATTCAACCACGCCGGCCACTTCTGCTGCCGA
ATCGGCCGAACCCAGTGGTGCTGAAGATGTGGTTCTAGACGATGCATCGG
ACGGGGATGAGGAACCTGAGGAGCTTTTCCGGGACTCAGGGAAGTCCGCG
TCCGCCGGTACACGTGAGTCGCGGAAAGAGCGTGAAGAAAGGCTCAGAAA
GATGATGGAAGATGATGACGAAGACGAAGACGAAGAAATGCCTGACGCTG
CACCCTCACCGGAAGAGTCTAAGCCTATCGACGAGCCGCCGCCGCCGAAA
CAAGCTGAGCTCAAGGAAGAAGTCACGGTTAAGGGCGGTCGTCGCAGGGG
CAGGCGCCAAGTCATGAAGAAGAAGACAGTCAAGGACGATGAGGGCTATC
TGGTGACCGTTGAGGAGCCAAGCTGGGAGTCATTCTCAGAAGACGAGCCA
GCACCGCCTCCTAAGAAGAAGCCCGCTGTGAGCGCGCCCAAGGGCAAACC
AGCAGCGAAACCAGGACAAGGCAGCATTATGTCCTTCTTCTCAAAGAAGT
GAATGGCTGTTGCTGATTACAAGAGGTACCTTGCTGAGAATGTCCTCAAT
GAGCGACGCACGGTCACCTACCGGTCCTTAGGTCGAGCCCTTCGGGTTCA
TAGTACCCTGGCCAAGCAGATGCTCTTCGATTTTCACCGTAACGAAAACA
GCAAGAAGCCAAACAGCGTCAATGCGACTTATATTATTACGGGAGTTCAG
AAAGCGCCCGAGACTCCTTCCACAACAAATGGCGCTCAGGACAGCTTTGA
TGGAATTCCCCAGAGCAGTCCCTACATTAGCAGTTCGATGCCGAATCAGG
ACGTCGCTACGGATGAGATCGCCATGTCCTCGGTTGTGCTTGTGCGAGAG
GAAGACTTGGAGGATGCCAAGACGACCTTCCAATCAGTCTCATCGATATA
CGTCTACAGCCTTCAGCCAGCGGTACTCCAGGATCTCAATGTCTTGACAG
ATGTCGCGAGTGAAATGATTGCCAAGCATGCTCAGGAGGATCCTCTAGAA
TACGGCAAATCTTGGGGCATGATCCAGGGCAACAATGTCCGGACGACCAT
TCCAGCTAAGCGTCCTATCAAGAATGAAGAGACACCACAACCAAAGAAAG
AAACTGAAGCCGAGGCTGCGAAGCCAGAGCCGACGACTAAACGCGAGGAA
ACACCGGCGTCTACTAAACCGACTGAGAAGACAGCTCCTCCGAAGCAAAA
GGGCAGTATATTTAGCTCCTTTGCAAAGGCCAAGCCGAAGCAGAAAATAG
AGGATTCAACCACGCCGGCCACTTCTGCTGCCGAATCGGCCGAACCCAGT
GGTGCTGAAGATGTGGTTCTAGACGATGCATCGGACGGGGATGAGGAACC
TGAGGAGCTTTTCCGGGACTCAGGGAAGTCCGCGTCCGCCGGTACACGTG
AGTCGCGGAAAGAGCGTGAAGAAAGGCTCAGAAAGATGATGGAAGATGAT
GACGAAGACGAAGACGAAGAAATGCCTGACGCTGCACCCTCACCGGAAGA
GTCTAAGCCTATCGACGAGCCGCCGCCGCCGAAACAAGCTGAGCTCAAGG
AAGAAGTCACGGTTAAGGGCGGTCGTCGCAGGGGCAGGCGCCAAGTCATG
AAGAAGAAGACAGTCAAGGACGATGAGGGCTATCTGGTGACCGTTGAGGA
GCCAAGCTGGGAGTCATTCTCAGAAGACGAGCCAGCACCGCCTCCTAAGA
AGAAGCCCGCTGTGAGCGCGCCCAAGGGCAAACCAGCAGCGAAACCAGGA
CAAGGCAGCATTATGTCCTTCTTCTCAAAGAAGTGAATGGCTGTTGCTGA
TTACAAGAGGTACCTTGCTGAGAATGTCCTCAATGAGCGACGCACGGTCA
CCTACCGGTCCTTAGGTCGAGCCCTTCGGGTTCATAGTACCCTGGCCAAG
CAGATGCTCTTCGATTTTCACCGTAACGAAAACAGCAAGAAGCCAAACAG
CGTCAATGCGACTTATATTATTACGGGAGTTCAGAAAGCGCCCGAGACTC
CTTCCACAACAAATGGCGCTCAGGACAGCTTTGATGGAATTCCCCAGAGC
AGTCCCTACATTAGCAGTTCGATGCCGAATCAGGACGTCGCTACGGATGA
GATCGCCATGTCCTCGGTTGTGCTTGTGCGAGAGGAAGACTTGGAGGATG
CCAAGACGACCTTCCAATCAGTCTCATCGATATACGTCTACAGCCTTCAG
CCAGCGGTACTCCAGGATCTCAATGTCTTGACAGATGTCGCGAGTGAAAT
GATTGCCAAGCATGCTCAGGAGGATCCTCTAGAATACGGCAAATCTTGGG
GCATGATCCAGGGCAACAATGTCCGGACGACCATTCCAGCTAAGCGTCCT
ATCAAGAATGAAGAGACACCACAACCAAAGAAAGAAACTGAAGCCGAGGC
TGCGAAGCCAGAGCCGACGACTAAACGCGAGGAAACACCGGCGTCTACTA
AACCGACTGAGAAGACAGCTCCTCCGAAGCAAAAGGGCAGTATATTTAGC
TCCTTTGCAAAGGCCAAGCCGAAGCAGAAAATAGAGGATTCAACCACGCC
GGCCACTTCTGCTGCCGAATCGGCCGAACCCAGTGGTGCTGAAGATGTGG
TTCTAGACGATGCATCGGACGGGGATGAGGAACCTGAGGAGCTTTTCCGG
GACTCAGGGAAGTCCGCGTCCGCCGGTACACGTGAGTCGCGGAAAGAGCG
TGAAGAAAGGCTCAGAAAGATGATGGAAGATGATGACGAAGACGAAGACG
AAGAAATGCCTGACGCTGCACCCTCACCGGAAGAGTCTAAGCCTATCGAC
GAGCCGCCGCCGCCGAAACAAGCTGAGCTCAAGGAAGAAGTCACGGTTAA
GGGCGGTCGTCGCAGGGGCAGGCGCCAAGTCATGAAGAAGAAGACAGTCA
AGGACGATGAGGGCTATCTGGTGACCGTTGAGGAGCCAAGCTGGGAGTCA
TTCTCAGAAGACGAGCCAGCACCGCCTCCTAAGAAGAAGCCCGCTGTGAG
CGCGCCCAAGGGCAAACCAGCAGCGAAACCAGGACAAGGCAGCATTATGT
CCTTCTTCTCAAAGAAGTGAATGGCTGTTGCTGATTACAAGAGGTACCTT
GCTGAGAATGTCCTCAATGAGCGACGCACGGTCACCTACCGGTCCTTAGG
TCGAGCCCTTCGGGTTCATAGTACCCTGGCCAAGCAGATGCTCTTCGATT
TTCACCGTAACGAAAACAGCAAGAAGCCAAACAGCGTCAATGCGACTTAT
ATTATTACGGGAGTTCAGAAAGCGCCCGAGACTCCTTCCACAACAAATGG
CGCTCAGGACAGCTTTGATGGAATTCCCCAGAGCAGTCCCTACATTAGCA
GTTCGATGCCGAATCAGGACGTCGCTACGGATGAGATCGCCATGTCCTCG
GTTGTGCTTGTGCGAGAGGAAGACTTGGAGGATGCCAAGACGACCTTCCA
ATCAGTCTCATCGATATACGTCTACAGCCTTCAGCCAGCGGTACTCCAGG
ATCTCAATGTCTTGACAGATGTCGCGAGTGAAATGATTGCCAAGCATGCT
CAGGAGGATCCTCTAGAATACGGCAAATCTTGGGGCATGATCCAGGGCAA
CAATGTCCGGACGACCATTCCAGCTAAGCGTCCTATCAAGAATGAAGAGA
CACCACAACCAAAGAAAGAAACTGAAGCCGAGGCTGCGAAGCCAGAGCCG
ACGACTAAACGCGAGGAAACACCGGCGTCTACTAAACCGACTGAGAAGAC
AGCTCCTCCGAAGCAAAAGGGCAGTATATTTAGCTCCTTTGCAAAGGCCA
AGCCGAAGCAGAAAATAGAGGATTCAACCACGCCGGCCACTTCTGCTGCC
GAATCGGCCGAACCCAGTGGTGCTGAAGATGTGGTTCTAGACGATGCATC
GGACGGGGATGAGGAACCTGAGGAGCTTTTCCGGGACTCAGGGAAGTCCG
CGTCCGCCGGTACACGTGAGTCGCGGAAAGAGCGTGAAGAAAGGCTCAGA
AAGATGATGGAAGATGATGACGAAGACGAAGACGAAGAAATGCCTGACGC
TGCACCCTCACCGGAAGAGTCTAAGCCTATCGACGAGCCGCCGCCGCCGA
AACAAGCTGAGCTCAAGGAAGAAGTCACGGTTAAGGGCGGTCGTCGCAGG
GGCAGGCGCCAAGTCATGAAGAAGAAGACAGTCAAGGACGATGAGGGCTA
TCTGGTGACCGTTGAGGAGCCAAGCTGGGAGTCATTCTCAGAAGACGAGC
CAGCACCGCCTCCTAAGAAGAAGCCCGCTGTGAGCGCGCCCAAGGGCAAA
CCAGCAGCGAAACCAGGACAAGGCAGCATTATGTCCTTCTTCTCAAAGAA
GTGAATGGCTGTTGCTGATTACAAGAGGTACCTTGCTGAGAATGTCCTCA
ATGAGCGACGCACGGTCACCTACCGGTCCTTAGGTCGAGCCCTTCGGGTT
CATAGTACCCTGGCCAAGCAGATGCTCTTCGATTTTCACCGTAACGAAAA
CAGCAAGAAGCCAAACAGCGTCAATGCGACTTATATTATTACGGGAGTTC
AGAAAGCGCCCGAGACTCCTTCCACAACAAATGGCGCTCAGGACAGCTTT
GATGGAATTCCCCAGAGCAGTCCCTACATTAGCAGTTCGATGCCGAATCA
GGACGTCGCTACGGATGAGATCGCCATGTCCTCGGTTGTGCTTGTGCGAG
AGGAAGACTTGGAGGATGCCAAGACGACCTTCCAATCAGTCTCATCGATA
TACGTCTACAGCCTTCAGCCAGCGGTACTCCAGGATCTCAATGTCTTGAC
AGATGTCGCGAGTGAAATGATTGCCAAGCATGCTCAGGAGGATCCTCTAG
AATACGGCAAATCTTGGGGCATGATCCAGGGCAACAATGTCCGGACGACC
ATTCCAGCTAAGCGTCCTATCAAGAATGAAGAGACACCACAACCAAAGAA
AGAAACTGAAGCCGAGGCTGCGAAGCCAGAGCCGACGACTAAACGCGAGG
AAACACCGGCGTCTACTAAACCGACTGAGAAGACAGCTCCTCCGAAGCAA
AAGGGCAGTATATTTAGCTCCTTTGCAAAGGCCAAGCCGAAGCAGAAAAT
AGAGGATTCAACCACGCCGGCCACTTCTGCTGCCGAATCGGCCGAACCCA
GTGGTGCTGAAGATGTGGTTCTAGACGATGCATCGGACGGGGATGAGGAA
CCTGAGGAGCTTTTCCGGGACTCAGGGAAGTCCGCGTCCGCCGGTACACG
TGAGTCGCGGAAAGAGCGTGAAGAAAGGCTCAGAAAGATGATGGAAGATG
ATGACGAAGACGAAGACGAAGAAATGCCTGACGCTGCACCCTCACCGGAA
GAGTCTAAGCCTATCGACGAGCCGCCGCCGCCGAAACAAGCTGAGCTCAA
GGAAGAAGTCACGGTTAAGGGCGGTCGTCGCAGGGGCAGGCGCCAAGTCA
TGAAGAAGAAGACAGTCAAGGACGATGAGGGCTATCTGGTGACCGTTGAG
GAGCCAAGCTGGGAGTCATTCTCAGAAGACGAGCCAGCACCGCCTCCTAA
GAAGAAGCCCGCTGTGAGCGCGCCCAAGGGCAAACCAGCAGCGAAACCAG
GACAAGGCAGCATTATGTCCTTCTTCTCAAAGAAGTGAATGGCTGTTGCT
GATTACAAGAGGTACCTTGCTGAGAATGTCCTCAATGAGCGACGCACGGT
CACCTACCGGTCCTTAGGTCGAGCCCTTCGGGTTCATAGTACCCTGGCCA
AGCAGATGCTCTTCGATTTTCACCGTAACGAAAACAGCAAGAAGCCAAAC
AGCGTCAATGCGACTTATATTATTACGGGAGTTCAGAAAGCGCCCGAGAC
TCCTTCCACAACAAATGGCGCTCAGGACAGCTTTGATGGAATTCCCCAGA
GCAGTCCCTACATTAGCAGTTCGATGCCGAATCAGGACGTCGCTACGGAT
GAGATCGCCATGTCCTCGGTTGTGCTTGTGCGAGAGGAAGACTTGGAGGA
TGCCAAGACGACCTTCCAATCAGTCTCATCGATATACGTCTACAGCCTTC
AGCCAGCGGTACTCCAGGATCTCAATGTCTTGACAGATGTCGCGAGTGAA
ATGATTGCCAAGCATGCTCAGGAGGATCCTCTAGAATACGGCAAATCTTG
GGGCATGATCCAGGGCAACAATGTCCGGACGACCATTCCAGCTAAGCGTC
CTATCAAGAATGAAGAGACACCACAACCAAAGAAAGAAACTGAAGCCGAG
GCTGCGAAGCCAGAGCCGACGACTAAACGCGAGGAAACACCGGCGTCTAC
TAAACCGACTGAGAAGACAGCTCCTCCGAAGCAAAAGGGCAGTATATTTA
GCTCCTTTGCAAAGGCCAAGCCGAAGCAGAAAATAGAGGATTCAACCACG
CCGGCCACTTCTGCTGCCGAATCGGCCGAACCCAGTGGTGCTGAAGATGT
GGTTCTAGACGATGCATCGGACGGGGATGAGGAACCTGAGGAGCTTTTCC
GGGACTCAGGGAAGTCCGCGTCCGCCGGTACACGTGAGTCGCGGAAAGAG
CGTGAAGAAAGGCTCAGAAAGATGATGGAAGATGATGACGAAGACGAAGA
CGAAGAAATGCCTGACGCTGCACCCTCACCGGAAGAGTCTAAGCCTATCG
ACGAGCCGCCGCCGCCGAAACAAGCTGAGCTCAAGGAAGAAGTCACGGTT
AAGGGCGGTCGTCGCAGGGGCAGGCGCCAAGTCATGAAGAAGAAGACAGT
CAAGGACGATGAGGGCTATCTGGTGACCGTTGAGGAGCCAAGCTGGGAGT
CATTCTCAGAAGACGAGCCAGCACCGCCTCCTAAGAAGAAGCCCGCTGTG
AGCGCGCCCAAGGGCAAACCAGCAGCGAAACCAGGACAAGGCAGCATTAT
GTCCTTCTTCTCAAAGAAGTGAATGGCTGTTGCTGATTACAAGAGGTACC
TTGCTGAGAATGTCCTCAATGAGCGACGCACGGTCACCTACCGGTCCTTA
GGTCGAGCCCTTCGGGTTCATAGTACCCTGGCCAAGCAGATGCTCTTCGA
TTTTCACCGTAACGAAAACAGCAAGAAGCCAAACAGCGTCAATGCGACTT
ATATTATTACGGGAGTTCAGAAAGCGCCCGAGACTCCTTCCACAACAAAT
GGCGCTCAGGACAGCTTTGATGGAATTCCCCAGAGCAGTCCCTACATTAG
CAGTTCGATGCCGAATCAGGACGTCGCTACGGATGAGATCGCCATGTCCT
CGGTTGTGCTTGTGCGAGAGGAAGACTTGGAGGATGCCAAGACGACCTTC
CAATCAGTCTCATCGATATACGTCTACAGCCTTCAGCCAGCGGTACTCCA
GGATCTCAATGTCTTGACAGATGTCGCGAGTGAAATGATTGCCAAGCATG
CTCAGGAGGATCCTCTAGAATACGGCAAATCTTGGGGCATGATCCAGGGC
AACAATGTCCGGACGACCATTCCAGCTAAGCGTCCTATCAAGAATGAAGA
GACACCACAACCAAAGAAAGAAACTGAAGCCGAGGCTGCGAAGCCAGAGC
CGACGACTAAACGCGAGGAAACACCGGCGTCTACTAAACCGACTGAGAAG
ACAGCTCCTCCGAAGCAAAAGGGCAGTATATTTAGCTCCTTTGCAAAGGC
CAAGCCGAAGCAGAAAATAGAGGATTCAACCACGCCGGCCACTTCTGCTG
CCGAATCGGCCGAACCCAGTGGTGCTGAAGATGTGGTTCTAGACGATGCA
TCGGACGGGGATGAGGAACCTGAGGAGCTTTTCCGGGACTCAGGGAAGTC
CGCGTCCGCCGGTACACGTGAGTCGCGGAAAGAGCGTGAAGAAAGGCTCA
GAAAGATGATGGAAGATGATGACGAAGACGAAGACGAAGAAATGCCTGAC
GCTGCACCCTCACCGGAAGAGTCTAAGCCTATCGACGAGCCGCCGCCGCC
GAAACAAGCTGAGCTCAAGGAAGAAGTCACGGTTAAGGGCGGTCGTCGCA
GGGGCAGGCGCCAAGTCATGAAGAAGAAGACAGTCAAGGACGATGAGGGC
TATCTGGTGACCGTTGAGGAGCCAAGCTGGGAGTCATTCTCAGAAGACGA
GCCAGCACCGCCTCCTAAGAAGAAGCCCGCTGTGAGCGCGCCCAAGGGCA
AACCAGCAGCGAAACCAGGACAAGGCAGCATTATGTCCTTCTTCTCAAAG
AAGTGA

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Cellular Component**
Term	Definition
GO:0043625	delta DNA polymerase complex
GO:0005634	nucleus

Vocabulary: **Biological Process**
Term	Definition
GO:0006260	DNA replication

Vocabulary: **Molecular Function**
Term	Definition
GO:0003887	DNA-directed DNA polymerase activity

Relationships

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


Feature Name	Unique Name	Species	Type
CAN33_7245	CAN33_7245	Aspergillus niger FDAARGOS_311	gene

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


Feature Name	Unique Name	Species	Type
CAN33_7245-T1	CAN33_7245-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_7245-T1.exon1	CAN33_7245-T1.exon1	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon2	CAN33_7245-T1.exon2	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon3	CAN33_7245-T1.exon3	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon4	CAN33_7245-T1.exon4	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon5	CAN33_7245-T1.exon5	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon6	CAN33_7245-T1.exon6	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon7	CAN33_7245-T1.exon7	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon8	CAN33_7245-T1.exon8	Aspergillus niger FDAARGOS_311	exon
CAN33_7245-T1.exon9	CAN33_7245-T1.exon9	Aspergillus niger FDAARGOS_311	exon

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


Feature Name	Unique Name	Species	Type
CAN33_7245-T1.cds	CAN33_7245-T1.cds	Aspergillus niger FDAARGOS_311	CDS

Properties


Property Name	Value
DBxref	InterPro:IPR019038
Product	DNA polymerase subunit Cdc27 family 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
NKJJ01000019.1	supercontig	NKJJ01000019.1:2237430..2239225 +

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CAN33_7245-T1, CAN33_7245-T1 (mRNA) Aspergillus niger FDAARGOS_311

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CAN33_7245-T1, CAN33_7245-T1 (mRNA) Aspergillus niger FDAARGOS_311