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CAN33_6150-T1, CAN33_6150-T1 (mRNA) Aspergillus niger FDAARGOS_311

Overview
NameCAN33_6150-T1
Unique NameCAN33_6150-T1
TypemRNA
OrganismAspergillus niger FDAARGOS_311
Sequences
The following sequences are available for this feature:

mRNA from alignment at NKJJ01000019.1:1497982..1500011+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CAN33_6150-T1 ID=CAN33_6150-T1|Name=CAN33_6150-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2030bp|location=Sequence derived from alignment at NKJJ01000019.1:1497982..1500011+ (Aspergillus niger FDAARGOS_311)
ATGAGTGCGTCGACGTTTCCGGACGCTTCCCTTGCCCGCGATACTCAGAG
GTTTGTCCTCCCAGTTTGCTGGACCTTGTTAAAATAACTTCAACTCTTAC
TCAGCTACCCAGGGCATCCAACTGACTATGATTACCAGCTCCGACTTTGA
CCTGATCGTTCGCCAGCAGCCCAACAGGGCGCGCGTGGCGGGTGGGAAGG
AGAAAGGTATGTGGAATCACCGGCTTTGCTAGTCTCTTCGGTTTTTCTTC
CTGAGAAGCAACGCCCCTACGGACGAGCAGAGGTTGACTTGGGACCCGTT
TTCGCGCTGCAGAACGCAAGCCAGTAGATCCGCCGCCGATTGTGCAGATC
CGAGTCAGAGAGGAGGGGACCTATCTCGCGCAGTAGGTGTTCGCGCTTGA
AATTGGTGCTGCGTTGGAGAAACAGGCCCACTGACAAAACACCGATAGGC
ATTACTTGCAAAGCCCTTATTATTTTATGTGCTGCAGCTTGTATGATGCG
TCAGAGGATAACCCAGTTCCCGTGGCCCCGTCCACTGCTCTGACCGGCAC
ACTGGTTTCGTCTCTCCACAGGTTGAAAGATGTGGACAATACTGGTAAGT
TTGGTCTTCGAATGAGCTTCAAAAACAGGTCTAGATTTGGCTTACTGACT
GGACCTGGCCCAGATGGGGGATTCTTCGTTTGGGGGGACTTGTCAGTAAA
AATCGAAGGAGATTTCCGGCTCAAGTTCACTCTCTTCGAAATGCGAAAGT
AGGTTTCTTTGGCCCTGCAATGGCTCCCAGCGAGCCTCTCCACAGACTTG
TGAGAAGCGCATGCTGATTTTGCGGCGATTTAAAGGGACGTCGTAACCCA
TCTTAAGTCCATCATCACGGATAGATTTACCGGTTCGTTTACGTCCTCGT
GAAATCCTTTTCTTGAGAACGCAGCTCCTGACTCCGTACAGTGTACCCGC
CAAAGAGCTTTCCGGGCATGGCTGAGTCGACGTTCCTCTCCAGATCTTTT
GCGGACCAAGGTGTGAAGTTGAGAATTAGAAAGGAGCCACGAACACTAAT
GTGAGTGAAGTAGCCGAGTGACTGGGAAACCTGCGAGAAGTGGCTTTGTA
TGATTGACCAGTGAGACAGCAAACGGCCTGTACCCCGGCCAGAGGAGTAT
CCGCAGCCGATTCCGCGCTCGCCCGATCGTTCTTCGATCCAGATGCCAAG
CAACGCGTTCAGCGCTTACCCGACAACGAGTAGAGACTATGGGTACTATG
GACAGCAGACACACCCCAGTAAGCGGCCGCGAATGTCGTCTATAGACCTT
GGGACCCGAGGGATGTATGACGCAGATGGGCGGATGCGTCAGATGGATAC
GTACCCTCAAACGGCGATCTACAATCAGCCAGGGGGCTACGCAACTCCTA
TGATGCAAGGCTATCCTGCCGGACACACGGCGGTTCCAGATTATGCGGTT
CGTCTGCCTGATTCATTACTTCAAAGACCGGCTTGGGAGGACAGCAATGC
TCCCACGAAGCGCCGTCTCCAGAGGCCGGATGTTTCTAGCAGGATGCTAA
CAATATAGCAGATGTCTTACGGAATCCCATCCTCCACTCAGGTACCCCAG
ATGCAAGACCCTGGGGCACACGGTCGATCCAGCCAACAGGCCACGATGCA
GTCCTTAGGAATGGTCAACGCGCCTGGTACTCCTGTATGGACTCCGCCTA
CCACCCGTCGTTAAGGTCGAGAAGCTAAGAACCGTATATTATTCTGGATA
GACAGCGGACTCGACGGGAGCAATGATGCCACAAAGCTACCCTCGTTCGC
AATACCAGACTGGGTCCACAATCCTTCCTCCTTTGCAACAACGGAATCGA
AATTTTGCTCAAGGCACCAACGGTGCAGCGGCACGAGGCTACTTTGATCA
ATCTTCCCAAGCGGCGACACCGATCCTTCCATCACAACCTATTCCTACCA
ATGAAGTGGACAGGTACGGTTCTACTCCTGGCCAGGCGTCTTTTGAGCAT
CCTGCTTCAGCGAATGGGACCCCGCGATGA
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Coding sequence (CDS) from alignment at NKJJ01000019.1:1497982..1500011+

>CAN33_6150-T1 ID=CAN33_6150-T1|Name=CAN33_6150-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=13050bp|location=Sequence derived from alignment at NKJJ01000019.1:1497982..1500011+ (Aspergillus niger FDAARGOS_311)
ATGAGTGCGTCGACGTTTCCGGACGCTTCCCTTGCCCGCGATACTCAGAG
CTCCGACTTTGACCTGATCGTTCGCCAGCAGCCCAACAGGGCGCGCGTGG
CGGGTGGGAAGGAGAAAGAACGCAAGCCAGTAGATCCGCCGCCGATTGTG
CAGATCCGAGTCAGAGAGGAGGGGACCTATCTCGCGCAGCATTACTTGCA
AAGCCCTTATTATTTTATGTGCTGCAGCTTGTATGATGCGTCAGAGGATA
ACCCAGTTCCCGTGGCCCCGTCCACTGCTCTGACCGGCACACTGGTTTCG
TCTCTCCACAGGTTGAAAGATGTGGACAATACTGATGGGGGATTCTTCGT
TTGGGGGGACTTGTCAGTAAAAATCGAAGGAGATTTCCGGCTCAAGTTCA
CTCTCTTCGAAATGCGAAAGGACGTCGTAACCCATCTTAAGTCCATCATC
ACGGATAGATTTACCGTGTACCCGCCAAAGAGCTTTCCGGGCATGGCTGA
GTCGACGTTCCTCTCCAGATCTTTTGCGGACCAAGGTGTGAAGTTGAGAA
TTAGAAAGGAGCCACGAACACTAATCAAACGGCCTGTACCCCGGCCAGAG
GAGTATCCGCAGCCGATTCCGCGCTCGCCCGATCGTTCTTCGATCCAGAT
GCCAAGCAACGCGTTCAGCGCTTACCCGACAACGAGTAGAGACTATGGGT
ACTATGGACAGCAGACACACCCCAGTAAGCGGCCGCGAATGTCGTCTATA
GACCTTGGGACCCGAGGGATGTATGACGCAGATGGGCGGATGCGTCAGAT
GGATACGTACCCTCAAACGGCGATCTACAATCAGCCAGGGGGCTACGCAA
CTCCTATGATGCAAGGCTATCCTGCCGGACACACGGCGGTTCCAGATTAT
GCGATGTCTTACGGAATCCCATCCTCCACTCAGGTACCCCAGATGCAAGA
CCCTGGGGCACACGGTCGATCCAGCCAACAGGCCACGATGCAGTCCTTAG
GAATGGTCAACGCGCCTGGTACTCCTACAGCGGACTCGACGGGAGCAATG
ATGCCACAAAGCTACCCTCGTTCGCAATACCAGACTGGGTCCACAATCCT
TCCTCCTTTGCAACAACGGAATCGAAATTTTGCTCAAGGCACCAACGGTG
CAGCGGCACGAGGCTACTTTGATCAATCTTCCCAAGCGGCGACACCGATC
CTTCCATCACAACCTATTCCTACCAATGAAGTGGACAGGTACGGTTCTAC
TCCTGGCCAGGCGTCTTTTGAGCATCCTGCTTCAGCGAATGGGACCCCGC
GATGAATGAGTGCGTCGACGTTTCCGGACGCTTCCCTTGCCCGCGATACT
CAGAGCTCCGACTTTGACCTGATCGTTCGCCAGCAGCCCAACAGGGCGCG
CGTGGCGGGTGGGAAGGAGAAAGAACGCAAGCCAGTAGATCCGCCGCCGA
TTGTGCAGATCCGAGTCAGAGAGGAGGGGACCTATCTCGCGCAGCATTAC
TTGCAAAGCCCTTATTATTTTATGTGCTGCAGCTTGTATGATGCGTCAGA
GGATAACCCAGTTCCCGTGGCCCCGTCCACTGCTCTGACCGGCACACTGG
TTTCGTCTCTCCACAGGTTGAAAGATGTGGACAATACTGATGGGGGATTC
TTCGTTTGGGGGGACTTGTCAGTAAAAATCGAAGGAGATTTCCGGCTCAA
GTTCACTCTCTTCGAAATGCGAAAGGACGTCGTAACCCATCTTAAGTCCA
TCATCACGGATAGATTTACCGTGTACCCGCCAAAGAGCTTTCCGGGCATG
GCTGAGTCGACGTTCCTCTCCAGATCTTTTGCGGACCAAGGTGTGAAGTT
GAGAATTAGAAAGGAGCCACGAACACTAATCAAACGGCCTGTACCCCGGC
CAGAGGAGTATCCGCAGCCGATTCCGCGCTCGCCCGATCGTTCTTCGATC
CAGATGCCAAGCAACGCGTTCAGCGCTTACCCGACAACGAGTAGAGACTA
TGGGTACTATGGACAGCAGACACACCCCAGTAAGCGGCCGCGAATGTCGT
CTATAGACCTTGGGACCCGAGGGATGTATGACGCAGATGGGCGGATGCGT
CAGATGGATACGTACCCTCAAACGGCGATCTACAATCAGCCAGGGGGCTA
CGCAACTCCTATGATGCAAGGCTATCCTGCCGGACACACGGCGGTTCCAG
ATTATGCGATGTCTTACGGAATCCCATCCTCCACTCAGGTACCCCAGATG
CAAGACCCTGGGGCACACGGTCGATCCAGCCAACAGGCCACGATGCAGTC
CTTAGGAATGGTCAACGCGCCTGGTACTCCTACAGCGGACTCGACGGGAG
CAATGATGCCACAAAGCTACCCTCGTTCGCAATACCAGACTGGGTCCACA
ATCCTTCCTCCTTTGCAACAACGGAATCGAAATTTTGCTCAAGGCACCAA
CGGTGCAGCGGCACGAGGCTACTTTGATCAATCTTCCCAAGCGGCGACAC
CGATCCTTCCATCACAACCTATTCCTACCAATGAAGTGGACAGGTACGGT
TCTACTCCTGGCCAGGCGTCTTTTGAGCATCCTGCTTCAGCGAATGGGAC
CCCGCGATGAATGAGTGCGTCGACGTTTCCGGACGCTTCCCTTGCCCGCG
ATACTCAGAGCTCCGACTTTGACCTGATCGTTCGCCAGCAGCCCAACAGG
GCGCGCGTGGCGGGTGGGAAGGAGAAAGAACGCAAGCCAGTAGATCCGCC
GCCGATTGTGCAGATCCGAGTCAGAGAGGAGGGGACCTATCTCGCGCAGC
ATTACTTGCAAAGCCCTTATTATTTTATGTGCTGCAGCTTGTATGATGCG
TCAGAGGATAACCCAGTTCCCGTGGCCCCGTCCACTGCTCTGACCGGCAC
ACTGGTTTCGTCTCTCCACAGGTTGAAAGATGTGGACAATACTGATGGGG
GATTCTTCGTTTGGGGGGACTTGTCAGTAAAAATCGAAGGAGATTTCCGG
CTCAAGTTCACTCTCTTCGAAATGCGAAAGGACGTCGTAACCCATCTTAA
GTCCATCATCACGGATAGATTTACCGTGTACCCGCCAAAGAGCTTTCCGG
GCATGGCTGAGTCGACGTTCCTCTCCAGATCTTTTGCGGACCAAGGTGTG
AAGTTGAGAATTAGAAAGGAGCCACGAACACTAATCAAACGGCCTGTACC
CCGGCCAGAGGAGTATCCGCAGCCGATTCCGCGCTCGCCCGATCGTTCTT
CGATCCAGATGCCAAGCAACGCGTTCAGCGCTTACCCGACAACGAGTAGA
GACTATGGGTACTATGGACAGCAGACACACCCCAGTAAGCGGCCGCGAAT
GTCGTCTATAGACCTTGGGACCCGAGGGATGTATGACGCAGATGGGCGGA
TGCGTCAGATGGATACGTACCCTCAAACGGCGATCTACAATCAGCCAGGG
GGCTACGCAACTCCTATGATGCAAGGCTATCCTGCCGGACACACGGCGGT
TCCAGATTATGCGATGTCTTACGGAATCCCATCCTCCACTCAGGTACCCC
AGATGCAAGACCCTGGGGCACACGGTCGATCCAGCCAACAGGCCACGATG
CAGTCCTTAGGAATGGTCAACGCGCCTGGTACTCCTACAGCGGACTCGAC
GGGAGCAATGATGCCACAAAGCTACCCTCGTTCGCAATACCAGACTGGGT
CCACAATCCTTCCTCCTTTGCAACAACGGAATCGAAATTTTGCTCAAGGC
ACCAACGGTGCAGCGGCACGAGGCTACTTTGATCAATCTTCCCAAGCGGC
GACACCGATCCTTCCATCACAACCTATTCCTACCAATGAAGTGGACAGGT
ACGGTTCTACTCCTGGCCAGGCGTCTTTTGAGCATCCTGCTTCAGCGAAT
GGGACCCCGCGATGAATGAGTGCGTCGACGTTTCCGGACGCTTCCCTTGC
CCGCGATACTCAGAGCTCCGACTTTGACCTGATCGTTCGCCAGCAGCCCA
ACAGGGCGCGCGTGGCGGGTGGGAAGGAGAAAGAACGCAAGCCAGTAGAT
CCGCCGCCGATTGTGCAGATCCGAGTCAGAGAGGAGGGGACCTATCTCGC
GCAGCATTACTTGCAAAGCCCTTATTATTTTATGTGCTGCAGCTTGTATG
ATGCGTCAGAGGATAACCCAGTTCCCGTGGCCCCGTCCACTGCTCTGACC
GGCACACTGGTTTCGTCTCTCCACAGGTTGAAAGATGTGGACAATACTGA
TGGGGGATTCTTCGTTTGGGGGGACTTGTCAGTAAAAATCGAAGGAGATT
TCCGGCTCAAGTTCACTCTCTTCGAAATGCGAAAGGACGTCGTAACCCAT
CTTAAGTCCATCATCACGGATAGATTTACCGTGTACCCGCCAAAGAGCTT
TCCGGGCATGGCTGAGTCGACGTTCCTCTCCAGATCTTTTGCGGACCAAG
GTGTGAAGTTGAGAATTAGAAAGGAGCCACGAACACTAATCAAACGGCCT
GTACCCCGGCCAGAGGAGTATCCGCAGCCGATTCCGCGCTCGCCCGATCG
TTCTTCGATCCAGATGCCAAGCAACGCGTTCAGCGCTTACCCGACAACGA
GTAGAGACTATGGGTACTATGGACAGCAGACACACCCCAGTAAGCGGCCG
CGAATGTCGTCTATAGACCTTGGGACCCGAGGGATGTATGACGCAGATGG
GCGGATGCGTCAGATGGATACGTACCCTCAAACGGCGATCTACAATCAGC
CAGGGGGCTACGCAACTCCTATGATGCAAGGCTATCCTGCCGGACACACG
GCGGTTCCAGATTATGCGATGTCTTACGGAATCCCATCCTCCACTCAGGT
ACCCCAGATGCAAGACCCTGGGGCACACGGTCGATCCAGCCAACAGGCCA
CGATGCAGTCCTTAGGAATGGTCAACGCGCCTGGTACTCCTACAGCGGAC
TCGACGGGAGCAATGATGCCACAAAGCTACCCTCGTTCGCAATACCAGAC
TGGGTCCACAATCCTTCCTCCTTTGCAACAACGGAATCGAAATTTTGCTC
AAGGCACCAACGGTGCAGCGGCACGAGGCTACTTTGATCAATCTTCCCAA
GCGGCGACACCGATCCTTCCATCACAACCTATTCCTACCAATGAAGTGGA
CAGGTACGGTTCTACTCCTGGCCAGGCGTCTTTTGAGCATCCTGCTTCAG
CGAATGGGACCCCGCGATGAATGAGTGCGTCGACGTTTCCGGACGCTTCC
CTTGCCCGCGATACTCAGAGCTCCGACTTTGACCTGATCGTTCGCCAGCA
GCCCAACAGGGCGCGCGTGGCGGGTGGGAAGGAGAAAGAACGCAAGCCAG
TAGATCCGCCGCCGATTGTGCAGATCCGAGTCAGAGAGGAGGGGACCTAT
CTCGCGCAGCATTACTTGCAAAGCCCTTATTATTTTATGTGCTGCAGCTT
GTATGATGCGTCAGAGGATAACCCAGTTCCCGTGGCCCCGTCCACTGCTC
TGACCGGCACACTGGTTTCGTCTCTCCACAGGTTGAAAGATGTGGACAAT
ACTGATGGGGGATTCTTCGTTTGGGGGGACTTGTCAGTAAAAATCGAAGG
AGATTTCCGGCTCAAGTTCACTCTCTTCGAAATGCGAAAGGACGTCGTAA
CCCATCTTAAGTCCATCATCACGGATAGATTTACCGTGTACCCGCCAAAG
AGCTTTCCGGGCATGGCTGAGTCGACGTTCCTCTCCAGATCTTTTGCGGA
CCAAGGTGTGAAGTTGAGAATTAGAAAGGAGCCACGAACACTAATCAAAC
GGCCTGTACCCCGGCCAGAGGAGTATCCGCAGCCGATTCCGCGCTCGCCC
GATCGTTCTTCGATCCAGATGCCAAGCAACGCGTTCAGCGCTTACCCGAC
AACGAGTAGAGACTATGGGTACTATGGACAGCAGACACACCCCAGTAAGC
GGCCGCGAATGTCGTCTATAGACCTTGGGACCCGAGGGATGTATGACGCA
GATGGGCGGATGCGTCAGATGGATACGTACCCTCAAACGGCGATCTACAA
TCAGCCAGGGGGCTACGCAACTCCTATGATGCAAGGCTATCCTGCCGGAC
ACACGGCGGTTCCAGATTATGCGATGTCTTACGGAATCCCATCCTCCACT
CAGGTACCCCAGATGCAAGACCCTGGGGCACACGGTCGATCCAGCCAACA
GGCCACGATGCAGTCCTTAGGAATGGTCAACGCGCCTGGTACTCCTACAG
CGGACTCGACGGGAGCAATGATGCCACAAAGCTACCCTCGTTCGCAATAC
CAGACTGGGTCCACAATCCTTCCTCCTTTGCAACAACGGAATCGAAATTT
TGCTCAAGGCACCAACGGTGCAGCGGCACGAGGCTACTTTGATCAATCTT
CCCAAGCGGCGACACCGATCCTTCCATCACAACCTATTCCTACCAATGAA
GTGGACAGGTACGGTTCTACTCCTGGCCAGGCGTCTTTTGAGCATCCTGC
TTCAGCGAATGGGACCCCGCGATGAATGAGTGCGTCGACGTTTCCGGACG
CTTCCCTTGCCCGCGATACTCAGAGCTCCGACTTTGACCTGATCGTTCGC
CAGCAGCCCAACAGGGCGCGCGTGGCGGGTGGGAAGGAGAAAGAACGCAA
GCCAGTAGATCCGCCGCCGATTGTGCAGATCCGAGTCAGAGAGGAGGGGA
CCTATCTCGCGCAGCATTACTTGCAAAGCCCTTATTATTTTATGTGCTGC
AGCTTGTATGATGCGTCAGAGGATAACCCAGTTCCCGTGGCCCCGTCCAC
TGCTCTGACCGGCACACTGGTTTCGTCTCTCCACAGGTTGAAAGATGTGG
ACAATACTGATGGGGGATTCTTCGTTTGGGGGGACTTGTCAGTAAAAATC
GAAGGAGATTTCCGGCTCAAGTTCACTCTCTTCGAAATGCGAAAGGACGT
CGTAACCCATCTTAAGTCCATCATCACGGATAGATTTACCGTGTACCCGC
CAAAGAGCTTTCCGGGCATGGCTGAGTCGACGTTCCTCTCCAGATCTTTT
GCGGACCAAGGTGTGAAGTTGAGAATTAGAAAGGAGCCACGAACACTAAT
CAAACGGCCTGTACCCCGGCCAGAGGAGTATCCGCAGCCGATTCCGCGCT
CGCCCGATCGTTCTTCGATCCAGATGCCAAGCAACGCGTTCAGCGCTTAC
CCGACAACGAGTAGAGACTATGGGTACTATGGACAGCAGACACACCCCAG
TAAGCGGCCGCGAATGTCGTCTATAGACCTTGGGACCCGAGGGATGTATG
ACGCAGATGGGCGGATGCGTCAGATGGATACGTACCCTCAAACGGCGATC
TACAATCAGCCAGGGGGCTACGCAACTCCTATGATGCAAGGCTATCCTGC
CGGACACACGGCGGTTCCAGATTATGCGATGTCTTACGGAATCCCATCCT
CCACTCAGGTACCCCAGATGCAAGACCCTGGGGCACACGGTCGATCCAGC
CAACAGGCCACGATGCAGTCCTTAGGAATGGTCAACGCGCCTGGTACTCC
TACAGCGGACTCGACGGGAGCAATGATGCCACAAAGCTACCCTCGTTCGC
AATACCAGACTGGGTCCACAATCCTTCCTCCTTTGCAACAACGGAATCGA
AATTTTGCTCAAGGCACCAACGGTGCAGCGGCACGAGGCTACTTTGATCA
ATCTTCCCAAGCGGCGACACCGATCCTTCCATCACAACCTATTCCTACCA
ATGAAGTGGACAGGTACGGTTCTACTCCTGGCCAGGCGTCTTTTGAGCAT
CCTGCTTCAGCGAATGGGACCCCGCGATGAATGAGTGCGTCGACGTTTCC
GGACGCTTCCCTTGCCCGCGATACTCAGAGCTCCGACTTTGACCTGATCG
TTCGCCAGCAGCCCAACAGGGCGCGCGTGGCGGGTGGGAAGGAGAAAGAA
CGCAAGCCAGTAGATCCGCCGCCGATTGTGCAGATCCGAGTCAGAGAGGA
GGGGACCTATCTCGCGCAGCATTACTTGCAAAGCCCTTATTATTTTATGT
GCTGCAGCTTGTATGATGCGTCAGAGGATAACCCAGTTCCCGTGGCCCCG
TCCACTGCTCTGACCGGCACACTGGTTTCGTCTCTCCACAGGTTGAAAGA
TGTGGACAATACTGATGGGGGATTCTTCGTTTGGGGGGACTTGTCAGTAA
AAATCGAAGGAGATTTCCGGCTCAAGTTCACTCTCTTCGAAATGCGAAAG
GACGTCGTAACCCATCTTAAGTCCATCATCACGGATAGATTTACCGTGTA
CCCGCCAAAGAGCTTTCCGGGCATGGCTGAGTCGACGTTCCTCTCCAGAT
CTTTTGCGGACCAAGGTGTGAAGTTGAGAATTAGAAAGGAGCCACGAACA
CTAATCAAACGGCCTGTACCCCGGCCAGAGGAGTATCCGCAGCCGATTCC
GCGCTCGCCCGATCGTTCTTCGATCCAGATGCCAAGCAACGCGTTCAGCG
CTTACCCGACAACGAGTAGAGACTATGGGTACTATGGACAGCAGACACAC
CCCAGTAAGCGGCCGCGAATGTCGTCTATAGACCTTGGGACCCGAGGGAT
GTATGACGCAGATGGGCGGATGCGTCAGATGGATACGTACCCTCAAACGG
CGATCTACAATCAGCCAGGGGGCTACGCAACTCCTATGATGCAAGGCTAT
CCTGCCGGACACACGGCGGTTCCAGATTATGCGATGTCTTACGGAATCCC
ATCCTCCACTCAGGTACCCCAGATGCAAGACCCTGGGGCACACGGTCGAT
CCAGCCAACAGGCCACGATGCAGTCCTTAGGAATGGTCAACGCGCCTGGT
ACTCCTACAGCGGACTCGACGGGAGCAATGATGCCACAAAGCTACCCTCG
TTCGCAATACCAGACTGGGTCCACAATCCTTCCTCCTTTGCAACAACGGA
ATCGAAATTTTGCTCAAGGCACCAACGGTGCAGCGGCACGAGGCTACTTT
GATCAATCTTCCCAAGCGGCGACACCGATCCTTCCATCACAACCTATTCC
TACCAATGAAGTGGACAGGTACGGTTCTACTCCTGGCCAGGCGTCTTTTG
AGCATCCTGCTTCAGCGAATGGGACCCCGCGATGAATGAGTGCGTCGACG
TTTCCGGACGCTTCCCTTGCCCGCGATACTCAGAGCTCCGACTTTGACCT
GATCGTTCGCCAGCAGCCCAACAGGGCGCGCGTGGCGGGTGGGAAGGAGA
AAGAACGCAAGCCAGTAGATCCGCCGCCGATTGTGCAGATCCGAGTCAGA
GAGGAGGGGACCTATCTCGCGCAGCATTACTTGCAAAGCCCTTATTATTT
TATGTGCTGCAGCTTGTATGATGCGTCAGAGGATAACCCAGTTCCCGTGG
CCCCGTCCACTGCTCTGACCGGCACACTGGTTTCGTCTCTCCACAGGTTG
AAAGATGTGGACAATACTGATGGGGGATTCTTCGTTTGGGGGGACTTGTC
AGTAAAAATCGAAGGAGATTTCCGGCTCAAGTTCACTCTCTTCGAAATGC
GAAAGGACGTCGTAACCCATCTTAAGTCCATCATCACGGATAGATTTACC
GTGTACCCGCCAAAGAGCTTTCCGGGCATGGCTGAGTCGACGTTCCTCTC
CAGATCTTTTGCGGACCAAGGTGTGAAGTTGAGAATTAGAAAGGAGCCAC
GAACACTAATCAAACGGCCTGTACCCCGGCCAGAGGAGTATCCGCAGCCG
ATTCCGCGCTCGCCCGATCGTTCTTCGATCCAGATGCCAAGCAACGCGTT
CAGCGCTTACCCGACAACGAGTAGAGACTATGGGTACTATGGACAGCAGA
CACACCCCAGTAAGCGGCCGCGAATGTCGTCTATAGACCTTGGGACCCGA
GGGATGTATGACGCAGATGGGCGGATGCGTCAGATGGATACGTACCCTCA
AACGGCGATCTACAATCAGCCAGGGGGCTACGCAACTCCTATGATGCAAG
GCTATCCTGCCGGACACACGGCGGTTCCAGATTATGCGATGTCTTACGGA
ATCCCATCCTCCACTCAGGTACCCCAGATGCAAGACCCTGGGGCACACGG
TCGATCCAGCCAACAGGCCACGATGCAGTCCTTAGGAATGGTCAACGCGC
CTGGTACTCCTACAGCGGACTCGACGGGAGCAATGATGCCACAAAGCTAC
CCTCGTTCGCAATACCAGACTGGGTCCACAATCCTTCCTCCTTTGCAACA
ACGGAATCGAAATTTTGCTCAAGGCACCAACGGTGCAGCGGCACGAGGCT
ACTTTGATCAATCTTCCCAAGCGGCGACACCGATCCTTCCATCACAACCT
ATTCCTACCAATGAAGTGGACAGGTACGGTTCTACTCCTGGCCAGGCGTC
TTTTGAGCATCCTGCTTCAGCGAATGGGACCCCGCGATGAATGAGTGCGT
CGACGTTTCCGGACGCTTCCCTTGCCCGCGATACTCAGAGCTCCGACTTT
GACCTGATCGTTCGCCAGCAGCCCAACAGGGCGCGCGTGGCGGGTGGGAA
GGAGAAAGAACGCAAGCCAGTAGATCCGCCGCCGATTGTGCAGATCCGAG
TCAGAGAGGAGGGGACCTATCTCGCGCAGCATTACTTGCAAAGCCCTTAT
TATTTTATGTGCTGCAGCTTGTATGATGCGTCAGAGGATAACCCAGTTCC
CGTGGCCCCGTCCACTGCTCTGACCGGCACACTGGTTTCGTCTCTCCACA
GGTTGAAAGATGTGGACAATACTGATGGGGGATTCTTCGTTTGGGGGGAC
TTGTCAGTAAAAATCGAAGGAGATTTCCGGCTCAAGTTCACTCTCTTCGA
AATGCGAAAGGACGTCGTAACCCATCTTAAGTCCATCATCACGGATAGAT
TTACCGTGTACCCGCCAAAGAGCTTTCCGGGCATGGCTGAGTCGACGTTC
CTCTCCAGATCTTTTGCGGACCAAGGTGTGAAGTTGAGAATTAGAAAGGA
GCCACGAACACTAATCAAACGGCCTGTACCCCGGCCAGAGGAGTATCCGC
AGCCGATTCCGCGCTCGCCCGATCGTTCTTCGATCCAGATGCCAAGCAAC
GCGTTCAGCGCTTACCCGACAACGAGTAGAGACTATGGGTACTATGGACA
GCAGACACACCCCAGTAAGCGGCCGCGAATGTCGTCTATAGACCTTGGGA
CCCGAGGGATGTATGACGCAGATGGGCGGATGCGTCAGATGGATACGTAC
CCTCAAACGGCGATCTACAATCAGCCAGGGGGCTACGCAACTCCTATGAT
GCAAGGCTATCCTGCCGGACACACGGCGGTTCCAGATTATGCGATGTCTT
ACGGAATCCCATCCTCCACTCAGGTACCCCAGATGCAAGACCCTGGGGCA
CACGGTCGATCCAGCCAACAGGCCACGATGCAGTCCTTAGGAATGGTCAA
CGCGCCTGGTACTCCTACAGCGGACTCGACGGGAGCAATGATGCCACAAA
GCTACCCTCGTTCGCAATACCAGACTGGGTCCACAATCCTTCCTCCTTTG
CAACAACGGAATCGAAATTTTGCTCAAGGCACCAACGGTGCAGCGGCACG
AGGCTACTTTGATCAATCTTCCCAAGCGGCGACACCGATCCTTCCATCAC
AACCTATTCCTACCAATGAAGTGGACAGGTACGGTTCTACTCCTGGCCAG
GCGTCTTTTGAGCATCCTGCTTCAGCGAATGGGACCCCGCGATGAATGAG
TGCGTCGACGTTTCCGGACGCTTCCCTTGCCCGCGATACTCAGAGCTCCG
ACTTTGACCTGATCGTTCGCCAGCAGCCCAACAGGGCGCGCGTGGCGGGT
GGGAAGGAGAAAGAACGCAAGCCAGTAGATCCGCCGCCGATTGTGCAGAT
CCGAGTCAGAGAGGAGGGGACCTATCTCGCGCAGCATTACTTGCAAAGCC
CTTATTATTTTATGTGCTGCAGCTTGTATGATGCGTCAGAGGATAACCCA
GTTCCCGTGGCCCCGTCCACTGCTCTGACCGGCACACTGGTTTCGTCTCT
CCACAGGTTGAAAGATGTGGACAATACTGATGGGGGATTCTTCGTTTGGG
GGGACTTGTCAGTAAAAATCGAAGGAGATTTCCGGCTCAAGTTCACTCTC
TTCGAAATGCGAAAGGACGTCGTAACCCATCTTAAGTCCATCATCACGGA
TAGATTTACCGTGTACCCGCCAAAGAGCTTTCCGGGCATGGCTGAGTCGA
CGTTCCTCTCCAGATCTTTTGCGGACCAAGGTGTGAAGTTGAGAATTAGA
AAGGAGCCACGAACACTAATCAAACGGCCTGTACCCCGGCCAGAGGAGTA
TCCGCAGCCGATTCCGCGCTCGCCCGATCGTTCTTCGATCCAGATGCCAA
GCAACGCGTTCAGCGCTTACCCGACAACGAGTAGAGACTATGGGTACTAT
GGACAGCAGACACACCCCAGTAAGCGGCCGCGAATGTCGTCTATAGACCT
TGGGACCCGAGGGATGTATGACGCAGATGGGCGGATGCGTCAGATGGATA
CGTACCCTCAAACGGCGATCTACAATCAGCCAGGGGGCTACGCAACTCCT
ATGATGCAAGGCTATCCTGCCGGACACACGGCGGTTCCAGATTATGCGAT
GTCTTACGGAATCCCATCCTCCACTCAGGTACCCCAGATGCAAGACCCTG
GGGCACACGGTCGATCCAGCCAACAGGCCACGATGCAGTCCTTAGGAATG
GTCAACGCGCCTGGTACTCCTACAGCGGACTCGACGGGAGCAATGATGCC
ACAAAGCTACCCTCGTTCGCAATACCAGACTGGGTCCACAATCCTTCCTC
CTTTGCAACAACGGAATCGAAATTTTGCTCAAGGCACCAACGGTGCAGCG
GCACGAGGCTACTTTGATCAATCTTCCCAAGCGGCGACACCGATCCTTCC
ATCACAACCTATTCCTACCAATGAAGTGGACAGGTACGGTTCTACTCCTG
GCCAGGCGTCTTTTGAGCATCCTGCTTCAGCGAATGGGACCCCGCGATGA
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Relationships

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

Feature NameUnique NameSpeciesType
CAN33_6150CAN33_6150Aspergillus niger FDAARGOS_311gene


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

Feature NameUnique NameSpeciesType
CAN33_6150-T1CAN33_6150-T1-proteinAspergillus niger FDAARGOS_311polypeptide


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

Feature NameUnique NameSpeciesType
CAN33_6150-T1.exon1CAN33_6150-T1.exon1Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon2CAN33_6150-T1.exon2Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon3CAN33_6150-T1.exon3Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon4CAN33_6150-T1.exon4Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon5CAN33_6150-T1.exon5Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon6CAN33_6150-T1.exon6Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon7CAN33_6150-T1.exon7Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon8CAN33_6150-T1.exon8Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon9CAN33_6150-T1.exon9Aspergillus niger FDAARGOS_311exon
CAN33_6150-T1.exon10CAN33_6150-T1.exon10Aspergillus niger FDAARGOS_311exon


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

Feature NameUnique NameSpeciesType
CAN33_6150-T1.cdsCAN33_6150-T1.cdsAspergillus niger FDAARGOS_311CDS


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR037525
DBxrefInterPro:IPR038491
ProductVelvet factor family protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger FDAARGOS_311 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
NKJJ01000019.1supercontigNKJJ01000019.1:1497982..1500011 +
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