You are here

Home

ASPNIDRAFT_129820-T1, ASPNIDRAFT_129820-T1 (mRNA) Aspergillus niger ATCC 1015

Overview
NameASPNIDRAFT_129820-T1
Unique NameASPNIDRAFT_129820-T1
TypemRNA
OrganismAspergillus niger ATCC 1015
Sequences
The following sequences are available for this feature:

mRNA from alignment at ACJE01000009.1:757308..760121+

Legend: exonpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ASPNIDRAFT_129820-T1 ID=ASPNIDRAFT_129820-T1|Name=ASPNIDRAFT_129820-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=2814bp|location=Sequence derived from alignment at ACJE01000009.1:757308..760121+ (Aspergillus niger ATCC 1015)
ATGGCCATTGACAAGTTTGAACTGGCGATTTTGATTGGGGAAAAGGACGA
TGGAGATCGGCCGGAATGGTTGCGTGCTCTGGGCAAAGCATACAGAGCCA
GGTTCCGATACCAGGATACACTGGAGGACCTGCGAAAGGCCATAGAGCTT
GCCGAAGCAGCCCTGGAATTGAAGGTTGAGCCCGACGAATCTCGTGCAGA
AGACCTCGAGGATCTCTGCCAGAATCTGATTGATCTCCATGAGCGCGCCT
CGGGTCTGGAACATCTCGATAGGGCGATTGAAGTCGGCTTGGAAGCATTA
TCCTTGACTCCACTAGATCACCCCAAAAGAGGACTCTATCTAGGCCGTCG
CGCATCGGAACTCTTGATCCGCTACCAGGAGATTGCAAATCGCGACGATC
TTGAGAAAGGCATTGAACTAATCACGGCAGCATTGATCTTGACACCCAAG
TCTGAGTCGCAGTGGAGTAATTTCTGTTCGATTCATGCAGACCTTTACAG
GCAGCGATTCAAACAAGATGGCAATATAAAGGATTTGGAAAAGGCGGTGG
ATCATGCCACAGTGGCTGTTCGCGATGGACCGGCAGATAGTCCACTCTTG
TTGGATTCGTTGGCACGGCAATTGGAGTATCGATATCAAGCACTTGGGAA
CAAGGAAGACCTCGACAAGTCAATCGTGGCTGCAGAGAGAGCTCTCGAAG
TATGCGAGCCTGGCAGCAAATACCGAGCGGACTATCTCACAACACTGGGC
AATATCCTACTGGAGCGGTTCGATGCAACCGGGCAGCAAGAGGATCTTAA
CCATGCAATTCTCCATCTAGAGAACGCCCGTGATATACCGAAGACAAATG
CAGTTGCTGAAGCAAGATGCCTGAGTGGATTAGCTACCGCATTTACATTA
TGCTACAAACGCACGGATGACCACGCGAGTCTTGAAGCTGCTATTCACAA
TGAAAGACTGGCCCTCGAGACTCTTCCCGATTGGTTTGAAGGAAAATCTG
AGGTGATGAACAACATGGCACTTCATTTGACAGACAGGTTTCGATGGACA
AAAATGGCCGACGATATCGACGAAGCCGCGAAGTATGCGGAGATGGTCCT
AACCCTGCGCCCTCCCAACCATATGTACTACGCAGGAAGCCTGAACAATA
TTTCCAATATCATGGAGGCTAGATTTTATGAGTCAAAGGACTTGAATGAT
TTGAATTCAGCAATCGAGAAGGCTGAAGATACATTATCAGCCACGCAAAT
TGACCATACCAGTCGTGCAGGGCGCCTTTTCAACCTCGGTGCCAAATATC
ATGTCCGATATGGAAAAAGTAATGACCCTCAGGACCTCCAACTTGCCGTG
AAAAGTTTTATAGACGGCTGGAGGATCATCAATGGACCTCCATTCCATCG
TGTGATGGCTGGTTCTCAGGCCGCGCATCGACTGATGGAATTGGGAAGAC
TAGAAGAAGCCACAACGATCGCGATGGAAGTCGTTGATTTGCTTCCTCAA
GTCACTAGCCGATCACTCGGTATCACCGACCAGCAATACGTTGTCCGCAA
ATTCTCTGGGATGGCCGGGAACGCCTGTTCCCTCCTCTTGAGCGCTGGGC
GACTGCACGAAGCATTGGAATATCTCGAGCGAGGACGGACTGTCATCCTC
GATCAGTTAATGAGCAGTCGGATGGATTTCTCCGACCTCGAATCCACATA
TTCCGGAGCATGCTGCAAGATTTCGACAACTCCAGGACGATATCAATAAT
ACATTCGACAGGGCAGGCGCGGGAATTAGCGAATCGAATTCCTTGGTTCA
AAACCGTCTCGCATCGGTTTCCAAGTTCAATGAGTGCATTGACGCAATTC
GTCTCTTGCCAGGACATGATCGGTTTCTTCTCGGGCCAACGATTGAAAAT
ATGAAGTCGGGCGCAAAGGGAGGCCTGATCGTTATCGTCATCATCAGTTC
CCTTCGCAGCGATGCCATCATTATCTCCGAGGAGGCAATCGACAGTATCG
AACTTCCTGGACTATCATACTCGGAGACTGCCGAATGGCTAGAGAAGGAC
CTGGAAGGGAGACCCAAGAATCGCGCTGATCGGAAAATGCGGAACGAACA
ATACTCCGATCTACTCCATTGGCTCTGGGTGTCTGGTGTGAAGCCCATCC
TCGATCATACCGAATTCCAACCTTCGTCATCAGCAAGACTACCCAGAATC
TCCTGGATAGGCTGCGGTATGGCTAGTCTTTTGCCTTTCCACGCAGCTGG
TGACCGCACGCCCGGCTCCAATGAGCATACCTTCTCGTACGCTATCTCCT
CATATTCACTATCAATCAAAACAATGTTCCAGGCCAGAGCCAAGTCTAGA
GAGGGCATCCCTGGTGTGCATCCGGCCTTGTTGATGGTTGGAATGCCCAC
CACCGACGGGCACGCATCGCTACCTGGAGTCGGAGACGAGATAGAAGAGA
TCGCAGAGGTGGTTGAGCCTTCATTTACCGTAAAGAGACTACTACATCCA
CAGCCTTCGCTAGTGATCTCTGATCTTGCTTCCTATGACATGATCCACTT
TGCATGTCACGCAGTGTCCGACACCAAAAGTCCTCTGAACGGTCATCTTT
TACTGCAAGGGGACACTTCAAACAGATCTTCAAGCAAACAATGTAGTCCG
CTAACAGTCGAGGCGATCGTCAAAATGGATCTCAAACGTGCGCGCATAGC
GTATCTCTCCGCATGTTCGACGGCGGAAAACAAAGGGAAGAAACTCTTAG
ACGAGGCTATCCATCTTGCCAGTGGTTTTCAGGTCGCTGGGTTTGCTCAC
GTTCTGGGTACAAT
back to top

Coding sequence (CDS) from alignment at ACJE01000009.1:757308..760121+

>ASPNIDRAFT_129820-T1 ID=ASPNIDRAFT_129820-T1|Name=ASPNIDRAFT_129820-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10184bp|location=Sequence derived from alignment at ACJE01000009.1:757308..760121+ (Aspergillus niger ATCC 1015)
ATGGCCATTGACAAGTTTGAACTGGCGATTTTGATTGGGGAAAAGGACGA
TGGAGATCGGCCGGAATGGTTGCCCCTGGAATTGAAGGTTGAGCCCGACG
AATCTCGTGCAGAAGACCTCGAGGATCTCTGCCAGAATCTGATTGATCTC
CATGAGCGCGCCTCGGGTCTGGAACATCTCGATAGGGCGATTGAAGTCGG
CTTGGAAGCATTATCCTTGACTCCACTAGATCACCCCAAAAGAGGACTCT
ATCTAGGCCGTCGCGCATCGGAACTCTTGATCCGCTACCAGGAGATTGCA
AATCGCGACGATCTTGAGAAAGGCATTGAACTAATCACGGCAGCATTGAT
CTTGACACCCAAGTCTGAGTCGCAGTGGAGTAATTTCTGTTCGATTCATG
CAGACCTTTACAGGCAGCGATTCAAACAAGATGGCAATATAAAGGATTTG
GAAAAGGCGGTGGATCATGCCACAGTGGCTGTTCGCGATGGACCGGCAGA
TAGTCCACTCTTCAAATACCGAGCGGACTATCTCACAACACTGGGCAATA
TCCTACTGGAGCGGTTCGATGCAACCGGGCAGCAAGAGGATCTTAACCAT
GCAATTCTCCATCTAGAGAACGCCCGTGATATACCGAAGACAAATGCAGT
TGCTGAAGCAAGATGCCTGAGTGGATTAGCTACCGCATTTACATTATGCT
ACAAACGCACGGATGACCACGCGAGTCTTGAAGCTGCTATTCACAATGAA
AGACTGGCCCTCGAGACTCTTCCCGATTGGTTTGAAGGAAAATCTGAGGT
GATGAACAACATGGCACTTCATTTGACAGACAGGTTTCGATGGACAAAAA
TGGCCGACGATATCGACGAAGCCGCGAAGTATGCGGAGATGGTCCTAACC
CTGCGCCCTCCCAACCATATGTACTACGCAGGAAGCCTGAACAATATTTC
CAATATCATGGAGGCTAGATTTTATGAGTCAAAGGACTTGAATGATTTGA
ATTCAGCAATCGAGAAGGCTGAAGATACATTATCAGCCACGCAAATTGAC
CATACCAGTCGTGCAGGGCGCCTTTTCAACCTCGGTGCCAAATATCATGT
CCGATATGGAAAAAGTAATGACCCTCAGGACCTCCAACTTGCCGTGAAAA
GTTTTATAGACGGCTGGAGGATCATCAATGGACCTCCATTCCATCGTGTG
ATGGCTGGTTCTCAGGCCGCGCATCGACTGATGGAATTGGGAAGACTAGA
AGAAGCCACAACGATCGCGATGGAAGTCGTTGATTTGCTTCCTCAAGTCA
CTAGCCGATCACTCGGTATCACCGACCAGCAATACGTTGTCCGCAAATTC
TCTGGGATGGCCGGGAACGCCTGTTCCCTCCTCTTGAGCGCTGGGCGACT
GCACGAAGCATTGGAATATCTCGAGCGAGGACGGACTGTCATCCTCGATC
AATTTCGACAACTCCAGGACGATATCAATAATACATTCGACAGGGCAGGC
GCGGGAATTAGCGAATCGAATTCCTTGGTTCAAAACCGTCTCGCATCGGT
TTCCAAGTTCAATGAGTGCATTGACGCAATTCGTCTCTTGCCAGGACATG
ATCGGTTTCTTCTCGGGCCAACGATTGAAAATATGAAGTCGGGCGCAAAG
GGAGGCCTGATCGTTATCGTCATCATCAGTTCCCTTCGCAGCGATGCCAT
CATTATCTCCGAGGAGGCAATCGACAGTATCGAACTTCCTGGACTATCAT
ACTCGGAGACTGCCGAATGGCTAGAGAAGGACCTGGAAGGGAGACCCAAG
AATCGCGCTGATCGGAAAATGCGGAACGAACAATACTCCGATCTACTCCA
TTGGCTCTGGGTGTCTGGTGTGAAGCCCATCCTCGATCATACCGAATTCC
AACCTTCGTCATCAGCAAGACTACCCAGAATCTCCTGGATAGGCTGCGGT
ATGGCTAGTCTTTTGCCTTTCCACGCAGCTGGTGACCGCACGCCCGGCTC
CAATGAGCATACCTTCTCGTACGCTATCTCCTCATATTCACTATCAATCA
AAACAATGTTCCAGGCCAGAGCCAAGTCTAGAGAGGGCATCCCTGGTGTG
CATCCGGCCTTGTTGATGGTTGGAATGCCCACCACCGACGGGCACGCATC
GCTACCTGGAGTCGGAGACGAGATAGAAGAGATCGCAGAGGTGGTTGAGC
CTTCATTTACCGTAAAGAGACTACTACATCCACAGCCTTCGCTAGTGATC
TCTGATCTTGCTTCCTATGACATGATCCACTTTGCATGTCACGCAGTGTC
CGACACCAAAAGTCCTCTGAACGGTCATCTTTTACTGCAAGGGGACACTT
CAAACAGATCTTCAAGCAAACAATGTAGTCCGCTAACAGTCGAGGCGATC
GTCAAAATGGATCTCAAACGTGCGCGCATAGCGTATCTCTCCGCATGTTC
GACGGCGGAAAACAAAGGGAAGAAACTCTTAGACGAGGCTATCCATCTTG
CCAGTGGTTTTCAGGTCGCTGGGTTTGCTCACGTTCTGGGTACAATATGG
CCATTGACAAGTTTGAACTGGCGATTTTGATTGGGGAAAAGGACGATGGA
GATCGGCCGGAATGGTTGCCCCTGGAATTGAAGGTTGAGCCCGACGAATC
TCGTGCAGAAGACCTCGAGGATCTCTGCCAGAATCTGATTGATCTCCATG
AGCGCGCCTCGGGTCTGGAACATCTCGATAGGGCGATTGAAGTCGGCTTG
GAAGCATTATCCTTGACTCCACTAGATCACCCCAAAAGAGGACTCTATCT
AGGCCGTCGCGCATCGGAACTCTTGATCCGCTACCAGGAGATTGCAAATC
GCGACGATCTTGAGAAAGGCATTGAACTAATCACGGCAGCATTGATCTTG
ACACCCAAGTCTGAGTCGCAGTGGAGTAATTTCTGTTCGATTCATGCAGA
CCTTTACAGGCAGCGATTCAAACAAGATGGCAATATAAAGGATTTGGAAA
AGGCGGTGGATCATGCCACAGTGGCTGTTCGCGATGGACCGGCAGATAGT
CCACTCTTCAAATACCGAGCGGACTATCTCACAACACTGGGCAATATCCT
ACTGGAGCGGTTCGATGCAACCGGGCAGCAAGAGGATCTTAACCATGCAA
TTCTCCATCTAGAGAACGCCCGTGATATACCGAAGACAAATGCAGTTGCT
GAAGCAAGATGCCTGAGTGGATTAGCTACCGCATTTACATTATGCTACAA
ACGCACGGATGACCACGCGAGTCTTGAAGCTGCTATTCACAATGAAAGAC
TGGCCCTCGAGACTCTTCCCGATTGGTTTGAAGGAAAATCTGAGGTGATG
AACAACATGGCACTTCATTTGACAGACAGGTTTCGATGGACAAAAATGGC
CGACGATATCGACGAAGCCGCGAAGTATGCGGAGATGGTCCTAACCCTGC
GCCCTCCCAACCATATGTACTACGCAGGAAGCCTGAACAATATTTCCAAT
ATCATGGAGGCTAGATTTTATGAGTCAAAGGACTTGAATGATTTGAATTC
AGCAATCGAGAAGGCTGAAGATACATTATCAGCCACGCAAATTGACCATA
CCAGTCGTGCAGGGCGCCTTTTCAACCTCGGTGCCAAATATCATGTCCGA
TATGGAAAAAGTAATGACCCTCAGGACCTCCAACTTGCCGTGAAAAGTTT
TATAGACGGCTGGAGGATCATCAATGGACCTCCATTCCATCGTGTGATGG
CTGGTTCTCAGGCCGCGCATCGACTGATGGAATTGGGAAGACTAGAAGAA
GCCACAACGATCGCGATGGAAGTCGTTGATTTGCTTCCTCAAGTCACTAG
CCGATCACTCGGTATCACCGACCAGCAATACGTTGTCCGCAAATTCTCTG
GGATGGCCGGGAACGCCTGTTCCCTCCTCTTGAGCGCTGGGCGACTGCAC
GAAGCATTGGAATATCTCGAGCGAGGACGGACTGTCATCCTCGATCAATT
TCGACAACTCCAGGACGATATCAATAATACATTCGACAGGGCAGGCGCGG
GAATTAGCGAATCGAATTCCTTGGTTCAAAACCGTCTCGCATCGGTTTCC
AAGTTCAATGAGTGCATTGACGCAATTCGTCTCTTGCCAGGACATGATCG
GTTTCTTCTCGGGCCAACGATTGAAAATATGAAGTCGGGCGCAAAGGGAG
GCCTGATCGTTATCGTCATCATCAGTTCCCTTCGCAGCGATGCCATCATT
ATCTCCGAGGAGGCAATCGACAGTATCGAACTTCCTGGACTATCATACTC
GGAGACTGCCGAATGGCTAGAGAAGGACCTGGAAGGGAGACCCAAGAATC
GCGCTGATCGGAAAATGCGGAACGAACAATACTCCGATCTACTCCATTGG
CTCTGGGTGTCTGGTGTGAAGCCCATCCTCGATCATACCGAATTCCAACC
TTCGTCATCAGCAAGACTACCCAGAATCTCCTGGATAGGCTGCGGTATGG
CTAGTCTTTTGCCTTTCCACGCAGCTGGTGACCGCACGCCCGGCTCCAAT
GAGCATACCTTCTCGTACGCTATCTCCTCATATTCACTATCAATCAAAAC
AATGTTCCAGGCCAGAGCCAAGTCTAGAGAGGGCATCCCTGGTGTGCATC
CGGCCTTGTTGATGGTTGGAATGCCCACCACCGACGGGCACGCATCGCTA
CCTGGAGTCGGAGACGAGATAGAAGAGATCGCAGAGGTGGTTGAGCCTTC
ATTTACCGTAAAGAGACTACTACATCCACAGCCTTCGCTAGTGATCTCTG
ATCTTGCTTCCTATGACATGATCCACTTTGCATGTCACGCAGTGTCCGAC
ACCAAAAGTCCTCTGAACGGTCATCTTTTACTGCAAGGGGACACTTCAAA
CAGATCTTCAAGCAAACAATGTAGTCCGCTAACAGTCGAGGCGATCGTCA
AAATGGATCTCAAACGTGCGCGCATAGCGTATCTCTCCGCATGTTCGACG
GCGGAAAACAAAGGGAAGAAACTCTTAGACGAGGCTATCCATCTTGCCAG
TGGTTTTCAGGTCGCTGGGTTTGCTCACGTTCTGGGTACAATATGGCCAT
TGACAAGTTTGAACTGGCGATTTTGATTGGGGAAAAGGACGATGGAGATC
GGCCGGAATGGTTGCCCCTGGAATTGAAGGTTGAGCCCGACGAATCTCGT
GCAGAAGACCTCGAGGATCTCTGCCAGAATCTGATTGATCTCCATGAGCG
CGCCTCGGGTCTGGAACATCTCGATAGGGCGATTGAAGTCGGCTTGGAAG
CATTATCCTTGACTCCACTAGATCACCCCAAAAGAGGACTCTATCTAGGC
CGTCGCGCATCGGAACTCTTGATCCGCTACCAGGAGATTGCAAATCGCGA
CGATCTTGAGAAAGGCATTGAACTAATCACGGCAGCATTGATCTTGACAC
CCAAGTCTGAGTCGCAGTGGAGTAATTTCTGTTCGATTCATGCAGACCTT
TACAGGCAGCGATTCAAACAAGATGGCAATATAAAGGATTTGGAAAAGGC
GGTGGATCATGCCACAGTGGCTGTTCGCGATGGACCGGCAGATAGTCCAC
TCTTCAAATACCGAGCGGACTATCTCACAACACTGGGCAATATCCTACTG
GAGCGGTTCGATGCAACCGGGCAGCAAGAGGATCTTAACCATGCAATTCT
CCATCTAGAGAACGCCCGTGATATACCGAAGACAAATGCAGTTGCTGAAG
CAAGATGCCTGAGTGGATTAGCTACCGCATTTACATTATGCTACAAACGC
ACGGATGACCACGCGAGTCTTGAAGCTGCTATTCACAATGAAAGACTGGC
CCTCGAGACTCTTCCCGATTGGTTTGAAGGAAAATCTGAGGTGATGAACA
ACATGGCACTTCATTTGACAGACAGGTTTCGATGGACAAAAATGGCCGAC
GATATCGACGAAGCCGCGAAGTATGCGGAGATGGTCCTAACCCTGCGCCC
TCCCAACCATATGTACTACGCAGGAAGCCTGAACAATATTTCCAATATCA
TGGAGGCTAGATTTTATGAGTCAAAGGACTTGAATGATTTGAATTCAGCA
ATCGAGAAGGCTGAAGATACATTATCAGCCACGCAAATTGACCATACCAG
TCGTGCAGGGCGCCTTTTCAACCTCGGTGCCAAATATCATGTCCGATATG
GAAAAAGTAATGACCCTCAGGACCTCCAACTTGCCGTGAAAAGTTTTATA
GACGGCTGGAGGATCATCAATGGACCTCCATTCCATCGTGTGATGGCTGG
TTCTCAGGCCGCGCATCGACTGATGGAATTGGGAAGACTAGAAGAAGCCA
CAACGATCGCGATGGAAGTCGTTGATTTGCTTCCTCAAGTCACTAGCCGA
TCACTCGGTATCACCGACCAGCAATACGTTGTCCGCAAATTCTCTGGGAT
GGCCGGGAACGCCTGTTCCCTCCTCTTGAGCGCTGGGCGACTGCACGAAG
CATTGGAATATCTCGAGCGAGGACGGACTGTCATCCTCGATCAATTTCGA
CAACTCCAGGACGATATCAATAATACATTCGACAGGGCAGGCGCGGGAAT
TAGCGAATCGAATTCCTTGGTTCAAAACCGTCTCGCATCGGTTTCCAAGT
TCAATGAGTGCATTGACGCAATTCGTCTCTTGCCAGGACATGATCGGTTT
CTTCTCGGGCCAACGATTGAAAATATGAAGTCGGGCGCAAAGGGAGGCCT
GATCGTTATCGTCATCATCAGTTCCCTTCGCAGCGATGCCATCATTATCT
CCGAGGAGGCAATCGACAGTATCGAACTTCCTGGACTATCATACTCGGAG
ACTGCCGAATGGCTAGAGAAGGACCTGGAAGGGAGACCCAAGAATCGCGC
TGATCGGAAAATGCGGAACGAACAATACTCCGATCTACTCCATTGGCTCT
GGGTGTCTGGTGTGAAGCCCATCCTCGATCATACCGAATTCCAACCTTCG
TCATCAGCAAGACTACCCAGAATCTCCTGGATAGGCTGCGGTATGGCTAG
TCTTTTGCCTTTCCACGCAGCTGGTGACCGCACGCCCGGCTCCAATGAGC
ATACCTTCTCGTACGCTATCTCCTCATATTCACTATCAATCAAAACAATG
TTCCAGGCCAGAGCCAAGTCTAGAGAGGGCATCCCTGGTGTGCATCCGGC
CTTGTTGATGGTTGGAATGCCCACCACCGACGGGCACGCATCGCTACCTG
GAGTCGGAGACGAGATAGAAGAGATCGCAGAGGTGGTTGAGCCTTCATTT
ACCGTAAAGAGACTACTACATCCACAGCCTTCGCTAGTGATCTCTGATCT
TGCTTCCTATGACATGATCCACTTTGCATGTCACGCAGTGTCCGACACCA
AAAGTCCTCTGAACGGTCATCTTTTACTGCAAGGGGACACTTCAAACAGA
TCTTCAAGCAAACAATGTAGTCCGCTAACAGTCGAGGCGATCGTCAAAAT
GGATCTCAAACGTGCGCGCATAGCGTATCTCTCCGCATGTTCGACGGCGG
AAAACAAAGGGAAGAAACTCTTAGACGAGGCTATCCATCTTGCCAGTGGT
TTTCAGGTCGCTGGGTTTGCTCACGTTCTGGGTACAATATGGCCATTGAC
AAGTTTGAACTGGCGATTTTGATTGGGGAAAAGGACGATGGAGATCGGCC
GGAATGGTTGCCCCTGGAATTGAAGGTTGAGCCCGACGAATCTCGTGCAG
AAGACCTCGAGGATCTCTGCCAGAATCTGATTGATCTCCATGAGCGCGCC
TCGGGTCTGGAACATCTCGATAGGGCGATTGAAGTCGGCTTGGAAGCATT
ATCCTTGACTCCACTAGATCACCCCAAAAGAGGACTCTATCTAGGCCGTC
GCGCATCGGAACTCTTGATCCGCTACCAGGAGATTGCAAATCGCGACGAT
CTTGAGAAAGGCATTGAACTAATCACGGCAGCATTGATCTTGACACCCAA
GTCTGAGTCGCAGTGGAGTAATTTCTGTTCGATTCATGCAGACCTTTACA
GGCAGCGATTCAAACAAGATGGCAATATAAAGGATTTGGAAAAGGCGGTG
GATCATGCCACAGTGGCTGTTCGCGATGGACCGGCAGATAGTCCACTCTT
CAAATACCGAGCGGACTATCTCACAACACTGGGCAATATCCTACTGGAGC
GGTTCGATGCAACCGGGCAGCAAGAGGATCTTAACCATGCAATTCTCCAT
CTAGAGAACGCCCGTGATATACCGAAGACAAATGCAGTTGCTGAAGCAAG
ATGCCTGAGTGGATTAGCTACCGCATTTACATTATGCTACAAACGCACGG
ATGACCACGCGAGTCTTGAAGCTGCTATTCACAATGAAAGACTGGCCCTC
GAGACTCTTCCCGATTGGTTTGAAGGAAAATCTGAGGTGATGAACAACAT
GGCACTTCATTTGACAGACAGGTTTCGATGGACAAAAATGGCCGACGATA
TCGACGAAGCCGCGAAGTATGCGGAGATGGTCCTAACCCTGCGCCCTCCC
AACCATATGTACTACGCAGGAAGCCTGAACAATATTTCCAATATCATGGA
GGCTAGATTTTATGAGTCAAAGGACTTGAATGATTTGAATTCAGCAATCG
AGAAGGCTGAAGATACATTATCAGCCACGCAAATTGACCATACCAGTCGT
GCAGGGCGCCTTTTCAACCTCGGTGCCAAATATCATGTCCGATATGGAAA
AAGTAATGACCCTCAGGACCTCCAACTTGCCGTGAAAAGTTTTATAGACG
GCTGGAGGATCATCAATGGACCTCCATTCCATCGTGTGATGGCTGGTTCT
CAGGCCGCGCATCGACTGATGGAATTGGGAAGACTAGAAGAAGCCACAAC
GATCGCGATGGAAGTCGTTGATTTGCTTCCTCAAGTCACTAGCCGATCAC
TCGGTATCACCGACCAGCAATACGTTGTCCGCAAATTCTCTGGGATGGCC
GGGAACGCCTGTTCCCTCCTCTTGAGCGCTGGGCGACTGCACGAAGCATT
GGAATATCTCGAGCGAGGACGGACTGTCATCCTCGATCAATTTCGACAAC
TCCAGGACGATATCAATAATACATTCGACAGGGCAGGCGCGGGAATTAGC
GAATCGAATTCCTTGGTTCAAAACCGTCTCGCATCGGTTTCCAAGTTCAA
TGAGTGCATTGACGCAATTCGTCTCTTGCCAGGACATGATCGGTTTCTTC
TCGGGCCAACGATTGAAAATATGAAGTCGGGCGCAAAGGGAGGCCTGATC
GTTATCGTCATCATCAGTTCCCTTCGCAGCGATGCCATCATTATCTCCGA
GGAGGCAATCGACAGTATCGAACTTCCTGGACTATCATACTCGGAGACTG
CCGAATGGCTAGAGAAGGACCTGGAAGGGAGACCCAAGAATCGCGCTGAT
CGGAAAATGCGGAACGAACAATACTCCGATCTACTCCATTGGCTCTGGGT
GTCTGGTGTGAAGCCCATCCTCGATCATACCGAATTCCAACCTTCGTCAT
CAGCAAGACTACCCAGAATCTCCTGGATAGGCTGCGGTATGGCTAGTCTT
TTGCCTTTCCACGCAGCTGGTGACCGCACGCCCGGCTCCAATGAGCATAC
CTTCTCGTACGCTATCTCCTCATATTCACTATCAATCAAAACAATGTTCC
AGGCCAGAGCCAAGTCTAGAGAGGGCATCCCTGGTGTGCATCCGGCCTTG
TTGATGGTTGGAATGCCCACCACCGACGGGCACGCATCGCTACCTGGAGT
CGGAGACGAGATAGAAGAGATCGCAGAGGTGGTTGAGCCTTCATTTACCG
TAAAGAGACTACTACATCCACAGCCTTCGCTAGTGATCTCTGATCTTGCT
TCCTATGACATGATCCACTTTGCATGTCACGCAGTGTCCGACACCAAAAG
TCCTCTGAACGGTCATCTTTTACTGCAAGGGGACACTTCAAACAGATCTT
CAAGCAAACAATGTAGTCCGCTAACAGTCGAGGCGATCGTCAAAATGGAT
CTCAAACGTGCGCGCATAGCGTATCTCTCCGCATGTTCGACGGCGGAAAA
CAAAGGGAAGAAACTCTTAGACGAGGCTATCCATCTTGCCAGTGGTTTTC
AGGTCGCTGGGTTTGCTCACGTTCTGGGTACAAT
back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
TermDefinition
GO:0005515protein binding
Relationships

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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_129820ASPNIDRAFT_129820Aspergillus niger ATCC 1015gene


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_129820-T1.exon1ASPNIDRAFT_129820-T1.exon1Aspergillus niger ATCC 1015exon
ASPNIDRAFT_129820-T1.exon2ASPNIDRAFT_129820-T1.exon2Aspergillus niger ATCC 1015exon
ASPNIDRAFT_129820-T1.exon3ASPNIDRAFT_129820-T1.exon3Aspergillus niger ATCC 1015exon
ASPNIDRAFT_129820-T1.exon4ASPNIDRAFT_129820-T1.exon4Aspergillus niger ATCC 1015exon


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_129820-T1.cdsASPNIDRAFT_129820-T1.cdsAspergillus niger ATCC 1015CDS


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

Feature NameUnique NameSpeciesType
ASPNIDRAFT_129820-T1ASPNIDRAFT_129820-T1-proteinAspergillus niger ATCC 1015polypeptide


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR011990
DBxrefInterPro:IPR024983
DBxrefPFAM:PF12770
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 1015 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
ACJE01000009.1supercontigACJE01000009.1:757308..760121 +
Powered by Drupal