You are here

CBS51388_006779-T1, CBS51388_006779-T1 (mRNA) Aspergillus niger CBS 513.88

Overview
NameCBS51388_006779-T1
Unique NameCBS51388_006779-T1
TypemRNA
OrganismAspergillus niger CBS 513.88
Sequences
The following sequences are available for this feature:

mRNA from alignment at An11:849494..851386+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>CBS51388_006779-T1 ID=CBS51388_006779-T1|Name=CBS51388_006779-T1|organism=Aspergillus niger CBS 513.88|type=mRNA|length=1893bp|location=Sequence derived from alignment at An11:849494..851386+ (Aspergillus niger CBS 513.88)
ATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCT CTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGC CTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGT TCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGTATATC CCCCTTTTATCCTACCTTTAGAACGGCATCTTCCATTATAATAACCTTCG ACTCTAGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGT TCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAA AACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTTAGTTCCACAC TAATCTCACTCGTTACAAGTGACACAATATACTAATCTGCACCCCTAGGT CGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGC GCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGC TAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCG TTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAGTAAGTCCTG CAGCTTGCAACAAAGTTGCTCTATGCCTAATCGTCCCATAGAGAGGCCGG AGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGC GAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAG ATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTGTAAGTC TGCTAACCTCCCTTGGATGATTTGGACGCTGACTTTGCAGTGAAATACCT TCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACA AAGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTGAAGAAC CAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGA GAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACT CGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGGTGCGTATTGATCAC CACAATCATCACCATATCTCCGCTAACCGCGCATAGACCGTCTCCGCTCT ATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAG CCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTC TCCGACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTT CAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAG AAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCC AACGTCTGGTATGCGTCCCCCTTCCCTCCTCAAACCCACCAACTCATACC TAACCCAAAACCAGGGCCTTCACCCACGACCCAACCAACTACCGCAACCC CGAGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACC CACGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTG CTCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACT GGATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCG AATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTG AAACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGA GTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGA
back to top

Coding sequence (CDS) from alignment at An11:849494..851386+

>CBS51388_006779-T1 ID=CBS51388_006779-T1|Name=CBS51388_006779-T1|organism=Aspergillus niger CBS 513.88|type=CDS|length=10941bp|location=Sequence derived from alignment at An11:849494..851386+ (Aspergillus niger CBS 513.88)
ATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCT
CTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGC
CTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGT
TCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCAAT
CAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCG
ACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGA
CCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACAAGACATTAGGCCT
TCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCGCG
AACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAA
GAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGAT
TGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATACG
GATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGAC
AAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGT
TAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGAA
AGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACTGACTATCATGCAC
GACAAAACATACGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACCA
GCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGCT
CTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGT
GGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGC
CCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTTA
TAGGAACCTCCCGACTACCCGACCTCTCCGACCAGAACGACCTCCCGTAC
ATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCT
CAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCTAA
TCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACGAC
CCAACCAACTACCGCAACCCCGAGACATTCAACCCCGACCGATTTCTCGG
GGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTTGGATTCGGCAGAC
GCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGTC
GCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGCAA
GGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCCTG
TTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTTG
GTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCGAAGGA
GCTGGGGATCTGAATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCAT
CAATTTACGTTCTCTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCA
CTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCT
CCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAA
AATATGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTT
CTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAA
ACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACA
AGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAA
GCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGG
AATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCAC
CGAACGACTTGATTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTT
CGGATCGGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGT
GGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAG
GAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGG
TTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACT
GACTATCATGCACGACAAAACATACGACTTCGTGAAGAACCAAATGGCCC
GAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACT
GTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGC
TCTGTATGGCGGTGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCT
TTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAA
ATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTCTCCGACCAGAA
CGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACC
CCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTC
AACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGC
CTTCACCCACGACCCAACCAACTACCGCAACCCCGAGACATTCAACCCCG
ACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTT
GGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCAT
TTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGG
TACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACT
ATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGG
GCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGGAGA
GTCATGCGAAGGAGCTGGGGATCTGAATGTTGTCCATAGCTAGCCTTCTT
GTCGGACTTGCATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAAGAA
GACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGGCA
ATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTG
GATCATAAGGAAAAATATGGCCCAATCAGCTCCGTCACTATATTTGGACA
GACTCTCGTTGTTCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGA
AGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTG
TCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCG
CGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAG
CTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGC
GTTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAAGAGGCCGG
AGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGCGC
GAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAG
ATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAATA
CCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAAT
ACAAAGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTGAAG
AACCAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCT
TGAGAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAAT
ACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCCGCT
CTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAA
AGCCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACC
TCTCCGACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTG
TTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGA
AGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTC
CCAACGTCTGGGCCTTCACCCACGACCCAACCAACTACCGCAACCCCGAG
ACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCACG
ACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCTCG
CCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGAT
ATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAATT
TTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAAC
CGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTT
CCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGAATGTTGTCCAT
AGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTTCTCTATGTCTTTC
TTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAA
CCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTG
GCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCAATCAGCTCCGTCA
CTATATTTGGACAGACTCTCGTTGTTCTTAATGATCCCGACATGGCACTG
GAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCC
CATCGCAGATCTGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATA
ACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCG
GCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCG
GTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTGATTGATCATCTTC
GCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATACGGATACACCATT
GAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGA
TGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTC
CTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAG
ATAGCCAAGGAATACAAAGAGAGACTGACTATCATGCACGACAAAACATA
CGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCACCAGCCATCGTATG
TCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAG
ATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATAC
GACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCAT
CCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGTTATAGGAACCTCC
CGACTACCCGACCTCTCCGACCAGAACGACCTCCCGTACATCAACGCCGT
AGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCC
ACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGT
GCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACGACCCAACCAACTA
CCGCAACCCCGAGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTG
AGCCAGACCCACGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCT
GGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACT
TGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGA
TTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAG
GTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGT
GGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCT
GAATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGCATCAATTTACGTT
CTCTATGTCTTTCTTGGACCTAAGAAGACATCAGCACCACTGCCCCCAGG
GCCTCCTCCAAAACCTGTTATCGGCAATCTCAATGATCTCCCACCTCCCG
GTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGAAAAATATGGCCCA
ATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTGTTCTTAATGATCC
CGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCAAAACACTCCTCCC
GACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGACAAGACATTAGGC
CTTCTCCCCTATAACAACCGATTCCGCGCCTATCGGAAAGCCACGTACCG
CGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGATGGAATCGTGGATA
AAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTCACCGAACGACTTG
ATTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCCTTCGGATCGGATA
CGGATACACCATTGAGCCAAATGCGCGAGATCCCCTGGTGGACCTGGTCG
ACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCCAGGAGCCTGGCTG
GTTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTTGGTTGCCTGGAGG
AAAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGACTGACTATCATGC
ACGACAAAACATACGACTTCGTGAAGAACCAAATGGCCCGAGGTGTCCAC
CAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACACTGTCCTTCCAGG
CTCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGTGCTCTGTATGGCG
GTGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTTCTTTATGGCCATG
GCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAGAAATCGACCAGGT
TATAGGAACCTCCCGACTACCCGACCTCTCCGACCAGAACGACCTCCCGT
ACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCACCCCGTCACCCCT
CTCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCTTCAACGGCTATCT
AATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGGGCCTTCACCCACG
ACCCAACCAACTACCGCAACCCCGAGACATTCAACCCCGACCGATTTCTC
GGGGCAGCCCCTGAGCCAGACCCACGACTATACGCCTTTGGATTCGGCAG
ACGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGCATTTTCCTTACTG
TCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAAGGTACGAGATGGC
AAGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGACTATTAGCCATCC
TGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAGGGGCATGAGAAGT
TGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGGAGAGTCATGCGAAG
GAGCTGGGGATCTGAATGTTGTCCATAGCTAGCCTTCTTGTCGGACTTGC
ATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAAGAAGACATCAGCAC
CACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGGCAATCTCAATGAT
CTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGCTGGATCATAAGGA
AAAATATGGCCCAATCAGCTCCGTCACTATATTTGGACAGACTCTCGTTG
TTCTTAATGATCCCGACATGGCACTGGAGATGTTGGAGAAGCGTTCTGCA
AAACACTCCTCCCGACCCCATCTTCCCATCGCAGATCTGTCGGGATGGGA
CAAGACATTAGGCCTTCTCCCCTATAACAACCGATTCCGCGCCTATCGGA
AAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGTAGCTAAATTCGAT
GGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGCGCGTTATTCGGTC
ACCGAACGACTTGATTGATCATCTTCGCAAAGAGGCCGGAGCAATCATCC
TTCGGATCGGATACGGATACACCATTGAGCCAAATGCGCGAGATCCCCTG
GTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTCAGATAGTTCTCCC
AGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAATACCTTCCCACTT
GGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGAATACAAAGAGAGA
CTGACTATCATGCACGACAAAACATACGACTTCGTGAAGAACCAAATGGC
CCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTGCTTGAGAAGGACA
CTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAAATACTCGGCTGGT
GCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCCGCTCTATCCTGCTT
CTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAGAAAGCCAAAGAAG
AAATCGACCAGGTTATAGGAACCTCCCGACTACCCGACCTCTCCGACCAG
AACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAGTGTTCAGATGGCA
CCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGCGAAGAAGACATCT
TCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGTTCCCAACGTCTGG
GCCTTCACCCACGACCCAACCAACTACCGCAACCCCGAGACATTCAACCC
CGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCACGACTATACGCCT
TTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCTCGCCGAGAAGAGC
ATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGGATATTCGGAAGAA
GGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAATTTTCTTCAGGGA
CTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAAACCGAGGAGTAAG
GGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGTTTCCGTGGGAGGA
GAGTCATGCGAAGGAGCTGGGGATCTGAATGTTGTCCATAGCTAGCCTTC
TTGTCGGACTTGCATCAATTTACGTTCTCTATGTCTTTCTTGGACCTAAG
AAGACATCAGCACCACTGCCCCCAGGGCCTCCTCCAAAACCTGTTATCGG
CAATCTCAATGATCTCCCACCTCCCGGTTCCAAGGATTGGCAGCATTGGC
TGGATCATAAGGAAAAATATGGCCCAATCAGCTCCGTCACTATATTTGGA
CAGACTCTCGTTGTTCTTAATGATCCCGACATGGCACTGGAGATGTTGGA
GAAGCGTTCTGCAAAACACTCCTCCCGACCCCATCTTCCCATCGCAGATC
TGTCGGGATGGGACAAGACATTAGGCCTTCTCCCCTATAACAACCGATTC
CGCGCCTATCGGAAAGCCACGTACCGCGAACTCGGCTCGGCCAACGCAGT
AGCTAAATTCGATGGAATCGTGGATAAAGAAGTTACCCGGTTTCTTCTGC
GCGTTATTCGGTCACCGAACGACTTGATTGATCATCTTCGCAAAGAGGCC
GGAGCAATCATCCTTCGGATCGGATACGGATACACCATTGAGCCAAATGC
GCGAGATCCCCTGGTGGACCTGGTCGACAAGGCCATGGATGACTTTTCTC
AGATAGTTCTCCCAGGAGCCTGGCTGGTTAACTTTGTTCCTTTCTTGAAA
TACCTTCCCACTTGGTTGCCTGGAGGAAAGGAAAATCAGATAGCCAAGGA
ATACAAAGAGAGACTGACTATCATGCACGACAAAACATACGACTTCGTGA
AGAACCAAATGGCCCGAGGTGTCCACCAGCCATCGTATGTCTCTGGCCTG
CTTGAGAAGGACACTGTCCTTCCAGGCTCTGAAGAGGAGATTGTTGTCAA
ATACTCGGCTGGTGCTCTGTATGGCGGTGGTGCTGATACGACCGTCTCCG
CTCTATCCTGCTTCTTTATGGCCATGGCCCTCAACCCATCCGTGCAAAAG
AAAGCCAAAGAAGAAATCGACCAGGTTATAGGAACCTCCCGACTACCCGA
CCTCTCCGACCAGAACGACCTCCCGTACATCAACGCCGTAGTCCAAGAAG
TGTTCAGATGGCACCCCGTCACCCCTCTCAGCGTATCCCACGCCTCCAGC
GAAGAAGACATCTTCAACGGCTATCTAATCCCCAAGGGTGCCATCATCGT
TCCCAACGTCTGGGCCTTCACCCACGACCCAACCAACTACCGCAACCCCG
AGACATTCAACCCCGACCGATTTCTCGGGGCAGCCCCTGAGCCAGACCCA
CGACTATACGCCTTTGGATTCGGCAGACGCATCTGTCCTGGTCGCTTGCT
CGCCGAGAAGAGCATTTTCCTTACTGTCGCGCGGGCACTTGCGGTACTGG
ATATTCGGAAGAAGGTACGAGATGGCAAGGAAGTTCCGATTCGGGTCGAA
TTTTCTTCAGGGACTATTAGCCATCCTGTTCCTTTCGAGGTGGATCTGAA
ACCGAGGAGTAAGGGGCATGAGAAGTTGGTGGGGGCAGTGGAGAGAGAGT
TTCCGTGGGAGGAGAGTCATGCGAAGGAGCTGGGGATCTGA
back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
Vocabulary: Molecular Function
TermDefinition
GO:0016705oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:0020037heme binding
GO:0005506iron ion binding
Relationships

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

Feature NameUnique NameSpeciesType
CBS51388_006779CBS51388_006779Aspergillus niger CBS 513.88gene


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

Feature NameUnique NameSpeciesType
CBS51388_006779-T1CBS51388_006779-T1-proteinAspergillus niger CBS 513.88polypeptide


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

Feature NameUnique NameSpeciesType
CBS51388_006779-T1.exon1CBS51388_006779-T1.exon1Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon2CBS51388_006779-T1.exon2Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon3CBS51388_006779-T1.exon3Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon4CBS51388_006779-T1.exon4Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon5CBS51388_006779-T1.exon5Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon6CBS51388_006779-T1.exon6Aspergillus niger CBS 513.88exon
CBS51388_006779-T1.exon7CBS51388_006779-T1.exon7Aspergillus niger CBS 513.88exon


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

Feature NameUnique NameSpeciesType
CBS51388_006779-T1.cdsCBS51388_006779-T1.cdsAspergillus niger CBS 513.88CDS


Properties
Property NameValue
DBxrefInterPro:IPR017972
DBxrefInterPro:IPR036396
DBxrefInterPro:IPR002401
DBxrefInterPro:IPR001128
DBxrefPFAM:PF00067
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger CBS 513.88 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
An11supercontigAn11:849494..851386 +