You are here

ATCC64974_70900-T1, ATCC64974_70900-T1 (mRNA) Aspergillus niger N402

Overview
NameATCC64974_70900-T1
Unique NameATCC64974_70900-T1
TypemRNA
OrganismAspergillus niger N402
Sequences
The following sequences are available for this feature:

mRNA from alignment at OGUI01000010.1:2570505..2573188-

Legend: polypeptideCDSexon
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC64974_70900-T1 ID=ATCC64974_70900-T1|Name=ATCC64974_70900-T1|organism=Aspergillus niger N402|type=mRNA|length=2684bp|location=Sequence derived from alignment at OGUI01000010.1:2570505..2573188- (Aspergillus niger N402)
ATGGCCGACTTTCACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCC TCCCGAGCATGAACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCA GGCGCACCATGGCATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGAT CGTGAGTATCCCGTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAA ATGCACTTATGAGGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCT CGCCCGTTTTCTCCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAG GCTGATCGGGCGACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCT GGCCTCTCGGTGTCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAAT TTCTGGAAACCGTCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCG TATGTCAACACCGACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCA TCATCATTCCAACAACTCTCAACCCTACCCCGACGATAACGATGAGACTC CTACATCGCCGACGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGA GGTAAAGAGACCAAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCT TATCGCGCAGGTAATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCG CGGTATCTATGAGGGGCCCCCTAATTTTGACTCAATCGGCCGGATGTTAA TGTCTCTGTAGTTCCCTGACCTCAGGGCCTTTGCGGAGGAGATCCGTCAA GCCAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGTAAGGAA AGGGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACACCCACAA CAAGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGACGAGCTG GTCACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCTTCACAT CCCATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCGAATCGC CAGACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTGCTTTCT TGTGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAGCGAGGG GCATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCGAGAAGT GGATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTCCGCCTG AATACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACGCAGCCA AGCTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGGCCGGAT ATCATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAATATGGAA ATGCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACAGGTATC TCTCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACGACACGG CCCCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGCACAGAG CTTCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTTCCAAGC GGTCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGTTAATGC ACTCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTTGACTTT GAATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTCAGACGT GGACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAATGCTGG AAAACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTCGCCATT GAGGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCGCTTAGA AGTAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAACCTCGC AACGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCGTACTGC ACTATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGGTGAGTCTCG CCATTCCTATGCGTTTGCACCCGATGGCTAATATACAGCAGGCGCCTCCA CTTTCCTAACCCGCACCCTCCCTGGACTCCCTGAATCTCTGATATCCCTG GTGGAGGTGGTCCTGACGTGTCTCGAATCCCGCCTTCTCCTTGTGGTCAA GGGAGCTAAGGAATATTTCTTCATGTCGACCATTGTCGCATTGGTCAAAG TAGGTCTCTGGCCGAGTCAGGCGCAGGTCTACAAGCAGGAGGTTGTGGAG CGAGTCATCCTTTTTGCGCAGACCCTGTTTACACGACACGCCAATTGCGC CCATCTAGGCGAATGGGGATTGGGCAACTTCAAAACCAACCAAGTGAGTG TTCCAGTCTACTTTACATTCCAAGCAGATGAAGTCTGTACTGACCTGGTT GTGATAGGTTCCCAGCTTGAATGCAAACCCTGGACTGGCACCCCCGTTTG TCCCCGACGTGAGCATGGGGCAAACTCCCCAATTTGGCATGATGGTAAGT CTATCCCTTTTTTGTATCTTTGTCACAGGAGCAATGGCCCTAACTAGACA CGACAGCCACCGGGAGGAGATTTAGATCCATTCCTCGACGCCTTCGACTG GGGCGACCTAACCGGATTCACGTTGCAGCAATGA
back to top

Coding sequence (CDS) from alignment at OGUI01000010.1:2570505..2573188-

>ATCC64974_70900-T1 ID=ATCC64974_70900-T1|Name=ATCC64974_70900-T1|organism=Aspergillus niger N402|type=CDS|length=12240bp|location=Sequence derived from alignment at OGUI01000010.1:2570505..2573188- (Aspergillus niger N402)
CCACCGGGAGGAGATTTAGATCCATTCCTCGACGCCTTCGACTGGGGCGA
CCTAACCGGATTCACGTTGCAGCAATGAGTTCCCAGCTTGAATGCAAACC
CTGGACTGGCACCCCCGTTTGTCCCCGACGTGAGCATGGGGCAAACTCCC
CAATTTGGCATGATGGCGCCTCCACTTTCCTAACCCGCACCCTCCCTGGA
CTCCCTGAATCTCTGATATCCCTGGTGGAGGTGGTCCTGACGTGTCTCGA
ATCCCGCCTTCTCCTTGTGGTCAAGGGAGCTAAGGAATATTTCTTCATGT
CGACCATTGTCGCATTGGTCAAAGTAGGTCTCTGGCCGAGTCAGGCGCAG
GTCTACAAGCAGGAGGTTGTGGAGCGAGTCATCCTTTTTGCGCAGACCCT
GTTTACACGACACGCCAATTGCGCCCATCTAGGCGAATGGGGATTGGGCA
ACTTCAAAACCAACCAATTCCCTGACCTCAGGGCCTTTGCGGAGGAGATC
CGTCAAGCCAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGT
AAGGAAAGGGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACAC
CCACAACAAGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGAC
GAGCTGGTCACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCT
TCACATCCCATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCG
AATCGCCAGACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTG
CTTTCTTGTGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAG
CGAGGGGCATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCG
AGAAGTGGATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTC
CGCCTGAATACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACG
CAGCCAAGCTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGG
CCGGATATCATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAAT
ATGGAAATGCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACA
GGTATCTCTCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACG
ACACGGCCCCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGC
ACAGAGCTTCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTT
CCAAGCGGTCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGT
TAATGCACTCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTT
GACTTTGAATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTC
AGACGTGGACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAA
TGCTGGAAAACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTC
GCCATTGAGGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCG
CTTAGAAGTAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAA
CCTCGCAACGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCG
TACTGCACTATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGATGG
CCGACTTTCACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCCTCCC
GAGCATGAACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCAGGCG
CACCATGGCATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGATCGTG
AGTATCCCGTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAAATGC
ACTTATGAGGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCTCGCC
CGTTTTCTCCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAGGCTG
ATCGGGCGACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCTGGCC
TCTCGGTGTCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAATTTCT
GGAAACCGTCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCGTATG
TCAACACCGACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCATCAT
CATTCCAACAACTCTCAACCCTACCCCGACGATAACGATGAGACTCCTAC
ATCGCCGACGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGAGGTA
AAGAGACCAAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCTTATC
GCGCAGGTAATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCGCGCC
ACCGGGAGGAGATTTAGATCCATTCCTCGACGCCTTCGACTGGGGCGACC
TAACCGGATTCACGTTGCAGCAATGAGTTCCCAGCTTGAATGCAAACCCT
GGACTGGCACCCCCGTTTGTCCCCGACGTGAGCATGGGGCAAACTCCCCA
ATTTGGCATGATGGCGCCTCCACTTTCCTAACCCGCACCCTCCCTGGACT
CCCTGAATCTCTGATATCCCTGGTGGAGGTGGTCCTGACGTGTCTCGAAT
CCCGCCTTCTCCTTGTGGTCAAGGGAGCTAAGGAATATTTCTTCATGTCG
ACCATTGTCGCATTGGTCAAAGTAGGTCTCTGGCCGAGTCAGGCGCAGGT
CTACAAGCAGGAGGTTGTGGAGCGAGTCATCCTTTTTGCGCAGACCCTGT
TTACACGACACGCCAATTGCGCCCATCTAGGCGAATGGGGATTGGGCAAC
TTCAAAACCAACCAATTCCCTGACCTCAGGGCCTTTGCGGAGGAGATCCG
TCAAGCCAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGTAA
GGAAAGGGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACACCC
ACAACAAGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGACGA
GCTGGTCACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCTTC
ACATCCCATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCGAA
TCGCCAGACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTGCT
TTCTTGTGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAGCG
AGGGGCATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCGAG
AAGTGGATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTCCG
CCTGAATACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACGCA
GCCAAGCTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGGCC
GGATATCATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAATAT
GGAAATGCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACAGG
TATCTCTCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACGAC
ACGGCCCCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGCAC
AGAGCTTCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTTCC
AAGCGGTCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGTTA
ATGCACTCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTTGA
CTTTGAATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTCAG
ACGTGGACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAATG
CTGGAAAACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTCGC
CATTGAGGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCGCT
TAGAAGTAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAACC
TCGCAACGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCGTA
CTGCACTATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGATGGCC
GACTTTCACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCCTCCCGA
GCATGAACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCAGGCGCA
CCATGGCATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGATCGTGAG
TATCCCGTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAAATGCAC
TTATGAGGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCTCGCCCG
TTTTCTCCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAGGCTGAT
CGGGCGACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCTGGCCTC
TCGGTGTCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAATTTCTGG
AAACCGTCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCGTATGTC
AACACCGACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCATCATCA
TTCCAACAACTCTCAACCCTACCCCGACGATAACGATGAGACTCCTACAT
CGCCGACGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGAGGTAAA
GAGACCAAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCTTATCGC
GCAGGTAATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCGCGCCAC
CGGGAGGAGATTTAGATCCATTCCTCGACGCCTTCGACTGGGGCGACCTA
ACCGGATTCACGTTGCAGCAATGAGTTCCCAGCTTGAATGCAAACCCTGG
ACTGGCACCCCCGTTTGTCCCCGACGTGAGCATGGGGCAAACTCCCCAAT
TTGGCATGATGGCGCCTCCACTTTCCTAACCCGCACCCTCCCTGGACTCC
CTGAATCTCTGATATCCCTGGTGGAGGTGGTCCTGACGTGTCTCGAATCC
CGCCTTCTCCTTGTGGTCAAGGGAGCTAAGGAATATTTCTTCATGTCGAC
CATTGTCGCATTGGTCAAAGTAGGTCTCTGGCCGAGTCAGGCGCAGGTCT
ACAAGCAGGAGGTTGTGGAGCGAGTCATCCTTTTTGCGCAGACCCTGTTT
ACACGACACGCCAATTGCGCCCATCTAGGCGAATGGGGATTGGGCAACTT
CAAAACCAACCAATTCCCTGACCTCAGGGCCTTTGCGGAGGAGATCCGTC
AAGCCAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGTAAGG
AAAGGGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACACCCAC
AACAAGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGACGAGC
TGGTCACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCTTCAC
ATCCCATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCGAATC
GCCAGACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTGCTTT
CTTGTGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAGCGAG
GGGCATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCGAGAA
GTGGATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTCCGCC
TGAATACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACGCAGC
CAAGCTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGGCCGG
ATATCATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAATATGG
AAATGCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACAGGTA
TCTCTCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACGACAC
GGCCCCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGCACAG
AGCTTCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTTCCAA
GCGGTCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGTTAAT
GCACTCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTTGACT
TTGAATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTCAGAC
GTGGACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAATGCT
GGAAAACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTCGCCA
TTGAGGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCGCTTA
GAAGTAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAACCTC
GCAACGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCGTACT
GCACTATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGATGGCCGA
CTTTCACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCCTCCCGAGC
ATGAACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCAGGCGCACC
ATGGCATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGATCGTGAGTA
TCCCGTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAAATGCACTT
ATGAGGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCTCGCCCGTT
TTCTCCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAGGCTGATCG
GGCGACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCTGGCCTCTC
GGTGTCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAATTTCTGGAA
ACCGTCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCGTATGTCAA
CACCGACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCATCATCATT
CCAACAACTCTCAACCCTACCCCGACGATAACGATGAGACTCCTACATCG
CCGACGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGAGGTAAAGA
GACCAAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCTTATCGCGC
AGGTAATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCGCGCCACCG
GGAGGAGATTTAGATCCATTCCTCGACGCCTTCGACTGGGGCGACCTAAC
CGGATTCACGTTGCAGCAATGAGTTCCCAGCTTGAATGCAAACCCTGGAC
TGGCACCCCCGTTTGTCCCCGACGTGAGCATGGGGCAAACTCCCCAATTT
GGCATGATGGCGCCTCCACTTTCCTAACCCGCACCCTCCCTGGACTCCCT
GAATCTCTGATATCCCTGGTGGAGGTGGTCCTGACGTGTCTCGAATCCCG
CCTTCTCCTTGTGGTCAAGGGAGCTAAGGAATATTTCTTCATGTCGACCA
TTGTCGCATTGGTCAAAGTAGGTCTCTGGCCGAGTCAGGCGCAGGTCTAC
AAGCAGGAGGTTGTGGAGCGAGTCATCCTTTTTGCGCAGACCCTGTTTAC
ACGACACGCCAATTGCGCCCATCTAGGCGAATGGGGATTGGGCAACTTCA
AAACCAACCAATTCCCTGACCTCAGGGCCTTTGCGGAGGAGATCCGTCAA
GCCAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGTAAGGAA
AGGGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACACCCACAA
CAAGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGACGAGCTG
GTCACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCTTCACAT
CCCATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCGAATCGC
CAGACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTGCTTTCT
TGTGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAGCGAGGG
GCATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCGAGAAGT
GGATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTCCGCCTG
AATACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACGCAGCCA
AGCTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGGCCGGAT
ATCATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAATATGGAA
ATGCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACAGGTATC
TCTCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACGACACGG
CCCCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGCACAGAG
CTTCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTTCCAAGC
GGTCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGTTAATGC
ACTCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTTGACTTT
GAATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTCAGACGT
GGACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAATGCTGG
AAAACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTCGCCATT
GAGGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCGCTTAGA
AGTAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAACCTCGC
AACGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCGTACTGC
ACTATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGATGGCCGACT
TTCACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCCTCCCGAGCAT
GAACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCAGGCGCACCAT
GGCATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGATCGTGAGTATC
CCGTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAAATGCACTTAT
GAGGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCTCGCCCGTTTT
CTCCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAGGCTGATCGGG
CGACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCTGGCCTCTCGG
TGTCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAATTTCTGGAAAC
CGTCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCGTATGTCAACA
CCGACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCATCATCATTCC
AACAACTCTCAACCCTACCCCGACGATAACGATGAGACTCCTACATCGCC
GACGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGAGGTAAAGAGA
CCAAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCTTATCGCGCAG
GTAATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCGCGCCACCGGG
AGGAGATTTAGATCCATTCCTCGACGCCTTCGACTGGGGCGACCTAACCG
GATTCACGTTGCAGCAATGAGTTCCCAGCTTGAATGCAAACCCTGGACTG
GCACCCCCGTTTGTCCCCGACGTGAGCATGGGGCAAACTCCCCAATTTGG
CATGATGGCGCCTCCACTTTCCTAACCCGCACCCTCCCTGGACTCCCTGA
ATCTCTGATATCCCTGGTGGAGGTGGTCCTGACGTGTCTCGAATCCCGCC
TTCTCCTTGTGGTCAAGGGAGCTAAGGAATATTTCTTCATGTCGACCATT
GTCGCATTGGTCAAAGTAGGTCTCTGGCCGAGTCAGGCGCAGGTCTACAA
GCAGGAGGTTGTGGAGCGAGTCATCCTTTTTGCGCAGACCCTGTTTACAC
GACACGCCAATTGCGCCCATCTAGGCGAATGGGGATTGGGCAACTTCAAA
ACCAACCAATTCCCTGACCTCAGGGCCTTTGCGGAGGAGATCCGTCAAGC
CAGTCCGCATCTGTCAGCGTTGCGGCCCGACTTGATGAGAGTAAGGAAAG
GGGTCTGGAAGAAAAAGCCTCTGAATACGCCATTTCCCACACCCACAACA
AGTTCCTTGATTCCAATGCTCCCGTCACGTGCAGTGGTGGACGAGCTGGT
CACCTTGTACTGCACCTACATCGAATCCACCCACCGGATCCTTCACATCC
CATCATTCCTCAATGAATTGGAAACGTTTTGGGCGCAGCGCGAATCGCCA
GACATGGTCTCGCCGATCTTTGTGGTGCAGCTTCTCCTAGTGCTTTCTTG
TGCATGGAACCTCGCCGATTTCCAGACGCTGCAGATGAAGAGCGAGGGGC
ATCTGCAATGTTATACGGCCGTCGAGTGGGTCCTGCATGCCGAGAAGTGG
ATGGAGAACGCGCATATCAAGCGCCCGGAGTTGACCAGTCTCCGCCTGAA
TACCTTGCTGATCATCGCCCTCAACATCCATGGCATGAAACGCAGCCAAG
CTTGGCTTGCGACGGGAACGCTAGTCAAGCAAGCCATGATGGCCGGATAT
CATCGGGATCCGACCCGGTATAGCAGGATCTCCGTCTTCAATATGGAAAT
GCGCCGACGGATATGGACCACGATCGTTGAAATCGATCTACAGGTATCTC
TCGAACGAGGCATGCCACCGTCAATCCAGGAAGCTGATTACGACACGGCC
CCGGCACTCAACATTAATGACGACGAGATCCACGAGGACAGCACAGAGCT
TCCGACGGCAAAGCCGTTGGATGTCATGACGGATTGCTCCTTCCAAGCGG
TCCTCGTACAATCCCTTTCGCTGCGGCTCAAGGCCTGCGCGTTAATGCAC
TCCCCACGAATTAGCTGCCGATACGAAGATATCCTGCACTTTGACTTTGA
ATTGAACCGACACCTCTCCAAGATCCCGACCTGGCCGACTTCAGACGTGG
ACAACTTCCAAACCGCGCACCGCGGAATCCTTATCCGAGCAATGCTGGAA
AACAAAATCGGACACTCTCTCCTATCCATACACACACCTTTCGCCATTGA
GGCGCCAAAAGACTCCCTCTTTACACCGTCCGCTCGGGCTCGCTTAGAAG
TAGCGTCGATGATTCTATCCACGCAACGGCGCTTACGCGAAACCTCGCAA
CGGCTGTCTCTCTGCAATATGGGTGACTGGACCATGCAGGCGTACTGCAC
TATCTGCGAGCTTCTACATCAGGGGCAAATCACTAACGATGGCCGACTTT
CACCAGCAGCAGCCTTTGGGGGCCGCTGTTGCTGCTCCTCCCGAGCATGA
ACCCCCGCCCGAGCAGCAACGGGTGAGGAAACGTCGCAGGCGCACCATGG
CATGTATGCAGTGTCGCAGCAGAAAACTCCGCTGCGATCGTGAGTATCCC
GTATGCAGTCGCTGTCAGAAGAGCAAGACGCCCAATAAATGCACTTATGA
GGATGGCTTCCTCTGGCAGCAACCCAATACAGTTGCCTCGCCCGTTTTCT
CCGAGCGAGGTCCCACAACCACGGTGCAAATGCCCCAGGCTGATCGGGCG
ACTGCCCACCCTACCCCGGACTCGGGGATAAGCAGTCTGGCCTCTCGGTG
TCATCCCTCGCATCCCGTCGAGGAAAAACGCGATAAATTTCTGGAAACCG
TCTTGGGTGCCCCCAAGGCCGCTGTCAACCAGGAGCCGTATGTCAACACC
GACCTGCTCCAGCGCCCCCGCCACCCGCCCGAATCCCATCATCATTCCAA
CAACTCTCAACCCTACCCCGACGATAACGATGAGACTCCTACATCGCCGA
CGCAGCAACTGGACGTCTCCCCTCGGATCATGATGCGAGGTAAAGAGACC
AAAACCCGTTTCAATGGGTCGGGCATTTTTGCCAACCTTATCGCGCAGGT
AATTCTTCCCTTGCTTCCTTCGTCTTTGCCAGCTACCGCG
back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
TermDefinition
GO:0005634nucleus
Vocabulary: Biological Process
TermDefinition
GO:0006355regulation of transcription, DNA-templated
GO:0006351transcription, DNA-templated
Vocabulary: Molecular Function
TermDefinition
GO:0000981DNA-binding transcription factor activity, RNA polymerase II-specific
GO:0008270zinc ion binding
GO:0003677DNA binding
Relationships

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

Feature NameUnique NameSpeciesType
ATCC64974_70900ATCC64974_70900Aspergillus niger N402gene


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

Feature NameUnique NameSpeciesType
ATCC64974_70900-T1ATCC64974_70900-T1-proteinAspergillus niger N402polypeptide


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

Feature NameUnique NameSpeciesType
ATCC64974_70900-T1.cdsATCC64974_70900-T1.cdsAspergillus niger N402CDS


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

Feature NameUnique NameSpeciesType
ATCC64974_70900-T1.exon5ATCC64974_70900-T1.exon5Aspergillus niger N402exon
ATCC64974_70900-T1.exon4ATCC64974_70900-T1.exon4Aspergillus niger N402exon
ATCC64974_70900-T1.exon3ATCC64974_70900-T1.exon3Aspergillus niger N402exon
ATCC64974_70900-T1.exon2ATCC64974_70900-T1.exon2Aspergillus niger N402exon
ATCC64974_70900-T1.exon1ATCC64974_70900-T1.exon1Aspergillus niger N402exon


Properties
Property NameValue
NoteEggNog:ENOG41
DBxrefInterPro:IPR036864
DBxrefInterPro:IPR001138
DBxrefInterPro:IPR007219
DBxrefPFAM:PF00172
DBxrefPFAM:PF04082
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger N402 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
OGUI01000010.1supercontigOGUI01000010.1:2570505..2573188 -