ASPNIDRAFT_194740-T1, ASPNIDRAFT_194740-T1 (mRNA) Aspergillus niger ATCC 1015

Overview


Name	ASPNIDRAFT_194740-T1
Unique Name	ASPNIDRAFT_194740-T1
Type	mRNA
Organism	Aspergillus niger ATCC 1015

Sequences

The following sequences are available for this feature:

mRNA from alignment at ACJE01000017.1:114289..116261-
coding sequence from alignment at ACJE01000017.1:114289..116261-

mRNA from alignment at ACJE01000017.1:114289..116261-

Legend: polypeptideCDSexon

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

>ASPNIDRAFT_194740-T1 ID=ASPNIDRAFT_194740-T1|Name=ASPNIDRAFT_194740-T1|organism=Aspergillus niger ATCC 1015|type=mRNA|length=1973bp|location=Sequence derived from alignment at ACJE01000017.1:114289..116261- (Aspergillus niger ATCC 1015)
ATGGAGACCATCTCGGAACGACTTCCTGTCTACTTCCACTGGGCACCACT
ATTCATCCTCGCTCTACTTTTCTTCAACTACATCATAGGAGTTACCAAAG
CCATCAAGTCCCCTCTTTCACGAATCCCCGGGCCATGGTATGCTCCCTTG
ACAACATTACACTTAAACTATGCGTTCGCAAAAGGAACGATATGGAAAGC
TGTGGAGAGATCCCACGCAAAATACGGTCCTATTTTCCGCCTCGGGCCGC
GACAAGTGTGGATATCAGATAAAGAAGCCATCAAGGCCATCCTTATGACA
GTTGATCTGCCAAAGGTCACAATGTATGCAGAAATATCCAGAGATCGAAG
CAGCCCTGGGTTGTTTGGGGAGATGTAAGCGCCCTACTGTATGGGTATGG
AGGAAAGCAGTTGGCAAGAATGAGTTACTGATCTCATCTTAGTCGACCAG
ATCCACATAAGCGACTTAAGAAGTTTTTATCTCCAGCATTCACAATCGCA
TATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTTAT
CAATCGATACGTGGATTTGTTATCATCTCCGACGTCAAGGGGACAAAAGG
AGCTGGTAGTTACGGACCTTATGCAAGACCTTCATAGCCTGGCACTTGAC
ATGTAAGTGTACCATGGCAAACTGGAACCCAACAAGGATATTCTGTGTTT
GTTGACATTATCGATAATAAGCATGGGAGAATGTTCCTTTGGCAACGGAT
TCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAACTTGATGAAGGC
ATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGATGACTCGCAGATA
TCAGGTAATATACAATATTTCTGCTTAGTGAACCAAGTGAGCAACATGAT
AACGCAGAATTAGTTTGTTTATATCAAGCGCCTTCTAAGAAGGCTTGGTC
TGAACATCGAATTTGACTGGCCACGAGAGATGATTGCTGTACTTACATCC
CGTGAATAATCCCCAAGGATGAGCAAATTAACTGACAATCAAATAGGCCA
TTTCCGCCGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCC
GATCTTCTCCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGT
CAAAATGGGGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAG
CCGGGTCCGAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATC
CTACGCAATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCT
TCGACCAAGTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTG
AGTACGAGTACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCA
ATAGCATCTGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAAT
GGGATACTATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGC
TTCATCGAGATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAG
AGGTGGCTGGATCCTCGGCCTTCTGATGTGCCTGCACCTGAGTAGGTCGA
TACTATTGTCGTTGGGCGATAAGGTGGGGTGCTAACAGTCCGTTTTTAGC
ATGCACGCTTACTATCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAA
GAAGTACGTTTCTATCCTTTGTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
TTTTTTCGCCCCTCTTGCCTCTCTTTAAGACTGATTGTTTAAATCCAATA
GTTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGG
TTTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATAT
CACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGAT
ACGAGCAATCTACTCCAGTCTCG

Coding sequence (CDS) from alignment at ACJE01000017.1:114289..116261-

>ASPNIDRAFT_194740-T1 ID=ASPNIDRAFT_194740-T1|Name=ASPNIDRAFT_194740-T1|organism=Aspergillus niger ATCC 1015|type=CDS|length=10941bp|location=Sequence derived from alignment at ACJE01000017.1:114289..116261- (Aspergillus niger ATCC 1015)
TTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGT
TTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATATC
ACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATA
CGAGCAATCTACTCCAGTCTCGCATGCACGCTTACTATCCATTTTCTGCT
GGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCCGTGGCAGGCCAT
AGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCTCCAACACCTGCT
CGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGGGGACCAGGGAGG
TTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCCGAAACCACGTCG
GGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAATCCAGAAATAAA
GGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAAGTGACCCAATCA
TCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAGTACCTCGAGGCA
TGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATCTGAAATGGGCCG
TCGGACTGGAAACACTCCAGTAAAATTAATGGGATACTATCTCCCTGCCC
ACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGAGATCCGAAATAC
TGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCTGGATCCTCGGCC
TTCTGATGTGCCTGCACCTGATTTGTTTATATCAAGCGCCTTCTAAGAAG
GCTTGGTCTGAACATCGAATTTGACTGGCCACGAGAGATGATTGCTCATG
GGAGAATGTTCCTTTGGCAACGGATTCGGACAGACGAACAAAAACAAGAA
ACTGGAACTTGAACTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTA
TCTTTAAAGGGATGACTCGCAGATATCAGTCGACCAGATCCACATAAGCG
ACTTAAGAAGTTTTTATCTCCAGCATTCACAATCGCATATGTTGATGGGC
TTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTTATCAATCGATACGTG
GATTTGTTATCATCTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTAC
GGACCTTATGCAAGACCTTCATAGCCTGGCACTTGACATATGGAGACCAT
CTCGGAACGACTTCCTGTCTACTTCCACTGGGCACCACTATTCATCCTCG
CTCTACTTTTCTTCAACTACATCATAGGAGTTACCAAAGCCATCAAGTCC
CCTCTTTCACGAATCCCCGGGCCATGGTATGCTCCCTTGACAACATTACA
CTTAAACTATGCGTTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGAT
CCCACGCAAAATACGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGG
ATATCAGATAAAGAAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCC
AAAGGTCACAATGTATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGT
TGTTTGGGGAGATTTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAAT
ATCCTTTCCCGGTTTGACTTGGACGAGGTCCCAGGACAGAATATCGACTA
CAGGCAATATATCACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCC
TGACGCCAAGATACGAGCAATCTACTCCAGTCTCGCATGCACGCTTACTA
TCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGC
CGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTC
TCCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATG
GGGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTC
CGAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCA
ATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCA
AGTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGA
GTACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCAT
CTGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATAC
TATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCG
AGATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGC
TGGATCCTCGGCCTTCTGATGTGCCTGCACCTGATTTGTTTATATCAAGC
GCCTTCTAAGAAGGCTTGGTCTGAACATCGAATTTGACTGGCCACGAGAG
ATGATTGCTCATGGGAGAATGTTCCTTTGGCAACGGATTCGGACAGACGA
ACAAAAACAAGAAACTGGAACTTGAACTTGATGAAGGCATATGGCGGTCG
ATCCCAACGGCTATCTTTAAAGGGATGACTCGCAGATATCAGTCGACCAG
ATCCACATAAGCGACTTAAGAAGTTTTTATCTCCAGCATTCACAATCGCA
TATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTTAT
CAATCGATACGTGGATTTGTTATCATCTCCGACGTCAAGGGGACAAAAGG
AGCTGGTAGTTACGGACCTTATGCAAGACCTTCATAGCCTGGCACTTGAC
ATATGGAGACCATCTCGGAACGACTTCCTGTCTACTTCCACTGGGCACCA
CTATTCATCCTCGCTCTACTTTTCTTCAACTACATCATAGGAGTTACCAA
AGCCATCAAGTCCCCTCTTTCACGAATCCCCGGGCCATGGTATGCTCCCT
TGACAACATTACACTTAAACTATGCGTTCGCAAAAGGAACGATATGGAAA
GCTGTGGAGAGATCCCACGCAAAATACGGTCCTATTTTCCGCCTCGGGCC
GCGACAAGTGTGGATATCAGATAAAGAAGCCATCAAGGCCATCCTTATGA
CAGTTGATCTGCCAAAGGTCACAATGTATGCAGAAATATCCAGAGATCGA
AGCAGCCCTGGGTTGTTTGGGGAGATTTTCGCCATGGCAGAAATTAGAAT
GTTGACCGCCAATATCCTTTCCCGGTTTGACTTGGACGAGGTCCCAGGAC
AGAATATCGACTACAGGCAATATATCACAATGCAGTTCGAGCACGGGTCT
TGGAAGGCTTTCCTGACGCCAAGATACGAGCAATCTACTCCAGTCTCGCA
TGCACGCTTACTATCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAG
AAGCCATTTCCGCCGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTT
CGCCCCGATCTTCTCCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAG
CGGAGTCAAAATGGGGACCAGGGAGGTTGTCGATCAGATGGCCGAGATAT
TATTAGCCGGGTCCGAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTC
GAAATCCTACGCAATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACC
GGTGCTTCGACCAAGTGACCCAATCATCTCGAGCAAGACTGTCCGAACGT
CTCCTGAGTACGAGTACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTA
CATCCAATAGCATCTGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAA
ATTAATGGGATACTATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATA
GGCAGCTTCATCGAGATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGG
CCTGAGAGGTGGCTGGATCCTCGGCCTTCTGATGTGCCTGCACCTGATTT
GTTTATATCAAGCGCCTTCTAAGAAGGCTTGGTCTGAACATCGAATTTGA
CTGGCCACGAGAGATGATTGCTCATGGGAGAATGTTCCTTTGGCAACGGA
TTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAACTTGATGAAGG
CATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGATGACTCGCAGAT
ATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTTTTATCTCCAGC
ATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATGTG
TGGGTGACCTTATCAATCGATACGTGGATTTGTTATCATCTCCGACGTCA
AGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAAGACCTTCATAG
CCTGGCACTTGACATATGGAGACCATCTCGGAACGACTTCCTGTCTACTT
CCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTTCAACTACATCA
TAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAATCCCCGGGCCA
TGGTATGCTCCCTTGACAACATTACACTTAAACTATGCGTTCGCAAAAGG
AACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATACGGTCCTATTT
TCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAGAAGCCATCAAG
GCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATGTATGCAGAAAT
ATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGATTTTCGCCATGG
CAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCGGTTTGACTTGGAC
GAGGTCCCAGGACAGAATATCGACTACAGGCAATATATCACAATGCAGTT
CGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGATACGAGCAATCTA
CTCCAGTCTCGCATGCACGCTTACTATCCATTTTCTGCTGGGAAGCACTC
TTGTATTGGCAAGAAGCCATTTCCGCCGTGGCAGGCCATAGAAAAGCAAA
ACCTAAGAGTGTTCGCCCCGATCTTCTCCAACACCTGCTCGAGAACGGCG
AAAGGCCAGACAGCGGAGTCAAAATGGGGACCAGGGAGGTTGTCGATCAG
ATGGCCGAGATATTATTAGCCGGGTCCGAAACCACGTCGGGAACAATCGC
TTGCTTTTTCCTCGAAATCCTACGCAATCCAGAAATAAAGGAGAAATTGT
TGAAGAGCCTACCGGTGCTTCGACCAAGTGACCCAATCATCTCGAGCAAG
ACTGTCCGAACGTCTCCTGAGTACGAGTACCTCGAGGCATGCATCAAAGA
AGTGCTCCGATTACATCCAATAGCATCTGAAATGGGCCGTCGGACTGGAA
ACACTCCAGTAAAATTAATGGGATACTATCTCCCTGCCCACACGATTGTC
TCTGCGTCTTATAGGCAGCTTCATCGAGATCCGAAATACTGGGTTGACCC
TCTGCGCTTTTGGCCTGAGAGGTGGCTGGATCCTCGGCCTTCTGATGTGC
CTGCACCTGATTTGTTTATATCAAGCGCCTTCTAAGAAGGCTTGGTCTGA
ACATCGAATTTGACTGGCCACGAGAGATGATTGCTCATGGGAGAATGTTC
CTTTGGCAACGGATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTG
AACTTGATGAAGGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGG
ATGACTCGCAGATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGT
TTTTATCTCCAGCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTC
TTCTCGGAATGTGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATC
ATCTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGC
AAGACCTTCATAGCCTGGCACTTGACATATGGAGACCATCTCGGAACGAC
TTCCTGTCTACTTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTC
TTCAACTACATCATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACG
AATCCCCGGGCCATGGTATGCTCCCTTGACAACATTACACTTAAACTATG
CGTTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAA
TACGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAA
AGAAGCCATCAAGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAA
TGTATGCAGAAATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAG
ATTTTCGCCATGGCAGAAATTAGAATGTTGACCGCCAATATCCTTTCCCG
GTTTGACTTGGACGAGGTCCCAGGACAGAATATCGACTACAGGCAATATA
TCACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTTCCTGACGCCAAGA
TACGAGCAATCTACTCCAGTCTCGCATGCACGCTTACTATCCATTTTCTG
CTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCCGCCGTGGCAGGCC
ATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCTTCTCCAACACCTG
CTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAATGGGGACCAGGGA
GGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGGTCCGAAACCACGT
CGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACGCAATCCAGAAATA
AAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGACCAAGTGACCCAAT
CATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTACGAGTACCTCGAGG
CATGCATCAAAGAAGTGCTCCGATTACATCCAATAGCATCTGAAATGGGC
CGTCGGACTGGAAACACTCCAGTAAAATTAATGGGATACTATCTCCCTGC
CCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCATCGAGATCCGAAAT
ACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTGGCTGGATCCTCGG
CCTTCTGATGTGCCTGCACCTGATTTGTTTATATCAAGCGCCTTCTAAGA
AGGCTTGGTCTGAACATCGAATTTGACTGGCCACGAGAGATGATTGCTCA
TGGGAGAATGTTCCTTTGGCAACGGATTCGGACAGACGAACAAAAACAAG
AAACTGGAACTTGAACTTGATGAAGGCATATGGCGGTCGATCCCAACGGC
TATCTTTAAAGGGATGACTCGCAGATATCAGTCGACCAGATCCACATAAG
CGACTTAAGAAGTTTTTATCTCCAGCATTCACAATCGCATATGTTGATGG
GCTTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTTATCAATCGATACG
TGGATTTGTTATCATCTCCGACGTCAAGGGGACAAAAGGAGCTGGTAGTT
ACGGACCTTATGCAAGACCTTCATAGCCTGGCACTTGACATATGGAGACC
ATCTCGGAACGACTTCCTGTCTACTTCCACTGGGCACCACTATTCATCCT
CGCTCTACTTTTCTTCAACTACATCATAGGAGTTACCAAAGCCATCAAGT
CCCCTCTTTCACGAATCCCCGGGCCATGGTATGCTCCCTTGACAACATTA
CACTTAAACTATGCGTTCGCAAAAGGAACGATATGGAAAGCTGTGGAGAG
ATCCCACGCAAAATACGGTCCTATTTTCCGCCTCGGGCCGCGACAAGTGT
GGATATCAGATAAAGAAGCCATCAAGGCCATCCTTATGACAGTTGATCTG
CCAAAGGTCACAATGTATGCAGAAATATCCAGAGATCGAAGCAGCCCTGG
GTTGTTTGGGGAGATTTTCGCCATGGCAGAAATTAGAATGTTGACCGCCA
ATATCCTTTCCCGGTTTGACTTGGACGAGGTCCCAGGACAGAATATCGAC
TACAGGCAATATATCACAATGCAGTTCGAGCACGGGTCTTGGAAGGCTTT
CCTGACGCCAAGATACGAGCAATCTACTCCAGTCTCGCATGCACGCTTAC
TATCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCAAGAAGCCATTTCC
GCCGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTGTTCGCCCCGATCT
TCTCCAACACCTGCTCGAGAACGGCGAAAGGCCAGACAGCGGAGTCAAAA
TGGGGACCAGGGAGGTTGTCGATCAGATGGCCGAGATATTATTAGCCGGG
TCCGAAACCACGTCGGGAACAATCGCTTGCTTTTTCCTCGAAATCCTACG
CAATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTACCGGTGCTTCGAC
CAAGTGACCCAATCATCTCGAGCAAGACTGTCCGAACGTCTCCTGAGTAC
GAGTACCTCGAGGCATGCATCAAAGAAGTGCTCCGATTACATCCAATAGC
ATCTGAAATGGGCCGTCGGACTGGAAACACTCCAGTAAAATTAATGGGAT
ACTATCTCCCTGCCCACACGATTGTCTCTGCGTCTTATAGGCAGCTTCAT
CGAGATCCGAAATACTGGGTTGACCCTCTGCGCTTTTGGCCTGAGAGGTG
GCTGGATCCTCGGCCTTCTGATGTGCCTGCACCTGATTTGTTTATATCAA
GCGCCTTCTAAGAAGGCTTGGTCTGAACATCGAATTTGACTGGCCACGAG
AGATGATTGCTCATGGGAGAATGTTCCTTTGGCAACGGATTCGGACAGAC
GAACAAAAACAAGAAACTGGAACTTGAACTTGATGAAGGCATATGGCGGT
CGATCCCAACGGCTATCTTTAAAGGGATGACTCGCAGATATCAGTCGACC
AGATCCACATAAGCGACTTAAGAAGTTTTTATCTCCAGCATTCACAATCG
CATATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATGTGTGGGTGACCTT
ATCAATCGATACGTGGATTTGTTATCATCTCCGACGTCAAGGGGACAAAA
GGAGCTGGTAGTTACGGACCTTATGCAAGACCTTCATAGCCTGGCACTTG
ACATATGGAGACCATCTCGGAACGACTTCCTGTCTACTTCCACTGGGCAC
CACTATTCATCCTCGCTCTACTTTTCTTCAACTACATCATAGGAGTTACC
AAAGCCATCAAGTCCCCTCTTTCACGAATCCCCGGGCCATGGTATGCTCC
CTTGACAACATTACACTTAAACTATGCGTTCGCAAAAGGAACGATATGGA
AAGCTGTGGAGAGATCCCACGCAAAATACGGTCCTATTTTCCGCCTCGGG
CCGCGACAAGTGTGGATATCAGATAAAGAAGCCATCAAGGCCATCCTTAT
GACAGTTGATCTGCCAAAGGTCACAATGTATGCAGAAATATCCAGAGATC
GAAGCAGCCCTGGGTTGTTTGGGGAGATTTTCGCCATGGCAGAAATTAGA
ATGTTGACCGCCAATATCCTTTCCCGGTTTGACTTGGACGAGGTCCCAGG
ACAGAATATCGACTACAGGCAATATATCACAATGCAGTTCGAGCACGGGT
CTTGGAAGGCTTTCCTGACGCCAAGATACGAGCAATCTACTCCAGTCTCG
CATGCACGCTTACTATCCATTTTCTGCTGGGAAGCACTCTTGTATTGGCA
AGAAGCCATTTCCGCCGTGGCAGGCCATAGAAAAGCAAAACCTAAGAGTG
TTCGCCCCGATCTTCTCCAACACCTGCTCGAGAACGGCGAAAGGCCAGAC
AGCGGAGTCAAAATGGGGACCAGGGAGGTTGTCGATCAGATGGCCGAGAT
ATTATTAGCCGGGTCCGAAACCACGTCGGGAACAATCGCTTGCTTTTTCC
TCGAAATCCTACGCAATCCAGAAATAAAGGAGAAATTGTTGAAGAGCCTA
CCGGTGCTTCGACCAAGTGACCCAATCATCTCGAGCAAGACTGTCCGAAC
GTCTCCTGAGTACGAGTACCTCGAGGCATGCATCAAAGAAGTGCTCCGAT
TACATCCAATAGCATCTGAAATGGGCCGTCGGACTGGAAACACTCCAGTA
AAATTAATGGGATACTATCTCCCTGCCCACACGATTGTCTCTGCGTCTTA
TAGGCAGCTTCATCGAGATCCGAAATACTGGGTTGACCCTCTGCGCTTTT
GGCCTGAGAGGTGGCTGGATCCTCGGCCTTCTGATGTGCCTGCACCTGAT
TTGTTTATATCAAGCGCCTTCTAAGAAGGCTTGGTCTGAACATCGAATTT
GACTGGCCACGAGAGATGATTGCTCATGGGAGAATGTTCCTTTGGCAACG
GATTCGGACAGACGAACAAAAACAAGAAACTGGAACTTGAACTTGATGAA
GGCATATGGCGGTCGATCCCAACGGCTATCTTTAAAGGGATGACTCGCAG
ATATCAGTCGACCAGATCCACATAAGCGACTTAAGAAGTTTTTATCTCCA
GCATTCACAATCGCATATGTTGATGGGCTTGAGTTCCTCTTCTCGGAATG
TGTGGGTGACCTTATCAATCGATACGTGGATTTGTTATCATCTCCGACGT
CAAGGGGACAAAAGGAGCTGGTAGTTACGGACCTTATGCAAGACCTTCAT
AGCCTGGCACTTGACATATGGAGACCATCTCGGAACGACTTCCTGTCTAC
TTCCACTGGGCACCACTATTCATCCTCGCTCTACTTTTCTTCAACTACAT
CATAGGAGTTACCAAAGCCATCAAGTCCCCTCTTTCACGAATCCCCGGGC
CATGGTATGCTCCCTTGACAACATTACACTTAAACTATGCGTTCGCAAAA
GGAACGATATGGAAAGCTGTGGAGAGATCCCACGCAAAATACGGTCCTAT
TTTCCGCCTCGGGCCGCGACAAGTGTGGATATCAGATAAAGAAGCCATCA
AGGCCATCCTTATGACAGTTGATCTGCCAAAGGTCACAATGTATGCAGAA
ATATCCAGAGATCGAAGCAGCCCTGGGTTGTTTGGGGAGAT

Annotated Terms

The following terms have been associated with this mRNA:

Vocabulary: **Molecular Function**
Term	Definition
GO:0016705	oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:0005506	iron ion binding
GO:0020037	heme binding

Vocabulary: **Biological Process**
Term	Definition
GO:0055114	oxidation-reduction process

Relationships

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_194740	ASPNIDRAFT_194740	Aspergillus niger ATCC 1015	gene

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_194740-T1	ASPNIDRAFT_194740-T1-protein	Aspergillus niger ATCC 1015	polypeptide

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_194740-T1.cds	ASPNIDRAFT_194740-T1.cds	Aspergillus niger ATCC 1015	CDS

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


Feature Name	Unique Name	Species	Type
ASPNIDRAFT_194740-T1.exon7	ASPNIDRAFT_194740-T1.exon7	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon6	ASPNIDRAFT_194740-T1.exon6	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon5	ASPNIDRAFT_194740-T1.exon5	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon4	ASPNIDRAFT_194740-T1.exon4	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon3	ASPNIDRAFT_194740-T1.exon3	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon2	ASPNIDRAFT_194740-T1.exon2	Aspergillus niger ATCC 1015	exon
ASPNIDRAFT_194740-T1.exon1	ASPNIDRAFT_194740-T1.exon1	Aspergillus niger ATCC 1015	exon

Properties


Property Name	Value
Note	EggNog:ENOG41
DBxref	InterPro:IPR017972
DBxref	InterPro:IPR036396
DBxref	InterPro:IPR002401
DBxref	InterPro:IPR001128
DBxref	PFAM:PF00067
Product	hypothetical protein

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Aspergillus niger ATCC 1015 whole genome analysis	2021-11-01

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
ACJE01000017.1	supercontig	ACJE01000017.1:114289..116261 -

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ASPNIDRAFT_194740-T1, ASPNIDRAFT_194740-T1 (mRNA) Aspergillus niger ATCC 1015

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ASPNIDRAFT_194740-T1, ASPNIDRAFT_194740-T1 (mRNA) Aspergillus niger ATCC 1015