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ATCC10864_001689-T1, ATCC10864_001689-T1 (mRNA) Aspergillus niger ATCC 10864

Overview
NameATCC10864_001689-T1
Unique NameATCC10864_001689-T1
TypemRNA
OrganismAspergillus niger ATCC 10864
Sequences
The following sequences are available for this feature:

mRNA from alignment at MCQH01000029:125474..127609+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC10864_001689-T1 ID=ATCC10864_001689-T1|Name=ATCC10864_001689-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2136bp|location=Sequence derived from alignment at MCQH01000029:125474..127609+ (Aspergillus niger ATCC 10864)
ATGGGTCCACCGTATGTTCCACCGTTGTCACACTTGAGGGAATGTCGTGA
CTAATATATCAACAGGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTC
AACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGGTAAGTACATAA
TACCTTCTCGATGCATGTCGCTAACGGAGAAAGCAATTGCTATCTCTATG
GAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGG
TTTGACATCACTTGCTCTGATTGTATTGCCGGAGATGCTGACTCGACAGA
TTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACTG
CTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTAG
TGCTGAAGAGGTGTAAGTATTTAGTAAGCATTCAAAGACAGGATACTGAG
ACATGGTAGTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTC
GACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATG
GATTTACTCAGGGTTGAAGGCAACATGAAGCGACGGTATGTTGTTCTCTT
TGCAAGTAGGCCTATTATTGACTTCTTTAGACGGAAATTGATCGGACAAT
TCCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCTA
GGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTCT
TGAACAAATCTGCTGTCCCATACCACGCTATATAATGATGACACAGAACT
TGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGG
GATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAATA
CCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTGG
ATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAG
GCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCATT
GGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGCT
ACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGAC
GATCGCACACCGGAAGAATTAGCCACCACGGTATTATGCACACACCCTAT
AGTTCCTTGGCTTAACTAACTCATGCAATGTAGCCACCACGTTATTCTTG
GAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAAT
ACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGGC
GGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGGA
CCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGTA
CTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACACGTCCGACTC
AAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCC
GATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTTA
TGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGTG
CCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATGC
TGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAG
AGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGT
TCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGGA
TGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGAC
TGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGATG
GAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAG
CGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGAC
ACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGAC
CTGATCCAGGAGATTGTTCGGATGGAAGACTCATGA
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Coding sequence (CDS) from alignment at MCQH01000029:125474..127609+

>ATCC10864_001689-T1 ID=ATCC10864_001689-T1|Name=ATCC10864_001689-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=12894bp|location=Sequence derived from alignment at MCQH01000029:125474..127609+ (Aspergillus niger ATCC 10864)
ATGGGTCCACCGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAACA
AGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGCAATTGCTATCTCTAT
GGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAG
ATTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACT
GCTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTA
GTGCTGAAGAGGTTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGG
GCTCGACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGT
CATGGATTTACTCAGGGTTGAAGGCAACATGAAGCGACGACGGAAATTGA
TCGGACAATTCCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTC
CCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGA
GACCTCTCTTGAACAAATCTGCTGTCCCATACCACGCTATATAATGATGA
CACAGAACTTGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCA
GTCTTCCGGGATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTC
ATTTGAATACCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATG
TACATCTGGATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTT
ACGTTCCAGGCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAAT
GATCGCATTGGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATAT
ACAAGGGCTACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAA
TGCTTTGACGATCGCACACCGGAAGAATTAGCCACCACGCCACCACGTTA
TTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAA
GCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTACTA
GATGGCGGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTCTC
ACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAA
ATGGTACTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACACGTC
CGACTCAAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTT
CCGGCCGATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAA
TCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTC
TACGTGCCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCG
TAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCAT
CCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAAC
TGCTGTTCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTTAC
CGCGGATGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCC
CTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGCCT
GTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCG
AGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCA
CCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGT
TATGACCTGATCCAGGAGATTGTTCGGATGGAAGACTCATGAATGGGTCC
ACCGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAACAAGTTGCAC
CTATTGCTCGTCAAGGAGCCGTGGAGCAATTGCTATCTCTATGGAAGAGG
CAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGATTGAATA
TACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACTGCTTCTTA
ACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAA
GAGGTTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTCGACA
TATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATGGATT
TACTCAGGGTTGAAGGCAACATGAAGCGACGACGGAAATTGATCGGACAA
TTCCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCT
AGGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTC
TTGAACAAATCTGCTGTCCCATACCACGCTATATAATGATGACACAGAAC
TTGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCG
GGATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAAT
ACCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTG
GATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCA
GGCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCAT
TGGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGC
TACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGA
CGATCGCACACCGGAAGAATTAGCCACCACGCCACCACGTTATTCTTGGA
ACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAATAC
CCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGGCGG
CATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGGACC
CAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGTACT
GGCATATTTGATGTCTACTACAGCACTGTATGGCAACACGTCCGACTCAA
AATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCCGA
TGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTTATG
TACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGTGCC
TATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATGCTG
CCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAGAG
CAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGTTC
AAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGGATG
AGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGACTG
GTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGATGGA
GCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAGCG
GGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGACAC
GAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGACCT
GATCCAGGAGATTGTTCGGATGGAAGACTCATGAATGGGTCCACCGGTGA
GCGGAACACCGCTTTCATGGCAAGAGCTTCAACAAGTTGCACCTATTGCT
CGTCAAGGAGCCGTGGAGCAATTGCTATCTCTATGGAAGAGGCAGAAAGA
TAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGATTGAATATACCCTGG
TCAGCCTCGATGCGGACAGTTCGCGAGCAACACTGCTTCTTAACCAAGAA
GATATTTTACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAAGAGGTTGA
ACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTCGACATATGGTAG
AAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATGGATTTACTCAGG
GTTGAAGGCAACATGAAGCGACGACGGAAATTGATCGGACAATTCCTATC
GCCCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCTAGGTGAAA
AGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTCTTGAACAA
ATCTGCTGTCCCATACCACGCTATATAATGATGACACAGAACTTGCTGGC
ACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGGGATGAGC
AGACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAATACCCCGCA
GAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTGGATGGGAT
TGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAGGCTCCCA
ATGAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCATTGGGGCCG
GTCATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGCTACCTGGT
AGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGACGATCGCA
CACCGGAAGAATTAGCCACCACGCCACCACGTTATTCTTGGAACCGCACA
TACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAATACCCGCTGAC
TCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGGCGGCATGGATG
AACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGGACCCAATTGTG
CTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGTACTGGCATATT
TGATGTCTACTACAGCACTGTATGGCAACACGTCCGACTCAAAATCCCCT
TGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCCGATGGAAGTA
CAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTTATGTACCTTCT
TTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGTGCCTATCGACC
AGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATGCTGCCCTCGAA
GAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAGAGCAGTGCGA
GCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGTTCAAAGTCGA
CTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGGATGAGATCATC
AATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGACTGGTGAACAT
CGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGATGGAGCAAAAGA
AGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAGCGGGGAGCTT
CCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGACACGAGGAGTA
CCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGACCTGATCCAGG
AGATTGTTCGGATGGAAGACTCATGAATGGGTCCACCGGTGAGCGGAACA
CCGCTTTCATGGCAAGAGCTTCAACAAGTTGCACCTATTGCTCGTCAAGG
AGCCGTGGAGCAATTGCTATCTCTATGGAAGAGGCAGAAAGATAGAAGCG
ATTTGGAGCCACTTTGGGGTGACGAGATTGAATATACCCTGGTCAGCCTC
GATGCGGACAGTTCGCGAGCAACACTGCTTCTTAACCAAGAAGATATTTT
ACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAAGAGGTTGAACCCTGGA
ACGAAGTAAAGTTACAGGCGGAATGGGCTCGACATATGGTAGAAGCAACT
CCAGGAGAGCCATACGGGGGAGATGTCATGGATTTACTCAGGGTTGAAGG
CAACATGAAGCGACGACGGAAATTGATCGGACAATTCCTATCGCCCGACC
AACACCCTGTACCATTATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAG
TTTACACTCCCAGAAAGTCCGGATGAGACCTCTCTTGAACAAATCTGCTG
TCCCATACCACGCTATATAATGATGACACAGAACTTGCTGGCACGCCGAC
AACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGGGATGAGCAGACAAAA
ACACCTTTTCATGACAATTCTGTGTCATTTGAATACCCCGCAGAACATCC
CCCGGGTAATGGAAAGGAGGGTCATGTACATCTGGATGGGATTGGTCTCG
GGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAGGCTCCCAATGAGATT
GAAGCCCGATGGTTGCATGATCAAATGATCGCATTGGGGCCGGTCATGCT
AGCACTTACCGCTGCGACGCCGATATACAAGGGCTACCTGGTAGATACAG
AAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGACGATCGCACACCGGAA
GAATTAGCCACCACGCCACCACGTTATTCTTGGAACCGCACATACATCTC
GCAAGAGAAGCCAGCCAATATGGAAAGCAAATACCCGCTGACTCCTATGA
ACGAGTCGGTTAAACAACGCTTACTAGATGGCGGCATGGATGAACCTTTG
GCGATGCATTATGCCACTATTCTCTCACGGGACCCAATTGTGCTCAACCG
AACAGACCTGGAAAACTTTGATCTAAATGGTACTGGCATATTTGATGTCT
ACTACAGCACTGTATGGCAACACGTCCGACTCAAAATCCCCTTGACCGAC
GACGGACCCGGCTGGCGGGTGGAGTTCCGGCCGATGGAAGTACAGTTGAC
CGATTTCGACAACGCTGCTTTCGCAATCTTTATGTACCTTCTTTCTCGAG
CCATAACGGACCTTCACCTGAACTTCTACGTGCCTATCGACCAGTTGGGA
GATTCCATGGAACGCGCGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTT
CTGGTTCCGTCGGACCGGATGGTCATCCGCAGAGCAGTGCGAGCGTCCAC
AGCGTCAGCGAAGAGGCTGCGTCAACTGCTGTTCAAAGTCGACTGCACAT
GCATCACCATCATGTGCTCTCCTTACCGCGGATGAGATCATCAATGGCGA
GGATCCAAAGGACCCCTCCAGCTTCCCTGGACTGGTGAACATCGTACGCG
CTTATCTTCAGTACAATAACACGCCTGTGATGGAGCAAAAGAAGATCATG
CCCTACCTGGATGTGATCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCC
AGCTCAATGGATGCGCTCGTTTGTCACCGGACACGAGGAGTACCAGCGAG
ACAGCTACGTGAATGAGAAGATCCGTTATGACCTGATCCAGGAGATTGTT
CGGATGGAAGACTCATGAATGGGTCCACCGGTGAGCGGAACACCGCTTTC
ATGGCAAGAGCTTCAACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGG
AGCAATTGCTATCTCTATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAG
CCACTTTGGGGTGACGAGATTGAATATACCCTGGTCAGCCTCGATGCGGA
CAGTTCGCGAGCAACACTGCTTCTTAACCAAGAAGATATTTTACGGAAAG
AGGAGAGCCAATGCTCTAGTGCTGAAGAGGTTGAACCCTGGAACGAAGTA
AAGTTACAGGCGGAATGGGCTCGACATATGGTAGAAGCAACTCCAGGAGA
GCCATACGGGGGAGATGTCATGGATTTACTCAGGGTTGAAGGCAACATGA
AGCGACGACGGAAATTGATCGGACAATTCCTATCGCCCGACCAACACCCT
GTACCATTATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACT
CCCAGAAAGTCCGGATGAGACCTCTCTTGAACAAATCTGCTGTCCCATAC
CACGCTATATAATGATGACACAGAACTTGCTGGCACGCCGACAACGGCGT
GTTGAGAGCTACATCCCAGTCTTCCGGGATGAGCAGACAAAAACACCTTT
TCATGACAATTCTGTGTCATTTGAATACCCCGCAGAACATCCCCCGGGTA
ATGGAAAGGAGGGTCATGTACATCTGGATGGGATTGGTCTCGGGGTCGGG
AATTGCTGCATTCAAGTTACGTTCCAGGCTCCCAATGAGATTGAAGCCCG
ATGGTTGCATGATCAAATGATCGCATTGGGGCCGGTCATGCTAGCACTTA
CCGCTGCGACGCCGATATACAAGGGCTACCTGGTAGATACAGAAGTGCGC
TGGGGCCGAACCTCTGAATGCTTTGACGATCGCACACCGGAAGAATTAGC
CACCACGCCACCACGTTATTCTTGGAACCGCACATACATCTCGCAAGAGA
AGCCAGCCAATATGGAAAGCAAATACCCGCTGACTCCTATGAACGAGTCG
GTTAAACAACGCTTACTAGATGGCGGCATGGATGAACCTTTGGCGATGCA
TTATGCCACTATTCTCTCACGGGACCCAATTGTGCTCAACCGAACAGACC
TGGAAAACTTTGATCTAAATGGTACTGGCATATTTGATGTCTACTACAGC
ACTGTATGGCAACACGTCCGACTCAAAATCCCCTTGACCGACGACGGACC
CGGCTGGCGGGTGGAGTTCCGGCCGATGGAAGTACAGTTGACCGATTTCG
ACAACGCTGCTTTCGCAATCTTTATGTACCTTCTTTCTCGAGCCATAACG
GACCTTCACCTGAACTTCTACGTGCCTATCGACCAGTTGGGAGATTCCAT
GGAACGCGCGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCC
GTCGGACCGGATGGTCATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAG
CGAAGAGGCTGCGTCAACTGCTGTTCAAAGTCGACTGCACATGCATCACC
ATCATGTGCTCTCCTTACCGCGGATGAGATCATCAATGGCGAGGATCCAA
AGGACCCCTCCAGCTTCCCTGGACTGGTGAACATCGTACGCGCTTATCTT
CAGTACAATAACACGCCTGTGATGGAGCAAAAGAAGATCATGCCCTACCT
GGATGTGATCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAAT
GGATGCGCTCGTTTGTCACCGGACACGAGGAGTACCAGCGAGACAGCTAC
GTGAATGAGAAGATCCGTTATGACCTGATCCAGGAGATTGTTCGGATGGA
AGACTCATGAATGGGTCCACCGGTGAGCGGAACACCGCTTTCATGGCAAG
AGCTTCAACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGCAATTG
CTATCTCTATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTG
GGGTGACGAGATTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGC
GAGCAACACTGCTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGC
CAATGCTCTAGTGCTGAAGAGGTTGAACCCTGGAACGAAGTAAAGTTACA
GGCGGAATGGGCTCGACATATGGTAGAAGCAACTCCAGGAGAGCCATACG
GGGGAGATGTCATGGATTTACTCAGGGTTGAAGGCAACATGAAGCGACGA
CGGAAATTGATCGGACAATTCCTATCGCCCGACCAACACCCTGTACCATT
ATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCAGAAA
GTCCGGATGAGACCTCTCTTGAACAAATCTGCTGTCCCATACCACGCTAT
ATAATGATGACACAGAACTTGCTGGCACGCCGACAACGGCGTGTTGAGAG
CTACATCCCAGTCTTCCGGGATGAGCAGACAAAAACACCTTTTCATGACA
ATTCTGTGTCATTTGAATACCCCGCAGAACATCCCCCGGGTAATGGAAAG
GAGGGTCATGTACATCTGGATGGGATTGGTCTCGGGGTCGGGAATTGCTG
CATTCAAGTTACGTTCCAGGCTCCCAATGAGATTGAAGCCCGATGGTTGC
ATGATCAAATGATCGCATTGGGGCCGGTCATGCTAGCACTTACCGCTGCG
ACGCCGATATACAAGGGCTACCTGGTAGATACAGAAGTGCGCTGGGGCCG
AACCTCTGAATGCTTTGACGATCGCACACCGGAAGAATTAGCCACCACGC
CACCACGTTATTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCAGCC
AATATGGAAAGCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAAACA
ACGCTTACTAGATGGCGGCATGGATGAACCTTTGGCGATGCATTATGCCA
CTATTCTCTCACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAAAAC
TTTGATCTAAATGGTACTGGCATATTTGATGTCTACTACAGCACTGTATG
GCAACACGTCCGACTCAAAATCCCCTTGACCGACGACGGACCCGGCTGGC
GGGTGGAGTTCCGGCCGATGGAAGTACAGTTGACCGATTTCGACAACGCT
GCTTTCGCAATCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCTTCA
CCTGAACTTCTACGTGCCTATCGACCAGTTGGGAGATTCCATGGAACGCG
CGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACC
GGATGGTCATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGG
CTGCGTCAACTGCTGTTCAAAGTCGACTGCACATGCATCACCATCATGTG
CTCTCCTTACCGCGGATGAGATCATCAATGGCGAGGATCCAAAGGACCCC
TCCAGCTTCCCTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTACAA
TAACACGCCTGTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATGTGA
TCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATGCGC
TCGTTTGTCACCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAATGA
GAAGATCCGTTATGACCTGATCCAGGAGATTGTTCGGATGGAAGACTCAT
GAATGGGTCCACCGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAA
CAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGCAATTGCTATCTCT
ATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACG
AGATTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACA
CTGCTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTC
TAGTGCTGAAGAGGTTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAAT
GGGCTCGACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGAT
GTCATGGATTTACTCAGGGTTGAAGGCAACATGAAGCGACGACGGAAATT
GATCGGACAATTCCTATCGCCCGACCAACACCCTGTACCATTATGTGTAT
TCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGAT
GAGACCTCTCTTGAACAAATCTGCTGTCCCATACCACGCTATATAATGAT
GACACAGAACTTGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCC
CAGTCTTCCGGGATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTG
TCATTTGAATACCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCA
TGTACATCTGGATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAG
TTACGTTCCAGGCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAA
ATGATCGCATTGGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGAT
ATACAAGGGCTACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTG
AATGCTTTGACGATCGCACACCGGAAGAATTAGCCACCACGCCACCACGT
TATTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGA
AAGCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTAC
TAGATGGCGGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTC
TCACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCT
AAATGGTACTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACACG
TCCGACTCAAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAG
TTCCGGCCGATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGC
AATCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACT
TCTACGTGCCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAG
CGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTC
ATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCA
ACTGCTGTTCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTT
ACCGCGGATGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTT
CCCTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGC
CTGTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAG
CGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGT
CACCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCC
GTTATGACCTGATCCAGGAGATTGTTCGGATGGAAGACTCATGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0006750glutathione biosynthetic process
Vocabulary: Molecular Function
TermDefinition
GO:0004357glutamate-cysteine ligase activity
GO:0003824catalytic activity
Relationships

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

Feature NameUnique NameSpeciesType
ATCC10864_001689ATCC10864_001689Aspergillus niger ATCC 10864gene


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

Feature NameUnique NameSpeciesType
ATCC10864_001689-T1ATCC10864_001689-T1-proteinAspergillus niger ATCC 10864polypeptide


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

Feature NameUnique NameSpeciesType
ATCC10864_001689-T1.exon1ATCC10864_001689-T1.exon1Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon2ATCC10864_001689-T1.exon2Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon3ATCC10864_001689-T1.exon3Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon4ATCC10864_001689-T1.exon4Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon5ATCC10864_001689-T1.exon5Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon6ATCC10864_001689-T1.exon6Aspergillus niger ATCC 10864exon
ATCC10864_001689-T1.exon7ATCC10864_001689-T1.exon7Aspergillus niger ATCC 10864exon


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

Feature NameUnique NameSpeciesType
ATCC10864_001689-T1.cdsATCC10864_001689-T1.cdsAspergillus niger ATCC 10864CDS


Cross References
External references for this mRNA
DatabaseAccession
InterProIPR004308
PFAMPF03074
InterProIPR014746
Properties
Property NameValue
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 10864 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
MCQH01000029supercontigMCQH01000029:125474..127609 +
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