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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000027:898071..900543+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_001583-T1 ID=ATCC10864_001583-T1|Name=ATCC10864_001583-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2473bp|location=Sequence derived from alignment at MCQH01000027:898071..900543+ (Aspergillus niger ATCC 10864)
ATGGTGAAAAGAAAGTTGGGGGCCTTGGAAAAGGTCGAGGCTGATCTGTA
AGTCGCCTTCCACAGTCTCTGTGTGGCTACGAATCTCCTGCCAAAGAAAA
GAGGAATTTCTCCCGTCGCTAACTCACTGCTTTCCATAGGCCCAACCTGC
AGCACAAGATTCGGAGAGATCCCAAGTATGTTCTACTACGAATAATGCGA
TCAGATTGGTCAATAATGTCAGAGTGGTTTGCTAATTGTCGCTTGCTTGT
GAAGATCCTATATTGAAGACTTCCGCGCTCAGCACTACCAATATGAGAGT
CACCGGGAAATTTTCATGACCGCGCCTTCGTCGACCACGGAGACGGGTCT
CATCTCTCTTAGAGAATTGATCGATTTCATTGCTCATGTGGCCGACTGCT
ATCCCGAGATCACGAAGGATTTCCCTCAGCAACTCATGGATATTTTGACG
CAGCACCATCTGATCCTCCAGCCGGAATTGCGCGAAAAGATCGTCGGTAG
CTTGGTGCTTCTGAGGAAGAAGGAACTGTTGGATTCAGCGACGTATGTTT
ACTCATGGACTGCCACATGCACATGGGGCTGGTTGCTAATGGAATTATTT
CTCCAGGTTGCTTCAGACTCTGTTCCCTATCCTCATTTCTACCCCTAGCA
AAACCCTACGAGCTTTGATCTTCCAAAAGATCCTCATGGATCTTCGACAG
GCCAATGCGAAGACTACGAACCATAAGCTTAACCGCACCATGCAGACGGT
CCTGTTCAACTTGGTGACGTCGGACCGGACTTCTTCTAAGGGTCTTTGGG
CTATCAAGCTTACGCGCGAGCTATGGAAGCGCCAGATCTGGACCGATGCC
AAGGCTGTAGAGGTCATGAAGGAAGCCAGTCTGGCATCGAATGAGAAAGT
CATCGTTGGTGGTGTCCGCTTCTTCTTGGGCGGTGACAAAGAGCGCGAGG
AAATGGAAGACGAAAGCAGCGACGAGGAAGCCATTGATTTGGGGCGAGTA
AAGCACCAAGTTGGCATCAACAAGAAGACCAGAAAGAAGTCCCGCGCGAT
TGAGAAGGCCAAGGCAACCGTAAAGAGGAGGGAACGCAAGAAGAGCCAGC
CGCATCCTCTGAACTTCTCCGCTTTGCATCTTCTCCACGACCCTCAGGGA
TACGCCGAGTCCCTGTTCTCGAAGCATTTGCAGAACACTAAGTCGAAGCT
GAACTTGGACCACAAGCTTATGGTGCTCCAGCTGGTGACCCGCCTTGTCG
GATTGCATAAACTGCATATCATGCATCTCTACTCTTACTTCCAGAAATTC
CTGACTCCCCGTCAGCCATCCGTCACGTCGTTCTTGGCTTCGCTGGCGCA
AGCATCGCACGATTTGGTACCCCCGGATGACCTGGAGCCCTTGGTTCAGA
AGATCGCCAATGAGTTCGTCTCGGAAGCCTCAGCCTCTGAGGTCGCTTCG
GCTGGTCTCAACGCTATCCGAGAGATTTGCGCACGACAGCCACTCGCCAT
GAATGAGACCTTGTTGCAAGATCTTGTTATGTACCGCAAGAGTAAGGATA
AGGGTGTCATGATGGCGGGCCGAGGTTTGCTCAGTCTGTTCCGGGAGCTC
AACCCTGAGATGCTCAAGAGACGGGACCGCGGCAAGGACGCTTCCATCGG
CCTTAAGGCCGGGGAGAGGAAAGAGAAGCGCTTTGCGGAACAGGAGGCCG
GTGGCATCGAGGGTCTGGAGCTCCTGGAGAAATGGAAGGAGGAGGAGCGC
CGGAAGAGGAGGGCTGAGAAGGGCTTGGCTTCTGATGCTTCTGATGATGA
GGAGGAAGGCGAGGAGGACAACTGGGCATCTTGGAACGTGGAAGATGATG
AGGACAGTGATGACTCGGGCGATTGGATCAATGTGCAGAGCGACGCTGAA
ATCGACATCAGCGATTCCGAAGATGAGAAAGACGGACCTCCCGCTAAGAA
GGCCAAGTCCAGTGAAGGCAGCGGAGACGATACTAAGGCCGAGAAGGCGG
AAGAACAGAAGGAAGAGTCTGCTGAGGCCAAGTTCTCCAAGCTTGCAACG
ACTCGCATTCTCACCCCGGCTGACTTGGCTAAGCTCCAAGAGCTGCGTAC
CGAAGCCGCCATCAACTCACTCGTGCCGGGCGCGAAGAAACGTGATCGTG
ACGATCCTCTGACGGCCGAAGAAATCGAGGGCCTGGCTGCTCTCTCTGCT
GGCAAGGCCACGCGCGAGGAGCGGATTGCCCATGCCAAGGAAGGCAAGAC
TGATCGGGCCGAGCACAAGAGTATAACGGCCAAGCGCAAGGAGCGCAAGC
AGGATCAGGGCAAGAGTACGACCAACAAGGAGAAGGCTCGCAAGAAGAAC
TTCTTGATGACCCTGGGCAAGGCCAAGAGCAAGAACAAGCGCAGTTTGGT
GCAAACTCGCGCCGTCCTCAAGGCTCATCACGATCGGGCCAAGCGGGGAG
GTCGCAGAGGAAACATTGGTTAA back to topCoding sequence (CDS) from alignment at MCQH01000027:898071..900543+ >ATCC10864_001583-T1 ID=ATCC10864_001583-T1|Name=ATCC10864_001583-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8952bp|location=Sequence derived from alignment at MCQH01000027:898071..900543+ (Aspergillus niger ATCC 10864)
ATGGTGAAAAGAAAGTTGGGGGCCTTGGAAAAGGTCGAGGCTGATCTGCC
CAACCTGCAGCACAAGATTCGGAGAGATCCCAAATCCTATATTGAAGACT
TCCGCGCTCAGCACTACCAATATGAGAGTCACCGGGAAATTTTCATGACC
GCGCCTTCGTCGACCACGGAGACGGGTCTCATCTCTCTTAGAGAATTGAT
CGATTTCATTGCTCATGTGGCCGACTGCTATCCCGAGATCACGAAGGATT
TCCCTCAGCAACTCATGGATATTTTGACGCAGCACCATCTGATCCTCCAG
CCGGAATTGCGCGAAAAGATCGTCGGTAGCTTGGTGCTTCTGAGGAAGAA
GGAACTGTTGGATTCAGCGACGTTGCTTCAGACTCTGTTCCCTATCCTCA
TTTCTACCCCTAGCAAAACCCTACGAGCTTTGATCTTCCAAAAGATCCTC
ATGGATCTTCGACAGGCCAATGCGAAGACTACGAACCATAAGCTTAACCG
CACCATGCAGACGGTCCTGTTCAACTTGGTGACGTCGGACCGGACTTCTT
CTAAGGGTCTTTGGGCTATCAAGCTTACGCGCGAGCTATGGAAGCGCCAG
ATCTGGACCGATGCCAAGGCTGTAGAGGTCATGAAGGAAGCCAGTCTGGC
ATCGAATGAGAAAGTCATCGTTGGTGGTGTCCGCTTCTTCTTGGGCGGTG
ACAAAGAGCGCGAGGAAATGGAAGACGAAAGCAGCGACGAGGAAGCCATT
GATTTGGGGCGAGTAAAGCACCAAGTTGGCATCAACAAGAAGACCAGAAA
GAAGTCCCGCGCGATTGAGAAGGCCAAGGCAACCGTAAAGAGGAGGGAAC
GCAAGAAGAGCCAGCCGCATCCTCTGAACTTCTCCGCTTTGCATCTTCTC
CACGACCCTCAGGGATACGCCGAGTCCCTGTTCTCGAAGCATTTGCAGAA
CACTAAGTCGAAGCTGAACTTGGACCACAAGCTTATGGTGCTCCAGCTGG
TGACCCGCCTTGTCGGATTGCATAAACTGCATATCATGCATCTCTACTCT
TACTTCCAGAAATTCCTGACTCCCCGTCAGCCATCCGTCACGTCGTTCTT
GGCTTCGCTGGCGCAAGCATCGCACGATTTGGTACCCCCGGATGACCTGG
AGCCCTTGGTTCAGAAGATCGCCAATGAGTTCGTCTCGGAAGCCTCAGCC
TCTGAGGTCGCTTCGGCTGGTCTCAACGCTATCCGAGAGATTTGCGCACG
ACAGCCACTCGCCATGAATGAGACCTTGTTGCAAGATCTTGTTATGTACC
GCAAGAGTAAGGATAAGGGTGTCATGATGGCGGGCCGAGGTTTGCTCAGT
CTGTTCCGGGAGCTCAACCCTGAGATGCTCAAGAGACGGGACCGCGGCAA
GGACGCTTCCATCGGCCTTAAGGCCGGGGAGAGGAAAGAGAAGCGCTTTG
CGGAACAGGAGGCCGGTGGCATCGAGGGTCTGGAGCTCCTGGAGAAATGG
AAGGAGGAGGAGCGCCGGAAGAGGAGGGCTGAGAAGGGCTTGGCTTCTGA
TGCTTCTGATGATGAGGAGGAAGGCGAGGAGGACAACTGGGCATCTTGGA
ACGTGGAAGATGATGAGGACAGTGATGACTCGGGCGATTGGATCAATGTG
CAGAGCGACGCTGAAATCGACATCAGCGATTCCGAAGATGAGAAAGACGG
ACCTCCCGCTAAGAAGGCCAAGTCCAGTGAAGGCAGCGGAGACGATACTA
AGGCCGAGAAGGCGGAAGAACAGAAGGAAGAGTCTGCTGAGGCCAAGTTC
TCCAAGCTTGCAACGACTCGCATTCTCACCCCGGCTGACTTGGCTAAGCT
CCAAGAGCTGCGTACCGAAGCCGCCATCAACTCACTCGTGCCGGGCGCGA
AGAAACGTGATCGTGACGATCCTCTGACGGCCGAAGAAATCGAGGGCCTG
GCTGCTCTCTCTGCTGGCAAGGCCACGCGCGAGGAGCGGATTGCCCATGC
CAAGGAAGGCAAGACTGATCGGGCCGAGCACAAGAGTATAACGGCCAAGC
GCAAGGAGCGCAAGCAGGATCAGGGCAAGAGTACGACCAACAAGGAGAAG
GCTCGCAAGAAGAACTTCTTGATGACCCTGGGCAAGGCCAAGAGCAAGAA
CAAGCGCAGTTTGGTGCAAACTCGCGCCGTCCTCAAGGCTCATCACGATC
GGGCCAAGCGGGGAGGTCGCAGAGGAAACATTGGTTAAATGGTGAAAAGA
AAGTTGGGGGCCTTGGAAAAGGTCGAGGCTGATCTGCCCAACCTGCAGCA
CAAGATTCGGAGAGATCCCAAATCCTATATTGAAGACTTCCGCGCTCAGC
ACTACCAATATGAGAGTCACCGGGAAATTTTCATGACCGCGCCTTCGTCG
ACCACGGAGACGGGTCTCATCTCTCTTAGAGAATTGATCGATTTCATTGC
TCATGTGGCCGACTGCTATCCCGAGATCACGAAGGATTTCCCTCAGCAAC
TCATGGATATTTTGACGCAGCACCATCTGATCCTCCAGCCGGAATTGCGC
GAAAAGATCGTCGGTAGCTTGGTGCTTCTGAGGAAGAAGGAACTGTTGGA
TTCAGCGACGTTGCTTCAGACTCTGTTCCCTATCCTCATTTCTACCCCTA
GCAAAACCCTACGAGCTTTGATCTTCCAAAAGATCCTCATGGATCTTCGA
CAGGCCAATGCGAAGACTACGAACCATAAGCTTAACCGCACCATGCAGAC
GGTCCTGTTCAACTTGGTGACGTCGGACCGGACTTCTTCTAAGGGTCTTT
GGGCTATCAAGCTTACGCGCGAGCTATGGAAGCGCCAGATCTGGACCGAT
GCCAAGGCTGTAGAGGTCATGAAGGAAGCCAGTCTGGCATCGAATGAGAA
AGTCATCGTTGGTGGTGTCCGCTTCTTCTTGGGCGGTGACAAAGAGCGCG
AGGAAATGGAAGACGAAAGCAGCGACGAGGAAGCCATTGATTTGGGGCGA
GTAAAGCACCAAGTTGGCATCAACAAGAAGACCAGAAAGAAGTCCCGCGC
GATTGAGAAGGCCAAGGCAACCGTAAAGAGGAGGGAACGCAAGAAGAGCC
AGCCGCATCCTCTGAACTTCTCCGCTTTGCATCTTCTCCACGACCCTCAG
GGATACGCCGAGTCCCTGTTCTCGAAGCATTTGCAGAACACTAAGTCGAA
GCTGAACTTGGACCACAAGCTTATGGTGCTCCAGCTGGTGACCCGCCTTG
TCGGATTGCATAAACTGCATATCATGCATCTCTACTCTTACTTCCAGAAA
TTCCTGACTCCCCGTCAGCCATCCGTCACGTCGTTCTTGGCTTCGCTGGC
GCAAGCATCGCACGATTTGGTACCCCCGGATGACCTGGAGCCCTTGGTTC
AGAAGATCGCCAATGAGTTCGTCTCGGAAGCCTCAGCCTCTGAGGTCGCT
TCGGCTGGTCTCAACGCTATCCGAGAGATTTGCGCACGACAGCCACTCGC
CATGAATGAGACCTTGTTGCAAGATCTTGTTATGTACCGCAAGAGTAAGG
ATAAGGGTGTCATGATGGCGGGCCGAGGTTTGCTCAGTCTGTTCCGGGAG
CTCAACCCTGAGATGCTCAAGAGACGGGACCGCGGCAAGGACGCTTCCAT
CGGCCTTAAGGCCGGGGAGAGGAAAGAGAAGCGCTTTGCGGAACAGGAGG
CCGGTGGCATCGAGGGTCTGGAGCTCCTGGAGAAATGGAAGGAGGAGGAG
CGCCGGAAGAGGAGGGCTGAGAAGGGCTTGGCTTCTGATGCTTCTGATGA
TGAGGAGGAAGGCGAGGAGGACAACTGGGCATCTTGGAACGTGGAAGATG
ATGAGGACAGTGATGACTCGGGCGATTGGATCAATGTGCAGAGCGACGCT
GAAATCGACATCAGCGATTCCGAAGATGAGAAAGACGGACCTCCCGCTAA
GAAGGCCAAGTCCAGTGAAGGCAGCGGAGACGATACTAAGGCCGAGAAGG
CGGAAGAACAGAAGGAAGAGTCTGCTGAGGCCAAGTTCTCCAAGCTTGCA
ACGACTCGCATTCTCACCCCGGCTGACTTGGCTAAGCTCCAAGAGCTGCG
TACCGAAGCCGCCATCAACTCACTCGTGCCGGGCGCGAAGAAACGTGATC
GTGACGATCCTCTGACGGCCGAAGAAATCGAGGGCCTGGCTGCTCTCTCT
GCTGGCAAGGCCACGCGCGAGGAGCGGATTGCCCATGCCAAGGAAGGCAA
GACTGATCGGGCCGAGCACAAGAGTATAACGGCCAAGCGCAAGGAGCGCA
AGCAGGATCAGGGCAAGAGTACGACCAACAAGGAGAAGGCTCGCAAGAAG
AACTTCTTGATGACCCTGGGCAAGGCCAAGAGCAAGAACAAGCGCAGTTT
GGTGCAAACTCGCGCCGTCCTCAAGGCTCATCACGATCGGGCCAAGCGGG
GAGGTCGCAGAGGAAACATTGGTTAAATGGTGAAAAGAAAGTTGGGGGCC
TTGGAAAAGGTCGAGGCTGATCTGCCCAACCTGCAGCACAAGATTCGGAG
AGATCCCAAATCCTATATTGAAGACTTCCGCGCTCAGCACTACCAATATG
AGAGTCACCGGGAAATTTTCATGACCGCGCCTTCGTCGACCACGGAGACG
GGTCTCATCTCTCTTAGAGAATTGATCGATTTCATTGCTCATGTGGCCGA
CTGCTATCCCGAGATCACGAAGGATTTCCCTCAGCAACTCATGGATATTT
TGACGCAGCACCATCTGATCCTCCAGCCGGAATTGCGCGAAAAGATCGTC
GGTAGCTTGGTGCTTCTGAGGAAGAAGGAACTGTTGGATTCAGCGACGTT
GCTTCAGACTCTGTTCCCTATCCTCATTTCTACCCCTAGCAAAACCCTAC
GAGCTTTGATCTTCCAAAAGATCCTCATGGATCTTCGACAGGCCAATGCG
AAGACTACGAACCATAAGCTTAACCGCACCATGCAGACGGTCCTGTTCAA
CTTGGTGACGTCGGACCGGACTTCTTCTAAGGGTCTTTGGGCTATCAAGC
TTACGCGCGAGCTATGGAAGCGCCAGATCTGGACCGATGCCAAGGCTGTA
GAGGTCATGAAGGAAGCCAGTCTGGCATCGAATGAGAAAGTCATCGTTGG
TGGTGTCCGCTTCTTCTTGGGCGGTGACAAAGAGCGCGAGGAAATGGAAG
ACGAAAGCAGCGACGAGGAAGCCATTGATTTGGGGCGAGTAAAGCACCAA
GTTGGCATCAACAAGAAGACCAGAAAGAAGTCCCGCGCGATTGAGAAGGC
CAAGGCAACCGTAAAGAGGAGGGAACGCAAGAAGAGCCAGCCGCATCCTC
TGAACTTCTCCGCTTTGCATCTTCTCCACGACCCTCAGGGATACGCCGAG
TCCCTGTTCTCGAAGCATTTGCAGAACACTAAGTCGAAGCTGAACTTGGA
CCACAAGCTTATGGTGCTCCAGCTGGTGACCCGCCTTGTCGGATTGCATA
AACTGCATATCATGCATCTCTACTCTTACTTCCAGAAATTCCTGACTCCC
CGTCAGCCATCCGTCACGTCGTTCTTGGCTTCGCTGGCGCAAGCATCGCA
CGATTTGGTACCCCCGGATGACCTGGAGCCCTTGGTTCAGAAGATCGCCA
ATGAGTTCGTCTCGGAAGCCTCAGCCTCTGAGGTCGCTTCGGCTGGTCTC
AACGCTATCCGAGAGATTTGCGCACGACAGCCACTCGCCATGAATGAGAC
CTTGTTGCAAGATCTTGTTATGTACCGCAAGAGTAAGGATAAGGGTGTCA
TGATGGCGGGCCGAGGTTTGCTCAGTCTGTTCCGGGAGCTCAACCCTGAG
ATGCTCAAGAGACGGGACCGCGGCAAGGACGCTTCCATCGGCCTTAAGGC
CGGGGAGAGGAAAGAGAAGCGCTTTGCGGAACAGGAGGCCGGTGGCATCG
AGGGTCTGGAGCTCCTGGAGAAATGGAAGGAGGAGGAGCGCCGGAAGAGG
AGGGCTGAGAAGGGCTTGGCTTCTGATGCTTCTGATGATGAGGAGGAAGG
CGAGGAGGACAACTGGGCATCTTGGAACGTGGAAGATGATGAGGACAGTG
ATGACTCGGGCGATTGGATCAATGTGCAGAGCGACGCTGAAATCGACATC
AGCGATTCCGAAGATGAGAAAGACGGACCTCCCGCTAAGAAGGCCAAGTC
CAGTGAAGGCAGCGGAGACGATACTAAGGCCGAGAAGGCGGAAGAACAGA
AGGAAGAGTCTGCTGAGGCCAAGTTCTCCAAGCTTGCAACGACTCGCATT
CTCACCCCGGCTGACTTGGCTAAGCTCCAAGAGCTGCGTACCGAAGCCGC
CATCAACTCACTCGTGCCGGGCGCGAAGAAACGTGATCGTGACGATCCTC
TGACGGCCGAAGAAATCGAGGGCCTGGCTGCTCTCTCTGCTGGCAAGGCC
ACGCGCGAGGAGCGGATTGCCCATGCCAAGGAAGGCAAGACTGATCGGGC
CGAGCACAAGAGTATAACGGCCAAGCGCAAGGAGCGCAAGCAGGATCAGG
GCAAGAGTACGACCAACAAGGAGAAGGCTCGCAAGAAGAACTTCTTGATG
ACCCTGGGCAAGGCCAAGAGCAAGAACAAGCGCAGTTTGGTGCAAACTCG
CGCCGTCCTCAAGGCTCATCACGATCGGGCCAAGCGGGGAGGTCGCAGAG
GAAACATTGGTTAAATGGTGAAAAGAAAGTTGGGGGCCTTGGAAAAGGTC
GAGGCTGATCTGCCCAACCTGCAGCACAAGATTCGGAGAGATCCCAAATC
CTATATTGAAGACTTCCGCGCTCAGCACTACCAATATGAGAGTCACCGGG
AAATTTTCATGACCGCGCCTTCGTCGACCACGGAGACGGGTCTCATCTCT
CTTAGAGAATTGATCGATTTCATTGCTCATGTGGCCGACTGCTATCCCGA
GATCACGAAGGATTTCCCTCAGCAACTCATGGATATTTTGACGCAGCACC
ATCTGATCCTCCAGCCGGAATTGCGCGAAAAGATCGTCGGTAGCTTGGTG
CTTCTGAGGAAGAAGGAACTGTTGGATTCAGCGACGTTGCTTCAGACTCT
GTTCCCTATCCTCATTTCTACCCCTAGCAAAACCCTACGAGCTTTGATCT
TCCAAAAGATCCTCATGGATCTTCGACAGGCCAATGCGAAGACTACGAAC
CATAAGCTTAACCGCACCATGCAGACGGTCCTGTTCAACTTGGTGACGTC
GGACCGGACTTCTTCTAAGGGTCTTTGGGCTATCAAGCTTACGCGCGAGC
TATGGAAGCGCCAGATCTGGACCGATGCCAAGGCTGTAGAGGTCATGAAG
GAAGCCAGTCTGGCATCGAATGAGAAAGTCATCGTTGGTGGTGTCCGCTT
CTTCTTGGGCGGTGACAAAGAGCGCGAGGAAATGGAAGACGAAAGCAGCG
ACGAGGAAGCCATTGATTTGGGGCGAGTAAAGCACCAAGTTGGCATCAAC
AAGAAGACCAGAAAGAAGTCCCGCGCGATTGAGAAGGCCAAGGCAACCGT
AAAGAGGAGGGAACGCAAGAAGAGCCAGCCGCATCCTCTGAACTTCTCCG
CTTTGCATCTTCTCCACGACCCTCAGGGATACGCCGAGTCCCTGTTCTCG
AAGCATTTGCAGAACACTAAGTCGAAGCTGAACTTGGACCACAAGCTTAT
GGTGCTCCAGCTGGTGACCCGCCTTGTCGGATTGCATAAACTGCATATCA
TGCATCTCTACTCTTACTTCCAGAAATTCCTGACTCCCCGTCAGCCATCC
GTCACGTCGTTCTTGGCTTCGCTGGCGCAAGCATCGCACGATTTGGTACC
CCCGGATGACCTGGAGCCCTTGGTTCAGAAGATCGCCAATGAGTTCGTCT
CGGAAGCCTCAGCCTCTGAGGTCGCTTCGGCTGGTCTCAACGCTATCCGA
GAGATTTGCGCACGACAGCCACTCGCCATGAATGAGACCTTGTTGCAAGA
TCTTGTTATGTACCGCAAGAGTAAGGATAAGGGTGTCATGATGGCGGGCC
GAGGTTTGCTCAGTCTGTTCCGGGAGCTCAACCCTGAGATGCTCAAGAGA
CGGGACCGCGGCAAGGACGCTTCCATCGGCCTTAAGGCCGGGGAGAGGAA
AGAGAAGCGCTTTGCGGAACAGGAGGCCGGTGGCATCGAGGGTCTGGAGC
TCCTGGAGAAATGGAAGGAGGAGGAGCGCCGGAAGAGGAGGGCTGAGAAG
GGCTTGGCTTCTGATGCTTCTGATGATGAGGAGGAAGGCGAGGAGGACAA
CTGGGCATCTTGGAACGTGGAAGATGATGAGGACAGTGATGACTCGGGCG
ATTGGATCAATGTGCAGAGCGACGCTGAAATCGACATCAGCGATTCCGAA
GATGAGAAAGACGGACCTCCCGCTAAGAAGGCCAAGTCCAGTGAAGGCAG
CGGAGACGATACTAAGGCCGAGAAGGCGGAAGAACAGAAGGAAGAGTCTG
CTGAGGCCAAGTTCTCCAAGCTTGCAACGACTCGCATTCTCACCCCGGCT
GACTTGGCTAAGCTCCAAGAGCTGCGTACCGAAGCCGCCATCAACTCACT
CGTGCCGGGCGCGAAGAAACGTGATCGTGACGATCCTCTGACGGCCGAAG
AAATCGAGGGCCTGGCTGCTCTCTCTGCTGGCAAGGCCACGCGCGAGGAG
CGGATTGCCCATGCCAAGGAAGGCAAGACTGATCGGGCCGAGCACAAGAG
TATAACGGCCAAGCGCAAGGAGCGCAAGCAGGATCAGGGCAAGAGTACGA
CCAACAAGGAGAAGGCTCGCAAGAAGAACTTCTTGATGACCCTGGGCAAG
GCCAAGAGCAAGAACAAGCGCAGTTTGGTGCAAACTCGCGCCGTCCTCAA
GGCTCATCACGATCGGGCCAAGCGGGGAGGTCGCAGAGGAAACATTGGTT
AA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0000055 | ribosomal large subunit export from nucleus |
| GO:0042273 | ribosomal large subunit biogenesis |
| GO:0030036 | actin cytoskeleton organization |
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| InterPro | IPR012977 |
| PFAM | PF08158 |
| InterPro | IPR016024 |
| InterPro | IPR007949 |
| InterPro | IPR027312 |
| PFAM | PF05285 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260TLW |
| Note | antiSMASH:Cluster_1000027.2 |
| Product | hypothetical protein |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| MCQH01000027 | supercontig | MCQH01000027:898071..900543 + |
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