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Sequences
The following sequences are available for this feature:
mRNA from alignment at OGUI01000013.1:1689227..1691302- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC64974_78970-T1 ID=ATCC64974_78970-T1|Name=ATCC64974_78970-T1|organism=Aspergillus niger N402|type=mRNA|length=2076bp|location=Sequence derived from alignment at OGUI01000013.1:1689227..1691302- (Aspergillus niger N402)
ATGAGGCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACC
GAAGACTTTACCACAGAAAACATTATGCGGCGCTCGCAACTATGTGCGGA
CCGCCGAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCC
ATGCTTAGATACCCAGTCACTCAAATTGCATCGGATCAGAGACGTTGGAT
CTCGCGGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATG
ACTTTGCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACAC
CTTGAGGAGCGCGGACTACTGCACGATGTTGTTGGGTAGGTGATTTCGAA
GTAGTACACATTAATAAACTGGAATTGGCGGTGGTTGGCTAACTTGACCC
TACCACCAAATGCAGAGAACGAGAAACGTTAGACCGTCTCTTCACGAAAA
AGAGAGTTGGCATGTACGCTGGCGTGGATCCTACCGCTCCGTCTTTACAC
GTTGGACATATGCTACCGTTTATGATTCTGGCTTGGGGTTACGTCTGGGG
CTTGCCGGTCACGTTTCTGGTCAGTAATATACGTATGGTTGGGCAATATC
GAGCCTGGCTAACATCTCACAGCTTGGTGGTGCTACCGCTCGCTTCGGTG
ACCCAACAGGACGACTGAAAAGCCGGGATCAAGTTCACTCCTCCGTCCGG
AAAGCCAACATGGCGAGCATGCATATGCAGCTCAAGAAGCTGGGGCATAG
TATTGATACGTATGGCAGAAGACATGGCTATATTAATAAGTACTGGCGGC
GTGCCCTTGTGAACAACAACACCTGGTGGAATTCGCTGCCTGTTATAGAA
TTGCTTCGAGACCTAGGCGTTCACACCCGTCTCGGACCCATGATGGGGCG
AGACACGTAAGTTCGCCCTTTCCCAATATCCGTCAGGATGATGCTCACGA
ACACATAGGGTCAAAAACCGGCTGTCCAAGGGAGATGGAATGTCCTTTGC
CGAGTTTACTTACCCCCTAATGCAGGCATGGGACTGGTGGGTACTCTTCC
AAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTCGGCAATATT
CTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAAGAACATGACCGATCC
AGAGCAACAATTCGATTTTAAAGATGAACTTTCTAGGCCTATTGGTATCA
CGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGCAAGTCTGCT
GGAAACGCGGTCTGGCTCGACAAAGACATGACGTCTACTTTCGAGCTGTA
CCAGGTATGATGCACCGCACCACCTCGACAACTCGCCTGACTTAACTGAT
GGATGACAGTTCTTCGTTCGGACACCGGATGATGTTGTTGAGCGCTACCT
GAAGATGTTCACCTTTTTGCCGCTGCCCGAAATCGCTAAGATTATGGAGG
AACAAAACAAGGACCCCTCTAAGCGGGTGGCCCAGCATGCTCTCGCTTCA
GAGTTTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTGATGCGGTGGCTCT
CCAGCACCGTCAGCTTTTCCGTCCACGGTTATCTACGGCAGAACCAAGCC
CACTACCCCGGAAACCCTCGACCGGTGGTAGCCCCCAGTCACCAACGGCC
GGCTTTGCTACTCAAGAATCTGGAAATCCCTATGCCCCTCAAACCAACTT
TGCAAACATGCCACAAGTCAACATTACCCTTCCGCGGTCTCTAGTGTATA
ATCAGACGCTGAACAAAGTCCTCTGGTCCGCAGGACTGGTTGGTTCCAAG
AGTGAAGGCCACCGCGCAATTGAGAACCGGGGTGCTTATGTCGGCAGTCG
TCCGGGAGATAGCGGGCAAATGAGTGACGACCTTGCGTTCACCCCCATCA
AGGTATGGCCCGCGGCGAAGACACAGGAGTTTATCATTGGAGACAAACTT
TTCCTGAAGATGGGCAAGTGGAAGTTTAAGATCGTGACCATTGTCAGCGA
TGAAGAATTCAAGGCGGCTGGATTCACCGCGCCCGGGTGGGAGCCGGAAA
CGCCGGAATCCGGCAACAGCGCTTAA back to topCoding sequence (CDS) from alignment at OGUI01000013.1:1689227..1691302- >ATCC64974_78970-T1 ID=ATCC64974_78970-T1|Name=ATCC64974_78970-T1|organism=Aspergillus niger N402|type=CDS|length=9180bp|location=Sequence derived from alignment at OGUI01000013.1:1689227..1691302- (Aspergillus niger N402)
TTCTTCGTTCGGACACCGGATGATGTTGTTGAGCGCTACCTGAAGATGTT
CACCTTTTTGCCGCTGCCCGAAATCGCTAAGATTATGGAGGAACAAAACA
AGGACCCCTCTAAGCGGGTGGCCCAGCATGCTCTCGCTTCAGAGTTTGTC
GAGCTGGTCCATGGCAAGGTGGAAGCTGATGCGGTGGCTCTCCAGCACCG
TCAGCTTTTCCGTCCACGGTTATCTACGGCAGAACCAAGCCCACTACCCC
GGAAACCCTCGACCGGTGGTAGCCCCCAGTCACCAACGGCCGGCTTTGCT
ACTCAAGAATCTGGAAATCCCTATGCCCCTCAAACCAACTTTGCAAACAT
GCCACAAGTCAACATTACCCTTCCGCGGTCTCTAGTGTATAATCAGACGC
TGAACAAAGTCCTCTGGTCCGCAGGACTGGTTGGTTCCAAGAGTGAAGGC
CACCGCGCAATTGAGAACCGGGGTGCTTATGTCGGCAGTCGTCCGGGAGA
TAGCGGGCAAATGAGTGACGACCTTGCGTTCACCCCCATCAAGGTATGGC
CCGCGGCGAAGACACAGGAGTTTATCATTGGAGACAAACTTTTCCTGAAG
ATGGGCAAGTGGAAGTTTAAGATCGTGACCATTGTCAGCGATGAAGAATT
CAAGGCGGCTGGATTCACCGCGCCCGGGTGGGAGCCGGAAACGCCGGAAT
CCGGCAACAGCGCTTAAGGTCAAAAACCGGCTGTCCAAGGGAGATGGAAT
GTCCTTTGCCGAGTTTACTTACCCCCTAATGCAGGCATGGGACTGGTGGG
TACTCTTCCAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTC
GGCAATATTCTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAAGAACAT
GACCGATCCAGAGCAACAATTCGATTTTAAAGATGAACTTTCTAGGCCTA
TTGGTATCACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGC
AAGTCTGCTGGAAACGCGGTCTGGCTCGACAAAGACATGACGTCTACTTT
CGAGCTGTACCAGCTTGGTGGTGCTACCGCTCGCTTCGGTGACCCAACAG
GACGACTGAAAAGCCGGGATCAAGTTCACTCCTCCGTCCGGAAAGCCAAC
ATGGCGAGCATGCATATGCAGCTCAAGAAGCTGGGGCATAGTATTGATAC
GTATGGCAGAAGACATGGCTATATTAATAAGTACTGGCGGCGTGCCCTTG
TGAACAACAACACCTGGTGGAATTCGCTGCCTGTTATAGAATTGCTTCGA
GACCTAGGCGTTCACACCCGTCTCGGACCCATGATGGGGCGAGACACAGA
ACGAGAAACGTTAGACCGTCTCTTCACGAAAAAGAGAGTTGGCATGTACG
CTGGCGTGGATCCTACCGCTCCGTCTTTACACGTTGGACATATGCTACCG
TTTATGATTCTGGCTTGGGGTTACGTCTGGGGCTTGCCGGTCACGTTTCT
GATGAGGCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTAC
CGAAGACTTTACCACAGAAAACATTATGCGGCGCTCGCAACTATGTGCGG
ACCGCCGAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCC
CATGCTTAGATACCCAGTCACTCAAATTGCATCGGATCAGAGACGTTGGA
TCTCGCGGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGAT
GACTTTGCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACA
CCTTGAGGAGCGCGGACTACTGCACGATGTTGTTGGTTCTTCGTTCGGAC
ACCGGATGATGTTGTTGAGCGCTACCTGAAGATGTTCACCTTTTTGCCGC
TGCCCGAAATCGCTAAGATTATGGAGGAACAAAACAAGGACCCCTCTAAG
CGGGTGGCCCAGCATGCTCTCGCTTCAGAGTTTGTCGAGCTGGTCCATGG
CAAGGTGGAAGCTGATGCGGTGGCTCTCCAGCACCGTCAGCTTTTCCGTC
CACGGTTATCTACGGCAGAACCAAGCCCACTACCCCGGAAACCCTCGACC
GGTGGTAGCCCCCAGTCACCAACGGCCGGCTTTGCTACTCAAGAATCTGG
AAATCCCTATGCCCCTCAAACCAACTTTGCAAACATGCCACAAGTCAACA
TTACCCTTCCGCGGTCTCTAGTGTATAATCAGACGCTGAACAAAGTCCTC
TGGTCCGCAGGACTGGTTGGTTCCAAGAGTGAAGGCCACCGCGCAATTGA
GAACCGGGGTGCTTATGTCGGCAGTCGTCCGGGAGATAGCGGGCAAATGA
GTGACGACCTTGCGTTCACCCCCATCAAGGTATGGCCCGCGGCGAAGACA
CAGGAGTTTATCATTGGAGACAAACTTTTCCTGAAGATGGGCAAGTGGAA
GTTTAAGATCGTGACCATTGTCAGCGATGAAGAATTCAAGGCGGCTGGAT
TCACCGCGCCCGGGTGGGAGCCGGAAACGCCGGAATCCGGCAACAGCGCT
TAAGGTCAAAAACCGGCTGTCCAAGGGAGATGGAATGTCCTTTGCCGAGT
TTACTTACCCCCTAATGCAGGCATGGGACTGGTGGGTACTCTTCCAAAAG
GGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTCGGCAATATTCTCTT
TGGCATGGACGCAGTGAAGTCCATCGGCAAGAACATGACCGATCCAGAGC
AACAATTCGATTTTAAAGATGAACTTTCTAGGCCTATTGGTATCACGACT
CCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGCAAGTCTGCTGGAAA
CGCGGTCTGGCTCGACAAAGACATGACGTCTACTTTCGAGCTGTACCAGC
TTGGTGGTGCTACCGCTCGCTTCGGTGACCCAACAGGACGACTGAAAAGC
CGGGATCAAGTTCACTCCTCCGTCCGGAAAGCCAACATGGCGAGCATGCA
TATGCAGCTCAAGAAGCTGGGGCATAGTATTGATACGTATGGCAGAAGAC
ATGGCTATATTAATAAGTACTGGCGGCGTGCCCTTGTGAACAACAACACC
TGGTGGAATTCGCTGCCTGTTATAGAATTGCTTCGAGACCTAGGCGTTCA
CACCCGTCTCGGACCCATGATGGGGCGAGACACAGAACGAGAAACGTTAG
ACCGTCTCTTCACGAAAAAGAGAGTTGGCATGTACGCTGGCGTGGATCCT
ACCGCTCCGTCTTTACACGTTGGACATATGCTACCGTTTATGATTCTGGC
TTGGGGTTACGTCTGGGGCTTGCCGGTCACGTTTCTGATGAGGCCACACA
CAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACCGAAGACTTTACCA
CAGAAAACATTATGCGGCGCTCGCAACTATGTGCGGACCGCCGAAGTGTT
GCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCCATGCTTAGATACC
CAGTCACTCAAATTGCATCGGATCAGAGACGTTGGATCTCGCGGAGCTAT
CTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATGACTTTGCGGACGA
GATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACACCTTGAGGAGCGCG
GACTACTGCACGATGTTGTTGGTTCTTCGTTCGGACACCGGATGATGTTG
TTGAGCGCTACCTGAAGATGTTCACCTTTTTGCCGCTGCCCGAAATCGCT
AAGATTATGGAGGAACAAAACAAGGACCCCTCTAAGCGGGTGGCCCAGCA
TGCTCTCGCTTCAGAGTTTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTG
ATGCGGTGGCTCTCCAGCACCGTCAGCTTTTCCGTCCACGGTTATCTACG
GCAGAACCAAGCCCACTACCCCGGAAACCCTCGACCGGTGGTAGCCCCCA
GTCACCAACGGCCGGCTTTGCTACTCAAGAATCTGGAAATCCCTATGCCC
CTCAAACCAACTTTGCAAACATGCCACAAGTCAACATTACCCTTCCGCGG
TCTCTAGTGTATAATCAGACGCTGAACAAAGTCCTCTGGTCCGCAGGACT
GGTTGGTTCCAAGAGTGAAGGCCACCGCGCAATTGAGAACCGGGGTGCTT
ATGTCGGCAGTCGTCCGGGAGATAGCGGGCAAATGAGTGACGACCTTGCG
TTCACCCCCATCAAGGTATGGCCCGCGGCGAAGACACAGGAGTTTATCAT
TGGAGACAAACTTTTCCTGAAGATGGGCAAGTGGAAGTTTAAGATCGTGA
CCATTGTCAGCGATGAAGAATTCAAGGCGGCTGGATTCACCGCGCCCGGG
TGGGAGCCGGAAACGCCGGAATCCGGCAACAGCGCTTAAGGTCAAAAACC
GGCTGTCCAAGGGAGATGGAATGTCCTTTGCCGAGTTTACTTACCCCCTA
ATGCAGGCATGGGACTGGTGGGTACTCTTCCAAAAGGGTGTTCAGGTTCA
GGTTGGCGGCTCGGACCAATTCGGCAATATTCTCTTTGGCATGGACGCAG
TGAAGTCCATCGGCAAGAACATGACCGATCCAGAGCAACAATTCGATTTT
AAAGATGAACTTTCTAGGCCTATTGGTATCACGACTCCTTTGCTCACGGC
TCCGTCTGGCGAGAAATTTGGCAAGTCTGCTGGAAACGCGGTCTGGCTCG
ACAAAGACATGACGTCTACTTTCGAGCTGTACCAGCTTGGTGGTGCTACC
GCTCGCTTCGGTGACCCAACAGGACGACTGAAAAGCCGGGATCAAGTTCA
CTCCTCCGTCCGGAAAGCCAACATGGCGAGCATGCATATGCAGCTCAAGA
AGCTGGGGCATAGTATTGATACGTATGGCAGAAGACATGGCTATATTAAT
AAGTACTGGCGGCGTGCCCTTGTGAACAACAACACCTGGTGGAATTCGCT
GCCTGTTATAGAATTGCTTCGAGACCTAGGCGTTCACACCCGTCTCGGAC
CCATGATGGGGCGAGACACAGAACGAGAAACGTTAGACCGTCTCTTCACG
AAAAAGAGAGTTGGCATGTACGCTGGCGTGGATCCTACCGCTCCGTCTTT
ACACGTTGGACATATGCTACCGTTTATGATTCTGGCTTGGGGTTACGTCT
GGGGCTTGCCGGTCACGTTTCTGATGAGGCCACACACAGGGGCTCTGCCT
CGCGCGCTACGCCTCCATGTACCGAAGACTTTACCACAGAAAACATTATG
CGGCGCTCGCAACTATGTGCGGACCGCCGAAGTGTTGCGGATGAACCAGT
CGCCCTCCAGCAGCATTCGGCCCATGCTTAGATACCCAGTCACTCAAATT
GCATCGGATCAGAGACGTTGGATCTCGCGGAGCTATCTGCAGAAACAGAA
GGACGCTGCAAAAGAATGGGATGACTTTGCGGACGAGATTGAAGCAGGAA
AGAGGAAGAACTTTGCACAACACCTTGAGGAGCGCGGACTACTGCACGAT
GTTGTTGGTTCTTCGTTCGGACACCGGATGATGTTGTTGAGCGCTACCTG
AAGATGTTCACCTTTTTGCCGCTGCCCGAAATCGCTAAGATTATGGAGGA
ACAAAACAAGGACCCCTCTAAGCGGGTGGCCCAGCATGCTCTCGCTTCAG
AGTTTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTGATGCGGTGGCTCTC
CAGCACCGTCAGCTTTTCCGTCCACGGTTATCTACGGCAGAACCAAGCCC
ACTACCCCGGAAACCCTCGACCGGTGGTAGCCCCCAGTCACCAACGGCCG
GCTTTGCTACTCAAGAATCTGGAAATCCCTATGCCCCTCAAACCAACTTT
GCAAACATGCCACAAGTCAACATTACCCTTCCGCGGTCTCTAGTGTATAA
TCAGACGCTGAACAAAGTCCTCTGGTCCGCAGGACTGGTTGGTTCCAAGA
GTGAAGGCCACCGCGCAATTGAGAACCGGGGTGCTTATGTCGGCAGTCGT
CCGGGAGATAGCGGGCAAATGAGTGACGACCTTGCGTTCACCCCCATCAA
GGTATGGCCCGCGGCGAAGACACAGGAGTTTATCATTGGAGACAAACTTT
TCCTGAAGATGGGCAAGTGGAAGTTTAAGATCGTGACCATTGTCAGCGAT
GAAGAATTCAAGGCGGCTGGATTCACCGCGCCCGGGTGGGAGCCGGAAAC
GCCGGAATCCGGCAACAGCGCTTAAGGTCAAAAACCGGCTGTCCAAGGGA
GATGGAATGTCCTTTGCCGAGTTTACTTACCCCCTAATGCAGGCATGGGA
CTGGTGGGTACTCTTCCAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGG
ACCAATTCGGCAATATTCTCTTTGGCATGGACGCAGTGAAGTCCATCGGC
AAGAACATGACCGATCCAGAGCAACAATTCGATTTTAAAGATGAACTTTC
TAGGCCTATTGGTATCACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGA
AATTTGGCAAGTCTGCTGGAAACGCGGTCTGGCTCGACAAAGACATGACG
TCTACTTTCGAGCTGTACCAGCTTGGTGGTGCTACCGCTCGCTTCGGTGA
CCCAACAGGACGACTGAAAAGCCGGGATCAAGTTCACTCCTCCGTCCGGA
AAGCCAACATGGCGAGCATGCATATGCAGCTCAAGAAGCTGGGGCATAGT
ATTGATACGTATGGCAGAAGACATGGCTATATTAATAAGTACTGGCGGCG
TGCCCTTGTGAACAACAACACCTGGTGGAATTCGCTGCCTGTTATAGAAT
TGCTTCGAGACCTAGGCGTTCACACCCGTCTCGGACCCATGATGGGGCGA
GACACAGAACGAGAAACGTTAGACCGTCTCTTCACGAAAAAGAGAGTTGG
CATGTACGCTGGCGTGGATCCTACCGCTCCGTCTTTACACGTTGGACATA
TGCTACCGTTTATGATTCTGGCTTGGGGTTACGTCTGGGGCTTGCCGGTC
ACGTTTCTGATGAGGCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCT
CCATGTACCGAAGACTTTACCACAGAAAACATTATGCGGCGCTCGCAACT
ATGTGCGGACCGCCGAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGC
ATTCGGCCCATGCTTAGATACCCAGTCACTCAAATTGCATCGGATCAGAG
ACGTTGGATCTCGCGGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAG
AATGGGATGACTTTGCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTT
GCACAACACCTTGAGGAGCGCGGACTACTGCACGATGTTGTTGGTTCTTC
GTTCGGACACCGGATGATGTTGTTGAGCGCTACCTGAAGATGTTCACCTT
TTTGCCGCTGCCCGAAATCGCTAAGATTATGGAGGAACAAAACAAGGACC
CCTCTAAGCGGGTGGCCCAGCATGCTCTCGCTTCAGAGTTTGTCGAGCTG
GTCCATGGCAAGGTGGAAGCTGATGCGGTGGCTCTCCAGCACCGTCAGCT
TTTCCGTCCACGGTTATCTACGGCAGAACCAAGCCCACTACCCCGGAAAC
CCTCGACCGGTGGTAGCCCCCAGTCACCAACGGCCGGCTTTGCTACTCAA
GAATCTGGAAATCCCTATGCCCCTCAAACCAACTTTGCAAACATGCCACA
AGTCAACATTACCCTTCCGCGGTCTCTAGTGTATAATCAGACGCTGAACA
AAGTCCTCTGGTCCGCAGGACTGGTTGGTTCCAAGAGTGAAGGCCACCGC
GCAATTGAGAACCGGGGTGCTTATGTCGGCAGTCGTCCGGGAGATAGCGG
GCAAATGAGTGACGACCTTGCGTTCACCCCCATCAAGGTATGGCCCGCGG
CGAAGACACAGGAGTTTATCATTGGAGACAAACTTTTCCTGAAGATGGGC
AAGTGGAAGTTTAAGATCGTGACCATTGTCAGCGATGAAGAATTCAAGGC
GGCTGGATTCACCGCGCCCGGGTGGGAGCCGGAAACGCCGGAATCCGGCA
ACAGCGCTTAAGGTCAAAAACCGGCTGTCCAAGGGAGATGGAATGTCCTT
TGCCGAGTTTACTTACCCCCTAATGCAGGCATGGGACTGGTGGGTACTCT
TCCAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTCGGCAAT
ATTCTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAAGAACATGACCGA
TCCAGAGCAACAATTCGATTTTAAAGATGAACTTTCTAGGCCTATTGGTA
TCACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGCAAGTCT
GCTGGAAACGCGGTCTGGCTCGACAAAGACATGACGTCTACTTTCGAGCT
GTACCAGCTTGGTGGTGCTACCGCTCGCTTCGGTGACCCAACAGGACGAC
TGAAAAGCCGGGATCAAGTTCACTCCTCCGTCCGGAAAGCCAACATGGCG
AGCATGCATATGCAGCTCAAGAAGCTGGGGCATAGTATTGATACGTATGG
CAGAAGACATGGCTATATTAATAAGTACTGGCGGCGTGCCCTTGTGAACA
ACAACACCTGGTGGAATTCGCTGCCTGTTATAGAATTGCTTCGAGACCTA
GGCGTTCACACCCGTCTCGGACCCATGATGGGGCGAGACACAGAACGAGA
AACGTTAGACCGTCTCTTCACGAAAAAGAGAGTTGGCATGTACGCTGGCG
TGGATCCTACCGCTCCGTCTTTACACGTTGGACATATGCTACCGTTTATG
ATTCTGGCTTGGGGTTACGTCTGGGGCTTGCCGGTCACGTTTCTGATGAG
GCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACCGAAGA
CTTTACCACAGAAAACATTATGCGGCGCTCGCAACTATGTGCGGACCGCC
GAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCCATGCT
TAGATACCCAGTCACTCAAATTGCATCGGATCAGAGACGTTGGATCTCGC
GGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATGACTTT
GCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACACCTTGA
GGAGCGCGGACTACTGCACGATGTTGTTGG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005737 | cytoplasm |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006418 | tRNA aminoacylation for protein translation |
| GO:0006437 | tyrosyl-tRNA aminoacylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003723 | RNA binding |
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0005524 | ATP binding |
| GO:0000166 | nucleotide binding |
| GO:0004831 | tyrosine-tRNA ligase activity |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| ATCC64974_78970-T1 | ATCC64974_78970-T1-protein | Aspergillus niger N402 | polypeptide |
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09262JRP |
| DBxref | InterPro:IPR001412 |
| DBxref | InterPro:IPR032005 |
| DBxref | InterPro:IPR036986 |
| DBxref | InterPro:IPR014729 |
| DBxref | InterPro:IPR002305 |
| DBxref | InterPro:IPR002307 |
| DBxref | PFAM:PF16714 |
| DBxref | PFAM:PF00579 |
| 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 |
|---|
| OGUI01000013.1 | supercontig | OGUI01000013.1:1689227..1691302 - |
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