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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000162:96110..98185+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_005813-T1 ID=ATCC10864_005813-T1|Name=ATCC10864_005813-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2076bp|location=Sequence derived from alignment at MCQH01000162:96110..98185+ (Aspergillus niger ATCC 10864)
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 MCQH01000162:96110..98185+ >ATCC10864_005813-T1 ID=ATCC10864_005813-T1|Name=ATCC10864_005813-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9180bp|location=Sequence derived from alignment at MCQH01000162:96110..98185+ (Aspergillus niger ATCC 10864)
ATGAGGCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACC
GAAGACTTTACCACAGAAAACATTATGCGGCGCTCGCAACTATGTGCGGA
CCGCCGAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCC
ATGCTTAGATACCCAGTCACTCAAATTGCATCGGATCAGAGACGTTGGAT
CTCGCGGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATG
ACTTTGCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACAC
CTTGAGGAGCGCGGACTACTGCACGATGTTGTTGGAGAACGAGAAACGTT
AGACCGTCTCTTCACGAAAAAGAGAGTTGGCATGTACGCTGGCGTGGATC
CTACCGCTCCGTCTTTACACGTTGGACATATGCTACCGTTTATGATTCTG
GCTTGGGGTTACGTCTGGGGCTTGCCGGTCACGTTTCTGCTTGGTGGTGC
TACCGCTCGCTTCGGTGACCCAACAGGACGACTGAAAAGCCGGGATCAAG
TTCACTCCTCCGTCCGGAAAGCCAACATGGCGAGCATGCATATGCAGCTC
AAGAAGCTGGGGCATAGTATTGATACGTATGGCAGAAGACATGGCTATAT
TAATAAGTACTGGCGGCGTGCCCTTGTGAACAACAACACCTGGTGGAATT
CGCTGCCTGTTATAGAATTGCTTCGAGACCTAGGCGTTCACACCCGTCTC
GGACCCATGATGGGGCGAGACACGGTCAAAAACCGGCTGTCCAAGGGAGA
TGGAATGTCCTTTGCCGAGTTTACTTACCCCCTAATGCAGGCATGGGACT
GGTGGGTACTCTTCCAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGAC
CAATTCGGCAATATTCTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAA
GAACATGACCGATCCAGAGCAACAATTCGATTTTAAAGATGAACTTTCTA
GGCCTATTGGTATCACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAA
TTTGGCAAGTCTGCTGGAAACGCGGTCTGGCTCGACAAAGACATGACGTC
TACTTTCGAGCTGTACCAGTTCTTCGTTCGGACACCGGATGATGTTGTTG
AGCGCTACCTGAAGATGTTCACCTTTTTGCCGCTGCCCGAAATCGCTAAG
ATTATGGAGGAACAAAACAAGGACCCCTCTAAGCGGGTGGCCCAGCATGC
TCTCGCTTCAGAGTTTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTGATG
CGGTGGCTCTCCAGCACCGTCAGCTTTTCCGTCCACGGTTATCTACGGCA
GAACCAAGCCCACTACCCCGGAAACCCTCGACCGGTGGTAGCCCCCAGTC
ACCAACGGCCGGCTTTGCTACTCAAGAATCTGGAAATCCCTATGCCCCTC
AAACCAACTTTGCAAACATGCCACAAGTCAACATTACCCTTCCGCGGTCT
CTAGTGTATAATCAGACGCTGAACAAAGTCCTCTGGTCCGCAGGACTGGT
TGGTTCCAAGAGTGAAGGCCACCGCGCAATTGAGAACCGGGGTGCTTATG
TCGGCAGTCGTCCGGGAGATAGCGGGCAAATGAGTGACGACCTTGCGTTC
ACCCCCATCAAGGTATGGCCCGCGGCGAAGACACAGGAGTTTATCATTGG
AGACAAACTTTTCCTGAAGATGGGCAAGTGGAAGTTTAAGATCGTGACCA
TTGTCAGCGATGAAGAATTCAAGGCGGCTGGATTCACCGCGCCCGGGTGG
GAGCCGGAAACGCCGGAATCCGGCAACAGCGCTTAAATGAGGCCACACAC
AGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACCGAAGACTTTACCAC
AGAAAACATTATGCGGCGCTCGCAACTATGTGCGGACCGCCGAAGTGTTG
CGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCCATGCTTAGATACCC
AGTCACTCAAATTGCATCGGATCAGAGACGTTGGATCTCGCGGAGCTATC
TGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATGACTTTGCGGACGAG
ATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACACCTTGAGGAGCGCGG
ACTACTGCACGATGTTGTTGGAGAACGAGAAACGTTAGACCGTCTCTTCA
CGAAAAAGAGAGTTGGCATGTACGCTGGCGTGGATCCTACCGCTCCGTCT
TTACACGTTGGACATATGCTACCGTTTATGATTCTGGCTTGGGGTTACGT
CTGGGGCTTGCCGGTCACGTTTCTGCTTGGTGGTGCTACCGCTCGCTTCG
GTGACCCAACAGGACGACTGAAAAGCCGGGATCAAGTTCACTCCTCCGTC
CGGAAAGCCAACATGGCGAGCATGCATATGCAGCTCAAGAAGCTGGGGCA
TAGTATTGATACGTATGGCAGAAGACATGGCTATATTAATAAGTACTGGC
GGCGTGCCCTTGTGAACAACAACACCTGGTGGAATTCGCTGCCTGTTATA
GAATTGCTTCGAGACCTAGGCGTTCACACCCGTCTCGGACCCATGATGGG
GCGAGACACGGTCAAAAACCGGCTGTCCAAGGGAGATGGAATGTCCTTTG
CCGAGTTTACTTACCCCCTAATGCAGGCATGGGACTGGTGGGTACTCTTC
CAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTCGGCAATAT
TCTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAAGAACATGACCGATC
CAGAGCAACAATTCGATTTTAAAGATGAACTTTCTAGGCCTATTGGTATC
ACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGCAAGTCTGC
TGGAAACGCGGTCTGGCTCGACAAAGACATGACGTCTACTTTCGAGCTGT
ACCAGTTCTTCGTTCGGACACCGGATGATGTTGTTGAGCGCTACCTGAAG
ATGTTCACCTTTTTGCCGCTGCCCGAAATCGCTAAGATTATGGAGGAACA
AAACAAGGACCCCTCTAAGCGGGTGGCCCAGCATGCTCTCGCTTCAGAGT
TTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTGATGCGGTGGCTCTCCAG
CACCGTCAGCTTTTCCGTCCACGGTTATCTACGGCAGAACCAAGCCCACT
ACCCCGGAAACCCTCGACCGGTGGTAGCCCCCAGTCACCAACGGCCGGCT
TTGCTACTCAAGAATCTGGAAATCCCTATGCCCCTCAAACCAACTTTGCA
AACATGCCACAAGTCAACATTACCCTTCCGCGGTCTCTAGTGTATAATCA
GACGCTGAACAAAGTCCTCTGGTCCGCAGGACTGGTTGGTTCCAAGAGTG
AAGGCCACCGCGCAATTGAGAACCGGGGTGCTTATGTCGGCAGTCGTCCG
GGAGATAGCGGGCAAATGAGTGACGACCTTGCGTTCACCCCCATCAAGGT
ATGGCCCGCGGCGAAGACACAGGAGTTTATCATTGGAGACAAACTTTTCC
TGAAGATGGGCAAGTGGAAGTTTAAGATCGTGACCATTGTCAGCGATGAA
GAATTCAAGGCGGCTGGATTCACCGCGCCCGGGTGGGAGCCGGAAACGCC
GGAATCCGGCAACAGCGCTTAAATGAGGCCACACACAGGGGCTCTGCCTC
GCGCGCTACGCCTCCATGTACCGAAGACTTTACCACAGAAAACATTATGC
GGCGCTCGCAACTATGTGCGGACCGCCGAAGTGTTGCGGATGAACCAGTC
GCCCTCCAGCAGCATTCGGCCCATGCTTAGATACCCAGTCACTCAAATTG
CATCGGATCAGAGACGTTGGATCTCGCGGAGCTATCTGCAGAAACAGAAG
GACGCTGCAAAAGAATGGGATGACTTTGCGGACGAGATTGAAGCAGGAAA
GAGGAAGAACTTTGCACAACACCTTGAGGAGCGCGGACTACTGCACGATG
TTGTTGGAGAACGAGAAACGTTAGACCGTCTCTTCACGAAAAAGAGAGTT
GGCATGTACGCTGGCGTGGATCCTACCGCTCCGTCTTTACACGTTGGACA
TATGCTACCGTTTATGATTCTGGCTTGGGGTTACGTCTGGGGCTTGCCGG
TCACGTTTCTGCTTGGTGGTGCTACCGCTCGCTTCGGTGACCCAACAGGA
CGACTGAAAAGCCGGGATCAAGTTCACTCCTCCGTCCGGAAAGCCAACAT
GGCGAGCATGCATATGCAGCTCAAGAAGCTGGGGCATAGTATTGATACGT
ATGGCAGAAGACATGGCTATATTAATAAGTACTGGCGGCGTGCCCTTGTG
AACAACAACACCTGGTGGAATTCGCTGCCTGTTATAGAATTGCTTCGAGA
CCTAGGCGTTCACACCCGTCTCGGACCCATGATGGGGCGAGACACGGTCA
AAAACCGGCTGTCCAAGGGAGATGGAATGTCCTTTGCCGAGTTTACTTAC
CCCCTAATGCAGGCATGGGACTGGTGGGTACTCTTCCAAAAGGGTGTTCA
GGTTCAGGTTGGCGGCTCGGACCAATTCGGCAATATTCTCTTTGGCATGG
ACGCAGTGAAGTCCATCGGCAAGAACATGACCGATCCAGAGCAACAATTC
GATTTTAAAGATGAACTTTCTAGGCCTATTGGTATCACGACTCCTTTGCT
CACGGCTCCGTCTGGCGAGAAATTTGGCAAGTCTGCTGGAAACGCGGTCT
GGCTCGACAAAGACATGACGTCTACTTTCGAGCTGTACCAGTTCTTCGTT
CGGACACCGGATGATGTTGTTGAGCGCTACCTGAAGATGTTCACCTTTTT
GCCGCTGCCCGAAATCGCTAAGATTATGGAGGAACAAAACAAGGACCCCT
CTAAGCGGGTGGCCCAGCATGCTCTCGCTTCAGAGTTTGTCGAGCTGGTC
CATGGCAAGGTGGAAGCTGATGCGGTGGCTCTCCAGCACCGTCAGCTTTT
CCGTCCACGGTTATCTACGGCAGAACCAAGCCCACTACCCCGGAAACCCT
CGACCGGTGGTAGCCCCCAGTCACCAACGGCCGGCTTTGCTACTCAAGAA
TCTGGAAATCCCTATGCCCCTCAAACCAACTTTGCAAACATGCCACAAGT
CAACATTACCCTTCCGCGGTCTCTAGTGTATAATCAGACGCTGAACAAAG
TCCTCTGGTCCGCAGGACTGGTTGGTTCCAAGAGTGAAGGCCACCGCGCA
ATTGAGAACCGGGGTGCTTATGTCGGCAGTCGTCCGGGAGATAGCGGGCA
AATGAGTGACGACCTTGCGTTCACCCCCATCAAGGTATGGCCCGCGGCGA
AGACACAGGAGTTTATCATTGGAGACAAACTTTTCCTGAAGATGGGCAAG
TGGAAGTTTAAGATCGTGACCATTGTCAGCGATGAAGAATTCAAGGCGGC
TGGATTCACCGCGCCCGGGTGGGAGCCGGAAACGCCGGAATCCGGCAACA
GCGCTTAAATGAGGCCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTC
CATGTACCGAAGACTTTACCACAGAAAACATTATGCGGCGCTCGCAACTA
TGTGCGGACCGCCGAAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCA
TTCGGCCCATGCTTAGATACCCAGTCACTCAAATTGCATCGGATCAGAGA
CGTTGGATCTCGCGGAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGA
ATGGGATGACTTTGCGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTG
CACAACACCTTGAGGAGCGCGGACTACTGCACGATGTTGTTGGAGAACGA
GAAACGTTAGACCGTCTCTTCACGAAAAAGAGAGTTGGCATGTACGCTGG
CGTGGATCCTACCGCTCCGTCTTTACACGTTGGACATATGCTACCGTTTA
TGATTCTGGCTTGGGGTTACGTCTGGGGCTTGCCGGTCACGTTTCTGCTT
GGTGGTGCTACCGCTCGCTTCGGTGACCCAACAGGACGACTGAAAAGCCG
GGATCAAGTTCACTCCTCCGTCCGGAAAGCCAACATGGCGAGCATGCATA
TGCAGCTCAAGAAGCTGGGGCATAGTATTGATACGTATGGCAGAAGACAT
GGCTATATTAATAAGTACTGGCGGCGTGCCCTTGTGAACAACAACACCTG
GTGGAATTCGCTGCCTGTTATAGAATTGCTTCGAGACCTAGGCGTTCACA
CCCGTCTCGGACCCATGATGGGGCGAGACACGGTCAAAAACCGGCTGTCC
AAGGGAGATGGAATGTCCTTTGCCGAGTTTACTTACCCCCTAATGCAGGC
ATGGGACTGGTGGGTACTCTTCCAAAAGGGTGTTCAGGTTCAGGTTGGCG
GCTCGGACCAATTCGGCAATATTCTCTTTGGCATGGACGCAGTGAAGTCC
ATCGGCAAGAACATGACCGATCCAGAGCAACAATTCGATTTTAAAGATGA
ACTTTCTAGGCCTATTGGTATCACGACTCCTTTGCTCACGGCTCCGTCTG
GCGAGAAATTTGGCAAGTCTGCTGGAAACGCGGTCTGGCTCGACAAAGAC
ATGACGTCTACTTTCGAGCTGTACCAGTTCTTCGTTCGGACACCGGATGA
TGTTGTTGAGCGCTACCTGAAGATGTTCACCTTTTTGCCGCTGCCCGAAA
TCGCTAAGATTATGGAGGAACAAAACAAGGACCCCTCTAAGCGGGTGGCC
CAGCATGCTCTCGCTTCAGAGTTTGTCGAGCTGGTCCATGGCAAGGTGGA
AGCTGATGCGGTGGCTCTCCAGCACCGTCAGCTTTTCCGTCCACGGTTAT
CTACGGCAGAACCAAGCCCACTACCCCGGAAACCCTCGACCGGTGGTAGC
CCCCAGTCACCAACGGCCGGCTTTGCTACTCAAGAATCTGGAAATCCCTA
TGCCCCTCAAACCAACTTTGCAAACATGCCACAAGTCAACATTACCCTTC
CGCGGTCTCTAGTGTATAATCAGACGCTGAACAAAGTCCTCTGGTCCGCA
GGACTGGTTGGTTCCAAGAGTGAAGGCCACCGCGCAATTGAGAACCGGGG
TGCTTATGTCGGCAGTCGTCCGGGAGATAGCGGGCAAATGAGTGACGACC
TTGCGTTCACCCCCATCAAGGTATGGCCCGCGGCGAAGACACAGGAGTTT
ATCATTGGAGACAAACTTTTCCTGAAGATGGGCAAGTGGAAGTTTAAGAT
CGTGACCATTGTCAGCGATGAAGAATTCAAGGCGGCTGGATTCACCGCGC
CCGGGTGGGAGCCGGAAACGCCGGAATCCGGCAACAGCGCTTAAATGAGG
CCACACACAGGGGCTCTGCCTCGCGCGCTACGCCTCCATGTACCGAAGAC
TTTACCACAGAAAACATTATGCGGCGCTCGCAACTATGTGCGGACCGCCG
AAGTGTTGCGGATGAACCAGTCGCCCTCCAGCAGCATTCGGCCCATGCTT
AGATACCCAGTCACTCAAATTGCATCGGATCAGAGACGTTGGATCTCGCG
GAGCTATCTGCAGAAACAGAAGGACGCTGCAAAAGAATGGGATGACTTTG
CGGACGAGATTGAAGCAGGAAAGAGGAAGAACTTTGCACAACACCTTGAG
GAGCGCGGACTACTGCACGATGTTGTTGGAGAACGAGAAACGTTAGACCG
TCTCTTCACGAAAAAGAGAGTTGGCATGTACGCTGGCGTGGATCCTACCG
CTCCGTCTTTACACGTTGGACATATGCTACCGTTTATGATTCTGGCTTGG
GGTTACGTCTGGGGCTTGCCGGTCACGTTTCTGCTTGGTGGTGCTACCGC
TCGCTTCGGTGACCCAACAGGACGACTGAAAAGCCGGGATCAAGTTCACT
CCTCCGTCCGGAAAGCCAACATGGCGAGCATGCATATGCAGCTCAAGAAG
CTGGGGCATAGTATTGATACGTATGGCAGAAGACATGGCTATATTAATAA
GTACTGGCGGCGTGCCCTTGTGAACAACAACACCTGGTGGAATTCGCTGC
CTGTTATAGAATTGCTTCGAGACCTAGGCGTTCACACCCGTCTCGGACCC
ATGATGGGGCGAGACACGGTCAAAAACCGGCTGTCCAAGGGAGATGGAAT
GTCCTTTGCCGAGTTTACTTACCCCCTAATGCAGGCATGGGACTGGTGGG
TACTCTTCCAAAAGGGTGTTCAGGTTCAGGTTGGCGGCTCGGACCAATTC
GGCAATATTCTCTTTGGCATGGACGCAGTGAAGTCCATCGGCAAGAACAT
GACCGATCCAGAGCAACAATTCGATTTTAAAGATGAACTTTCTAGGCCTA
TTGGTATCACGACTCCTTTGCTCACGGCTCCGTCTGGCGAGAAATTTGGC
AAGTCTGCTGGAAACGCGGTCTGGCTCGACAAAGACATGACGTCTACTTT
CGAGCTGTACCAGTTCTTCGTTCGGACACCGGATGATGTTGTTGAGCGCT
ACCTGAAGATGTTCACCTTTTTGCCGCTGCCCGAAATCGCTAAGATTATG
GAGGAACAAAACAAGGACCCCTCTAAGCGGGTGGCCCAGCATGCTCTCGC
TTCAGAGTTTGTCGAGCTGGTCCATGGCAAGGTGGAAGCTGATGCGGTGG
CTCTCCAGCACCGTCAGCTTTTCCGTCCACGGTTATCTACGGCAGAACCA
AGCCCACTACCCCGGAAACCCTCGACCGGTGGTAGCCCCCAGTCACCAAC
GGCCGGCTTTGCTACTCAAGAATCTGGAAATCCCTATGCCCCTCAAACCA
ACTTTGCAAACATGCCACAAGTCAACATTACCCTTCCGCGGTCTCTAGTG
TATAATCAGACGCTGAACAAAGTCCTCTGGTCCGCAGGACTGGTTGGTTC
CAAGAGTGAAGGCCACCGCGCAATTGAGAACCGGGGTGCTTATGTCGGCA
GTCGTCCGGGAGATAGCGGGCAAATGAGTGACGACCTTGCGTTCACCCCC
ATCAAGGTATGGCCCGCGGCGAAGACACAGGAGTTTATCATTGGAGACAA
ACTTTTCCTGAAGATGGGCAAGTGGAAGTTTAAGATCGTGACCATTGTCA
GCGATGAAGAATTCAAGGCGGCTGGATTCACCGCGCCCGGGTGGGAGCCG
GAAACGCCGGAATCCGGCAACAGCGCTTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006418 | tRNA aminoacylation for protein translation |
| GO:0006437 | tyrosyl-tRNA aminoacylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0000166 | nucleotide binding |
| GO:0003723 | RNA binding |
| GO:0005524 | ATP 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:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| PFAM | PF16714 |
| InterPro | IPR002305 |
| InterPro | IPR001412 |
| InterPro | IPR024088 |
| InterPro | IPR014729 |
| InterPro | IPR002307 |
| PFAM | PF00579 |
| InterPro | IPR032005 |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09262JRP |
| 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 |
|---|
| MCQH01000162 | supercontig | MCQH01000162:96110..98185 + |
|
