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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000007.1:274063..276314- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_33215-T1 ID=CAN33_33215-T1|Name=CAN33_33215-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2252bp|location=Sequence derived from alignment at NKJJ01000007.1:274063..276314- (Aspergillus niger FDAARGOS_311)
ATGACCCAGTATAACTCCCAAGGCCCCAACCGCTCCCCAAAGAACCCTCC
TGACGAATACCAATCACAGAAACAAATCCAAGCTCGATATGAATCTCACC
GGTCCAGCCGAAACGAACAATACAAAGAGAGGCTCCTCAGCTCCGACTTC
ACAGGTTGGCAGATTGACGATATCCTGAGAAAGCTACAGGCAGGAGCCAA
CGGCGAAACACTGCCCTTTGTCGATTCTAGGCATAACCTTACACTATACG
CTCGACCCCCGCAACATATCCGGGACCTCGTCGCTGAAGTCCAGCAGGCC
ATTCGAGAAATTGCCCCAAGTTAGTTATATCTTGCCTTTGCGGGGCACTT
CCTCCATTCCGTGTGCTGTATTGCCTGGTTCAACTGATCGATTCCATTTC
ACCTGTTTTACTAGGCATATGGTTCACACCTCCAGAGCAATTGCATATGA
CTACGTTAGAGATCGCCAGCTGCCGACCTGAGCCGGAGGTTGAAGGATTG
GTTTCTCATCTCCAGGGTAGTGGCGTCGTGCCGAAGCTGGTGGATTTTCT
ATTTCATCATCGGACACGGTTGGTTAAACCTATGATCAGCTACGATGCAA
CTGCCATGGCGCTGAGCTTTGTTCCTGCTGCTGGAGAAGAGACTACAACT
GCCCACAATGTGGACGGTGATGGATACACTTATCACCATCTGCGACGTGA
TGTTTCGAGTATCGTCACAGCGACGGGGTTACAGATGAAGCCGAGGTATA
TTGCCCTCTCGGCACATATTACGATTGCACGGTTCATCACTCGGGACGGC
TTCTTGATAGACAACCCCAATAAAGTGGAAGACGAAGCGGTGGACCATGC
GCGGGTGGCCGCACTGGTAGAGAGGGTGGGGAAGATCAATGAGATGCTCC
GGACGAAATACTGGTTTCAAGAAGACGGAGCCATCTCTGGGAAAGGGGAA
TGGCTTGTCGGGCAGGAAAAGGGGTTGGAATTTTGTAAAGGGACGTCTTT
CTACGGTGGAGGAGAAGCCGTTGTTGTTGGCAAAGGCTTCTAGTAAAGGG
TCTCCCAGTAGCATTGATTCAGCATGAATAATCTAGACGGTGGGCGAATG
AATACGATTCGATAGATAACTATGGGGATGATATGGGTCTTTGCCTGAGG
CAGCCACTGACCACAGGCGGTCTTGGCGGGTGGCACACAAACGCGGTTAG
GCCGCACCCTAAGCGAACGAAATCCCACAACACACGGCCAGCCCAACTCG
ATCCTCCCGACAAGAGACTATCAACGACCACCAAGTTCGCGATCCGGCCA
AGTCAGTCAAAATGGTAAGAATATTGTTCTGATCGTCTATCAGTCTCGTT
TCCGTGTTCCTGGGCGTCGGAGAAGTGTTTTCGGTCAATCGGCATATTGC
GAGATGGGACGACATACGGCACTCTTTTCCTACGGCGAACCGAGTTGAAA
GCCGCCACTATACGAAGCGCAACGATCGAAGCTGCAAACGAAAATCCTGA
ACCGTCAATATCAATACAAAAATGGTCAAAGATGATGGAATTCTCGACCG
GGGTTTGCCCCGCGATCAATTGTGGGATTGAAGTGAAAGATGTTGAGTGC
GACCGAAACCATCAAAATCGAATTGTTCTGAGCCACGACACCCTTGCTAT
ACCATCATCTGCTTTTCCTCACTTTCTCGGAACAATATCATTCCCACCGT
GAACCACCATCTCCGACGACGAGGAACTCAGGAACAGGCTGCGGACGTTG
TGTGATAACCATCCTACCACAGCAGGCGCTGATCAAACTCTTCTCGCATT
CAGGTCAACGTTCCGAAAACCCGCCGGACGTACTGCAAGTCCAAGGAGTG
CCACAAGCACACCCAGCACAAGGTCACCCAGTACAAGGCTGGAAAGGTGA
ACACTGCCCAAGCAACCGAGCCCACCGCGCGACCTATGCTGATGCAATCA
TGATCTCTACAGGCCTCCCTGTTCGCCCAGGGTAAGCGTCGTTACGACCG
GAAGCAGAGCGGTTATGGTGGTCAGACCAAGCCCGTCTTCCACAAGAAGG
CCAAGACCACCAAGAAGATCGTCCTTCGTCTTGAGTGCACTGCTTGCAAG
ACCAAGAAGCAGCTTTCTCTGAAGCGCTGCAAGCACTTCGAGCTTGGGTA
CGTTCATACGCTCGGCATACGATCTATGGGTGATGCTAACCATCTCTCTT
CTTTTTCAACAGTGGTGACAAGAAGACCAAGGGTGCTGCTCTTGTCTTCT
AA back to topCoding sequence (CDS) from alignment at NKJJ01000007.1:274063..276314- >CAN33_33215-T1 ID=CAN33_33215-T1|Name=CAN33_33215-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=5445bp|location=Sequence derived from alignment at NKJJ01000007.1:274063..276314- (Aspergillus niger FDAARGOS_311)
TGGTGACAAGAAGACCAAGGGTGCTGCTCTTGTCTTCTAAGCCTCCCTGT
TCGCCCAGGGTAAGCGTCGTTACGACCGGAAGCAGAGCGGTTATGGTGGT
CAGACCAAGCCCGTCTTCCACAAGAAGGCCAAGACCACCAAGAAGATCGT
CCTTCGTCTTGAGTGCACTGCTTGCAAGACCAAGAAGCAGCTTTCTCTGA
AGCGCTGCAAGCACTTCGAGCTTGGGTCAACGTTCCGAAAACCCGCCGGA
CGTACTGCAAGTCCAAGGAGTGCCACAAGCACACCCAGCACAAGGTCACC
CAGTACAAGGCTGGAAAGGCATATGGTTCACACCTCCAGAGCAATTGCAT
ATGACTACGTTAGAGATCGCCAGCTGCCGACCTGAGCCGGAGGTTGAAGG
ATTGGTTTCTCATCTCCAGGGTAGTGGCGTCGTGCCGAAGCTGGTGGATT
TTCTATTTCATCATCGGACACGGTTGGTTAAACCTATGATCAGCTACGAT
GCAACTGCCATGGCGCTGAGCTTTGTTCCTGCTGCTGGAGAAGAGACTAC
AACTGCCCACAATGTGGACGGTGATGGATACACTTATCACCATCTGCGAC
GTGATGTTTCGAGTATCGTCACAGCGACGGGGTTACAGATGAAGCCGAGG
TATATTGCCCTCTCGGCACATATTACGATTGCACGGTTCATCACTCGGGA
CGGCTTCTTGATAGACAACCCCAATAAAGTGGAAGACGAAGCGGTGGACC
ATGCGCGGGTGGCCGCACTGATGACCCAGTATAACTCCCAAGGCCCCAAC
CGCTCCCCAAAGAACCCTCCTGACGAATACCAATCACAGAAACAAATCCA
AGCTCGATATGAATCTCACCGGTCCAGCCGAAACGAACAATACAAAGAGA
GGCTCCTCAGCTCCGACTTCACAGGTTGGCAGATTGACGATATCCTGAGA
AAGCTACAGGCAGGAGCCAACGGCGAAACACTGCCCTTTGTCGATTCTAG
GCATAACCTTACACTATACGCTCGACCCCCGCAACATATCCGGGACCTCG
TCGCTGAAGTCCAGCAGGCCATTCGAGAAATTGCCCCAATGGTGACAAGA
AGACCAAGGGTGCTGCTCTTGTCTTCTAAGCCTCCCTGTTCGCCCAGGGT
AAGCGTCGTTACGACCGGAAGCAGAGCGGTTATGGTGGTCAGACCAAGCC
CGTCTTCCACAAGAAGGCCAAGACCACCAAGAAGATCGTCCTTCGTCTTG
AGTGCACTGCTTGCAAGACCAAGAAGCAGCTTTCTCTGAAGCGCTGCAAG
CACTTCGAGCTTGGGTCAACGTTCCGAAAACCCGCCGGACGTACTGCAAG
TCCAAGGAGTGCCACAAGCACACCCAGCACAAGGTCACCCAGTACAAGGC
TGGAAAGGCATATGGTTCACACCTCCAGAGCAATTGCATATGACTACGTT
AGAGATCGCCAGCTGCCGACCTGAGCCGGAGGTTGAAGGATTGGTTTCTC
ATCTCCAGGGTAGTGGCGTCGTGCCGAAGCTGGTGGATTTTCTATTTCAT
CATCGGACACGGTTGGTTAAACCTATGATCAGCTACGATGCAACTGCCAT
GGCGCTGAGCTTTGTTCCTGCTGCTGGAGAAGAGACTACAACTGCCCACA
ATGTGGACGGTGATGGATACACTTATCACCATCTGCGACGTGATGTTTCG
AGTATCGTCACAGCGACGGGGTTACAGATGAAGCCGAGGTATATTGCCCT
CTCGGCACATATTACGATTGCACGGTTCATCACTCGGGACGGCTTCTTGA
TAGACAACCCCAATAAAGTGGAAGACGAAGCGGTGGACCATGCGCGGGTG
GCCGCACTGATGACCCAGTATAACTCCCAAGGCCCCAACCGCTCCCCAAA
GAACCCTCCTGACGAATACCAATCACAGAAACAAATCCAAGCTCGATATG
AATCTCACCGGTCCAGCCGAAACGAACAATACAAAGAGAGGCTCCTCAGC
TCCGACTTCACAGGTTGGCAGATTGACGATATCCTGAGAAAGCTACAGGC
AGGAGCCAACGGCGAAACACTGCCCTTTGTCGATTCTAGGCATAACCTTA
CACTATACGCTCGACCCCCGCAACATATCCGGGACCTCGTCGCTGAAGTC
CAGCAGGCCATTCGAGAAATTGCCCCAATGGTGACAAGAAGACCAAGGGT
GCTGCTCTTGTCTTCTAAGCCTCCCTGTTCGCCCAGGGTAAGCGTCGTTA
CGACCGGAAGCAGAGCGGTTATGGTGGTCAGACCAAGCCCGTCTTCCACA
AGAAGGCCAAGACCACCAAGAAGATCGTCCTTCGTCTTGAGTGCACTGCT
TGCAAGACCAAGAAGCAGCTTTCTCTGAAGCGCTGCAAGCACTTCGAGCT
TGGGTCAACGTTCCGAAAACCCGCCGGACGTACTGCAAGTCCAAGGAGTG
CCACAAGCACACCCAGCACAAGGTCACCCAGTACAAGGCTGGAAAGGCAT
ATGGTTCACACCTCCAGAGCAATTGCATATGACTACGTTAGAGATCGCCA
GCTGCCGACCTGAGCCGGAGGTTGAAGGATTGGTTTCTCATCTCCAGGGT
AGTGGCGTCGTGCCGAAGCTGGTGGATTTTCTATTTCATCATCGGACACG
GTTGGTTAAACCTATGATCAGCTACGATGCAACTGCCATGGCGCTGAGCT
TTGTTCCTGCTGCTGGAGAAGAGACTACAACTGCCCACAATGTGGACGGT
GATGGATACACTTATCACCATCTGCGACGTGATGTTTCGAGTATCGTCAC
AGCGACGGGGTTACAGATGAAGCCGAGGTATATTGCCCTCTCGGCACATA
TTACGATTGCACGGTTCATCACTCGGGACGGCTTCTTGATAGACAACCCC
AATAAAGTGGAAGACGAAGCGGTGGACCATGCGCGGGTGGCCGCACTGAT
GACCCAGTATAACTCCCAAGGCCCCAACCGCTCCCCAAAGAACCCTCCTG
ACGAATACCAATCACAGAAACAAATCCAAGCTCGATATGAATCTCACCGG
TCCAGCCGAAACGAACAATACAAAGAGAGGCTCCTCAGCTCCGACTTCAC
AGGTTGGCAGATTGACGATATCCTGAGAAAGCTACAGGCAGGAGCCAACG
GCGAAACACTGCCCTTTGTCGATTCTAGGCATAACCTTACACTATACGCT
CGACCCCCGCAACATATCCGGGACCTCGTCGCTGAAGTCCAGCAGGCCAT
TCGAGAAATTGCCCCAATGGTGACAAGAAGACCAAGGGTGCTGCTCTTGT
CTTCTAAGCCTCCCTGTTCGCCCAGGGTAAGCGTCGTTACGACCGGAAGC
AGAGCGGTTATGGTGGTCAGACCAAGCCCGTCTTCCACAAGAAGGCCAAG
ACCACCAAGAAGATCGTCCTTCGTCTTGAGTGCACTGCTTGCAAGACCAA
GAAGCAGCTTTCTCTGAAGCGCTGCAAGCACTTCGAGCTTGGGTCAACGT
TCCGAAAACCCGCCGGACGTACTGCAAGTCCAAGGAGTGCCACAAGCACA
CCCAGCACAAGGTCACCCAGTACAAGGCTGGAAAGGCATATGGTTCACAC
CTCCAGAGCAATTGCATATGACTACGTTAGAGATCGCCAGCTGCCGACCT
GAGCCGGAGGTTGAAGGATTGGTTTCTCATCTCCAGGGTAGTGGCGTCGT
GCCGAAGCTGGTGGATTTTCTATTTCATCATCGGACACGGTTGGTTAAAC
CTATGATCAGCTACGATGCAACTGCCATGGCGCTGAGCTTTGTTCCTGCT
GCTGGAGAAGAGACTACAACTGCCCACAATGTGGACGGTGATGGATACAC
TTATCACCATCTGCGACGTGATGTTTCGAGTATCGTCACAGCGACGGGGT
TACAGATGAAGCCGAGGTATATTGCCCTCTCGGCACATATTACGATTGCA
CGGTTCATCACTCGGGACGGCTTCTTGATAGACAACCCCAATAAAGTGGA
AGACGAAGCGGTGGACCATGCGCGGGTGGCCGCACTGATGACCCAGTATA
ACTCCCAAGGCCCCAACCGCTCCCCAAAGAACCCTCCTGACGAATACCAA
TCACAGAAACAAATCCAAGCTCGATATGAATCTCACCGGTCCAGCCGAAA
CGAACAATACAAAGAGAGGCTCCTCAGCTCCGACTTCACAGGTTGGCAGA
TTGACGATATCCTGAGAAAGCTACAGGCAGGAGCCAACGGCGAAACACTG
CCCTTTGTCGATTCTAGGCATAACCTTACACTATACGCTCGACCCCCGCA
ACATATCCGGGACCTCGTCGCTGAAGTCCAGCAGGCCATTCGAGAAATTG
CCCCAATGGTGACAAGAAGACCAAGGGTGCTGCTCTTGTCTTCTAAGCCT
CCCTGTTCGCCCAGGGTAAGCGTCGTTACGACCGGAAGCAGAGCGGTTAT
GGTGGTCAGACCAAGCCCGTCTTCCACAAGAAGGCCAAGACCACCAAGAA
GATCGTCCTTCGTCTTGAGTGCACTGCTTGCAAGACCAAGAAGCAGCTTT
CTCTGAAGCGCTGCAAGCACTTCGAGCTTGGGTCAACGTTCCGAAAACCC
GCCGGACGTACTGCAAGTCCAAGGAGTGCCACAAGCACACCCAGCACAAG
GTCACCCAGTACAAGGCTGGAAAGGCATATGGTTCACACCTCCAGAGCAA
TTGCATATGACTACGTTAGAGATCGCCAGCTGCCGACCTGAGCCGGAGGT
TGAAGGATTGGTTTCTCATCTCCAGGGTAGTGGCGTCGTGCCGAAGCTGG
TGGATTTTCTATTTCATCATCGGACACGGTTGGTTAAACCTATGATCAGC
TACGATGCAACTGCCATGGCGCTGAGCTTTGTTCCTGCTGCTGGAGAAGA
GACTACAACTGCCCACAATGTGGACGGTGATGGATACACTTATCACCATC
TGCGACGTGATGTTTCGAGTATCGTCACAGCGACGGGGTTACAGATGAAG
CCGAGGTATATTGCCCTCTCGGCACATATTACGATTGCACGGTTCATCAC
TCGGGACGGCTTCTTGATAGACAACCCCAATAAAGTGGAAGACGAAGCGG
TGGACCATGCGCGGGTGGCCGCACTGATGACCCAGTATAACTCCCAAGGC
CCCAACCGCTCCCCAAAGAACCCTCCTGACGAATACCAATCACAGAAACA
AATCCAAGCTCGATATGAATCTCACCGGTCCAGCCGAAACGAACAATACA
AAGAGAGGCTCCTCAGCTCCGACTTCACAGGTTGGCAGATTGACGATATC
CTGAGAAAGCTACAGGCAGGAGCCAACGGCGAAACACTGCCCTTTGTCGA
TTCTAGGCATAACCTTACACTATACGCTCGACCCCCGCAACATATCCGGG
ACCTCGTCGCTGAAGTCCAGCAGGCCATTCGAGAAATTGCCCCAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005840 | ribosome |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003735 | structural constituent of ribosome |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006412 | translation |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
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 | EggNog:ENOG41 |
| Note | BUSCO:EOG09265JX6 |
| DBxref | InterPro:IPR009097 |
| DBxref | InterPro:IPR011332 |
| DBxref | InterPro:IPR000552 |
| DBxref | PFAM:PF00935 |
| Product | Ribosomal protein L44 family 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 |
|---|
| NKJJ01000007.1 | supercontig | NKJJ01000007.1:274063..276314 - |
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