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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000003.1:1728806..1730912+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_32480-T1 ID=CAN33_32480-T1|Name=CAN33_32480-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2107bp|location=Sequence derived from alignment at NKJJ01000003.1:1728806..1730912+ (Aspergillus niger FDAARGOS_311)
ATGGAGTGCTCAGCAGCCTGGATCAACTCAACAACCGTCGACGAAATCTC
TGTCCGCAAGTCCGGCGCGTTCACAACCTTGCCAGTGCGGATCAGCAAGT
ACAATGAAATTGCCATCACTACCGCGCAAAAGCTTGCTTGTATCTGGGAT
ACCATGCGCTGTGGCAGTGTATCTTCTCGCCCCATCAATGTTGGAAGGAA
TCTGCTTCCCTTGGTTGTCCCTGAGGCCTTGCCGGAGAGAACGGCAACGG
CCGTGAAACTGATCGAATTGGGCCATTTGTGTGATGGTATGTACGATTCT
TGCTTCTGTTGCACACAGCTAATAGTGTAGTCTTTTCCGATCAGCTAGAC
TCACAGAGCAGAGCGGAAGTCTACAGTATGCTGACTCGATGTCTGGATCG
GTGCTCTGTAGCTTCGTCTTGCTCTTGTCCTAGTACATGCAACAAAGAGT
TTGGCGACAGACAGGCTCAGCTGCGGACACTGATTTATGAAGTGGCCACT
GAAGCTATTCAGTTCGATCGTGAACAGGGTATGCTCATCCTTGAGCTCCT
TGGGAAAGCTGTCGCACCGGAGCCAATGTCCTTTGGATGCAGGAAGAGCT
CTGCGTTTAGGTACGTCGTCAACATGCATCTCTCAATTGTTGATTTCTAA
TATGACCTAGGACTTTCTGGCCTATCCTCGAGTTTGCTATTGGTATGAAG
CTAAGCGAAATGGACCGGATACTCCTCCGAGACATCAAGAACGTGGTTGA
TGAATGTCACATGCTGAACGATGAGTATTGGGGTGCAAATGCCACTAGCT
CAGGAGTATACCAAACAGACTTTGGCAGAATGCCAAGTCTTTCTTTCGAA
GGAGGAAAGGAAAGTCTGAAAAGCCGGATCATCGACCTCGAATATCGCTA
CCGGGCTCTTCAGGCAGAAGTTTGCGGGAAATACCCTGTTGAGTCCATGC
GGCTGCGCCGCTGGATCGAAGCCGCTGGAGTTGCAATGGCAGGCTACAAT
TACTGGCGTGCTTTATCTGCAAATGGACCTTGCAACAACCTGTCTACAAG
CGCGTGCTCCTGCTCTCCATCCGAGTGGACACGGGTTACCACTCCGGCCT
CCACCATCTCCTACTCATCCAGTCACACATATTCCGGAACCTACGATCGA
GGCGAATCCACAACGCTTACCGCCGTCACCAACTACATCAATACCATGCC
ACCGTCTTCCTCGATCCAGACCCTCAACATGACCCCCTCCGCATTGAATC
AATGGACACGCGCTCCAGCTCCAGCCGTCCAGTGCATTTCGTCTCTCATA
ACATCTCTATATAACGCGATCACAACCCTGACTGATATCACCGCGGACAA
CACCCAGCGTTACAACCAGCCCACTGCACACGCCGTCTTCGGTACCATGC
AGGCTAGCAACAGCGCCTACTACACCTTTATCCAGTCGGTGTCGGAGGCA
CGCGCCCTGGCAAACCCTGCCCTTGCAACCGACATCCTCCTTGGTGGCTT
CAACCGTCTGTATGCCGGTCACAGCCGTGAGCTGACCTGGAAGTACAACG
CGTGCATCCCATCGGAGGCTGAATATCTTTCCGTTGTCGATGACACCACG
GGATCACTATACACACTTCTTGTCAAACTCCTTCAAGCTGAAAGCTGCTT
GCCATTCCACTGCAAGCCTGATCTTACTCCCCTCGCTACGCTGCTAGCTC
GATTTGTCCATGTCAAAGAAGACTACCTCTCGTTCCATAACCGGGAGAGC
AAGATGAGTGGTTTCAGTGATGCACGCGTCCTCTCGTACCCGGTTATTCG
ACTGGCTAATATCAAACCGGACAGTCGGGCGCAGATCTCTCGATACCTTT
TTGAACGCAAGGACGCAAGCAAGAGTAGCTGCTCCTGTGCAGAGGAGAAG
AAAGATCCCTGCGGCAACTCCGTGAACTACAGCTGCCTGGTGCTTCTGCT
ACGCGAGTATGGGGCACTGAGTGCGACACGCGAACTTCTCCGTGATATAG
AAGACAAGATTGAGAGGGAGGTAATGCAGATAGAGAAGTTGACGGGAGAA
GTCAACCCTTTGATACGGAAGCTTATTGCAGGACTACGCGAGGGATTGCT
GCCATAA back to topCoding sequence (CDS) from alignment at NKJJ01000003.1:1728806..1730912+ >CAN33_32480-T1 ID=CAN33_32480-T1|Name=CAN33_32480-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=7584bp|location=Sequence derived from alignment at NKJJ01000003.1:1728806..1730912+ (Aspergillus niger FDAARGOS_311)
ATGGAGTGCTCAGCAGCCTGGATCAACTCAACAACCGTCGACGAAATCTC
TGTCCGCAAGTCCGGCGCGTTCACAACCTTGCCAGTGCGGATCAGCAAGT
ACAATGAAATTGCCATCACTACCGCGCAAAAGCTTGCTTGTATCTGGGAT
ACCATGCGCTGTGGCAGTGTATCTTCTCGCCCCATCAATGTTGGAAGGAA
TCTGCTTCCCTTGGTTGTCCCTGAGGCCTTGCCGGAGAGAACGGCAACGG
CCGTGAAACTGATCGAATTGGGCCATTTGTGTGATGTCTTTTCCGATCAG
CTAGACTCACAGAGCAGAGCGGAAGTCTACATGGCCACTGAAGCTATTCA
GTTCGATCGTGAACAGGGTATGCTCATCCTTGAGCTCCTTGGGAAAGCTG
TCGCACCGGAGCCAATGTCCTTTGGATGCAGGAAGAGCTCTGCGTTTAGG
ACTTTCTGGCCTATCCTCGAGTTTGCTATTGGTATGAAGCTAAGCGAAAT
GGACCGGATACTCCTCCGAGACATCAAGAACGTGGTTGATGAATGTCACA
TGCTGAACGATGAGTATTGGGGTGCAAATGCCACTAGCTCAGGAGTATAC
CAAACAGACTTTGGCAGAATGCCAAGTCTTTCTTTCGAAGGAGGAAAGGA
AAGTCTGAAAAGCCGGATCATCGACCTCGAATATCGCTACCGGGCTCTTC
AGGCAGAAGTTTGCGGGAAATACCCTGTTGAGTCCATGCGGCTGCGCCGC
TGGATCGAAGCCGCTGGAGTTGCAATGGCAGGCTACAATTACTGGCGTGC
TTTATCTGCAAATGGACCTTGCAACAACCTGTCTACAAGCGCGTGCTCCT
GCTCTCCATCCGAGTGGACACGGGTTACCACTCCGGCCTCCACCATCTCC
TACTCATCCAGTCACACATATTCCGGAACCTACGATCGAGGCGAATCCAC
AACGCTTACCGCCGTCACCAACTACATCAATACCATGCCACCGTCTTCCT
CGATCCAGACCCTCAACATGACCCCCTCCGCATTGAATCAATGGACACGC
GCTCCAGCTCCAGCCGTCCAGTGCATTTCGTCTCTCATAACATCTCTATA
TAACGCGATCACAACCCTGACTGATATCACCGCGGACAACACCCAGCGTT
ACAACCAGCCCACTGCACACGCCGTCTTCGGTACCATGCAGGCTAGCAAC
AGCGCCTACTACACCTTTATCCAGTCGGTGTCGGAGGCACGCGCCCTGGC
AAACCCTGCCCTTGCAACCGACATCCTCCTTGGTGGCTTCAACCGTCTGT
ATGCCGGTCACAGCCGTGAGCTGACCTGGAAGTACAACGCGTGCATCCCA
TCGGAGGCTGAATATCTTTCCGTTGTCGATGACACCACGGGATCACTATA
CACACTTCTTGTCAAACTCCTTCAAGCTGAAAGCTGCTTGCCATTCCACT
GCAAGCCTGATCTTACTCCCCTCGCTACGCTGCTAGCTCGATTTGTCCAT
GTCAAAGAAGACTACCTCTCGTTCCATAACCGGGAGAGCAAGATGAGTGG
TTTCAGTGATGCACGCGTCCTCTCGTACCCGGTTATTCGACTGGCTAATA
TCAAACCGGACAGTCGGGCGCAGATCTCTCGATACCTTTTTGAACGCAAG
GACGCAAGCAAGAGTAGCTGCTCCTGTGCAGAGGAGAAGAAAGATCCCTG
CGGCAACTCCGTGAACTACAGCTGCCTGGTGCTTCTGCTACGCGAGTATG
GGGCACTGAGTGCGACACGCGAACTTCTCCGTGATATAGAAGACAAGATT
GAGAGGGAGGTAATGCAGATAGAGAAGTTGACGGGAGAAGTCAACCCTTT
GATACGGAAGCTTATTGCAGGACTACGCGAGGGATTGCTGCCATAAATGG
AGTGCTCAGCAGCCTGGATCAACTCAACAACCGTCGACGAAATCTCTGTC
CGCAAGTCCGGCGCGTTCACAACCTTGCCAGTGCGGATCAGCAAGTACAA
TGAAATTGCCATCACTACCGCGCAAAAGCTTGCTTGTATCTGGGATACCA
TGCGCTGTGGCAGTGTATCTTCTCGCCCCATCAATGTTGGAAGGAATCTG
CTTCCCTTGGTTGTCCCTGAGGCCTTGCCGGAGAGAACGGCAACGGCCGT
GAAACTGATCGAATTGGGCCATTTGTGTGATGTCTTTTCCGATCAGCTAG
ACTCACAGAGCAGAGCGGAAGTCTACATGGCCACTGAAGCTATTCAGTTC
GATCGTGAACAGGGTATGCTCATCCTTGAGCTCCTTGGGAAAGCTGTCGC
ACCGGAGCCAATGTCCTTTGGATGCAGGAAGAGCTCTGCGTTTAGGACTT
TCTGGCCTATCCTCGAGTTTGCTATTGGTATGAAGCTAAGCGAAATGGAC
CGGATACTCCTCCGAGACATCAAGAACGTGGTTGATGAATGTCACATGCT
GAACGATGAGTATTGGGGTGCAAATGCCACTAGCTCAGGAGTATACCAAA
CAGACTTTGGCAGAATGCCAAGTCTTTCTTTCGAAGGAGGAAAGGAAAGT
CTGAAAAGCCGGATCATCGACCTCGAATATCGCTACCGGGCTCTTCAGGC
AGAAGTTTGCGGGAAATACCCTGTTGAGTCCATGCGGCTGCGCCGCTGGA
TCGAAGCCGCTGGAGTTGCAATGGCAGGCTACAATTACTGGCGTGCTTTA
TCTGCAAATGGACCTTGCAACAACCTGTCTACAAGCGCGTGCTCCTGCTC
TCCATCCGAGTGGACACGGGTTACCACTCCGGCCTCCACCATCTCCTACT
CATCCAGTCACACATATTCCGGAACCTACGATCGAGGCGAATCCACAACG
CTTACCGCCGTCACCAACTACATCAATACCATGCCACCGTCTTCCTCGAT
CCAGACCCTCAACATGACCCCCTCCGCATTGAATCAATGGACACGCGCTC
CAGCTCCAGCCGTCCAGTGCATTTCGTCTCTCATAACATCTCTATATAAC
GCGATCACAACCCTGACTGATATCACCGCGGACAACACCCAGCGTTACAA
CCAGCCCACTGCACACGCCGTCTTCGGTACCATGCAGGCTAGCAACAGCG
CCTACTACACCTTTATCCAGTCGGTGTCGGAGGCACGCGCCCTGGCAAAC
CCTGCCCTTGCAACCGACATCCTCCTTGGTGGCTTCAACCGTCTGTATGC
CGGTCACAGCCGTGAGCTGACCTGGAAGTACAACGCGTGCATCCCATCGG
AGGCTGAATATCTTTCCGTTGTCGATGACACCACGGGATCACTATACACA
CTTCTTGTCAAACTCCTTCAAGCTGAAAGCTGCTTGCCATTCCACTGCAA
GCCTGATCTTACTCCCCTCGCTACGCTGCTAGCTCGATTTGTCCATGTCA
AAGAAGACTACCTCTCGTTCCATAACCGGGAGAGCAAGATGAGTGGTTTC
AGTGATGCACGCGTCCTCTCGTACCCGGTTATTCGACTGGCTAATATCAA
ACCGGACAGTCGGGCGCAGATCTCTCGATACCTTTTTGAACGCAAGGACG
CAAGCAAGAGTAGCTGCTCCTGTGCAGAGGAGAAGAAAGATCCCTGCGGC
AACTCCGTGAACTACAGCTGCCTGGTGCTTCTGCTACGCGAGTATGGGGC
ACTGAGTGCGACACGCGAACTTCTCCGTGATATAGAAGACAAGATTGAGA
GGGAGGTAATGCAGATAGAGAAGTTGACGGGAGAAGTCAACCCTTTGATA
CGGAAGCTTATTGCAGGACTACGCGAGGGATTGCTGCCATAAATGGAGTG
CTCAGCAGCCTGGATCAACTCAACAACCGTCGACGAAATCTCTGTCCGCA
AGTCCGGCGCGTTCACAACCTTGCCAGTGCGGATCAGCAAGTACAATGAA
ATTGCCATCACTACCGCGCAAAAGCTTGCTTGTATCTGGGATACCATGCG
CTGTGGCAGTGTATCTTCTCGCCCCATCAATGTTGGAAGGAATCTGCTTC
CCTTGGTTGTCCCTGAGGCCTTGCCGGAGAGAACGGCAACGGCCGTGAAA
CTGATCGAATTGGGCCATTTGTGTGATGTCTTTTCCGATCAGCTAGACTC
ACAGAGCAGAGCGGAAGTCTACATGGCCACTGAAGCTATTCAGTTCGATC
GTGAACAGGGTATGCTCATCCTTGAGCTCCTTGGGAAAGCTGTCGCACCG
GAGCCAATGTCCTTTGGATGCAGGAAGAGCTCTGCGTTTAGGACTTTCTG
GCCTATCCTCGAGTTTGCTATTGGTATGAAGCTAAGCGAAATGGACCGGA
TACTCCTCCGAGACATCAAGAACGTGGTTGATGAATGTCACATGCTGAAC
GATGAGTATTGGGGTGCAAATGCCACTAGCTCAGGAGTATACCAAACAGA
CTTTGGCAGAATGCCAAGTCTTTCTTTCGAAGGAGGAAAGGAAAGTCTGA
AAAGCCGGATCATCGACCTCGAATATCGCTACCGGGCTCTTCAGGCAGAA
GTTTGCGGGAAATACCCTGTTGAGTCCATGCGGCTGCGCCGCTGGATCGA
AGCCGCTGGAGTTGCAATGGCAGGCTACAATTACTGGCGTGCTTTATCTG
CAAATGGACCTTGCAACAACCTGTCTACAAGCGCGTGCTCCTGCTCTCCA
TCCGAGTGGACACGGGTTACCACTCCGGCCTCCACCATCTCCTACTCATC
CAGTCACACATATTCCGGAACCTACGATCGAGGCGAATCCACAACGCTTA
CCGCCGTCACCAACTACATCAATACCATGCCACCGTCTTCCTCGATCCAG
ACCCTCAACATGACCCCCTCCGCATTGAATCAATGGACACGCGCTCCAGC
TCCAGCCGTCCAGTGCATTTCGTCTCTCATAACATCTCTATATAACGCGA
TCACAACCCTGACTGATATCACCGCGGACAACACCCAGCGTTACAACCAG
CCCACTGCACACGCCGTCTTCGGTACCATGCAGGCTAGCAACAGCGCCTA
CTACACCTTTATCCAGTCGGTGTCGGAGGCACGCGCCCTGGCAAACCCTG
CCCTTGCAACCGACATCCTCCTTGGTGGCTTCAACCGTCTGTATGCCGGT
CACAGCCGTGAGCTGACCTGGAAGTACAACGCGTGCATCCCATCGGAGGC
TGAATATCTTTCCGTTGTCGATGACACCACGGGATCACTATACACACTTC
TTGTCAAACTCCTTCAAGCTGAAAGCTGCTTGCCATTCCACTGCAAGCCT
GATCTTACTCCCCTCGCTACGCTGCTAGCTCGATTTGTCCATGTCAAAGA
AGACTACCTCTCGTTCCATAACCGGGAGAGCAAGATGAGTGGTTTCAGTG
ATGCACGCGTCCTCTCGTACCCGGTTATTCGACTGGCTAATATCAAACCG
GACAGTCGGGCGCAGATCTCTCGATACCTTTTTGAACGCAAGGACGCAAG
CAAGAGTAGCTGCTCCTGTGCAGAGGAGAAGAAAGATCCCTGCGGCAACT
CCGTGAACTACAGCTGCCTGGTGCTTCTGCTACGCGAGTATGGGGCACTG
AGTGCGACACGCGAACTTCTCCGTGATATAGAAGACAAGATTGAGAGGGA
GGTAATGCAGATAGAGAAGTTGACGGGAGAAGTCAACCCTTTGATACGGA
AGCTTATTGCAGGACTACGCGAGGGATTGCTGCCATAAATGGAGTGCTCA
GCAGCCTGGATCAACTCAACAACCGTCGACGAAATCTCTGTCCGCAAGTC
CGGCGCGTTCACAACCTTGCCAGTGCGGATCAGCAAGTACAATGAAATTG
CCATCACTACCGCGCAAAAGCTTGCTTGTATCTGGGATACCATGCGCTGT
GGCAGTGTATCTTCTCGCCCCATCAATGTTGGAAGGAATCTGCTTCCCTT
GGTTGTCCCTGAGGCCTTGCCGGAGAGAACGGCAACGGCCGTGAAACTGA
TCGAATTGGGCCATTTGTGTGATGTCTTTTCCGATCAGCTAGACTCACAG
AGCAGAGCGGAAGTCTACATGGCCACTGAAGCTATTCAGTTCGATCGTGA
ACAGGGTATGCTCATCCTTGAGCTCCTTGGGAAAGCTGTCGCACCGGAGC
CAATGTCCTTTGGATGCAGGAAGAGCTCTGCGTTTAGGACTTTCTGGCCT
ATCCTCGAGTTTGCTATTGGTATGAAGCTAAGCGAAATGGACCGGATACT
CCTCCGAGACATCAAGAACGTGGTTGATGAATGTCACATGCTGAACGATG
AGTATTGGGGTGCAAATGCCACTAGCTCAGGAGTATACCAAACAGACTTT
GGCAGAATGCCAAGTCTTTCTTTCGAAGGAGGAAAGGAAAGTCTGAAAAG
CCGGATCATCGACCTCGAATATCGCTACCGGGCTCTTCAGGCAGAAGTTT
GCGGGAAATACCCTGTTGAGTCCATGCGGCTGCGCCGCTGGATCGAAGCC
GCTGGAGTTGCAATGGCAGGCTACAATTACTGGCGTGCTTTATCTGCAAA
TGGACCTTGCAACAACCTGTCTACAAGCGCGTGCTCCTGCTCTCCATCCG
AGTGGACACGGGTTACCACTCCGGCCTCCACCATCTCCTACTCATCCAGT
CACACATATTCCGGAACCTACGATCGAGGCGAATCCACAACGCTTACCGC
CGTCACCAACTACATCAATACCATGCCACCGTCTTCCTCGATCCAGACCC
TCAACATGACCCCCTCCGCATTGAATCAATGGACACGCGCTCCAGCTCCA
GCCGTCCAGTGCATTTCGTCTCTCATAACATCTCTATATAACGCGATCAC
AACCCTGACTGATATCACCGCGGACAACACCCAGCGTTACAACCAGCCCA
CTGCACACGCCGTCTTCGGTACCATGCAGGCTAGCAACAGCGCCTACTAC
ACCTTTATCCAGTCGGTGTCGGAGGCACGCGCCCTGGCAAACCCTGCCCT
TGCAACCGACATCCTCCTTGGTGGCTTCAACCGTCTGTATGCCGGTCACA
GCCGTGAGCTGACCTGGAAGTACAACGCGTGCATCCCATCGGAGGCTGAA
TATCTTTCCGTTGTCGATGACACCACGGGATCACTATACACACTTCTTGT
CAAACTCCTTCAAGCTGAAAGCTGCTTGCCATTCCACTGCAAGCCTGATC
TTACTCCCCTCGCTACGCTGCTAGCTCGATTTGTCCATGTCAAAGAAGAC
TACCTCTCGTTCCATAACCGGGAGAGCAAGATGAGTGGTTTCAGTGATGC
ACGCGTCCTCTCGTACCCGGTTATTCGACTGGCTAATATCAAACCGGACA
GTCGGGCGCAGATCTCTCGATACCTTTTTGAACGCAAGGACGCAAGCAAG
AGTAGCTGCTCCTGTGCAGAGGAGAAGAAAGATCCCTGCGGCAACTCCGT
GAACTACAGCTGCCTGGTGCTTCTGCTACGCGAGTATGGGGCACTGAGTG
CGACACGCGAACTTCTCCGTGATATAGAAGACAAGATTGAGAGGGAGGTA
ATGCAGATAGAGAAGTTGACGGGAGAAGTCAACCCTTTGATACGGAAGCT
TATTGCAGGACTACGCGAGGGATTGCTGCCATAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0008299 | isoprenoid biosynthetic process |
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:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR000092 |
| DBxref | InterPro:IPR008949 |
| DBxref | PFAM:PF00348 |
| 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 |
|---|
| NKJJ01000003.1 | supercontig | NKJJ01000003.1:1728806..1730912 + |
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