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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000002.1:4125079..4126860+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_28265-T1 ID=CAN33_28265-T1|Name=CAN33_28265-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=1782bp|location=Sequence derived from alignment at NKJJ01000002.1:4125079..4126860+ (Aspergillus niger FDAARGOS_311)
ATGAATTCTAATCTAGGTTCAGTCGCCAACGACGAATATGTTCAATCAAT
GCTGAACAAGTATCACCTGTCCACACGGGGTGCTTGTAACTATGCATACC
GGGATGTCTGGGGCCCACGAGAAAAGTCAATGGGAGACCCATGGTCGCCA
GCCAATCCAGCCGGGACGTACGTTTCATTGCCGTCCCTTTTCCAGAACTG
AAAATTGACCAGGATTGTTTTGCGATAGCGTCATTCTCCGCCTTGCTGAG
AATAGTCTCATGCATAAGGAGGTTGGCGAATTTCTCCGTGCACAGGTTTT
TCTTCCGCAGCCGAACCTCTCCCTGTAATTCGCTAATTGCTGTGAGAATA
GATGAATGTTTCGCCAGTGGAACATCTAACTTACAGCACTGGTCCACGTG
GTTCCCGACGCCTTCGACGTGCCGCAGCTGCGTTCTTGACCGAGAGATTT
CACTCTCAAAAACCTATCACTTATCACAATATTCTTGTGACTCCCGGCCT
GGCCAGCGCTATTGATGGAATAACTTTTGTAATTTGCAATGAAGGGGATG
GGATTTTGATCCCTCAGCCTTTGTACAACGGCTTCAAAGTCGACATCCTG
AACCGGAGTAATGTTCGGGTGGTTGGGGTCAAGTATGAAGGAATCGAGGG
GTTTACGGGCCTGGATGACCTTTTTCTACCGGACGTGAACAAGGTAGCTC
TTGAAACTGCTCTTCGCCAAGCAAAAGACGAAGGGATCAACATTCGCGCC
CTACTAGTTTCCAAGTCAGTCACTTCCCATATGCGATCGTATCTGACTGC
AGTTCTCTAACCTGAAAATCTAGCCCGCACAATCCTTTGGGAAGATGTTA
TGTTTGTTTTCCCACCGCCCACCAAGAAAAACTTAGAAAGCATGGTTTAA
TGTTGATCTGTGTCACTAGCCCCCTGAAACGCTGCGTGAATTTGCTTCTT
TCTGCGGTAAAAACGACCTGCATTTCATCTCAGATGAAATTTATGCATTT
TCTGTCTTTCCGAATCCTAAGATCCCAAAGCCCACTCCGTTTACCTCTAT
ACTCGCTCTGAACCTTCATGGTGTTATTGATCCAACCCGCATGCATATCC
TCTACGGCGCAAGCAAAGACTTCTGTGCCAACGGACTGCGCATGGGCTTT
ATCTGCACGAATAACGAAGGCATCATGGGCGCAATGTCCAGCATTGGGTG
TGTTGCAATGATGATCCTCTTTTTTACACTTTGCTCACTGATCTTATTGC
TAGTATATTCTCTTGGTCGCCCCACGTCCTGCAAGATGCCTGGGCTGCCA
TGATGGAGGACAAGCAGTGGGTTGAAAGATTTATGACCCAGAAGAGGGAC
CTCATGGTAGACCGGTACAAGATGATAACGGCGTTTTTCTCCAAGCATGG
AATTCCCTACTACGAGATGTAAGTGTGAAACGACCATCTGAATTGTCCGA
TGTACTAATCCACTTCAAGGAATGCTGGACTATTTGTCTGGGTCGACTTA
CGTCACCTACTAGTTTCCAAATCATCTGCGCAGCAGTCAGACTATAGCGC
CGTGAGGGTGACCTCGCCCGACGCTCCAGTTAATCTACAGCGCGAGCTGA
GGATCGCAGAGATCTGCGTGAAAAACGGGGTCATGATCTCCCCTGGTCAT
GTATATTTACCTGAAGAGCACGGCTGGTTCCGTATCACGTTCACGGTAGG
GAAAGAGGCACTGGAAGAAGGGTTGAACCGTTTCTTGGCGTCTATAAAAG
AAATAGAGGCTGAAAGTCAAGATAGGATATGA back to topCoding sequence (CDS) from alignment at NKJJ01000002.1:4125079..4126860+ >CAN33_28265-T1 ID=CAN33_28265-T1|Name=CAN33_28265-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10017bp|location=Sequence derived from alignment at NKJJ01000002.1:4125079..4126860+ (Aspergillus niger FDAARGOS_311)
ATGAATTCTAATCTAGGTTCAGTCGCCAACGACGAATATGTTCAATCAAT
GCTGAACAAGTATCACCTGTCCACACGGGGTGCTTGTAACTATGCATACC
GGGATGTCTGGGGCCCACGAGAAAAGTCAATGGGAGACCCATGGTCGCCA
GCCAATCCAGCCGGGACCGTCATTCTCCGCCTTGCTGAGAATAGTCTCAT
GCATAAGGAGGTTGGCGAATTTCTCCGTGCACAGATGAATGTTTCGCCAG
TGGAACATCTAACTTACAGCACTGGTCCACGTGGTTCCCGACGCCTTCGA
CGTGCCGCAGCTGCGTTCTTGACCGAGAGATTTCACTCTCAAAAACCTAT
CACTTATCACAATATTCTTGTGACTCCCGGCCTGGCCAGCGCTATTGATG
GAATAACTTTTGTAATTTGCAATGAAGGGGATGGGATTTTGATCCCTCAG
CCTTTGTACAACGGCTTCAAAGTCGACATCCTGAACCGGAGTAATGTTCG
GGTGGTTGGGGTCAAGTATGAAGGAATCGAGGGGTTTACGGGCCTGGATG
ACCTTTTTCTACCGGACGTGAACAAGGTAGCTCTTGAAACTGCTCTTCGC
CAAGCAAAAGACGAAGGGATCAACATTCGCGCCCTACTAGTTTCCAACCC
GCACAATCCTTTGGGAAGATGTTATCCCCCTGAAACGCTGCGTGAATTTG
CTTCTTTCTGCGGTAAAAACGACCTGCATTTCATCTCAGATGAAATTTAT
GCATTTTCTGTCTTTCCGAATCCTAAGATCCCAAAGCCCACTCCGTTTAC
CTCTATACTCGCTCTGAACCTTCATGGTGTTATTGATCCAACCCGCATGC
ATATCCTCTACGGCGCAAGCAAAGACTTCTGTGCCAACGGACTGCGCATG
GGCTTTATCTGCACGAATAACGAAGGCATCATGGGCGCAATGTCCAGCAT
TGGTATATTCTCTTGGTCGCCCCACGTCCTGCAAGATGCCTGGGCTGCCA
TGATGGAGGACAAGCAGTGGGTTGAAAGATTTATGACCCAGAAGAGGGAC
CTCATGGTAGACCGGTACAAGATGATAACGGCGTTTTTCTCCAAGCATGG
AATTCCCTACTACGAGATGAATGCTGGACTATTTGTCTGGGTCGACTTAC
GTCACCTACTAGTTTCCAAATCATCTGCGCAGCAGTCAGACTATAGCGCC
GTGAGGGTGACCTCGCCCGACGCTCCAGTTAATCTACAGCGCGAGCTGAG
GATCGCAGAGATCTGCGTGAAAAACGGGGTCATGATCTCCCCTGGTCATG
TATATTTACCTGAAGAGCACGGCTGGTTCCGTATCACGTTCACGGTAGGG
AAAGAGGCACTGGAAGAAGGGTTGAACCGTTTCTTGGCGTCTATAAAAGA
AATAGAGGCTGAAAGTCAAGATAGGATATGAATGAATTCTAATCTAGGTT
CAGTCGCCAACGACGAATATGTTCAATCAATGCTGAACAAGTATCACCTG
TCCACACGGGGTGCTTGTAACTATGCATACCGGGATGTCTGGGGCCCACG
AGAAAAGTCAATGGGAGACCCATGGTCGCCAGCCAATCCAGCCGGGACCG
TCATTCTCCGCCTTGCTGAGAATAGTCTCATGCATAAGGAGGTTGGCGAA
TTTCTCCGTGCACAGATGAATGTTTCGCCAGTGGAACATCTAACTTACAG
CACTGGTCCACGTGGTTCCCGACGCCTTCGACGTGCCGCAGCTGCGTTCT
TGACCGAGAGATTTCACTCTCAAAAACCTATCACTTATCACAATATTCTT
GTGACTCCCGGCCTGGCCAGCGCTATTGATGGAATAACTTTTGTAATTTG
CAATGAAGGGGATGGGATTTTGATCCCTCAGCCTTTGTACAACGGCTTCA
AAGTCGACATCCTGAACCGGAGTAATGTTCGGGTGGTTGGGGTCAAGTAT
GAAGGAATCGAGGGGTTTACGGGCCTGGATGACCTTTTTCTACCGGACGT
GAACAAGGTAGCTCTTGAAACTGCTCTTCGCCAAGCAAAAGACGAAGGGA
TCAACATTCGCGCCCTACTAGTTTCCAACCCGCACAATCCTTTGGGAAGA
TGTTATCCCCCTGAAACGCTGCGTGAATTTGCTTCTTTCTGCGGTAAAAA
CGACCTGCATTTCATCTCAGATGAAATTTATGCATTTTCTGTCTTTCCGA
ATCCTAAGATCCCAAAGCCCACTCCGTTTACCTCTATACTCGCTCTGAAC
CTTCATGGTGTTATTGATCCAACCCGCATGCATATCCTCTACGGCGCAAG
CAAAGACTTCTGTGCCAACGGACTGCGCATGGGCTTTATCTGCACGAATA
ACGAAGGCATCATGGGCGCAATGTCCAGCATTGGTATATTCTCTTGGTCG
CCCCACGTCCTGCAAGATGCCTGGGCTGCCATGATGGAGGACAAGCAGTG
GGTTGAAAGATTTATGACCCAGAAGAGGGACCTCATGGTAGACCGGTACA
AGATGATAACGGCGTTTTTCTCCAAGCATGGAATTCCCTACTACGAGATG
AATGCTGGACTATTTGTCTGGGTCGACTTACGTCACCTACTAGTTTCCAA
ATCATCTGCGCAGCAGTCAGACTATAGCGCCGTGAGGGTGACCTCGCCCG
ACGCTCCAGTTAATCTACAGCGCGAGCTGAGGATCGCAGAGATCTGCGTG
AAAAACGGGGTCATGATCTCCCCTGGTCATGTATATTTACCTGAAGAGCA
CGGCTGGTTCCGTATCACGTTCACGGTAGGGAAAGAGGCACTGGAAGAAG
GGTTGAACCGTTTCTTGGCGTCTATAAAAGAAATAGAGGCTGAAAGTCAA
GATAGGATATGAATGAATTCTAATCTAGGTTCAGTCGCCAACGACGAATA
TGTTCAATCAATGCTGAACAAGTATCACCTGTCCACACGGGGTGCTTGTA
ACTATGCATACCGGGATGTCTGGGGCCCACGAGAAAAGTCAATGGGAGAC
CCATGGTCGCCAGCCAATCCAGCCGGGACCGTCATTCTCCGCCTTGCTGA
GAATAGTCTCATGCATAAGGAGGTTGGCGAATTTCTCCGTGCACAGATGA
ATGTTTCGCCAGTGGAACATCTAACTTACAGCACTGGTCCACGTGGTTCC
CGACGCCTTCGACGTGCCGCAGCTGCGTTCTTGACCGAGAGATTTCACTC
TCAAAAACCTATCACTTATCACAATATTCTTGTGACTCCCGGCCTGGCCA
GCGCTATTGATGGAATAACTTTTGTAATTTGCAATGAAGGGGATGGGATT
TTGATCCCTCAGCCTTTGTACAACGGCTTCAAAGTCGACATCCTGAACCG
GAGTAATGTTCGGGTGGTTGGGGTCAAGTATGAAGGAATCGAGGGGTTTA
CGGGCCTGGATGACCTTTTTCTACCGGACGTGAACAAGGTAGCTCTTGAA
ACTGCTCTTCGCCAAGCAAAAGACGAAGGGATCAACATTCGCGCCCTACT
AGTTTCCAACCCGCACAATCCTTTGGGAAGATGTTATCCCCCTGAAACGC
TGCGTGAATTTGCTTCTTTCTGCGGTAAAAACGACCTGCATTTCATCTCA
GATGAAATTTATGCATTTTCTGTCTTTCCGAATCCTAAGATCCCAAAGCC
CACTCCGTTTACCTCTATACTCGCTCTGAACCTTCATGGTGTTATTGATC
CAACCCGCATGCATATCCTCTACGGCGCAAGCAAAGACTTCTGTGCCAAC
GGACTGCGCATGGGCTTTATCTGCACGAATAACGAAGGCATCATGGGCGC
AATGTCCAGCATTGGTATATTCTCTTGGTCGCCCCACGTCCTGCAAGATG
CCTGGGCTGCCATGATGGAGGACAAGCAGTGGGTTGAAAGATTTATGACC
CAGAAGAGGGACCTCATGGTAGACCGGTACAAGATGATAACGGCGTTTTT
CTCCAAGCATGGAATTCCCTACTACGAGATGAATGCTGGACTATTTGTCT
GGGTCGACTTACGTCACCTACTAGTTTCCAAATCATCTGCGCAGCAGTCA
GACTATAGCGCCGTGAGGGTGACCTCGCCCGACGCTCCAGTTAATCTACA
GCGCGAGCTGAGGATCGCAGAGATCTGCGTGAAAAACGGGGTCATGATCT
CCCCTGGTCATGTATATTTACCTGAAGAGCACGGCTGGTTCCGTATCACG
TTCACGGTAGGGAAAGAGGCACTGGAAGAAGGGTTGAACCGTTTCTTGGC
GTCTATAAAAGAAATAGAGGCTGAAAGTCAAGATAGGATATGAATGAATT
CTAATCTAGGTTCAGTCGCCAACGACGAATATGTTCAATCAATGCTGAAC
AAGTATCACCTGTCCACACGGGGTGCTTGTAACTATGCATACCGGGATGT
CTGGGGCCCACGAGAAAAGTCAATGGGAGACCCATGGTCGCCAGCCAATC
CAGCCGGGACCGTCATTCTCCGCCTTGCTGAGAATAGTCTCATGCATAAG
GAGGTTGGCGAATTTCTCCGTGCACAGATGAATGTTTCGCCAGTGGAACA
TCTAACTTACAGCACTGGTCCACGTGGTTCCCGACGCCTTCGACGTGCCG
CAGCTGCGTTCTTGACCGAGAGATTTCACTCTCAAAAACCTATCACTTAT
CACAATATTCTTGTGACTCCCGGCCTGGCCAGCGCTATTGATGGAATAAC
TTTTGTAATTTGCAATGAAGGGGATGGGATTTTGATCCCTCAGCCTTTGT
ACAACGGCTTCAAAGTCGACATCCTGAACCGGAGTAATGTTCGGGTGGTT
GGGGTCAAGTATGAAGGAATCGAGGGGTTTACGGGCCTGGATGACCTTTT
TCTACCGGACGTGAACAAGGTAGCTCTTGAAACTGCTCTTCGCCAAGCAA
AAGACGAAGGGATCAACATTCGCGCCCTACTAGTTTCCAACCCGCACAAT
CCTTTGGGAAGATGTTATCCCCCTGAAACGCTGCGTGAATTTGCTTCTTT
CTGCGGTAAAAACGACCTGCATTTCATCTCAGATGAAATTTATGCATTTT
CTGTCTTTCCGAATCCTAAGATCCCAAAGCCCACTCCGTTTACCTCTATA
CTCGCTCTGAACCTTCATGGTGTTATTGATCCAACCCGCATGCATATCCT
CTACGGCGCAAGCAAAGACTTCTGTGCCAACGGACTGCGCATGGGCTTTA
TCTGCACGAATAACGAAGGCATCATGGGCGCAATGTCCAGCATTGGTATA
TTCTCTTGGTCGCCCCACGTCCTGCAAGATGCCTGGGCTGCCATGATGGA
GGACAAGCAGTGGGTTGAAAGATTTATGACCCAGAAGAGGGACCTCATGG
TAGACCGGTACAAGATGATAACGGCGTTTTTCTCCAAGCATGGAATTCCC
TACTACGAGATGAATGCTGGACTATTTGTCTGGGTCGACTTACGTCACCT
ACTAGTTTCCAAATCATCTGCGCAGCAGTCAGACTATAGCGCCGTGAGGG
TGACCTCGCCCGACGCTCCAGTTAATCTACAGCGCGAGCTGAGGATCGCA
GAGATCTGCGTGAAAAACGGGGTCATGATCTCCCCTGGTCATGTATATTT
ACCTGAAGAGCACGGCTGGTTCCGTATCACGTTCACGGTAGGGAAAGAGG
CACTGGAAGAAGGGTTGAACCGTTTCTTGGCGTCTATAAAAGAAATAGAG
GCTGAAAGTCAAGATAGGATATGAATGAATTCTAATCTAGGTTCAGTCGC
CAACGACGAATATGTTCAATCAATGCTGAACAAGTATCACCTGTCCACAC
GGGGTGCTTGTAACTATGCATACCGGGATGTCTGGGGCCCACGAGAAAAG
TCAATGGGAGACCCATGGTCGCCAGCCAATCCAGCCGGGACCGTCATTCT
CCGCCTTGCTGAGAATAGTCTCATGCATAAGGAGGTTGGCGAATTTCTCC
GTGCACAGATGAATGTTTCGCCAGTGGAACATCTAACTTACAGCACTGGT
CCACGTGGTTCCCGACGCCTTCGACGTGCCGCAGCTGCGTTCTTGACCGA
GAGATTTCACTCTCAAAAACCTATCACTTATCACAATATTCTTGTGACTC
CCGGCCTGGCCAGCGCTATTGATGGAATAACTTTTGTAATTTGCAATGAA
GGGGATGGGATTTTGATCCCTCAGCCTTTGTACAACGGCTTCAAAGTCGA
CATCCTGAACCGGAGTAATGTTCGGGTGGTTGGGGTCAAGTATGAAGGAA
TCGAGGGGTTTACGGGCCTGGATGACCTTTTTCTACCGGACGTGAACAAG
GTAGCTCTTGAAACTGCTCTTCGCCAAGCAAAAGACGAAGGGATCAACAT
TCGCGCCCTACTAGTTTCCAACCCGCACAATCCTTTGGGAAGATGTTATC
CCCCTGAAACGCTGCGTGAATTTGCTTCTTTCTGCGGTAAAAACGACCTG
CATTTCATCTCAGATGAAATTTATGCATTTTCTGTCTTTCCGAATCCTAA
GATCCCAAAGCCCACTCCGTTTACCTCTATACTCGCTCTGAACCTTCATG
GTGTTATTGATCCAACCCGCATGCATATCCTCTACGGCGCAAGCAAAGAC
TTCTGTGCCAACGGACTGCGCATGGGCTTTATCTGCACGAATAACGAAGG
CATCATGGGCGCAATGTCCAGCATTGGTATATTCTCTTGGTCGCCCCACG
TCCTGCAAGATGCCTGGGCTGCCATGATGGAGGACAAGCAGTGGGTTGAA
AGATTTATGACCCAGAAGAGGGACCTCATGGTAGACCGGTACAAGATGAT
AACGGCGTTTTTCTCCAAGCATGGAATTCCCTACTACGAGATGAATGCTG
GACTATTTGTCTGGGTCGACTTACGTCACCTACTAGTTTCCAAATCATCT
GCGCAGCAGTCAGACTATAGCGCCGTGAGGGTGACCTCGCCCGACGCTCC
AGTTAATCTACAGCGCGAGCTGAGGATCGCAGAGATCTGCGTGAAAAACG
GGGTCATGATCTCCCCTGGTCATGTATATTTACCTGAAGAGCACGGCTGG
TTCCGTATCACGTTCACGGTAGGGAAAGAGGCACTGGAAGAAGGGTTGAA
CCGTTTCTTGGCGTCTATAAAAGAAATAGAGGCTGAAAGTCAAGATAGGA
TATGAATGAATTCTAATCTAGGTTCAGTCGCCAACGACGAATATGTTCAA
TCAATGCTGAACAAGTATCACCTGTCCACACGGGGTGCTTGTAACTATGC
ATACCGGGATGTCTGGGGCCCACGAGAAAAGTCAATGGGAGACCCATGGT
CGCCAGCCAATCCAGCCGGGACCGTCATTCTCCGCCTTGCTGAGAATAGT
CTCATGCATAAGGAGGTTGGCGAATTTCTCCGTGCACAGATGAATGTTTC
GCCAGTGGAACATCTAACTTACAGCACTGGTCCACGTGGTTCCCGACGCC
TTCGACGTGCCGCAGCTGCGTTCTTGACCGAGAGATTTCACTCTCAAAAA
CCTATCACTTATCACAATATTCTTGTGACTCCCGGCCTGGCCAGCGCTAT
TGATGGAATAACTTTTGTAATTTGCAATGAAGGGGATGGGATTTTGATCC
CTCAGCCTTTGTACAACGGCTTCAAAGTCGACATCCTGAACCGGAGTAAT
GTTCGGGTGGTTGGGGTCAAGTATGAAGGAATCGAGGGGTTTACGGGCCT
GGATGACCTTTTTCTACCGGACGTGAACAAGGTAGCTCTTGAAACTGCTC
TTCGCCAAGCAAAAGACGAAGGGATCAACATTCGCGCCCTACTAGTTTCC
AACCCGCACAATCCTTTGGGAAGATGTTATCCCCCTGAAACGCTGCGTGA
ATTTGCTTCTTTCTGCGGTAAAAACGACCTGCATTTCATCTCAGATGAAA
TTTATGCATTTTCTGTCTTTCCGAATCCTAAGATCCCAAAGCCCACTCCG
TTTACCTCTATACTCGCTCTGAACCTTCATGGTGTTATTGATCCAACCCG
CATGCATATCCTCTACGGCGCAAGCAAAGACTTCTGTGCCAACGGACTGC
GCATGGGCTTTATCTGCACGAATAACGAAGGCATCATGGGCGCAATGTCC
AGCATTGGTATATTCTCTTGGTCGCCCCACGTCCTGCAAGATGCCTGGGC
TGCCATGATGGAGGACAAGCAGTGGGTTGAAAGATTTATGACCCAGAAGA
GGGACCTCATGGTAGACCGGTACAAGATGATAACGGCGTTTTTCTCCAAG
CATGGAATTCCCTACTACGAGATGAATGCTGGACTATTTGTCTGGGTCGA
CTTACGTCACCTACTAGTTTCCAAATCATCTGCGCAGCAGTCAGACTATA
GCGCCGTGAGGGTGACCTCGCCCGACGCTCCAGTTAATCTACAGCGCGAG
CTGAGGATCGCAGAGATCTGCGTGAAAAACGGGGTCATGATCTCCCCTGG
TCATGTATATTTACCTGAAGAGCACGGCTGGTTCCGTATCACGTTCACGG
TAGGGAAAGAGGCACTGGAAGAAGGGTTGAACCGTTTCTTGGCGTCTATA
AAAGAAATAGAGGCTGAAAGTCAAGATAGGATATGAATGAATTCTAATCT
AGGTTCAGTCGCCAACGACGAATATGTTCAATCAATGCTGAACAAGTATC
ACCTGTCCACACGGGGTGCTTGTAACTATGCATACCGGGATGTCTGGGGC
CCACGAGAAAAGTCAATGGGAGACCCATGGTCGCCAGCCAATCCAGCCGG
GACCGTCATTCTCCGCCTTGCTGAGAATAGTCTCATGCATAAGGAGGTTG
GCGAATTTCTCCGTGCACAGATGAATGTTTCGCCAGTGGAACATCTAACT
TACAGCACTGGTCCACGTGGTTCCCGACGCCTTCGACGTGCCGCAGCTGC
GTTCTTGACCGAGAGATTTCACTCTCAAAAACCTATCACTTATCACAATA
TTCTTGTGACTCCCGGCCTGGCCAGCGCTATTGATGGAATAACTTTTGTA
ATTTGCAATGAAGGGGATGGGATTTTGATCCCTCAGCCTTTGTACAACGG
CTTCAAAGTCGACATCCTGAACCGGAGTAATGTTCGGGTGGTTGGGGTCA
AGTATGAAGGAATCGAGGGGTTTACGGGCCTGGATGACCTTTTTCTACCG
GACGTGAACAAGGTAGCTCTTGAAACTGCTCTTCGCCAAGCAAAAGACGA
AGGGATCAACATTCGCGCCCTACTAGTTTCCAACCCGCACAATCCTTTGG
GAAGATGTTATCCCCCTGAAACGCTGCGTGAATTTGCTTCTTTCTGCGGT
AAAAACGACCTGCATTTCATCTCAGATGAAATTTATGCATTTTCTGTCTT
TCCGAATCCTAAGATCCCAAAGCCCACTCCGTTTACCTCTATACTCGCTC
TGAACCTTCATGGTGTTATTGATCCAACCCGCATGCATATCCTCTACGGC
GCAAGCAAAGACTTCTGTGCCAACGGACTGCGCATGGGCTTTATCTGCAC
GAATAACGAAGGCATCATGGGCGCAATGTCCAGCATTGGTATATTCTCTT
GGTCGCCCCACGTCCTGCAAGATGCCTGGGCTGCCATGATGGAGGACAAG
CAGTGGGTTGAAAGATTTATGACCCAGAAGAGGGACCTCATGGTAGACCG
GTACAAGATGATAACGGCGTTTTTCTCCAAGCATGGAATTCCCTACTACG
AGATGAATGCTGGACTATTTGTCTGGGTCGACTTACGTCACCTACTAGTT
TCCAAATCATCTGCGCAGCAGTCAGACTATAGCGCCGTGAGGGTGACCTC
GCCCGACGCTCCAGTTAATCTACAGCGCGAGCTGAGGATCGCAGAGATCT
GCGTGAAAAACGGGGTCATGATCTCCCCTGGTCATGTATATTTACCTGAA
GAGCACGGCTGGTTCCGTATCACGTTCACGGTAGGGAAAGAGGCACTGGA
AGAAGGGTTGAACCGTTTCTTGGCGTCTATAAAAGAAATAGAGGCTGAAA
GTCAAGATAGGATATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009058 | biosynthetic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0030170 | pyridoxal phosphate binding |
| GO:0003824 | catalytic 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:
Properties
| Property Name | Value |
|---|
| Note | EggNog:ENOG41 |
| DBxref | InterPro:IPR015424 |
| DBxref | InterPro:IPR015421 |
| DBxref | InterPro:IPR004839 |
| DBxref | InterPro:IPR015422 |
| DBxref | PFAM:PF00155 |
| Product | Aminotransferase class I and II 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 |
|---|
| NKJJ01000002.1 | supercontig | NKJJ01000002.1:4125079..4126860 + |
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