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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:3960143..3963057+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_48480-T1 ID=CAN33_48480-T1|Name=CAN33_48480-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2915bp|location=Sequence derived from alignment at NKJJ01000022.1:3960143..3963057+ (Aspergillus niger FDAARGOS_311)
ATGGCCGCGGCGGAAGCGATGCTGGATGAGGTGCATCCTGTCCCACCTGT
TGACAAATCCGATCAAAACACTTACATAGTGGGGGCAATTCACGAACACA
ACGTTGTTATCGCCTCCCTACCCTTCGGAGTATATGGTACCATATCCGCA
GCGGTTGTCGCGAGCCAACTCCGCGCCTCCTTCCCGTCTGTCCGAATTAG
GTTAATGGTCGGAATTGGTGGAGGGGTGCCTGTATCCGACAATTCTTCAA
CGGAAGATGATATTCGGCTGGGGGATGTGGTCGTCAGCAAACCGTCGGGG
ACCTCAGGCGGAGTGATCCAGTACGACTTTGGTAAAACCGGTCGAGAAGG
CCGGTTTCACCGAATCTCGTGCCTCAATAAACCTCCTCAGATATTGTTGA
CTGCCATAGCAAAATTGGAAGCCGGTCATATAGGACATGAAAGCAGAATT
TCGGATATCCTAGCCGATTTGCAGTCGAGGCAACCTGGTGTAGCTGCCAA
GTTCAGATATCCTGGTCCGCAATGCGACCAACTTTTCCCTGCAGAGTATG
AGCATTTCGAAGAGAGCAGTACGTGTGAGAGATGCGATCAAAGCAAACTC
ATTGCTCGACAGGACCGAGCTTCAACACATCCTAAGATTCACTACGGGTT
GATTGCCTCAGGAAATCAGGTGATGAAACACGGAATAACGCGAGATCGCC
TGGCAGGAGAATTGGATGTCAAATGCTTCGAAATGGAAGCCGCCGGGTTG
ATGGATCATTTCCCCTGTCTAGTGGTTCGTGGGATATGCGACTATTGCGA
TTCGCACAAGAACAAGAGATGGCAGCCATACGCCGCGGCTACCGCCGCGG
CCTATGCGAAGGAGCTTCTCTCAGTGATCCCGGGCGCTCCCAAGTCTGAC
GAAGGTGAGTTCGTCATCAGTAATGCTTATGTCCGTATGTTTGATTCAAT
CACGCTGACCGTCGATCTCAGGTAGAAACGAGCCGTTTCGGGTTCCATTT
GACTTGACAGGCATCCCAGTCATGAATGGATTTCTTGGTCGTCGGGGAGA
CTTACTCCGGTTATGGAATTGTTTACAGCCGGGAAAACGAAACCAGCAAA
AGGTAGTGGTCATTCAAGGACTTGGGGGGATGGGAAAGACACAGCTGGCC
GTTGAATTTGCCCGACGTCACAAGAACGACTTTACAGCCGTTCTTTGGGT
CAATGGGCAGAGCAGAGAAACGGTTCTTCATTCAATGGTATCGATTTTGT
CGAGGCTGCCTGGTATACAAGGATTCAAAGATGAATTTGCGGAGGAAAGC
ATTGAGGAAAAGGCCAGCCATACTCTCCGCTGGCTTAGCATGAATGAAAA
TTCCAAGTGGCTACTTGTGTTTGACAATGTCGATCATGACGGTGAAAATA
TTTGCGACTCCTTCCCACCGGCTGATCATGGATCAATTTTGATCACTACC
CGCCATGCGAAGCTGGCACGACTTGGTAATTACCAGCAGATTAGGCGACT
TCCCACTGAAGAAGCGATGCAGCTTCTGGTGAACTGCTCGGGATATGAGA
TTGCACGTGAGAAATCTGCCCCAACAGTCAACAACGGTAAGGTCCTCTCT
GGAATCTCTTTCCCATTATAGGATGTCAGGAACGGCGAAGTGCTCATATT
ATATAGAAGCAAAAGACCTCGTCAATCGACTGGGGTGCCTACCCCTTGCT
ATCGTAATGGCCGGCTCCTACATTCACGGTACCGGAATAAGCTTCCGGAA
TTACCTGCGCCATTATGAACAGTCGTGGAAAAGAATGCAACAGACGACCA
CAGCCCACCTCGAATACTCGAACGGGAACCTCTTGACAACATGGAAGATT
TCCTACGACGAAGTACGCAAAAGAAATGCAGCGGCTGCGAACTTACTGCT
GCTTCTTTCTTACTTCGATAATCAAGACGTCTGGTTCCAGCTAATAAGGA
GTGGAAATATTGCAATTTGCAGTATAATCCCCCAGTGGTTCCAAAGTATA
GTTTCAGATGAAACAAGCTTTCTCGCCAACGTCAATTTGCTGATTTCATT
TTCTTTGGTGGAGTCAAATCCACAATGTTCCAGCTACTCCGTGCACCCCG
TGGTTCACGACTGGTGTCACTACGAACTACTGGGCGAACTGGATCAGCCC
ACGCGTATGCAACTCAGGATGACTGCCCTTGCTGCAATCGGACATGCCGT
GCCCTCGGTCGCTGAGAAGCAACACTGGGTTTTGCAGCAGCGCGTCCTCC
CCCACGCCAACCGGATGCTGGCTTGTCTTTCAAAGAGCCCTTCAATACCA
CAGGAGCCGGCACTGATCCAAGCGCTTCATAACTTGGGGCTTCTATACAA
AAGTCAACGAAAGCCGAACGAGGCCAAGCAAATGTACCAGCTTGCTCTGA
CCCGGCTGGAAACTTCGGCAGGACTTAATTACCCCCTGGCGTCCCGACTC
CAAATCATCAACAATCTCGCCAATCTTTATCGCAATCAGAAGGAATTTCA
CCAAGCAGAGAGTCTATATCAGCGTGCTCTGGCTGGATTTGAGGAGACGC
ACGGACCGCGAAGTGAGTCCATTCTGGCAATTCTTGGCAACCTGGGAAAT
CTCTACAGCGATCAAAGAAAATTCGCGGAGGCAGAGGAGGTGTATCGCAG
AGCATTGATGGGATTTGAAAATGCTCTTGGCCATAGTAGCTCTTCGACGC
TCAAAATTGTCCTCAATCTGGGGACTCTTTACACTGACCAAGGTAAATGG
AAGGAAGCCAAACAGATGTTTCGCCGGGCAGTGAATAGTCTTCACAGGAC
TCTAGATTTCAATGACCCGGCAACTCTGACGGTGGTTGTGAACATAGGGG
ATCTTTGCATCAAATCCGGGAAGTCCAGAAAGGCGAAACGAATCTATGAG
GATGCGTTGTTATGA back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:3960143..3963057+ >CAN33_48480-T1 ID=CAN33_48480-T1|Name=CAN33_48480-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8334bp|location=Sequence derived from alignment at NKJJ01000022.1:3960143..3963057+ (Aspergillus niger FDAARGOS_311)
ATGGCCGCGGCGGAAGCGATGCTGGATGAGGTGCATCCTGTCCCACCTGT
TGACAAATCCGATCAAAACACTTACATAGTGGGGGCAATTCACGAACACA
ACGTTGTTATCGCCTCCCTACCCTTCGGAGTATATGGTACCATATCCGCA
GCGGTTGTCGCGAGCCAACTCCGCGCCTCCTTCCCGTCTGTCCGAATTAG
GTTAATGGTCGGAATTGGTGGAGGGGTGCCTGTATCCGACAATTCTTCAA
CGGAAGATGATATTCGGCTGGGGGATGTGGTCGTCAGCAAACCGTCGGGG
ACCTCAGGCGGAGTGATCCAGTACGACTTTGGTAAAACCGGTCGAGAAGG
CCGGTTTCACCGAATCTCGTGCCTCAATAAACCTCCTCAGATATTGTTGA
CTGCCATAGCAAAATTGGAAGCCGGTCATATAGGACATGAAAGCAGAATT
TCGGATATCCTAGCCGATTTGCAGTCGAGGCAACCTGGTGTAGCTGCCAA
GTTCAGATATCCTGGTCCGCAATGCGACCAACTTTTCCCTGCAGAGTATG
AGCATTTCGAAGAGAGCAGTACGTGTGAGAGATGCGATCAAAGCAAACTC
ATTGCTCGACAGGACCGAGCTTCAACACATCCTAAGATTCACTACGGGTT
GATTGCCTCAGGAAATCAGGTGATGAAACACGGAATAACGCGAGATCGCC
TGGCAGGAGAATTGGATGTCAAATGCTTCGAAATGGAAGCCGCCGGGTTG
ATGGATCATTTCCCCTGTCTAGTGGTTCGTGGGATATGCGACTATTGCGA
TTCGCACAAGAACAAGAGATGGCAGCCATACGCCGCGGCTACCGCCGCGG
CCTATGCGAAGGAGCTTCTCTCAGTGATCCCGGGCGCTCCCAAGTCTGAC
GAAGGTAGAAACGAGCCGTTTCGGGTTCCATTTGACTTGACAGGCATCCC
AGTCATGAATGGATTTCTTGGTCGTCGGGGAGACTTACTCCGGTTATGGA
ATTGTTTACAGCCGGGAAAACGAAACCAGCAAAAGGTAGTGGTCATTCAA
GGACTTGGGGGGATGGGAAAGACACAGCTGGCCGTTGAATTTGCCCGACG
TCACAAGAACGACTTTACAGCCGTTCTTTGGGTCAATGGGCAGAGCAGAG
AAACGGTTCTTCATTCAATGGTATCGATTTTGTCGAGGCTGCCTGGTATA
CAAGGATTCAAAGATGAATTTGCGGAGGAAAGCATTGAGGAAAAGGCCAG
CCATACTCTCCGCTGGCTTAGCATGAATGAAAATTCCAAGTGGCTACTTG
TGTTTGACAATGTCGATCATGACGGTGAAAATATTTGCGACTCCTTCCCA
CCGGCTGATCATGGATCAATTTTGATCACTACCCGCCATGCGAAGCTGGC
ACGACTTGGTAATTACCAGCAGATTAGGCGACTTCCCACTGAAGAAGCGA
TGCAGCTTCTGGTGAACTGCTCGGGATATGAGATTGCACGTGAGAAATCT
GCCCCAACAGTCAACAACGAAGCAAAAGACCTCGTCAATCGACTGGGGTG
CCTACCCCTTGCTATCGTAATGGCCGGCTCCTACATTCACGGTACCGGAA
TAAGCTTCCGGAATTACCTGCGCCATTATGAACAGTCGTGGAAAAGAATG
CAACAGACGACCACAGCCCACCTCGAATACTCGAACGGGAACCTCTTGAC
AACATGGAAGATTTCCTACGACGAAGTACGCAAAAGAAATGCAGCGGCTG
CGAACTTACTGCTGCTTCTTTCTTACTTCGATAATCAAGACGTCTGGTTC
CAGCTAATAAGGAGTGGAAATATTGCAATTTGCAGTATAATCCCCCAGTG
GTTCCAAAGTATAGTTTCAGATGAAACAAGCTTTCTCGCCAACGTCAATT
TGCTGATTTCATTTTCTTTGGTGGAGTCAAATCCACAATGTTCCAGCTAC
TCCGTGCACCCCGTGGTTCACGACTGGTGTCACTACGAACTACTGGGCGA
ACTGGATCAGCCCACGCGTATGCAACTCAGGATGACTGCCCTTGCTGCAA
TCGGACATGCCGTGCCCTCGGTCGCTGAGAAGCAACACTGGGTTTTGCAG
CAGCGCGTCCTCCCCCACGCCAACCGGATGCTGGCTTGTCTTTCAAAGAG
CCCTTCAATACCACAGGAGCCGGCACTGATCCAAGCGCTTCATAACTTGG
GGCTTCTATACAAAAGTCAACGAAAGCCGAACGAGGCCAAGCAAATGTAC
CAGCTTGCTCTGACCCGGCTGGAAACTTCGGCAGGACTTAATTACCCCCT
GGCGTCCCGACTCCAAATCATCAACAATCTCGCCAATCTTTATCGCAATC
AGAAGGAATTTCACCAAGCAGAGAGTCTATATCAGCGTGCTCTGGCTGGA
TTTGAGGAGACGCACGGACCGCGAAGTGAGTCCATTCTGGCAATTCTTGG
CAACCTGGGAAATCTCTACAGCGATCAAAGAAAATTCGCGGAGGCAGAGG
AGGTGTATCGCAGAGCATTGATGGGATTTGAAAATGCTCTTGGCCATAGT
AGCTCTTCGACGCTCAAAATTGTCCTCAATCTGGGGACTCTTTACACTGA
CCAAGGTAAATGGAAGGAAGCCAAACAGATGTTTCGCCGGGCAGTGAATA
GTCTTCACAGGACTCTAGATTTCAATGACCCGGCAACTCTGACGGTGGTT
GTGAACATAGGGGATCTTTGCATCAAATCCGGGAAGTCCAGAAAGGCGAA
ACGAATCTATGAGGATGCGTTGTTATGAATGGCCGCGGCGGAAGCGATGC
TGGATGAGGTGCATCCTGTCCCACCTGTTGACAAATCCGATCAAAACACT
TACATAGTGGGGGCAATTCACGAACACAACGTTGTTATCGCCTCCCTACC
CTTCGGAGTATATGGTACCATATCCGCAGCGGTTGTCGCGAGCCAACTCC
GCGCCTCCTTCCCGTCTGTCCGAATTAGGTTAATGGTCGGAATTGGTGGA
GGGGTGCCTGTATCCGACAATTCTTCAACGGAAGATGATATTCGGCTGGG
GGATGTGGTCGTCAGCAAACCGTCGGGGACCTCAGGCGGAGTGATCCAGT
ACGACTTTGGTAAAACCGGTCGAGAAGGCCGGTTTCACCGAATCTCGTGC
CTCAATAAACCTCCTCAGATATTGTTGACTGCCATAGCAAAATTGGAAGC
CGGTCATATAGGACATGAAAGCAGAATTTCGGATATCCTAGCCGATTTGC
AGTCGAGGCAACCTGGTGTAGCTGCCAAGTTCAGATATCCTGGTCCGCAA
TGCGACCAACTTTTCCCTGCAGAGTATGAGCATTTCGAAGAGAGCAGTAC
GTGTGAGAGATGCGATCAAAGCAAACTCATTGCTCGACAGGACCGAGCTT
CAACACATCCTAAGATTCACTACGGGTTGATTGCCTCAGGAAATCAGGTG
ATGAAACACGGAATAACGCGAGATCGCCTGGCAGGAGAATTGGATGTCAA
ATGCTTCGAAATGGAAGCCGCCGGGTTGATGGATCATTTCCCCTGTCTAG
TGGTTCGTGGGATATGCGACTATTGCGATTCGCACAAGAACAAGAGATGG
CAGCCATACGCCGCGGCTACCGCCGCGGCCTATGCGAAGGAGCTTCTCTC
AGTGATCCCGGGCGCTCCCAAGTCTGACGAAGGTAGAAACGAGCCGTTTC
GGGTTCCATTTGACTTGACAGGCATCCCAGTCATGAATGGATTTCTTGGT
CGTCGGGGAGACTTACTCCGGTTATGGAATTGTTTACAGCCGGGAAAACG
AAACCAGCAAAAGGTAGTGGTCATTCAAGGACTTGGGGGGATGGGAAAGA
CACAGCTGGCCGTTGAATTTGCCCGACGTCACAAGAACGACTTTACAGCC
GTTCTTTGGGTCAATGGGCAGAGCAGAGAAACGGTTCTTCATTCAATGGT
ATCGATTTTGTCGAGGCTGCCTGGTATACAAGGATTCAAAGATGAATTTG
CGGAGGAAAGCATTGAGGAAAAGGCCAGCCATACTCTCCGCTGGCTTAGC
ATGAATGAAAATTCCAAGTGGCTACTTGTGTTTGACAATGTCGATCATGA
CGGTGAAAATATTTGCGACTCCTTCCCACCGGCTGATCATGGATCAATTT
TGATCACTACCCGCCATGCGAAGCTGGCACGACTTGGTAATTACCAGCAG
ATTAGGCGACTTCCCACTGAAGAAGCGATGCAGCTTCTGGTGAACTGCTC
GGGATATGAGATTGCACGTGAGAAATCTGCCCCAACAGTCAACAACGAAG
CAAAAGACCTCGTCAATCGACTGGGGTGCCTACCCCTTGCTATCGTAATG
GCCGGCTCCTACATTCACGGTACCGGAATAAGCTTCCGGAATTACCTGCG
CCATTATGAACAGTCGTGGAAAAGAATGCAACAGACGACCACAGCCCACC
TCGAATACTCGAACGGGAACCTCTTGACAACATGGAAGATTTCCTACGAC
GAAGTACGCAAAAGAAATGCAGCGGCTGCGAACTTACTGCTGCTTCTTTC
TTACTTCGATAATCAAGACGTCTGGTTCCAGCTAATAAGGAGTGGAAATA
TTGCAATTTGCAGTATAATCCCCCAGTGGTTCCAAAGTATAGTTTCAGAT
GAAACAAGCTTTCTCGCCAACGTCAATTTGCTGATTTCATTTTCTTTGGT
GGAGTCAAATCCACAATGTTCCAGCTACTCCGTGCACCCCGTGGTTCACG
ACTGGTGTCACTACGAACTACTGGGCGAACTGGATCAGCCCACGCGTATG
CAACTCAGGATGACTGCCCTTGCTGCAATCGGACATGCCGTGCCCTCGGT
CGCTGAGAAGCAACACTGGGTTTTGCAGCAGCGCGTCCTCCCCCACGCCA
ACCGGATGCTGGCTTGTCTTTCAAAGAGCCCTTCAATACCACAGGAGCCG
GCACTGATCCAAGCGCTTCATAACTTGGGGCTTCTATACAAAAGTCAACG
AAAGCCGAACGAGGCCAAGCAAATGTACCAGCTTGCTCTGACCCGGCTGG
AAACTTCGGCAGGACTTAATTACCCCCTGGCGTCCCGACTCCAAATCATC
AACAATCTCGCCAATCTTTATCGCAATCAGAAGGAATTTCACCAAGCAGA
GAGTCTATATCAGCGTGCTCTGGCTGGATTTGAGGAGACGCACGGACCGC
GAAGTGAGTCCATTCTGGCAATTCTTGGCAACCTGGGAAATCTCTACAGC
GATCAAAGAAAATTCGCGGAGGCAGAGGAGGTGTATCGCAGAGCATTGAT
GGGATTTGAAAATGCTCTTGGCCATAGTAGCTCTTCGACGCTCAAAATTG
TCCTCAATCTGGGGACTCTTTACACTGACCAAGGTAAATGGAAGGAAGCC
AAACAGATGTTTCGCCGGGCAGTGAATAGTCTTCACAGGACTCTAGATTT
CAATGACCCGGCAACTCTGACGGTGGTTGTGAACATAGGGGATCTTTGCA
TCAAATCCGGGAAGTCCAGAAAGGCGAAACGAATCTATGAGGATGCGTTG
TTATGAATGGCCGCGGCGGAAGCGATGCTGGATGAGGTGCATCCTGTCCC
ACCTGTTGACAAATCCGATCAAAACACTTACATAGTGGGGGCAATTCACG
AACACAACGTTGTTATCGCCTCCCTACCCTTCGGAGTATATGGTACCATA
TCCGCAGCGGTTGTCGCGAGCCAACTCCGCGCCTCCTTCCCGTCTGTCCG
AATTAGGTTAATGGTCGGAATTGGTGGAGGGGTGCCTGTATCCGACAATT
CTTCAACGGAAGATGATATTCGGCTGGGGGATGTGGTCGTCAGCAAACCG
TCGGGGACCTCAGGCGGAGTGATCCAGTACGACTTTGGTAAAACCGGTCG
AGAAGGCCGGTTTCACCGAATCTCGTGCCTCAATAAACCTCCTCAGATAT
TGTTGACTGCCATAGCAAAATTGGAAGCCGGTCATATAGGACATGAAAGC
AGAATTTCGGATATCCTAGCCGATTTGCAGTCGAGGCAACCTGGTGTAGC
TGCCAAGTTCAGATATCCTGGTCCGCAATGCGACCAACTTTTCCCTGCAG
AGTATGAGCATTTCGAAGAGAGCAGTACGTGTGAGAGATGCGATCAAAGC
AAACTCATTGCTCGACAGGACCGAGCTTCAACACATCCTAAGATTCACTA
CGGGTTGATTGCCTCAGGAAATCAGGTGATGAAACACGGAATAACGCGAG
ATCGCCTGGCAGGAGAATTGGATGTCAAATGCTTCGAAATGGAAGCCGCC
GGGTTGATGGATCATTTCCCCTGTCTAGTGGTTCGTGGGATATGCGACTA
TTGCGATTCGCACAAGAACAAGAGATGGCAGCCATACGCCGCGGCTACCG
CCGCGGCCTATGCGAAGGAGCTTCTCTCAGTGATCCCGGGCGCTCCCAAG
TCTGACGAAGGTAGAAACGAGCCGTTTCGGGTTCCATTTGACTTGACAGG
CATCCCAGTCATGAATGGATTTCTTGGTCGTCGGGGAGACTTACTCCGGT
TATGGAATTGTTTACAGCCGGGAAAACGAAACCAGCAAAAGGTAGTGGTC
ATTCAAGGACTTGGGGGGATGGGAAAGACACAGCTGGCCGTTGAATTTGC
CCGACGTCACAAGAACGACTTTACAGCCGTTCTTTGGGTCAATGGGCAGA
GCAGAGAAACGGTTCTTCATTCAATGGTATCGATTTTGTCGAGGCTGCCT
GGTATACAAGGATTCAAAGATGAATTTGCGGAGGAAAGCATTGAGGAAAA
GGCCAGCCATACTCTCCGCTGGCTTAGCATGAATGAAAATTCCAAGTGGC
TACTTGTGTTTGACAATGTCGATCATGACGGTGAAAATATTTGCGACTCC
TTCCCACCGGCTGATCATGGATCAATTTTGATCACTACCCGCCATGCGAA
GCTGGCACGACTTGGTAATTACCAGCAGATTAGGCGACTTCCCACTGAAG
AAGCGATGCAGCTTCTGGTGAACTGCTCGGGATATGAGATTGCACGTGAG
AAATCTGCCCCAACAGTCAACAACGAAGCAAAAGACCTCGTCAATCGACT
GGGGTGCCTACCCCTTGCTATCGTAATGGCCGGCTCCTACATTCACGGTA
CCGGAATAAGCTTCCGGAATTACCTGCGCCATTATGAACAGTCGTGGAAA
AGAATGCAACAGACGACCACAGCCCACCTCGAATACTCGAACGGGAACCT
CTTGACAACATGGAAGATTTCCTACGACGAAGTACGCAAAAGAAATGCAG
CGGCTGCGAACTTACTGCTGCTTCTTTCTTACTTCGATAATCAAGACGTC
TGGTTCCAGCTAATAAGGAGTGGAAATATTGCAATTTGCAGTATAATCCC
CCAGTGGTTCCAAAGTATAGTTTCAGATGAAACAAGCTTTCTCGCCAACG
TCAATTTGCTGATTTCATTTTCTTTGGTGGAGTCAAATCCACAATGTTCC
AGCTACTCCGTGCACCCCGTGGTTCACGACTGGTGTCACTACGAACTACT
GGGCGAACTGGATCAGCCCACGCGTATGCAACTCAGGATGACTGCCCTTG
CTGCAATCGGACATGCCGTGCCCTCGGTCGCTGAGAAGCAACACTGGGTT
TTGCAGCAGCGCGTCCTCCCCCACGCCAACCGGATGCTGGCTTGTCTTTC
AAAGAGCCCTTCAATACCACAGGAGCCGGCACTGATCCAAGCGCTTCATA
ACTTGGGGCTTCTATACAAAAGTCAACGAAAGCCGAACGAGGCCAAGCAA
ATGTACCAGCTTGCTCTGACCCGGCTGGAAACTTCGGCAGGACTTAATTA
CCCCCTGGCGTCCCGACTCCAAATCATCAACAATCTCGCCAATCTTTATC
GCAATCAGAAGGAATTTCACCAAGCAGAGAGTCTATATCAGCGTGCTCTG
GCTGGATTTGAGGAGACGCACGGACCGCGAAGTGAGTCCATTCTGGCAAT
TCTTGGCAACCTGGGAAATCTCTACAGCGATCAAAGAAAATTCGCGGAGG
CAGAGGAGGTGTATCGCAGAGCATTGATGGGATTTGAAAATGCTCTTGGC
CATAGTAGCTCTTCGACGCTCAAAATTGTCCTCAATCTGGGGACTCTTTA
CACTGACCAAGGTAAATGGAAGGAAGCCAAACAGATGTTTCGCCGGGCAG
TGAATAGTCTTCACAGGACTCTAGATTTCAATGACCCGGCAACTCTGACG
GTGGTTGTGAACATAGGGGATCTTTGCATCAAATCCGGGAAGTCCAGAAA
GGCGAAACGAATCTATGAGGATGCGTTGTTATGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0009116 | nucleoside metabolic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0043531 | ADP binding |
| GO:0003824 | catalytic activity |
| GO:0005515 | protein binding |
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:IPR027417 |
| DBxref | InterPro:IPR035994 |
| DBxref | InterPro:IPR013026 |
| DBxref | InterPro:IPR002182 |
| DBxref | InterPro:IPR011990 |
| DBxref | InterPro:IPR000845 |
| DBxref | InterPro:IPR019734 |
| DBxref | PFAM:PF17874 |
| DBxref | PFAM:PF13181 |
| DBxref | PFAM:PF13176 |
| DBxref | PFAM:PF13424 |
| DBxref | PFAM:PF13374 |
| DBxref | PFAM:PF01048 |
| DBxref | PFAM:PF00931 |
| Product | Tetratricopeptide repeat 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 |
|---|
| NKJJ01000022.1 | supercontig | NKJJ01000022.1:3960143..3963057 + |
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