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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000009.1:77917..80000- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_10520-T1 ID=CAN33_10520-T1|Name=CAN33_10520-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2084bp|location=Sequence derived from alignment at NKJJ01000009.1:77917..80000- (Aspergillus niger FDAARGOS_311)
ATGACATATCCTAATGGTGACGCTCCTTCGGCTCTCTCGAACTCAACGCA
GGGGGGTCCGAACGGAGCCAAACCACAGGCCTTCAATAAGTCGCATGAAG
TAGAGGAGCCTCCTCCACAGTCAGGTATGTATCTTACCTGGATTAATCAC
TCTGTGGGATCTTTGGTAGAACTGAAATCTCGCTCAGTGTCGATAACTAC
CACTTCCCGCGAAGCTCCTCGATCGGATAATGAACAACAACATCCCAAAA
CACAGGCCCAGATGGCTCAGGCCGCACATGGAGGAGCGCCCTCTCTTAGC
ATGCGGGACATGAGATCCGCGTTGCCTGGGTATCAGAATCATTCCATCCT
TTATGAGCAGCATCATATTCAGCAGCCCTTTGTTCCGACGGCTCACCCTC
ATGGCGTTGTCTACGCAATGCCGCCATTACCGTCATTCACAGGACCGCCA
ATAAATCCTAATATGGCCTTTAATGGTCCCTTCAATCAGGTATACACGCC
TTATCTTCAGCAGCAACCTGAGGACCCTCTTCTGCCTCCTGGTGCGGCGG
GCTATCAGTCCTTGGGGCCCCATTCAGCCGCTCACATGAATGTCCATATA
CCTGGCCAATCTGGATATGGACCGAACTATTACACCCAGACCGCATACAC
GGCAGCCCTTGGACACGGCCCGGGACCTCCGACTACATCATCTCCAGTGC
AAGTGCAACCACGCGTTCAGCCTCGGAACACATCGGGTCCAAAAACTAAA
TTGGCATCCGGCTTGGGGAAAGAAAACAGGCAACGGCGTCTGGATCTGGA
ATATGACGTCTCAAAGACCATCGTGGACGGATCAACACCTATGAGGCCCC
ACCCTGTTCAAACATTTTCTGCTGGTAAGTCTGGGCCTGACCATGCGAGA
AGCGAGTTATGTGTTTTTGACATGACTGCGGTGCACCAGACTCAGGATCG
CATTCGTCTAATACCACTACGTCAAGTGCTCCAAGAGGACCGCCGCGAAA
GCCAAAGCAATCTGGGCATGCACTGTGGGTCGGCAATCTTCCTCCCGGTA
CCAATATCGTTGACTTGAAGGACTACTTTTCTCAGGACGCCACAAAGGAA
CTGGAAAGCGTCTTCCTCATCTCGAAGAGTAACTGCGCTTTTATCAATTA
CAAAACGGAGGCCGCCTGTGCCGCGGCATTGTCAAGGTTCAACGATTCTA
GATTCCATGGAGCACGTCTTGTATGTCGGCTACGCCAGGGGGCTGTTCCT
CTGGGGTCTAATGCTGAAGCTATGGGTTCTTCTACCCCTGCTATATATCA
GGATGAAGAAACCAAGTTATCGGACGCTGTGACTGAGAACAAGGCTACAG
AAGGTAGCCTTTCGCACAGTCGAGTCCCTAGCAGATACTTCATAGTCAAA
AGTTTAACTGTTGATGATCTCGAACTCAGTCGACAGAACAACATCTGGGC
CACTCAAACTCATAATGAGAAGCAGCTAAACGAAGCTTACGAGGTGAGCT
CTGTGCCCCCACCTATTATATCCATATCAGTAGGGGAGAATGATCGGTCG
CTGACAACTCAACCAGAATGCTGATGATGTCTATCTCATCTTTTCCGCCA
ATAAGTCAGGTGAATATTATGGATATGCCCGTATGATGTCGCCGATACAA
GATGACGAGAACTTGGCGTTGGAGATGCCCTCGCGGTTGGACAACCCCCG
GATCCCGAGACTCTAGACGTGACGCCCACTCCAGCAACATCCACTGCGCC
TAACGGACGAATAATCAATGACTCTGCGCGGGGGACCATATTCTGGGAGG
CGGAAACCTCAGAGGATGAGAGCGGTACGAGCAAGGAGAAGGAGAAGGAG
AAGGTTATTCACGAAAAACCGGAAGAAGCTACAGATACGGGGGCACAATT
GATTGGGAAGCCGTTCAGGATCCGATGGCTCTCGACTACACGAGTCCCTT
TTCATCGTACGAGAGGGTTGCGGAATCCCTGGAACTCGAACCGAGAAGTG
AAGATCGCTCGCGACGGTACGGAGATCGAGCCGGAGGTGGGGTGGAAACT
TTTGCAGTTATTCCACTCTCAGCCTCAAGACTAG back to topCoding sequence (CDS) from alignment at NKJJ01000009.1:77917..80000- >CAN33_10520-T1 ID=CAN33_10520-T1|Name=CAN33_10520-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9090bp|location=Sequence derived from alignment at NKJJ01000009.1:77917..80000- (Aspergillus niger FDAARGOS_311)
ATGCCCTCGCGGTTGGACAACCCCCGGATCCCGAGACTCTAGACGTGACG
CCCACTCCAGCAACATCCACTGCGCCTAACGGACGAATAATCAATGACTC
TGCGCGGGGGACCATATTCTGGGAGGCGGAAACCTCAGAGGATGAGAGCG
GTACGAGCAAGGAGAAGGAGAAGGAGAAGGTTATTCACGAAAAACCGGAA
GAAGCTACAGATACGGGGGCACAATTGATTGGGAAGCCGTTCAGGATCCG
ATGGCTCTCGACTACACGAGTCCCTTTTCATCGTACGAGAGGGTTGCGGA
ATCCCTGGAACTCGAACCGAGAAGTGAAGATCGCTCGCGACGGTACGGAG
ATCGAGCCGGAGGTGGGGTGGAAACTTTTGCAGTTATTCCACTCTCAGCC
TCAAGACTAGAATGCTGATGATGTCTATCTCATCTTTTCCGCCAATAAGT
CAGACTCAGGATCGCATTCGTCTAATACCACTACGTCAAGTGCTCCAAGA
GGACCGCCGCGAAAGCCAAAGCAATCTGGGCATGCACTGTGGGTCGGCAA
TCTTCCTCCCGGTACCAATATCGTTGACTTGAAGGACTACTTTTCTCAGG
ACGCCACAAAGGAACTGGAAAGCGTCTTCCTCATCTCGAAGAGTAACTGC
GCTTTTATCAATTACAAAACGGAGGCCGCCTGTGCCGCGGCATTGTCAAG
GTTCAACGATTCTAGATTCCATGGAGCACGTCTTGTATGTCGGCTACGCC
AGGGGGCTGTTCCTCTGGGGTCTAATGCTGAAGCTATGGGTTCTTCTACC
CCTGCTATATATCAGGATGAAGAAACCAAGTTATCGGACGCTGTGACTGA
GAACAAGGCTACAGAAGGTAGCCTTTCGCACAGTCGAGTCCCTAGCAGAT
ACTTCATAGTCAAAAGTTTAACTGTTGATGATCTCGAACTCAGTCGACAG
AACAACATCTGGGCCACTCAAACTCATAATGAGAAGCAGCTAAACGAAGC
TTACGAGTGTCGATAACTACCACTTCCCGCGAAGCTCCTCGATCGGATAA
TGAACAACAACATCCCAAAACACAGGCCCAGATGGCTCAGGCCGCACATG
GAGGAGCGCCCTCTCTTAGCATGCGGGACATGAGATCCGCGTTGCCTGGG
TATCAGAATCATTCCATCCTTTATGAGCAGCATCATATTCAGCAGCCCTT
TGTTCCGACGGCTCACCCTCATGGCGTTGTCTACGCAATGCCGCCATTAC
CGTCATTCACAGGACCGCCAATAAATCCTAATATGGCCTTTAATGGTCCC
TTCAATCAGGTATACACGCCTTATCTTCAGCAGCAACCTGAGGACCCTCT
TCTGCCTCCTGGTGCGGCGGGCTATCAGTCCTTGGGGCCCCATTCAGCCG
CTCACATGAATGTCCATATACCTGGCCAATCTGGATATGGACCGAACTAT
TACACCCAGACCGCATACACGGCAGCCCTTGGACACGGCCCGGGACCTCC
GACTACATCATCTCCAGTGCAAGTGCAACCACGCGTTCAGCCTCGGAACA
CATCGGGTCCAAAAACTAAATTGGCATCCGGCTTGGGGAAAGAAAACAGG
CAACGGCGTCTGGATCTGGAATATGACGTCTCAAAGACCATCGTGGACGG
ATCAACACCTATGAGGCCCCACCCTGTTCAAACATTTTCTGCTGATGACA
TATCCTAATGGTGACGCTCCTTCGGCTCTCTCGAACTCAACGCAGGGGGG
TCCGAACGGAGCCAAACCACAGGCCTTCAATAAGTCGCATGAAGTAGAGG
AGCCTCCTCCACAGTCAGATGCCCTCGCGGTTGGACAACCCCCGGATCCC
GAGACTCTAGACGTGACGCCCACTCCAGCAACATCCACTGCGCCTAACGG
ACGAATAATCAATGACTCTGCGCGGGGGACCATATTCTGGGAGGCGGAAA
CCTCAGAGGATGAGAGCGGTACGAGCAAGGAGAAGGAGAAGGAGAAGGTT
ATTCACGAAAAACCGGAAGAAGCTACAGATACGGGGGCACAATTGATTGG
GAAGCCGTTCAGGATCCGATGGCTCTCGACTACACGAGTCCCTTTTCATC
GTACGAGAGGGTTGCGGAATCCCTGGAACTCGAACCGAGAAGTGAAGATC
GCTCGCGACGGTACGGAGATCGAGCCGGAGGTGGGGTGGAAACTTTTGCA
GTTATTCCACTCTCAGCCTCAAGACTAGAATGCTGATGATGTCTATCTCA
TCTTTTCCGCCAATAAGTCAGACTCAGGATCGCATTCGTCTAATACCACT
ACGTCAAGTGCTCCAAGAGGACCGCCGCGAAAGCCAAAGCAATCTGGGCA
TGCACTGTGGGTCGGCAATCTTCCTCCCGGTACCAATATCGTTGACTTGA
AGGACTACTTTTCTCAGGACGCCACAAAGGAACTGGAAAGCGTCTTCCTC
ATCTCGAAGAGTAACTGCGCTTTTATCAATTACAAAACGGAGGCCGCCTG
TGCCGCGGCATTGTCAAGGTTCAACGATTCTAGATTCCATGGAGCACGTC
TTGTATGTCGGCTACGCCAGGGGGCTGTTCCTCTGGGGTCTAATGCTGAA
GCTATGGGTTCTTCTACCCCTGCTATATATCAGGATGAAGAAACCAAGTT
ATCGGACGCTGTGACTGAGAACAAGGCTACAGAAGGTAGCCTTTCGCACA
GTCGAGTCCCTAGCAGATACTTCATAGTCAAAAGTTTAACTGTTGATGAT
CTCGAACTCAGTCGACAGAACAACATCTGGGCCACTCAAACTCATAATGA
GAAGCAGCTAAACGAAGCTTACGAGTGTCGATAACTACCACTTCCCGCGA
AGCTCCTCGATCGGATAATGAACAACAACATCCCAAAACACAGGCCCAGA
TGGCTCAGGCCGCACATGGAGGAGCGCCCTCTCTTAGCATGCGGGACATG
AGATCCGCGTTGCCTGGGTATCAGAATCATTCCATCCTTTATGAGCAGCA
TCATATTCAGCAGCCCTTTGTTCCGACGGCTCACCCTCATGGCGTTGTCT
ACGCAATGCCGCCATTACCGTCATTCACAGGACCGCCAATAAATCCTAAT
ATGGCCTTTAATGGTCCCTTCAATCAGGTATACACGCCTTATCTTCAGCA
GCAACCTGAGGACCCTCTTCTGCCTCCTGGTGCGGCGGGCTATCAGTCCT
TGGGGCCCCATTCAGCCGCTCACATGAATGTCCATATACCTGGCCAATCT
GGATATGGACCGAACTATTACACCCAGACCGCATACACGGCAGCCCTTGG
ACACGGCCCGGGACCTCCGACTACATCATCTCCAGTGCAAGTGCAACCAC
GCGTTCAGCCTCGGAACACATCGGGTCCAAAAACTAAATTGGCATCCGGC
TTGGGGAAAGAAAACAGGCAACGGCGTCTGGATCTGGAATATGACGTCTC
AAAGACCATCGTGGACGGATCAACACCTATGAGGCCCCACCCTGTTCAAA
CATTTTCTGCTGATGACATATCCTAATGGTGACGCTCCTTCGGCTCTCTC
GAACTCAACGCAGGGGGGTCCGAACGGAGCCAAACCACAGGCCTTCAATA
AGTCGCATGAAGTAGAGGAGCCTCCTCCACAGTCAGATGCCCTCGCGGTT
GGACAACCCCCGGATCCCGAGACTCTAGACGTGACGCCCACTCCAGCAAC
ATCCACTGCGCCTAACGGACGAATAATCAATGACTCTGCGCGGGGGACCA
TATTCTGGGAGGCGGAAACCTCAGAGGATGAGAGCGGTACGAGCAAGGAG
AAGGAGAAGGAGAAGGTTATTCACGAAAAACCGGAAGAAGCTACAGATAC
GGGGGCACAATTGATTGGGAAGCCGTTCAGGATCCGATGGCTCTCGACTA
CACGAGTCCCTTTTCATCGTACGAGAGGGTTGCGGAATCCCTGGAACTCG
AACCGAGAAGTGAAGATCGCTCGCGACGGTACGGAGATCGAGCCGGAGGT
GGGGTGGAAACTTTTGCAGTTATTCCACTCTCAGCCTCAAGACTAGAATG
CTGATGATGTCTATCTCATCTTTTCCGCCAATAAGTCAGACTCAGGATCG
CATTCGTCTAATACCACTACGTCAAGTGCTCCAAGAGGACCGCCGCGAAA
GCCAAAGCAATCTGGGCATGCACTGTGGGTCGGCAATCTTCCTCCCGGTA
CCAATATCGTTGACTTGAAGGACTACTTTTCTCAGGACGCCACAAAGGAA
CTGGAAAGCGTCTTCCTCATCTCGAAGAGTAACTGCGCTTTTATCAATTA
CAAAACGGAGGCCGCCTGTGCCGCGGCATTGTCAAGGTTCAACGATTCTA
GATTCCATGGAGCACGTCTTGTATGTCGGCTACGCCAGGGGGCTGTTCCT
CTGGGGTCTAATGCTGAAGCTATGGGTTCTTCTACCCCTGCTATATATCA
GGATGAAGAAACCAAGTTATCGGACGCTGTGACTGAGAACAAGGCTACAG
AAGGTAGCCTTTCGCACAGTCGAGTCCCTAGCAGATACTTCATAGTCAAA
AGTTTAACTGTTGATGATCTCGAACTCAGTCGACAGAACAACATCTGGGC
CACTCAAACTCATAATGAGAAGCAGCTAAACGAAGCTTACGAGTGTCGAT
AACTACCACTTCCCGCGAAGCTCCTCGATCGGATAATGAACAACAACATC
CCAAAACACAGGCCCAGATGGCTCAGGCCGCACATGGAGGAGCGCCCTCT
CTTAGCATGCGGGACATGAGATCCGCGTTGCCTGGGTATCAGAATCATTC
CATCCTTTATGAGCAGCATCATATTCAGCAGCCCTTTGTTCCGACGGCTC
ACCCTCATGGCGTTGTCTACGCAATGCCGCCATTACCGTCATTCACAGGA
CCGCCAATAAATCCTAATATGGCCTTTAATGGTCCCTTCAATCAGGTATA
CACGCCTTATCTTCAGCAGCAACCTGAGGACCCTCTTCTGCCTCCTGGTG
CGGCGGGCTATCAGTCCTTGGGGCCCCATTCAGCCGCTCACATGAATGTC
CATATACCTGGCCAATCTGGATATGGACCGAACTATTACACCCAGACCGC
ATACACGGCAGCCCTTGGACACGGCCCGGGACCTCCGACTACATCATCTC
CAGTGCAAGTGCAACCACGCGTTCAGCCTCGGAACACATCGGGTCCAAAA
ACTAAATTGGCATCCGGCTTGGGGAAAGAAAACAGGCAACGGCGTCTGGA
TCTGGAATATGACGTCTCAAAGACCATCGTGGACGGATCAACACCTATGA
GGCCCCACCCTGTTCAAACATTTTCTGCTGATGACATATCCTAATGGTGA
CGCTCCTTCGGCTCTCTCGAACTCAACGCAGGGGGGTCCGAACGGAGCCA
AACCACAGGCCTTCAATAAGTCGCATGAAGTAGAGGAGCCTCCTCCACAG
TCAGATGCCCTCGCGGTTGGACAACCCCCGGATCCCGAGACTCTAGACGT
GACGCCCACTCCAGCAACATCCACTGCGCCTAACGGACGAATAATCAATG
ACTCTGCGCGGGGGACCATATTCTGGGAGGCGGAAACCTCAGAGGATGAG
AGCGGTACGAGCAAGGAGAAGGAGAAGGAGAAGGTTATTCACGAAAAACC
GGAAGAAGCTACAGATACGGGGGCACAATTGATTGGGAAGCCGTTCAGGA
TCCGATGGCTCTCGACTACACGAGTCCCTTTTCATCGTACGAGAGGGTTG
CGGAATCCCTGGAACTCGAACCGAGAAGTGAAGATCGCTCGCGACGGTAC
GGAGATCGAGCCGGAGGTGGGGTGGAAACTTTTGCAGTTATTCCACTCTC
AGCCTCAAGACTAGAATGCTGATGATGTCTATCTCATCTTTTCCGCCAAT
AAGTCAGACTCAGGATCGCATTCGTCTAATACCACTACGTCAAGTGCTCC
AAGAGGACCGCCGCGAAAGCCAAAGCAATCTGGGCATGCACTGTGGGTCG
GCAATCTTCCTCCCGGTACCAATATCGTTGACTTGAAGGACTACTTTTCT
CAGGACGCCACAAAGGAACTGGAAAGCGTCTTCCTCATCTCGAAGAGTAA
CTGCGCTTTTATCAATTACAAAACGGAGGCCGCCTGTGCCGCGGCATTGT
CAAGGTTCAACGATTCTAGATTCCATGGAGCACGTCTTGTATGTCGGCTA
CGCCAGGGGGCTGTTCCTCTGGGGTCTAATGCTGAAGCTATGGGTTCTTC
TACCCCTGCTATATATCAGGATGAAGAAACCAAGTTATCGGACGCTGTGA
CTGAGAACAAGGCTACAGAAGGTAGCCTTTCGCACAGTCGAGTCCCTAGC
AGATACTTCATAGTCAAAAGTTTAACTGTTGATGATCTCGAACTCAGTCG
ACAGAACAACATCTGGGCCACTCAAACTCATAATGAGAAGCAGCTAAACG
AAGCTTACGAGTGTCGATAACTACCACTTCCCGCGAAGCTCCTCGATCGG
ATAATGAACAACAACATCCCAAAACACAGGCCCAGATGGCTCAGGCCGCA
CATGGAGGAGCGCCCTCTCTTAGCATGCGGGACATGAGATCCGCGTTGCC
TGGGTATCAGAATCATTCCATCCTTTATGAGCAGCATCATATTCAGCAGC
CCTTTGTTCCGACGGCTCACCCTCATGGCGTTGTCTACGCAATGCCGCCA
TTACCGTCATTCACAGGACCGCCAATAAATCCTAATATGGCCTTTAATGG
TCCCTTCAATCAGGTATACACGCCTTATCTTCAGCAGCAACCTGAGGACC
CTCTTCTGCCTCCTGGTGCGGCGGGCTATCAGTCCTTGGGGCCCCATTCA
GCCGCTCACATGAATGTCCATATACCTGGCCAATCTGGATATGGACCGAA
CTATTACACCCAGACCGCATACACGGCAGCCCTTGGACACGGCCCGGGAC
CTCCGACTACATCATCTCCAGTGCAAGTGCAACCACGCGTTCAGCCTCGG
AACACATCGGGTCCAAAAACTAAATTGGCATCCGGCTTGGGGAAAGAAAA
CAGGCAACGGCGTCTGGATCTGGAATATGACGTCTCAAAGACCATCGTGG
ACGGATCAACACCTATGAGGCCCCACCCTGTTCAAACATTTTCTGCTGAT
GACATATCCTAATGGTGACGCTCCTTCGGCTCTCTCGAACTCAACGCAGG
GGGGTCCGAACGGAGCCAAACCACAGGCCTTCAATAAGTCGCATGAAGTA
GAGGAGCCTCCTCCACAGTCAGATGCCCTCGCGGTTGGACAACCCCCGGA
TCCCGAGACTCTAGACGTGACGCCCACTCCAGCAACATCCACTGCGCCTA
ACGGACGAATAATCAATGACTCTGCGCGGGGGACCATATTCTGGGAGGCG
GAAACCTCAGAGGATGAGAGCGGTACGAGCAAGGAGAAGGAGAAGGAGAA
GGTTATTCACGAAAAACCGGAAGAAGCTACAGATACGGGGGCACAATTGA
TTGGGAAGCCGTTCAGGATCCGATGGCTCTCGACTACACGAGTCCCTTTT
CATCGTACGAGAGGGTTGCGGAATCCCTGGAACTCGAACCGAGAAGTGAA
GATCGCTCGCGACGGTACGGAGATCGAGCCGGAGGTGGGGTGGAAACTTT
TGCAGTTATTCCACTCTCAGCCTCAAGACTAGAATGCTGATGATGTCTAT
CTCATCTTTTCCGCCAATAAGTCAGACTCAGGATCGCATTCGTCTAATAC
CACTACGTCAAGTGCTCCAAGAGGACCGCCGCGAAAGCCAAAGCAATCTG
GGCATGCACTGTGGGTCGGCAATCTTCCTCCCGGTACCAATATCGTTGAC
TTGAAGGACTACTTTTCTCAGGACGCCACAAAGGAACTGGAAAGCGTCTT
CCTCATCTCGAAGAGTAACTGCGCTTTTATCAATTACAAAACGGAGGCCG
CCTGTGCCGCGGCATTGTCAAGGTTCAACGATTCTAGATTCCATGGAGCA
CGTCTTGTATGTCGGCTACGCCAGGGGGCTGTTCCTCTGGGGTCTAATGC
TGAAGCTATGGGTTCTTCTACCCCTGCTATATATCAGGATGAAGAAACCA
AGTTATCGGACGCTGTGACTGAGAACAAGGCTACAGAAGGTAGCCTTTCG
CACAGTCGAGTCCCTAGCAGATACTTCATAGTCAAAAGTTTAACTGTTGA
TGATCTCGAACTCAGTCGACAGAACAACATCTGGGCCACTCAAACTCATA
ATGAGAAGCAGCTAAACGAAGCTTACGAGTGTCGATAACTACCACTTCCC
GCGAAGCTCCTCGATCGGATAATGAACAACAACATCCCAAAACACAGGCC
CAGATGGCTCAGGCCGCACATGGAGGAGCGCCCTCTCTTAGCATGCGGGA
CATGAGATCCGCGTTGCCTGGGTATCAGAATCATTCCATCCTTTATGAGC
AGCATCATATTCAGCAGCCCTTTGTTCCGACGGCTCACCCTCATGGCGTT
GTCTACGCAATGCCGCCATTACCGTCATTCACAGGACCGCCAATAAATCC
TAATATGGCCTTTAATGGTCCCTTCAATCAGGTATACACGCCTTATCTTC
AGCAGCAACCTGAGGACCCTCTTCTGCCTCCTGGTGCGGCGGGCTATCAG
TCCTTGGGGCCCCATTCAGCCGCTCACATGAATGTCCATATACCTGGCCA
ATCTGGATATGGACCGAACTATTACACCCAGACCGCATACACGGCAGCCC
TTGGACACGGCCCGGGACCTCCGACTACATCATCTCCAGTGCAAGTGCAA
CCACGCGTTCAGCCTCGGAACACATCGGGTCCAAAAACTAAATTGGCATC
CGGCTTGGGGAAAGAAAACAGGCAACGGCGTCTGGATCTGGAATATGACG
TCTCAAAGACCATCGTGGACGGATCAACACCTATGAGGCCCCACCCTGTT
CAAACATTTTCTGCTGATGACATATCCTAATGGTGACGCTCCTTCGGCTC
TCTCGAACTCAACGCAGGGGGGTCCGAACGGAGCCAAACCACAGGCCTTC
AATAAGTCGCATGAAGTAGAGGAGCCTCCTCCACAGTCAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003723 | RNA binding |
| GO:0003676 | nucleic acid binding |
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 |
| DBxref | InterPro:IPR035979 |
| DBxref | InterPro:IPR007275 |
| DBxref | InterPro:IPR012677 |
| DBxref | InterPro:IPR000504 |
| DBxref | PFAM:PF04146 |
| DBxref | PFAM:PF00076 |
| Product | YT521-B-like domain 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 |
|---|
| NKJJ01000009.1 | supercontig | NKJJ01000009.1:77917..80000 - |
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