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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000020.1:1995497..1997867+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_53215-T1 ID=CAN33_53215-T1|Name=CAN33_53215-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2371bp|location=Sequence derived from alignment at NKJJ01000020.1:1995497..1997867+ (Aspergillus niger FDAARGOS_311)
ATGCTGTCCACGGCGCACAGCAACCTTCATGAGCGACATCGACAACACAG
GCGGCAGATCTCGACGCCGTCCGCTCTTGATGCCGTGAAAGCCCCCAGCC
TTCCGGCGCAAGCGATGCATCGTTATCATGCCCATCGTCGAGGACAGAGC
TTTGACAACAGAGCTTTGCGCGTCCAGCGATCGCAATCCATGCAAGATGG
TACAAATCATACTACTAACTCTACAGTACCGCAGCAGCACCATTCGAATA
TGCTCGGGGACAGCCAACACCAACGATACCTGTGTGTAGCGCAGCCGTCG
TTTCCCCAGCAATCAGCCCCCATGCCCATGATCCCCGACTGTTTCACCCC
GGAAGAGGTGCAAAACCTTCAAAGTCACAATGGCCAGGACAGTCAACCAA
GCATGGCCTACCTGAATGCGCCCTTCGCAAAGGACGTTCCGCACATGAAC
ATGCAGTTCGATCTGATGCAACAACAACAGATGCACAGCGCTAAGGTCCC
GTGCGGGTCTGGAACGGAAGGTCAATTTTTCGAGACGGGACTTTGGGACT
TTTACCAGCCAACTTTTCCCCCTCACGCTGATGTAAGGAAGTTATCGGTG
CAGTCGGATGCTACTCCGTCTCAGCACCCGCATACGCCTAAGCCCGGCAA
TACACGTACGTTTATGGCTCTGTCGGCTCTTTTCTATGCACAACTTGCTA
ATCTGTTGTGTAGACTATGCCCCGATTACACCAGCAACAACACCATTCAA
GCAAACCGTGGGCCTAGCTCAGTACGGTGGGGACATCCAGTCAGGATCCA
CCAAAGACCAGGGTAGCGCGATGCCCGGATCAGCCCAGTCGTCGTACATG
CAGCGAGCAAAGTCTCTCCAAGGCGTGGCTGGAACCACTTTCACGCAGCA
GAAGTTTGATGTCTCTACCCCCCCGAACACAGCATCATTTGAAGTGGATA
ACTTTGATACTTTTAACTATGAGCAGGGTTCTAGCTTTGAGGTTCCTAAA
TCGGAAAGTCTGTCACAAAGCCAGTATGCATCGTCGTCGTCGGCATCATC
ATCCTTCATGTCATCTCCCGAGCTTGCGGCTATGCCTTGCCCCGAAGATG
GAGGTGCAAAGACCCCCAAAATCCCTATCTATCCCGCCACTCCCAGCCGT
CCGCATCACAGGAAAACGCCCAGTGCAACACCTAGCTCATCGGCCAAGCC
AAAGCTTTCTCCGCGCGTCGCGTCTATCGATAACCTGAACCTCGACGCTC
GCGTGCAAGCATCAATCAAAGAAACGGGTGTCACCATTGACGAGATTGCG
TCGTACATTCATGGGCCGGACCCGGAGGACGGGAAATGGGTATGCCTGCA
CCCCGGCTGCGAGCGCCGCTTTGGAAGAAAAGAGAATATCAAGTCACATG
TCCAGACTCACCTGGGCGACCGCCAGTACAAGTGCGATCATTGCAATAAG
TGCTTTGTTCGCGGCCATGACCTTAAGCGTCATGCTAAGATCCATACCGG
CGACAAGCCTTACGAGTGCCTCTGTGGAAATGTATTTGCGAGACACGACG
CCTTGACTCGACACAGACAGCGGGGTATGTGCATTGGCGGCTACAAGGGA
ATTGTGCGCAAGACAACGAAACGGGGTCGTCCGAAGAAGCACCGACCAGA
GATGGATGAGAGACAAGACAAAGCATCGAGAACGCGTCAGAGGATTGCAG
AGAAGTCATCTTTCGACTCGTCCACATCCGAGTCCTCACGCAACACGCCT
CCTTCCGAAGTTTTCGAAAACATGAGCCTGCATGGTTCTAGCCCGGCGGA
AGAGATGCCAGTGTTCAACAACCCCAACTACTCGTTGCCACCAGAGGTTT
TCACATTCACGCCTCCTGCATCTCCCGGTTACAGCGTGGGAATCAAGCCA
TCGCCTTCTCGGGACGAGCGATCGATCACCCCCAGCTCAGAAGATGAAAT
GCTTCCTTCCTCGCCATCAAAGCAGCCCCTCGAGAGCCTCGTCACGGACT
CCAGCTTGCCTTACATGTCTGATCCGGAGACATGCCCGTACACAGATGCT
TCCGGCGCTGCTAGCCATTCTCTATCTTCACCCCATGCCGCTCCCACCCT
GTCAGAATCGTCTAACGGCTCGGATCTCGACATTTTTATTAGCCAGGATT
CGACCTCTGGTTTTGGAAAGCCCGAGTTTGGAGACCTGGCTGATCCCGAC
ATGGCCCCGTTCCCAGACTATGTGAACACGACGTCCTTTGAAGGTGGTCT
GGAACTGTTCCCCAACAAGCCCTTCTCCTCGGGCCCCGTCATGGCCGACG
ACTTCTTCTTCCAATTTCAAGTGGACGAACAAGCCTCGGATGTTATGACC
AAAGAATTCTTCATGGACTAA back to topCoding sequence (CDS) from alignment at NKJJ01000020.1:1995497..1997867+ >CAN33_53215-T1 ID=CAN33_53215-T1|Name=CAN33_53215-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8820bp|location=Sequence derived from alignment at NKJJ01000020.1:1995497..1997867+ (Aspergillus niger FDAARGOS_311)
ATGCTGTCCACGGCGCACAGCAACCTTCATGAGCGACATCGACAACACAG
GCGGCAGATCTCGACGCCGTCCGCTCTTGATGCCGTGAAAGCCCCCAGCC
TTCCGGCGCAAGCGATGCATCGTTATCATGCCCATCGTCGAGGACAGAGC
TTTGACAACAGAGCTTTGCGCGTCCAGCGATCGCAATCCATGCAAGATGT
ACCGCAGCAGCACCATTCGAATATGCTCGGGGACAGCCAACACCAACGAT
ACCTGTGTGTAGCGCAGCCGTCGTTTCCCCAGCAATCAGCCCCCATGCCC
ATGATCCCCGACTGTTTCACCCCGGAAGAGGTGCAAAACCTTCAAAGTCA
CAATGGCCAGGACAGTCAACCAAGCATGGCCTACCTGAATGCGCCCTTCG
CAAAGGACGTTCCGCACATGAACATGCAGTTCGATCTGATGCAACAACAA
CAGATGCACAGCGCTAAGGTCCCGTGCGGGTCTGGAACGGAAGGTCAATT
TTTCGAGACGGGACTTTGGGACTTTTACCAGCCAACTTTTCCCCCTCACG
CTGATGTAAGGAAGTTATCGGTGCAGTCGGATGCTACTCCGTCTCAGCAC
CCGCATACGCCTAAGCCCGGCAATACACACTATGCCCCGATTACACCAGC
AACAACACCATTCAAGCAAACCGTGGGCCTAGCTCAGTACGGTGGGGACA
TCCAGTCAGGATCCACCAAAGACCAGGGTAGCGCGATGCCCGGATCAGCC
CAGTCGTCGTACATGCAGCGAGCAAAGTCTCTCCAAGGCGTGGCTGGAAC
CACTTTCACGCAGCAGAAGTTTGATGTCTCTACCCCCCCGAACACAGCAT
CATTTGAAGTGGATAACTTTGATACTTTTAACTATGAGCAGGGTTCTAGC
TTTGAGCTTGCGGCTATGCCTTGCCCCGAAGATGGAGGTGCAAAGACCCC
CAAAATCCCTATCTATCCCGCCACTCCCAGCCGTCCGCATCACAGGAAAA
CGCCCAGTGCAACACCTAGCTCATCGGCCAAGCCAAAGCTTTCTCCGCGC
GTCGCGTCTATCGATAACCTGAACCTCGACGCTCGCGTGCAAGCATCAAT
CAAAGAAACGGGTGTCACCATTGACGAGATTGCGTCGTACATTCATGGGC
CGGACCCGGAGGACGGGAAATGGGTATGCCTGCACCCCGGCTGCGAGCGC
CGCTTTGGAAGAAAAGAGAATATCAAGTCACATGTCCAGACTCACCTGGG
CGACCGCCAGTACAAGTGCGATCATTGCAATAAGTGCTTTGTTCGCGGCC
ATGACCTTAAGCGTCATGCTAAGATCCATACCGGCGACAAGCCTTACGAG
TGCCTCTGTGGAAATGTATTTGCGAGACACGACGCCTTGACTCGACACAG
ACAGCGGGGTATGTGCATTGGCGGCTACAAGGGAATTGTGCGCAAGACAA
CGAAACGGGGTCGTCCGAAGAAGCACCGACCAGAGATGGATGAGAGACAA
GACAAAGCATCGAGAACGCGTCAGAGGATTGCAGAGAAGTCATCTTTCGA
CTCGTCCACATCCGAGTCCTCACGCAACACGCCTCCTTCCGAAGTTTTCG
AAAACATGAGCCTGCATGGTTCTAGCCCGGCGGAAGAGATGCCAGTGTTC
AACAACCCCAACTACTCGTTGCCACCAGAGGTTTTCACATTCACGCCTCC
TGCATCTCCCGGTTACAGCGTGGGAATCAAGCCATCGCCTTCTCGGGACG
AGCGATCGATCACCCCCAGCTCAGAAGATGAAATGCTTCCTTCCTCGCCA
TCAAAGCAGCCCCTCGAGAGCCTCGTCACGGACTCCAGCTTGCCTTACAT
GTCTGATCCGGAGACATGCCCGTACACAGATGCTTCCGGCGCTGCTAGCC
ATTCTCTATCTTCACCCCATGCCGCTCCCACCCTGTCAGAATCGTCTAAC
GGCTCGGATCTCGACATTTTTATTAGCCAGGATTCGACCTCTGGTTTTGG
AAAGCCCGAGTTTGGAGACCTGGCTGATCCCGACATGGCCCCGTTCCCAG
ACTATGTGAACACGACGTCCTTTGAAGGTGGTCTGGAACTGTTCCCCAAC
AAGCCCTTCTCCTCGGGCCCCGTCATGGCCGACGACTTCTTCTTCCAATT
TCAAGTGGACGAACAAGCCTCGGATGTTATGACCAAAGAATTCTTCATGG
ACTAAATGCTGTCCACGGCGCACAGCAACCTTCATGAGCGACATCGACAA
CACAGGCGGCAGATCTCGACGCCGTCCGCTCTTGATGCCGTGAAAGCCCC
CAGCCTTCCGGCGCAAGCGATGCATCGTTATCATGCCCATCGTCGAGGAC
AGAGCTTTGACAACAGAGCTTTGCGCGTCCAGCGATCGCAATCCATGCAA
GATGTACCGCAGCAGCACCATTCGAATATGCTCGGGGACAGCCAACACCA
ACGATACCTGTGTGTAGCGCAGCCGTCGTTTCCCCAGCAATCAGCCCCCA
TGCCCATGATCCCCGACTGTTTCACCCCGGAAGAGGTGCAAAACCTTCAA
AGTCACAATGGCCAGGACAGTCAACCAAGCATGGCCTACCTGAATGCGCC
CTTCGCAAAGGACGTTCCGCACATGAACATGCAGTTCGATCTGATGCAAC
AACAACAGATGCACAGCGCTAAGGTCCCGTGCGGGTCTGGAACGGAAGGT
CAATTTTTCGAGACGGGACTTTGGGACTTTTACCAGCCAACTTTTCCCCC
TCACGCTGATGTAAGGAAGTTATCGGTGCAGTCGGATGCTACTCCGTCTC
AGCACCCGCATACGCCTAAGCCCGGCAATACACACTATGCCCCGATTACA
CCAGCAACAACACCATTCAAGCAAACCGTGGGCCTAGCTCAGTACGGTGG
GGACATCCAGTCAGGATCCACCAAAGACCAGGGTAGCGCGATGCCCGGAT
CAGCCCAGTCGTCGTACATGCAGCGAGCAAAGTCTCTCCAAGGCGTGGCT
GGAACCACTTTCACGCAGCAGAAGTTTGATGTCTCTACCCCCCCGAACAC
AGCATCATTTGAAGTGGATAACTTTGATACTTTTAACTATGAGCAGGGTT
CTAGCTTTGAGCTTGCGGCTATGCCTTGCCCCGAAGATGGAGGTGCAAAG
ACCCCCAAAATCCCTATCTATCCCGCCACTCCCAGCCGTCCGCATCACAG
GAAAACGCCCAGTGCAACACCTAGCTCATCGGCCAAGCCAAAGCTTTCTC
CGCGCGTCGCGTCTATCGATAACCTGAACCTCGACGCTCGCGTGCAAGCA
TCAATCAAAGAAACGGGTGTCACCATTGACGAGATTGCGTCGTACATTCA
TGGGCCGGACCCGGAGGACGGGAAATGGGTATGCCTGCACCCCGGCTGCG
AGCGCCGCTTTGGAAGAAAAGAGAATATCAAGTCACATGTCCAGACTCAC
CTGGGCGACCGCCAGTACAAGTGCGATCATTGCAATAAGTGCTTTGTTCG
CGGCCATGACCTTAAGCGTCATGCTAAGATCCATACCGGCGACAAGCCTT
ACGAGTGCCTCTGTGGAAATGTATTTGCGAGACACGACGCCTTGACTCGA
CACAGACAGCGGGGTATGTGCATTGGCGGCTACAAGGGAATTGTGCGCAA
GACAACGAAACGGGGTCGTCCGAAGAAGCACCGACCAGAGATGGATGAGA
GACAAGACAAAGCATCGAGAACGCGTCAGAGGATTGCAGAGAAGTCATCT
TTCGACTCGTCCACATCCGAGTCCTCACGCAACACGCCTCCTTCCGAAGT
TTTCGAAAACATGAGCCTGCATGGTTCTAGCCCGGCGGAAGAGATGCCAG
TGTTCAACAACCCCAACTACTCGTTGCCACCAGAGGTTTTCACATTCACG
CCTCCTGCATCTCCCGGTTACAGCGTGGGAATCAAGCCATCGCCTTCTCG
GGACGAGCGATCGATCACCCCCAGCTCAGAAGATGAAATGCTTCCTTCCT
CGCCATCAAAGCAGCCCCTCGAGAGCCTCGTCACGGACTCCAGCTTGCCT
TACATGTCTGATCCGGAGACATGCCCGTACACAGATGCTTCCGGCGCTGC
TAGCCATTCTCTATCTTCACCCCATGCCGCTCCCACCCTGTCAGAATCGT
CTAACGGCTCGGATCTCGACATTTTTATTAGCCAGGATTCGACCTCTGGT
TTTGGAAAGCCCGAGTTTGGAGACCTGGCTGATCCCGACATGGCCCCGTT
CCCAGACTATGTGAACACGACGTCCTTTGAAGGTGGTCTGGAACTGTTCC
CCAACAAGCCCTTCTCCTCGGGCCCCGTCATGGCCGACGACTTCTTCTTC
CAATTTCAAGTGGACGAACAAGCCTCGGATGTTATGACCAAAGAATTCTT
CATGGACTAAATGCTGTCCACGGCGCACAGCAACCTTCATGAGCGACATC
GACAACACAGGCGGCAGATCTCGACGCCGTCCGCTCTTGATGCCGTGAAA
GCCCCCAGCCTTCCGGCGCAAGCGATGCATCGTTATCATGCCCATCGTCG
AGGACAGAGCTTTGACAACAGAGCTTTGCGCGTCCAGCGATCGCAATCCA
TGCAAGATGTACCGCAGCAGCACCATTCGAATATGCTCGGGGACAGCCAA
CACCAACGATACCTGTGTGTAGCGCAGCCGTCGTTTCCCCAGCAATCAGC
CCCCATGCCCATGATCCCCGACTGTTTCACCCCGGAAGAGGTGCAAAACC
TTCAAAGTCACAATGGCCAGGACAGTCAACCAAGCATGGCCTACCTGAAT
GCGCCCTTCGCAAAGGACGTTCCGCACATGAACATGCAGTTCGATCTGAT
GCAACAACAACAGATGCACAGCGCTAAGGTCCCGTGCGGGTCTGGAACGG
AAGGTCAATTTTTCGAGACGGGACTTTGGGACTTTTACCAGCCAACTTTT
CCCCCTCACGCTGATGTAAGGAAGTTATCGGTGCAGTCGGATGCTACTCC
GTCTCAGCACCCGCATACGCCTAAGCCCGGCAATACACACTATGCCCCGA
TTACACCAGCAACAACACCATTCAAGCAAACCGTGGGCCTAGCTCAGTAC
GGTGGGGACATCCAGTCAGGATCCACCAAAGACCAGGGTAGCGCGATGCC
CGGATCAGCCCAGTCGTCGTACATGCAGCGAGCAAAGTCTCTCCAAGGCG
TGGCTGGAACCACTTTCACGCAGCAGAAGTTTGATGTCTCTACCCCCCCG
AACACAGCATCATTTGAAGTGGATAACTTTGATACTTTTAACTATGAGCA
GGGTTCTAGCTTTGAGCTTGCGGCTATGCCTTGCCCCGAAGATGGAGGTG
CAAAGACCCCCAAAATCCCTATCTATCCCGCCACTCCCAGCCGTCCGCAT
CACAGGAAAACGCCCAGTGCAACACCTAGCTCATCGGCCAAGCCAAAGCT
TTCTCCGCGCGTCGCGTCTATCGATAACCTGAACCTCGACGCTCGCGTGC
AAGCATCAATCAAAGAAACGGGTGTCACCATTGACGAGATTGCGTCGTAC
ATTCATGGGCCGGACCCGGAGGACGGGAAATGGGTATGCCTGCACCCCGG
CTGCGAGCGCCGCTTTGGAAGAAAAGAGAATATCAAGTCACATGTCCAGA
CTCACCTGGGCGACCGCCAGTACAAGTGCGATCATTGCAATAAGTGCTTT
GTTCGCGGCCATGACCTTAAGCGTCATGCTAAGATCCATACCGGCGACAA
GCCTTACGAGTGCCTCTGTGGAAATGTATTTGCGAGACACGACGCCTTGA
CTCGACACAGACAGCGGGGTATGTGCATTGGCGGCTACAAGGGAATTGTG
CGCAAGACAACGAAACGGGGTCGTCCGAAGAAGCACCGACCAGAGATGGA
TGAGAGACAAGACAAAGCATCGAGAACGCGTCAGAGGATTGCAGAGAAGT
CATCTTTCGACTCGTCCACATCCGAGTCCTCACGCAACACGCCTCCTTCC
GAAGTTTTCGAAAACATGAGCCTGCATGGTTCTAGCCCGGCGGAAGAGAT
GCCAGTGTTCAACAACCCCAACTACTCGTTGCCACCAGAGGTTTTCACAT
TCACGCCTCCTGCATCTCCCGGTTACAGCGTGGGAATCAAGCCATCGCCT
TCTCGGGACGAGCGATCGATCACCCCCAGCTCAGAAGATGAAATGCTTCC
TTCCTCGCCATCAAAGCAGCCCCTCGAGAGCCTCGTCACGGACTCCAGCT
TGCCTTACATGTCTGATCCGGAGACATGCCCGTACACAGATGCTTCCGGC
GCTGCTAGCCATTCTCTATCTTCACCCCATGCCGCTCCCACCCTGTCAGA
ATCGTCTAACGGCTCGGATCTCGACATTTTTATTAGCCAGGATTCGACCT
CTGGTTTTGGAAAGCCCGAGTTTGGAGACCTGGCTGATCCCGACATGGCC
CCGTTCCCAGACTATGTGAACACGACGTCCTTTGAAGGTGGTCTGGAACT
GTTCCCCAACAAGCCCTTCTCCTCGGGCCCCGTCATGGCCGACGACTTCT
TCTTCCAATTTCAAGTGGACGAACAAGCCTCGGATGTTATGACCAAAGAA
TTCTTCATGGACTAAATGCTGTCCACGGCGCACAGCAACCTTCATGAGCG
ACATCGACAACACAGGCGGCAGATCTCGACGCCGTCCGCTCTTGATGCCG
TGAAAGCCCCCAGCCTTCCGGCGCAAGCGATGCATCGTTATCATGCCCAT
CGTCGAGGACAGAGCTTTGACAACAGAGCTTTGCGCGTCCAGCGATCGCA
ATCCATGCAAGATGTACCGCAGCAGCACCATTCGAATATGCTCGGGGACA
GCCAACACCAACGATACCTGTGTGTAGCGCAGCCGTCGTTTCCCCAGCAA
TCAGCCCCCATGCCCATGATCCCCGACTGTTTCACCCCGGAAGAGGTGCA
AAACCTTCAAAGTCACAATGGCCAGGACAGTCAACCAAGCATGGCCTACC
TGAATGCGCCCTTCGCAAAGGACGTTCCGCACATGAACATGCAGTTCGAT
CTGATGCAACAACAACAGATGCACAGCGCTAAGGTCCCGTGCGGGTCTGG
AACGGAAGGTCAATTTTTCGAGACGGGACTTTGGGACTTTTACCAGCCAA
CTTTTCCCCCTCACGCTGATGTAAGGAAGTTATCGGTGCAGTCGGATGCT
ACTCCGTCTCAGCACCCGCATACGCCTAAGCCCGGCAATACACACTATGC
CCCGATTACACCAGCAACAACACCATTCAAGCAAACCGTGGGCCTAGCTC
AGTACGGTGGGGACATCCAGTCAGGATCCACCAAAGACCAGGGTAGCGCG
ATGCCCGGATCAGCCCAGTCGTCGTACATGCAGCGAGCAAAGTCTCTCCA
AGGCGTGGCTGGAACCACTTTCACGCAGCAGAAGTTTGATGTCTCTACCC
CCCCGAACACAGCATCATTTGAAGTGGATAACTTTGATACTTTTAACTAT
GAGCAGGGTTCTAGCTTTGAGCTTGCGGCTATGCCTTGCCCCGAAGATGG
AGGTGCAAAGACCCCCAAAATCCCTATCTATCCCGCCACTCCCAGCCGTC
CGCATCACAGGAAAACGCCCAGTGCAACACCTAGCTCATCGGCCAAGCCA
AAGCTTTCTCCGCGCGTCGCGTCTATCGATAACCTGAACCTCGACGCTCG
CGTGCAAGCATCAATCAAAGAAACGGGTGTCACCATTGACGAGATTGCGT
CGTACATTCATGGGCCGGACCCGGAGGACGGGAAATGGGTATGCCTGCAC
CCCGGCTGCGAGCGCCGCTTTGGAAGAAAAGAGAATATCAAGTCACATGT
CCAGACTCACCTGGGCGACCGCCAGTACAAGTGCGATCATTGCAATAAGT
GCTTTGTTCGCGGCCATGACCTTAAGCGTCATGCTAAGATCCATACCGGC
GACAAGCCTTACGAGTGCCTCTGTGGAAATGTATTTGCGAGACACGACGC
CTTGACTCGACACAGACAGCGGGGTATGTGCATTGGCGGCTACAAGGGAA
TTGTGCGCAAGACAACGAAACGGGGTCGTCCGAAGAAGCACCGACCAGAG
ATGGATGAGAGACAAGACAAAGCATCGAGAACGCGTCAGAGGATTGCAGA
GAAGTCATCTTTCGACTCGTCCACATCCGAGTCCTCACGCAACACGCCTC
CTTCCGAAGTTTTCGAAAACATGAGCCTGCATGGTTCTAGCCCGGCGGAA
GAGATGCCAGTGTTCAACAACCCCAACTACTCGTTGCCACCAGAGGTTTT
CACATTCACGCCTCCTGCATCTCCCGGTTACAGCGTGGGAATCAAGCCAT
CGCCTTCTCGGGACGAGCGATCGATCACCCCCAGCTCAGAAGATGAAATG
CTTCCTTCCTCGCCATCAAAGCAGCCCCTCGAGAGCCTCGTCACGGACTC
CAGCTTGCCTTACATGTCTGATCCGGAGACATGCCCGTACACAGATGCTT
CCGGCGCTGCTAGCCATTCTCTATCTTCACCCCATGCCGCTCCCACCCTG
TCAGAATCGTCTAACGGCTCGGATCTCGACATTTTTATTAGCCAGGATTC
GACCTCTGGTTTTGGAAAGCCCGAGTTTGGAGACCTGGCTGATCCCGACA
TGGCCCCGTTCCCAGACTATGTGAACACGACGTCCTTTGAAGGTGGTCTG
GAACTGTTCCCCAACAAGCCCTTCTCCTCGGGCCCCGTCATGGCCGACGA
CTTCTTCTTCCAATTTCAAGTGGACGAACAAGCCTCGGATGTTATGACCA
AAGAATTCTTCATGGACTAA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003676 | nucleic acid 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 |
|---|
| DBxref | InterPro:IPR036236 |
| DBxref | InterPro:IPR013087 |
| DBxref | PFAM:PF00096 |
| Product | Zinc-finger double domain 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 |
|---|
| NKJJ01000020.1 | supercontig | NKJJ01000020.1:1995497..1997867 + |
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