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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000020.1:1809069..1811529+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_52910-T1 ID=CAN33_52910-T1|Name=CAN33_52910-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2461bp|location=Sequence derived from alignment at NKJJ01000020.1:1809069..1811529+ (Aspergillus niger FDAARGOS_311)
ATGGCGGACTACCACGACGCCGGTGGGCTAATTCTCGACGGCCCCTTTGA
TCCCGACGCCCAGGCCACCGTCACGGACTATATTGACTACACGGAATACC
TCCCCGCTGACCTCATTCGCTCCCTAACTCTCATCCGCGGCCTTGATGAA
CGCTACTTGGAAGCTACACAAGGCGTTCATGATCTCACCAAGGCCTATGG
CCAACTGCCCACCCTCCCCTCGGACGTACGTCCTGACGCGCGTGCTCTGC
GCAAAGATATCTCTGAACAACTTGATCGCGCCATCAACGCCCGTGAATCG
GCCTATGCGGAAGCTTGCCGTCTCTACGATGTCATCGATCGCCACTTCAA
CCGGCTAGACAGCATTAAGCAAAAGCTCGAAGCTCTCCCCAAGCCCGCGT
CGCGCGAACCTACTCCTCCTCCCGCGCCGCCCGTCACAACAACCAAAAGG
AGCCGCTCGACCAAGAAAACCGAGGAAGCTTCTGGCCCGCCCACCACGAC
GCGCATCACTTTGCGCTTGGATGGCCACGATACTGCTCGCGCGACAACTG
TGCAGAAGTCGCGCACACGCCGATCCCTCATCTCCGCCGAGCATCTGGCC
GATTTGCACCCCGATTCGCCTATTGCCAGCACAGAGCATTCAGATGTGGA
GCCGGACAGCAAAATAACGCCCTCAGAGTCACCCCCGGAGCCGGCAGCAG
CGCCCGCCAAGAAGGAGAAGGGCCGTCGGCGATCGCGGACTTCTGGCTTG
GTTTCGACCGGTGCTCAAGGCCCTTCTGCTCCAGCCATATCGACCAGCAA
TGCGTTAGCGATGCTCAAGCCACCTCCTGACGATGCCAAACCTGGAAGCG
AGGATATGCCATGGTTGCGTCTGACTGAGTGGGAAATGACGAAACTGCGG
AAGAAGATGAAGAAGAATGCCGTTTGGCAACCCAGCGAGGTCATGATTCA
TCGCGAGCTGGCCTTGCGCGGCCGCGGCTGGGAGGCTTACCGAGCGGCGA
AAGCTCAGGCTGAGGCCACTGGTGCTGAATTCTTGGACTGTGACGACATC
ATGAACACGTACGTTCCGGGCAAGCTGACCAAACGCAGCGAAGCCACCGG
CGACACTGAGGGCACATTCGAGACTAAGCTTAGCAACCGTGGCATGAAGC
TGAATGAGGCCAAGAAGCTTAAACGGGAGAACCAGGCCCGAGAGCAGGCG
GCAGCTGCAGCCGCAGCCGCCGCCGCCGCAGCAGCACAAGAACAAACAGC
CAAAGATGGAGTCCAGCCAGGAGTGGCTCCCACTGATGTACCCACAGCTA
GTGTCCCAGAAGTTTCAGCTGTGAGCAAGCCCACTCGTGCAGGGAAAAAG
AGGAAACTCGAAGAGGTGACACCCCCAGAGGTTCCCCCCATTCCTTCAGC
TCCCGTCCCCTCCACATCTTCTGCCCCCTCTGCTTCCGCTGCCCCCTCTA
CGTCTGATGGTCCCCCCACTGTTGAGCCCTCTGCACCCGACGGTCCCTCT
CCTTCTGCACCCTCTGTTCCTACTACTGCCACCTCCGCTGCTTCCCCTGT
TCCTACTGCCCCCGCTGTCTCCGCTGCTCCTACCGCGCCTGTGGAAATTG
AAACCCGTCCTTCGCTGCGAAGCGCGACTAAACGCCGCCGAACTAGCAAA
GGATCCCCCACACCCGTTGATCCAAACATCGCCAATCCTGAATTATCTAC
AAAAGCAGCACCAGCTCCTACAGCTGTAGAAACCTCCGAGTCGCAGAAGC
CTTCCTTACCGTCGTCTCCAACTGGATCCAAGCGCGCTATCGCACAACCT
ACGATCTCAGCCGTAAAAGCGGCGACGCCAACCCCCCGGTTACCCGCCCC
CCTCTCGCCGCTCGGCTGCTCTATCATTAGAGCCAACCACCAATGCCAGC
GTCGTTGCACCTTCTACTAAACGCGAGCTCCGTCAGAAAAGCGCCACACC
TGCTCGGAAGACTCCTGTGCCAGAAACCGCTCGAGCTGCCAGTGTGAGTG
CTCCCAACCGCAGGCGTAAACGCCCCGCTCCAGGTCCTGTATCTTCAGGC
CAAGACGGTGGTGCAGCGGTAAGCTACGGTCGCCGCAAAGCGAAGCCCGG
GAAGAAGCGGATTGGGACGCGTGAGGTTGGCCTGAAAGATGGAACCCTGG
CACGTGAGGACATTCGAATCGACGAGGATGGAGTACTGGAAGAGATCGAC
CCGAACGAACCACGGTATTGTCTATGTGGAGACGTGAGTTTCGGGACGAT
GATCTGCTGTGAAAATCAAGAGGTATGTGTTCTATATTTCTGCGTTGTAT
GGCGCCTCTAACATGAGTAGTGCGACCGAGAATGGTTTCATCTTGACTGT
GTCGGGCTGTCTGAGGTACCAAGTCGCACGGCGAAGTGGTACTGTCCGGA
TTGTCGGGTTAAGTTTAACAAGGGTGCAGACGGAATTGTCAAGAACAATC
CGCGGAGATAA back to topCoding sequence (CDS) from alignment at NKJJ01000020.1:1809069..1811529+ >CAN33_52910-T1 ID=CAN33_52910-T1|Name=CAN33_52910-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=8736bp|location=Sequence derived from alignment at NKJJ01000020.1:1809069..1811529+ (Aspergillus niger FDAARGOS_311)
ATGGCGGACTACCACGACGCCGGTGGGCTAATTCTCGACGGCCCCTTTGA
TCCCGACGCCCAGGCCACCGTCACGGACTATATTGACTACACGGAATACC
TCCCCGCTGACCTCATTCGCTCCCTAACTCTCATCCGCGGCCTTGATGAA
CGCTACTTGGAAGCTACACAAGGCGTTCATGATCTCACCAAGGCCTATGG
CCAACTGCCCACCCTCCCCTCGGACGTACGTCCTGACGCGCGTGCTCTGC
GCAAAGATATCTCTGAACAACTTGATCGCGCCATCAACGCCCGTGAATCG
GCCTATGCGGAAGCTTGCCGTCTCTACGATGTCATCGATCGCCACTTCAA
CCGGCTAGACAGCATTAAGCAAAAGCTCGAAGCTCTCCCCAAGCCCGCGT
CGCGCGAACCTACTCCTCCTCCCGCGCCGCCCGTCACAACAACCAAAAGG
AGCCGCTCGACCAAGAAAACCGAGGAAGCTTCTGGCCCGCCCACCACGAC
GCGCATCACTTTGCGCTTGGATGGCCACGATACTGCTCGCGCGACAACTG
TGCAGAAGTCGCGCACACGCCGATCCCTCATCTCCGCCGAGCATCTGGCC
GATTTGCACCCCGATTCGCCTATTGCCAGCACAGAGCATTCAGATGTGGA
GCCGGACAGCAAAATAACGCCCTCAGAGTCACCCCCGGAGCCGGCAGCAG
CGCCCGCCAAGAAGGAGAAGGGCCGTCGGCGATCGCGGACTTCTGGCTTG
GTTTCGACCGGTGCTCAAGGCCCTTCTGCTCCAGCCATATCGACCAGCAA
TGCGTTAGCGATGCTCAAGCCACCTCCTGACGATGCCAAACCTGGAAGCG
AGGATATGCCATGGTTGCGTCTGACTGAGTGGGAAATGACGAAACTGCGG
AAGAAGATGAAGAAGAATGCCGTTTGGCAACCCAGCGAGGTCATGATTCA
TCGCGAGCTGGCCTTGCGCGGCCGCGGCTGGGAGGCTTACCGAGCGGCGA
AAGCTCAGGCTGAGGCCACTGGTGCTGAATTCTTGGACTGTGACGACATC
ATGAACACGTACGTTCCGGGCAAGCTGACCAAACGCAGCGAAGCCACCGG
CGACACTGAGGGCACATTCGAGACTAAGCTTAGCAACCCTAGTGTCCCAG
AAGTTTCAGCTGTGAGCAAGCCCACTCGTGCAGGGAAAAAGAGGAAACTC
GAAGAGGTGACACCCCCAGAGGTTCCCCCCATTCCTTCAGCTCCCGTCCC
CTCCACATCTTCTGCCCCCTCTGCTTCCGCTGCCCCCTCTACGTCTGATG
GTCCCCCCACTGTTGAGCCCTCTGCACCCGACGGTCCCTCTCCTTCTGCA
CCCTCTGTTCCTACTACTGCCACCTCCGCTGCTTCCCCTGTTCCTACTGC
CCCCGCTGTCTCCGCTGCTCCTACCGCGCCTGTGGAAATTGAAACCCGTC
CTTCGCTGCGAAGCGCGACTAAACGCCGCCGAACTAGCAAAGGATCCCCC
ACACCCGTTGATCCAAACATCGCCAATCCTGAATTATCTACAAAAGCAGC
ACCAGCTCCTACAGCTGTAGAAACCTCCGAGTCGCAGAAGCCTTCCTTAC
CGTCGTCTCCAACTGGATCCAAGCGCGCTATCGCACAACCTACGATCTCA
GCCCCAACCACCAATGCCAGCGTCGTTGCACCTTCTACTAAACGCGAGCT
CCGTCAGAAAAGCGCCACACCTGCTCGGAAGACTCCTGTGCCAGAAACCG
CTCGAGCTGCCAGTGTGAGTGCTCCCAACCGCAGGCGTAAACGCCCCGCT
CCAGGTCCTGTATCTTCAGGCCAAGACGGTGGTGCAGCGGTAAGCTACGG
TCGCCGCAAAGCGAAGCCCGGGAAGAAGCGGATTGGGACGCGTGAGGTTG
GCCTGAAAGATGGAACCCTGGCACGTGAGGACATTCGAATCGACGAGGAT
GGAGTACTGGAAGAGATCGACCCGAACGAACCACGGTATTGTCTATGTGG
AGACGTGAGTTTCGGGACGATGATCTGCTGTGAAAATCAAGAGTGCGACC
GAGAATGGTTTCATCTTGACTGTGTCGGGCTGTCTGAGGTACCAAGTCGC
ACGGCGAAGTGGTACTGTCCGGATTGTCGGGTTAAGTTTAACAAGGGTGC
AGACGGAATTGTCAAGAACAATCCGCGGAGATAAATGGCGGACTACCACG
ACGCCGGTGGGCTAATTCTCGACGGCCCCTTTGATCCCGACGCCCAGGCC
ACCGTCACGGACTATATTGACTACACGGAATACCTCCCCGCTGACCTCAT
TCGCTCCCTAACTCTCATCCGCGGCCTTGATGAACGCTACTTGGAAGCTA
CACAAGGCGTTCATGATCTCACCAAGGCCTATGGCCAACTGCCCACCCTC
CCCTCGGACGTACGTCCTGACGCGCGTGCTCTGCGCAAAGATATCTCTGA
ACAACTTGATCGCGCCATCAACGCCCGTGAATCGGCCTATGCGGAAGCTT
GCCGTCTCTACGATGTCATCGATCGCCACTTCAACCGGCTAGACAGCATT
AAGCAAAAGCTCGAAGCTCTCCCCAAGCCCGCGTCGCGCGAACCTACTCC
TCCTCCCGCGCCGCCCGTCACAACAACCAAAAGGAGCCGCTCGACCAAGA
AAACCGAGGAAGCTTCTGGCCCGCCCACCACGACGCGCATCACTTTGCGC
TTGGATGGCCACGATACTGCTCGCGCGACAACTGTGCAGAAGTCGCGCAC
ACGCCGATCCCTCATCTCCGCCGAGCATCTGGCCGATTTGCACCCCGATT
CGCCTATTGCCAGCACAGAGCATTCAGATGTGGAGCCGGACAGCAAAATA
ACGCCCTCAGAGTCACCCCCGGAGCCGGCAGCAGCGCCCGCCAAGAAGGA
GAAGGGCCGTCGGCGATCGCGGACTTCTGGCTTGGTTTCGACCGGTGCTC
AAGGCCCTTCTGCTCCAGCCATATCGACCAGCAATGCGTTAGCGATGCTC
AAGCCACCTCCTGACGATGCCAAACCTGGAAGCGAGGATATGCCATGGTT
GCGTCTGACTGAGTGGGAAATGACGAAACTGCGGAAGAAGATGAAGAAGA
ATGCCGTTTGGCAACCCAGCGAGGTCATGATTCATCGCGAGCTGGCCTTG
CGCGGCCGCGGCTGGGAGGCTTACCGAGCGGCGAAAGCTCAGGCTGAGGC
CACTGGTGCTGAATTCTTGGACTGTGACGACATCATGAACACGTACGTTC
CGGGCAAGCTGACCAAACGCAGCGAAGCCACCGGCGACACTGAGGGCACA
TTCGAGACTAAGCTTAGCAACCCTAGTGTCCCAGAAGTTTCAGCTGTGAG
CAAGCCCACTCGTGCAGGGAAAAAGAGGAAACTCGAAGAGGTGACACCCC
CAGAGGTTCCCCCCATTCCTTCAGCTCCCGTCCCCTCCACATCTTCTGCC
CCCTCTGCTTCCGCTGCCCCCTCTACGTCTGATGGTCCCCCCACTGTTGA
GCCCTCTGCACCCGACGGTCCCTCTCCTTCTGCACCCTCTGTTCCTACTA
CTGCCACCTCCGCTGCTTCCCCTGTTCCTACTGCCCCCGCTGTCTCCGCT
GCTCCTACCGCGCCTGTGGAAATTGAAACCCGTCCTTCGCTGCGAAGCGC
GACTAAACGCCGCCGAACTAGCAAAGGATCCCCCACACCCGTTGATCCAA
ACATCGCCAATCCTGAATTATCTACAAAAGCAGCACCAGCTCCTACAGCT
GTAGAAACCTCCGAGTCGCAGAAGCCTTCCTTACCGTCGTCTCCAACTGG
ATCCAAGCGCGCTATCGCACAACCTACGATCTCAGCCCCAACCACCAATG
CCAGCGTCGTTGCACCTTCTACTAAACGCGAGCTCCGTCAGAAAAGCGCC
ACACCTGCTCGGAAGACTCCTGTGCCAGAAACCGCTCGAGCTGCCAGTGT
GAGTGCTCCCAACCGCAGGCGTAAACGCCCCGCTCCAGGTCCTGTATCTT
CAGGCCAAGACGGTGGTGCAGCGGTAAGCTACGGTCGCCGCAAAGCGAAG
CCCGGGAAGAAGCGGATTGGGACGCGTGAGGTTGGCCTGAAAGATGGAAC
CCTGGCACGTGAGGACATTCGAATCGACGAGGATGGAGTACTGGAAGAGA
TCGACCCGAACGAACCACGGTATTGTCTATGTGGAGACGTGAGTTTCGGG
ACGATGATCTGCTGTGAAAATCAAGAGTGCGACCGAGAATGGTTTCATCT
TGACTGTGTCGGGCTGTCTGAGGTACCAAGTCGCACGGCGAAGTGGTACT
GTCCGGATTGTCGGGTTAAGTTTAACAAGGGTGCAGACGGAATTGTCAAG
AACAATCCGCGGAGATAAATGGCGGACTACCACGACGCCGGTGGGCTAAT
TCTCGACGGCCCCTTTGATCCCGACGCCCAGGCCACCGTCACGGACTATA
TTGACTACACGGAATACCTCCCCGCTGACCTCATTCGCTCCCTAACTCTC
ATCCGCGGCCTTGATGAACGCTACTTGGAAGCTACACAAGGCGTTCATGA
TCTCACCAAGGCCTATGGCCAACTGCCCACCCTCCCCTCGGACGTACGTC
CTGACGCGCGTGCTCTGCGCAAAGATATCTCTGAACAACTTGATCGCGCC
ATCAACGCCCGTGAATCGGCCTATGCGGAAGCTTGCCGTCTCTACGATGT
CATCGATCGCCACTTCAACCGGCTAGACAGCATTAAGCAAAAGCTCGAAG
CTCTCCCCAAGCCCGCGTCGCGCGAACCTACTCCTCCTCCCGCGCCGCCC
GTCACAACAACCAAAAGGAGCCGCTCGACCAAGAAAACCGAGGAAGCTTC
TGGCCCGCCCACCACGACGCGCATCACTTTGCGCTTGGATGGCCACGATA
CTGCTCGCGCGACAACTGTGCAGAAGTCGCGCACACGCCGATCCCTCATC
TCCGCCGAGCATCTGGCCGATTTGCACCCCGATTCGCCTATTGCCAGCAC
AGAGCATTCAGATGTGGAGCCGGACAGCAAAATAACGCCCTCAGAGTCAC
CCCCGGAGCCGGCAGCAGCGCCCGCCAAGAAGGAGAAGGGCCGTCGGCGA
TCGCGGACTTCTGGCTTGGTTTCGACCGGTGCTCAAGGCCCTTCTGCTCC
AGCCATATCGACCAGCAATGCGTTAGCGATGCTCAAGCCACCTCCTGACG
ATGCCAAACCTGGAAGCGAGGATATGCCATGGTTGCGTCTGACTGAGTGG
GAAATGACGAAACTGCGGAAGAAGATGAAGAAGAATGCCGTTTGGCAACC
CAGCGAGGTCATGATTCATCGCGAGCTGGCCTTGCGCGGCCGCGGCTGGG
AGGCTTACCGAGCGGCGAAAGCTCAGGCTGAGGCCACTGGTGCTGAATTC
TTGGACTGTGACGACATCATGAACACGTACGTTCCGGGCAAGCTGACCAA
ACGCAGCGAAGCCACCGGCGACACTGAGGGCACATTCGAGACTAAGCTTA
GCAACCCTAGTGTCCCAGAAGTTTCAGCTGTGAGCAAGCCCACTCGTGCA
GGGAAAAAGAGGAAACTCGAAGAGGTGACACCCCCAGAGGTTCCCCCCAT
TCCTTCAGCTCCCGTCCCCTCCACATCTTCTGCCCCCTCTGCTTCCGCTG
CCCCCTCTACGTCTGATGGTCCCCCCACTGTTGAGCCCTCTGCACCCGAC
GGTCCCTCTCCTTCTGCACCCTCTGTTCCTACTACTGCCACCTCCGCTGC
TTCCCCTGTTCCTACTGCCCCCGCTGTCTCCGCTGCTCCTACCGCGCCTG
TGGAAATTGAAACCCGTCCTTCGCTGCGAAGCGCGACTAAACGCCGCCGA
ACTAGCAAAGGATCCCCCACACCCGTTGATCCAAACATCGCCAATCCTGA
ATTATCTACAAAAGCAGCACCAGCTCCTACAGCTGTAGAAACCTCCGAGT
CGCAGAAGCCTTCCTTACCGTCGTCTCCAACTGGATCCAAGCGCGCTATC
GCACAACCTACGATCTCAGCCCCAACCACCAATGCCAGCGTCGTTGCACC
TTCTACTAAACGCGAGCTCCGTCAGAAAAGCGCCACACCTGCTCGGAAGA
CTCCTGTGCCAGAAACCGCTCGAGCTGCCAGTGTGAGTGCTCCCAACCGC
AGGCGTAAACGCCCCGCTCCAGGTCCTGTATCTTCAGGCCAAGACGGTGG
TGCAGCGGTAAGCTACGGTCGCCGCAAAGCGAAGCCCGGGAAGAAGCGGA
TTGGGACGCGTGAGGTTGGCCTGAAAGATGGAACCCTGGCACGTGAGGAC
ATTCGAATCGACGAGGATGGAGTACTGGAAGAGATCGACCCGAACGAACC
ACGGTATTGTCTATGTGGAGACGTGAGTTTCGGGACGATGATCTGCTGTG
AAAATCAAGAGTGCGACCGAGAATGGTTTCATCTTGACTGTGTCGGGCTG
TCTGAGGTACCAAGTCGCACGGCGAAGTGGTACTGTCCGGATTGTCGGGT
TAAGTTTAACAAGGGTGCAGACGGAATTGTCAAGAACAATCCGCGGAGAT
AAATGGCGGACTACCACGACGCCGGTGGGCTAATTCTCGACGGCCCCTTT
GATCCCGACGCCCAGGCCACCGTCACGGACTATATTGACTACACGGAATA
CCTCCCCGCTGACCTCATTCGCTCCCTAACTCTCATCCGCGGCCTTGATG
AACGCTACTTGGAAGCTACACAAGGCGTTCATGATCTCACCAAGGCCTAT
GGCCAACTGCCCACCCTCCCCTCGGACGTACGTCCTGACGCGCGTGCTCT
GCGCAAAGATATCTCTGAACAACTTGATCGCGCCATCAACGCCCGTGAAT
CGGCCTATGCGGAAGCTTGCCGTCTCTACGATGTCATCGATCGCCACTTC
AACCGGCTAGACAGCATTAAGCAAAAGCTCGAAGCTCTCCCCAAGCCCGC
GTCGCGCGAACCTACTCCTCCTCCCGCGCCGCCCGTCACAACAACCAAAA
GGAGCCGCTCGACCAAGAAAACCGAGGAAGCTTCTGGCCCGCCCACCACG
ACGCGCATCACTTTGCGCTTGGATGGCCACGATACTGCTCGCGCGACAAC
TGTGCAGAAGTCGCGCACACGCCGATCCCTCATCTCCGCCGAGCATCTGG
CCGATTTGCACCCCGATTCGCCTATTGCCAGCACAGAGCATTCAGATGTG
GAGCCGGACAGCAAAATAACGCCCTCAGAGTCACCCCCGGAGCCGGCAGC
AGCGCCCGCCAAGAAGGAGAAGGGCCGTCGGCGATCGCGGACTTCTGGCT
TGGTTTCGACCGGTGCTCAAGGCCCTTCTGCTCCAGCCATATCGACCAGC
AATGCGTTAGCGATGCTCAAGCCACCTCCTGACGATGCCAAACCTGGAAG
CGAGGATATGCCATGGTTGCGTCTGACTGAGTGGGAAATGACGAAACTGC
GGAAGAAGATGAAGAAGAATGCCGTTTGGCAACCCAGCGAGGTCATGATT
CATCGCGAGCTGGCCTTGCGCGGCCGCGGCTGGGAGGCTTACCGAGCGGC
GAAAGCTCAGGCTGAGGCCACTGGTGCTGAATTCTTGGACTGTGACGACA
TCATGAACACGTACGTTCCGGGCAAGCTGACCAAACGCAGCGAAGCCACC
GGCGACACTGAGGGCACATTCGAGACTAAGCTTAGCAACCCTAGTGTCCC
AGAAGTTTCAGCTGTGAGCAAGCCCACTCGTGCAGGGAAAAAGAGGAAAC
TCGAAGAGGTGACACCCCCAGAGGTTCCCCCCATTCCTTCAGCTCCCGTC
CCCTCCACATCTTCTGCCCCCTCTGCTTCCGCTGCCCCCTCTACGTCTGA
TGGTCCCCCCACTGTTGAGCCCTCTGCACCCGACGGTCCCTCTCCTTCTG
CACCCTCTGTTCCTACTACTGCCACCTCCGCTGCTTCCCCTGTTCCTACT
GCCCCCGCTGTCTCCGCTGCTCCTACCGCGCCTGTGGAAATTGAAACCCG
TCCTTCGCTGCGAAGCGCGACTAAACGCCGCCGAACTAGCAAAGGATCCC
CCACACCCGTTGATCCAAACATCGCCAATCCTGAATTATCTACAAAAGCA
GCACCAGCTCCTACAGCTGTAGAAACCTCCGAGTCGCAGAAGCCTTCCTT
ACCGTCGTCTCCAACTGGATCCAAGCGCGCTATCGCACAACCTACGATCT
CAGCCCCAACCACCAATGCCAGCGTCGTTGCACCTTCTACTAAACGCGAG
CTCCGTCAGAAAAGCGCCACACCTGCTCGGAAGACTCCTGTGCCAGAAAC
CGCTCGAGCTGCCAGTGTGAGTGCTCCCAACCGCAGGCGTAAACGCCCCG
CTCCAGGTCCTGTATCTTCAGGCCAAGACGGTGGTGCAGCGGTAAGCTAC
GGTCGCCGCAAAGCGAAGCCCGGGAAGAAGCGGATTGGGACGCGTGAGGT
TGGCCTGAAAGATGGAACCCTGGCACGTGAGGACATTCGAATCGACGAGG
ATGGAGTACTGGAAGAGATCGACCCGAACGAACCACGGTATTGTCTATGT
GGAGACGTGAGTTTCGGGACGATGATCTGCTGTGAAAATCAAGAGTGCGA
CCGAGAATGGTTTCATCTTGACTGTGTCGGGCTGTCTGAGGTACCAAGTC
GCACGGCGAAGTGGTACTGTCCGGATTGTCGGGTTAAGTTTAACAAGGGT
GCAGACGGAATTGTCAAGAACAATCCGCGGAGATAA back to top
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:IPR011011 |
| DBxref | InterPro:IPR019787 |
| DBxref | InterPro:IPR019786 |
| DBxref | InterPro:IPR013083 |
| DBxref | InterPro:IPR024610 |
| DBxref | InterPro:IPR001965 |
| DBxref | PFAM:PF12998 |
| Product | PHD-finger 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 | NKJJ01000020.1:1809069..1811529 + |
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