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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000022.1:4175751..4177900- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_48805-T1 ID=CAN33_48805-T1|Name=CAN33_48805-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2150bp|location=Sequence derived from alignment at NKJJ01000022.1:4175751..4177900- (Aspergillus niger FDAARGOS_311)
ATGGGGAAGCTCAACTACCTTGGCGTAAGTCCTTCCATTGAGTATCAACA
CATGATAGCTCTAGAGAAGAGAGGCTGACGATAACTTGTTCCGTAGAGAA
AGATTAGAGGCATCAAAGCGGGCCAGGCCGTCTGGACTAGCCTGGTAGGT
GGCAGTGGAGTGGCCTGAATACTAGTGAACTAGACTGACGACTGCTTATA
GAAAAAGCGATTCCCGCCTGAAGATGGCAATAAGTCGACAAGCCATGAGG
CGGCTTTGCGGGACCCTGTTCTTGAAATCGATGTTACGGGGAAAGAACTG
ACGGATGAGGGCTTCAAGCAGTTCATCGATGTTTTGATCGAGTGCATCAA
GTACAAACATGCCGGGCATTCCAAGAGCATAGCACTAGTCACTGAGCTCC
ATTTGCAAGGTAACCAGCTCACTGTGGAGTCGTTGGCTAAATTAGCAGAG
GTAGTCACTTTATCAGAGGGTGACCTTCGGGAACTGGATCTTTCCAAGAA
CCAGCTTCACATCGAGACTGCGCAAGATGTCGAAAAGTGGGAGGCCTTCC
TCAAGGCATTCAAGCATTGTTGCCTGCTCAAGAAGCTTGATCTAAGTGGC
AACCCCCTCGGTTGTCTGGGCCTCGAGCACTTTGCGCGGGTCTACCTCAA
GAGTGACCTCGACTGGCTTCCGAGTGATGCTAAAGACATTTATGGTTCTG
ACATTGAAGAAGAAAGTAGTCTAGTCGAGGATACGGCTAGAATGAAGTTG
TCGGACAAAGAAAATGAGCCCAAGAGATCCAAAAGGTCGCCTAGTAAGGG
TAAAAAGGCTCGTCCGAAAAGTAAGTGCACGCACGGCTTCCTCGTCTAGG
TAAGCATTTGAAACTAACAGATGACCCTTTCAGGCCATACACAAATCGAT
ACGGCTGACTTGATAAAGTATACTTGTACTCGAGGTCTGCGTTCAATTCC
TCATCTCGTCCTATCGGAGATTGGACTGTCCAATACCAGCGCCCTTCATC
TGGAAAGCATGATCAGAATACAACAAACGCCGGAGCACCAACTCGACTTT
CTTCCTCCAGGGAAGTCTGTGACTCTGCCTCAAACTGCACCCCTGTGCAA
GAGCATAATTTGGCGCCCTACCAATGATCTCCCGCCATACACAGTGCGGC
TACTGGAGGTGGCAGAAAGCCTTCGTGATGTGATGTCCGATACAGAGCAT
GAAGGGCAGAATATGGGCAACGAGAATGACAGCACAGAGAAGTATGCCAG
CCGCGGCAGAAACAAAGGACAAGACCATGACGAGGTAGCCGCAAACCAGA
CTAAGAATGAGCTAAACCTTGAATACACCCGTCTCTGCAAGCGCGTTCAA
CTTGAGGCGATCAAGACAGAGGGAGTGCATAGCAGCACACTTTGGAGCAC
CGCACTGAAAATGATGCTCATTTCCCGGGCCATCTTGCTGGATGATGACG
ATCATCCGAGATCGGATAGTATGGTGGGAGGTGACGATGACGAGAATAAC
GAATCCGCGGACGAAGGCGAGGAAGAGGTGGAGTGGAGCGAAGATAATGA
CGGCTCATCTGATGGCCCATACTACGTTCATGTGGAATTCGTCGAGCCTC
GTGTCCGGACTCGTGTGCGGTTTGTTGAACCTAATACTGGTGCATACGCG
TATCCAGGTGAAGACATCGCGCACATGGGCCCTCCGGTCACCGAAGCTGC
CCCTGAAGAGGCTGAGGACCGCACCGGCCCACTTTACTCCCGTTCAGAAG
CGTTCGACTCCGAATTTCCCACCCTCCAGGAGGCATATGAACCATCCCCA
CCGATGAGAGCGGCTATCCCGACTGAAGTGATGTCAACCCCTCCTGCAAC
GCCCCGAACACACGTACAAGGAACAAGGACCTTGATGAAAACCGCGTGTG
CCGGTTCAACATTCCCTTTAAGGTGTGGCGACGAACAATTGCCTATGCCG
TCGGCGCGGATGGAATCCTCGACACTCATCAGCAGAATTGCATTCTAATG
TATGCCGCTAGCTGGGAAGCCCTTGAATACGCGCAGACATTTCAAGGTGC
CGAGAAGCACCAACAAATTTGGAAGCTCCTCCAGACGCTGGGATGCTTCA
ACTACAGCATGGGGAGGATGATGAATCCCAGCCAGCTAAACGTGTCCTGA
back to topCoding sequence (CDS) from alignment at NKJJ01000022.1:4175751..4177900- >CAN33_48805-T1 ID=CAN33_48805-T1|Name=CAN33_48805-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=9540bp|location=Sequence derived from alignment at NKJJ01000022.1:4175751..4177900- (Aspergillus niger FDAARGOS_311)
GACCTTGATGAAAACCGCGTGTGCCGGTTCAACATTCCCTTTAAGGTGTG
GCGACGAACAATTGCCTATGCCGTCGGCGCGGATGGAATCCTCGACACTC
ATCAGCAGAATTGCATTCTAATGTATGCCGCTAGCTGGGAAGCCCTTGAA
TACGCGCAGACATTTCAAGGTGCCGAGAAGCACCAACAAATTTGGAAGCT
CCTCCAGACGCTGGGATGCTTCAACTACAGCATGGGGAGGATGATGAATC
CCAGCCAGCTAAACGTGTCCTGAGCCATACACAAATCGATACGGCTGACT
TGATAAAGTATACTTGTACTCGAGGTCTGCGTTCAATTCCTCATCTCGTC
CTATCGGAGATTGGACTGTCCAATACCAGCGCCCTTCATCTGGAAAGCAT
GATCAGAATACAACAAACGCCGGAGCACCAACTCGACTTTCTTCCTCCAG
GGAAGTCTGTGACTCTGCCTCAAACTGCACCCCTGTGCAAGAGCATAATT
TGGCGCCCTACCAATGATCTCCCGCCATACACAGTGCGGCTACTGGAGGT
GGCAGAAAGCCTTCGTGATGTGATGTCCGATACAGAGCATGAAGGGCAGA
ATATGGGCAACGAGAATGACAGCACAGAGAAGTATGCCAGCCGCGGCAGA
AACAAAGGACAAGACCATGACGAGGTAGCCGCAAACCAGACTAAGAATGA
GCTAAACCTTGAATACACCCGTCTCTGCAAGCGCGTTCAACTTGAGGCGA
TCAAGACAGAGGGAGTGCATAGCAGCACACTTTGGAGCACCGCACTGAAA
ATGATGCTCATTTCCCGGGCCATCTTGCTGGATGATGACGATCATCCGAG
ATCGGATAGTATGGTGGGAGGTGACGATGACGAGAATAACGAATCCGCGG
ACGAAGGCGAGGAAGAGGTGGAGTGGAGCGAAGATAATGACGGCTCATCT
GATGGCCCATACTACGTTCATGTGGAATTCGTCGAGCCTCGTGTCCGGAC
TCGTGTGCGGTTTGTTGAACCTAATACTGGTGCATACGCGTATCCAGGTG
AAGACATCGCGCACATGGGCCCTCCGGTCACCGAAGCTGCCCCTGAAGAG
GCTGAGGACCGCACCGGCCCACTTTACTCCCGTTCAGAAGCGTTCGACTC
CGAATTTCCCACCCTCCAGGAGGCATATGAACCATCCCCACCGATGAGAG
CGGCTATCCCGACTGAAAAAAAGCGATTCCCGCCTGAAGATGGCAATAAG
TCGACAAGCCATGAGGCGGCTTTGCGGGACCCTGTTCTTGAAATCGATGT
TACGGGGAAAGAACTGACGGATGAGGGCTTCAAGCAGTTCATCGATGTTT
TGATCGAGTGCATCAAGTACAAACATGCCGGGCATTCCAAGAGCATAGCA
CTAGTCACTGAGCTCCATTTGCAAGGTAACCAGCTCACTGTGGAGTCGTT
GGCTAAATTAGCAGAGGTAGTCACTTTATCAGAGGGTGACCTTCGGGAAC
TGGATCTTTCCAAGAACCAGCTTCACATCGAGACTGCGCAAGATGTCGAA
AAGTGGGAGGCCTTCCTCAAGGCATTCAAGCATTGTTGCCTGCTCAAGAA
GCTTGATCTAAGTGGCAACCCCCTCGGTTGTCTGGGCCTCGAGCACTTTG
CGCGGGTCTACCTCAAGAGTGACCTCGACTGGCTTCCGAGTGATGCTAAA
GACATTTATGGTTCTGACATTGAAGAAGAAAGTAGTCTAGTCGAGGATAC
GGCTAGAATGAAGTTGTCGGACAAAGAAAATGAGCCCAAGAGATCCAAAA
GGTCGCCTAGTAAGGGTAAAAAGGCTCGTCCGAAAAAGAAAGATTAGAGG
CATCAAAGCGGGCCAGGCCGTCTGGACTAGCCTGATGGGGAAGCTCAACT
ACCTTGGCGACCTTGATGAAAACCGCGTGTGCCGGTTCAACATTCCCTTT
AAGGTGTGGCGACGAACAATTGCCTATGCCGTCGGCGCGGATGGAATCCT
CGACACTCATCAGCAGAATTGCATTCTAATGTATGCCGCTAGCTGGGAAG
CCCTTGAATACGCGCAGACATTTCAAGGTGCCGAGAAGCACCAACAAATT
TGGAAGCTCCTCCAGACGCTGGGATGCTTCAACTACAGCATGGGGAGGAT
GATGAATCCCAGCCAGCTAAACGTGTCCTGAGCCATACACAAATCGATAC
GGCTGACTTGATAAAGTATACTTGTACTCGAGGTCTGCGTTCAATTCCTC
ATCTCGTCCTATCGGAGATTGGACTGTCCAATACCAGCGCCCTTCATCTG
GAAAGCATGATCAGAATACAACAAACGCCGGAGCACCAACTCGACTTTCT
TCCTCCAGGGAAGTCTGTGACTCTGCCTCAAACTGCACCCCTGTGCAAGA
GCATAATTTGGCGCCCTACCAATGATCTCCCGCCATACACAGTGCGGCTA
CTGGAGGTGGCAGAAAGCCTTCGTGATGTGATGTCCGATACAGAGCATGA
AGGGCAGAATATGGGCAACGAGAATGACAGCACAGAGAAGTATGCCAGCC
GCGGCAGAAACAAAGGACAAGACCATGACGAGGTAGCCGCAAACCAGACT
AAGAATGAGCTAAACCTTGAATACACCCGTCTCTGCAAGCGCGTTCAACT
TGAGGCGATCAAGACAGAGGGAGTGCATAGCAGCACACTTTGGAGCACCG
CACTGAAAATGATGCTCATTTCCCGGGCCATCTTGCTGGATGATGACGAT
CATCCGAGATCGGATAGTATGGTGGGAGGTGACGATGACGAGAATAACGA
ATCCGCGGACGAAGGCGAGGAAGAGGTGGAGTGGAGCGAAGATAATGACG
GCTCATCTGATGGCCCATACTACGTTCATGTGGAATTCGTCGAGCCTCGT
GTCCGGACTCGTGTGCGGTTTGTTGAACCTAATACTGGTGCATACGCGTA
TCCAGGTGAAGACATCGCGCACATGGGCCCTCCGGTCACCGAAGCTGCCC
CTGAAGAGGCTGAGGACCGCACCGGCCCACTTTACTCCCGTTCAGAAGCG
TTCGACTCCGAATTTCCCACCCTCCAGGAGGCATATGAACCATCCCCACC
GATGAGAGCGGCTATCCCGACTGAAAAAAAGCGATTCCCGCCTGAAGATG
GCAATAAGTCGACAAGCCATGAGGCGGCTTTGCGGGACCCTGTTCTTGAA
ATCGATGTTACGGGGAAAGAACTGACGGATGAGGGCTTCAAGCAGTTCAT
CGATGTTTTGATCGAGTGCATCAAGTACAAACATGCCGGGCATTCCAAGA
GCATAGCACTAGTCACTGAGCTCCATTTGCAAGGTAACCAGCTCACTGTG
GAGTCGTTGGCTAAATTAGCAGAGGTAGTCACTTTATCAGAGGGTGACCT
TCGGGAACTGGATCTTTCCAAGAACCAGCTTCACATCGAGACTGCGCAAG
ATGTCGAAAAGTGGGAGGCCTTCCTCAAGGCATTCAAGCATTGTTGCCTG
CTCAAGAAGCTTGATCTAAGTGGCAACCCCCTCGGTTGTCTGGGCCTCGA
GCACTTTGCGCGGGTCTACCTCAAGAGTGACCTCGACTGGCTTCCGAGTG
ATGCTAAAGACATTTATGGTTCTGACATTGAAGAAGAAAGTAGTCTAGTC
GAGGATACGGCTAGAATGAAGTTGTCGGACAAAGAAAATGAGCCCAAGAG
ATCCAAAAGGTCGCCTAGTAAGGGTAAAAAGGCTCGTCCGAAAAAGAAAG
ATTAGAGGCATCAAAGCGGGCCAGGCCGTCTGGACTAGCCTGATGGGGAA
GCTCAACTACCTTGGCGACCTTGATGAAAACCGCGTGTGCCGGTTCAACA
TTCCCTTTAAGGTGTGGCGACGAACAATTGCCTATGCCGTCGGCGCGGAT
GGAATCCTCGACACTCATCAGCAGAATTGCATTCTAATGTATGCCGCTAG
CTGGGAAGCCCTTGAATACGCGCAGACATTTCAAGGTGCCGAGAAGCACC
AACAAATTTGGAAGCTCCTCCAGACGCTGGGATGCTTCAACTACAGCATG
GGGAGGATGATGAATCCCAGCCAGCTAAACGTGTCCTGAGCCATACACAA
ATCGATACGGCTGACTTGATAAAGTATACTTGTACTCGAGGTCTGCGTTC
AATTCCTCATCTCGTCCTATCGGAGATTGGACTGTCCAATACCAGCGCCC
TTCATCTGGAAAGCATGATCAGAATACAACAAACGCCGGAGCACCAACTC
GACTTTCTTCCTCCAGGGAAGTCTGTGACTCTGCCTCAAACTGCACCCCT
GTGCAAGAGCATAATTTGGCGCCCTACCAATGATCTCCCGCCATACACAG
TGCGGCTACTGGAGGTGGCAGAAAGCCTTCGTGATGTGATGTCCGATACA
GAGCATGAAGGGCAGAATATGGGCAACGAGAATGACAGCACAGAGAAGTA
TGCCAGCCGCGGCAGAAACAAAGGACAAGACCATGACGAGGTAGCCGCAA
ACCAGACTAAGAATGAGCTAAACCTTGAATACACCCGTCTCTGCAAGCGC
GTTCAACTTGAGGCGATCAAGACAGAGGGAGTGCATAGCAGCACACTTTG
GAGCACCGCACTGAAAATGATGCTCATTTCCCGGGCCATCTTGCTGGATG
ATGACGATCATCCGAGATCGGATAGTATGGTGGGAGGTGACGATGACGAG
AATAACGAATCCGCGGACGAAGGCGAGGAAGAGGTGGAGTGGAGCGAAGA
TAATGACGGCTCATCTGATGGCCCATACTACGTTCATGTGGAATTCGTCG
AGCCTCGTGTCCGGACTCGTGTGCGGTTTGTTGAACCTAATACTGGTGCA
TACGCGTATCCAGGTGAAGACATCGCGCACATGGGCCCTCCGGTCACCGA
AGCTGCCCCTGAAGAGGCTGAGGACCGCACCGGCCCACTTTACTCCCGTT
CAGAAGCGTTCGACTCCGAATTTCCCACCCTCCAGGAGGCATATGAACCA
TCCCCACCGATGAGAGCGGCTATCCCGACTGAAAAAAAGCGATTCCCGCC
TGAAGATGGCAATAAGTCGACAAGCCATGAGGCGGCTTTGCGGGACCCTG
TTCTTGAAATCGATGTTACGGGGAAAGAACTGACGGATGAGGGCTTCAAG
CAGTTCATCGATGTTTTGATCGAGTGCATCAAGTACAAACATGCCGGGCA
TTCCAAGAGCATAGCACTAGTCACTGAGCTCCATTTGCAAGGTAACCAGC
TCACTGTGGAGTCGTTGGCTAAATTAGCAGAGGTAGTCACTTTATCAGAG
GGTGACCTTCGGGAACTGGATCTTTCCAAGAACCAGCTTCACATCGAGAC
TGCGCAAGATGTCGAAAAGTGGGAGGCCTTCCTCAAGGCATTCAAGCATT
GTTGCCTGCTCAAGAAGCTTGATCTAAGTGGCAACCCCCTCGGTTGTCTG
GGCCTCGAGCACTTTGCGCGGGTCTACCTCAAGAGTGACCTCGACTGGCT
TCCGAGTGATGCTAAAGACATTTATGGTTCTGACATTGAAGAAGAAAGTA
GTCTAGTCGAGGATACGGCTAGAATGAAGTTGTCGGACAAAGAAAATGAG
CCCAAGAGATCCAAAAGGTCGCCTAGTAAGGGTAAAAAGGCTCGTCCGAA
AAAGAAAGATTAGAGGCATCAAAGCGGGCCAGGCCGTCTGGACTAGCCTG
ATGGGGAAGCTCAACTACCTTGGCGACCTTGATGAAAACCGCGTGTGCCG
GTTCAACATTCCCTTTAAGGTGTGGCGACGAACAATTGCCTATGCCGTCG
GCGCGGATGGAATCCTCGACACTCATCAGCAGAATTGCATTCTAATGTAT
GCCGCTAGCTGGGAAGCCCTTGAATACGCGCAGACATTTCAAGGTGCCGA
GAAGCACCAACAAATTTGGAAGCTCCTCCAGACGCTGGGATGCTTCAACT
ACAGCATGGGGAGGATGATGAATCCCAGCCAGCTAAACGTGTCCTGAGCC
ATACACAAATCGATACGGCTGACTTGATAAAGTATACTTGTACTCGAGGT
CTGCGTTCAATTCCTCATCTCGTCCTATCGGAGATTGGACTGTCCAATAC
CAGCGCCCTTCATCTGGAAAGCATGATCAGAATACAACAAACGCCGGAGC
ACCAACTCGACTTTCTTCCTCCAGGGAAGTCTGTGACTCTGCCTCAAACT
GCACCCCTGTGCAAGAGCATAATTTGGCGCCCTACCAATGATCTCCCGCC
ATACACAGTGCGGCTACTGGAGGTGGCAGAAAGCCTTCGTGATGTGATGT
CCGATACAGAGCATGAAGGGCAGAATATGGGCAACGAGAATGACAGCACA
GAGAAGTATGCCAGCCGCGGCAGAAACAAAGGACAAGACCATGACGAGGT
AGCCGCAAACCAGACTAAGAATGAGCTAAACCTTGAATACACCCGTCTCT
GCAAGCGCGTTCAACTTGAGGCGATCAAGACAGAGGGAGTGCATAGCAGC
ACACTTTGGAGCACCGCACTGAAAATGATGCTCATTTCCCGGGCCATCTT
GCTGGATGATGACGATCATCCGAGATCGGATAGTATGGTGGGAGGTGACG
ATGACGAGAATAACGAATCCGCGGACGAAGGCGAGGAAGAGGTGGAGTGG
AGCGAAGATAATGACGGCTCATCTGATGGCCCATACTACGTTCATGTGGA
ATTCGTCGAGCCTCGTGTCCGGACTCGTGTGCGGTTTGTTGAACCTAATA
CTGGTGCATACGCGTATCCAGGTGAAGACATCGCGCACATGGGCCCTCCG
GTCACCGAAGCTGCCCCTGAAGAGGCTGAGGACCGCACCGGCCCACTTTA
CTCCCGTTCAGAAGCGTTCGACTCCGAATTTCCCACCCTCCAGGAGGCAT
ATGAACCATCCCCACCGATGAGAGCGGCTATCCCGACTGAAAAAAAGCGA
TTCCCGCCTGAAGATGGCAATAAGTCGACAAGCCATGAGGCGGCTTTGCG
GGACCCTGTTCTTGAAATCGATGTTACGGGGAAAGAACTGACGGATGAGG
GCTTCAAGCAGTTCATCGATGTTTTGATCGAGTGCATCAAGTACAAACAT
GCCGGGCATTCCAAGAGCATAGCACTAGTCACTGAGCTCCATTTGCAAGG
TAACCAGCTCACTGTGGAGTCGTTGGCTAAATTAGCAGAGGTAGTCACTT
TATCAGAGGGTGACCTTCGGGAACTGGATCTTTCCAAGAACCAGCTTCAC
ATCGAGACTGCGCAAGATGTCGAAAAGTGGGAGGCCTTCCTCAAGGCATT
CAAGCATTGTTGCCTGCTCAAGAAGCTTGATCTAAGTGGCAACCCCCTCG
GTTGTCTGGGCCTCGAGCACTTTGCGCGGGTCTACCTCAAGAGTGACCTC
GACTGGCTTCCGAGTGATGCTAAAGACATTTATGGTTCTGACATTGAAGA
AGAAAGTAGTCTAGTCGAGGATACGGCTAGAATGAAGTTGTCGGACAAAG
AAAATGAGCCCAAGAGATCCAAAAGGTCGCCTAGTAAGGGTAAAAAGGCT
CGTCCGAAAAAGAAAGATTAGAGGCATCAAAGCGGGCCAGGCCGTCTGGA
CTAGCCTGATGGGGAAGCTCAACTACCTTGGCGACCTTGATGAAAACCGC
GTGTGCCGGTTCAACATTCCCTTTAAGGTGTGGCGACGAACAATTGCCTA
TGCCGTCGGCGCGGATGGAATCCTCGACACTCATCAGCAGAATTGCATTC
TAATGTATGCCGCTAGCTGGGAAGCCCTTGAATACGCGCAGACATTTCAA
GGTGCCGAGAAGCACCAACAAATTTGGAAGCTCCTCCAGACGCTGGGATG
CTTCAACTACAGCATGGGGAGGATGATGAATCCCAGCCAGCTAAACGTGT
CCTGAGCCATACACAAATCGATACGGCTGACTTGATAAAGTATACTTGTA
CTCGAGGTCTGCGTTCAATTCCTCATCTCGTCCTATCGGAGATTGGACTG
TCCAATACCAGCGCCCTTCATCTGGAAAGCATGATCAGAATACAACAAAC
GCCGGAGCACCAACTCGACTTTCTTCCTCCAGGGAAGTCTGTGACTCTGC
CTCAAACTGCACCCCTGTGCAAGAGCATAATTTGGCGCCCTACCAATGAT
CTCCCGCCATACACAGTGCGGCTACTGGAGGTGGCAGAAAGCCTTCGTGA
TGTGATGTCCGATACAGAGCATGAAGGGCAGAATATGGGCAACGAGAATG
ACAGCACAGAGAAGTATGCCAGCCGCGGCAGAAACAAAGGACAAGACCAT
GACGAGGTAGCCGCAAACCAGACTAAGAATGAGCTAAACCTTGAATACAC
CCGTCTCTGCAAGCGCGTTCAACTTGAGGCGATCAAGACAGAGGGAGTGC
ATAGCAGCACACTTTGGAGCACCGCACTGAAAATGATGCTCATTTCCCGG
GCCATCTTGCTGGATGATGACGATCATCCGAGATCGGATAGTATGGTGGG
AGGTGACGATGACGAGAATAACGAATCCGCGGACGAAGGCGAGGAAGAGG
TGGAGTGGAGCGAAGATAATGACGGCTCATCTGATGGCCCATACTACGTT
CATGTGGAATTCGTCGAGCCTCGTGTCCGGACTCGTGTGCGGTTTGTTGA
ACCTAATACTGGTGCATACGCGTATCCAGGTGAAGACATCGCGCACATGG
GCCCTCCGGTCACCGAAGCTGCCCCTGAAGAGGCTGAGGACCGCACCGGC
CCACTTTACTCCCGTTCAGAAGCGTTCGACTCCGAATTTCCCACCCTCCA
GGAGGCATATGAACCATCCCCACCGATGAGAGCGGCTATCCCGACTGAAA
AAAAGCGATTCCCGCCTGAAGATGGCAATAAGTCGACAAGCCATGAGGCG
GCTTTGCGGGACCCTGTTCTTGAAATCGATGTTACGGGGAAAGAACTGAC
GGATGAGGGCTTCAAGCAGTTCATCGATGTTTTGATCGAGTGCATCAAGT
ACAAACATGCCGGGCATTCCAAGAGCATAGCACTAGTCACTGAGCTCCAT
TTGCAAGGTAACCAGCTCACTGTGGAGTCGTTGGCTAAATTAGCAGAGGT
AGTCACTTTATCAGAGGGTGACCTTCGGGAACTGGATCTTTCCAAGAACC
AGCTTCACATCGAGACTGCGCAAGATGTCGAAAAGTGGGAGGCCTTCCTC
AAGGCATTCAAGCATTGTTGCCTGCTCAAGAAGCTTGATCTAAGTGGCAA
CCCCCTCGGTTGTCTGGGCCTCGAGCACTTTGCGCGGGTCTACCTCAAGA
GTGACCTCGACTGGCTTCCGAGTGATGCTAAAGACATTTATGGTTCTGAC
ATTGAAGAAGAAAGTAGTCTAGTCGAGGATACGGCTAGAATGAAGTTGTC
GGACAAAGAAAATGAGCCCAAGAGATCCAAAAGGTCGCCTAGTAAGGGTA
AAAAGGCTCGTCCGAAAAAGAAAGATTAGAGGCATCAAAGCGGGCCAGGC
CGTCTGGACTAGCCTGATGGGGAAGCTCAACTACCTTGGC back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein 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:IPR001611 |
| DBxref | InterPro:IPR032675 |
| DBxref | PFAM:PF13516 |
| DBxref | PFAM:PF00560 |
| Product | Leucine Rich 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 | NKJJ01000022.1:4175751..4177900 - |
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