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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000020.1:456481..459045+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_50835-T1 ID=CAN33_50835-T1|Name=CAN33_50835-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=2565bp|location=Sequence derived from alignment at NKJJ01000020.1:456481..459045+ (Aspergillus niger FDAARGOS_311)
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCGTGAGGG
CTATCGCTCCCCAGGATACCACAGCCGAAGCCGAAGCTACAGTCGCAGCC
GCAGCCGCAGTCCTCGCCGTAGCCGACAACCCCATTACGGGCACGAAAGC
AGAGAGGTGATGATGGATGGTCTACCGGTGGATATGGTGGAAGAAGACGT
TCGACAACTCCTTCCCCTTGATTTTTGTTGCGGACTTCGGAGCGGTGCTC
CGCCCAACACCATTTGATGGCAAGAGGCTGAGAATGCATGTCACCGGGTT
CCGGTCGACGTGGTTTACAGATTACCAAAGAGCTTAAAGAGTTTTATCAA
GTTGAAGGCCTAGATGACGTTCGTGTCATTCGTGATCGACAGACGAGTGA
GTGTGACTTAACTTATCCCTGCTGCGGTGCTAACAGGTGGCTAGAGCTTT
CCCGACAACTTGGGTTTTTGAGGTTTCGGAATCTAAGCTTGTCTCGCGCA
TTCGTCGAGCGCAACTTTCCTACGATCTACCTACATGGACCCAGCGCACA
GGACGACCGCGGCACAAAGGTCCGCATCGCATATAGCCGTGAAAGGGAGG
ACCGGGCTCGTGCGAGAGCAGAGGCGGACTGGAACTGCATGATGGTATGT
TTCACAGAGGTTTATAAGCATAGAGCTAACGCATGCAGTGTGGCATTGTG
AATTACTCTACTCGTCAGAAATGCTTTAGGTGTCAAGCGCCCCGACCTGG
TACGTTCGCTGCCGGCTTCTATCACACTATCACTTTTCTAATCTGAGTAG
ACGCTGGCCCGGCTGGTCCTCCTGGGTTGCCAGCTCCGAAGGTGGAGAAC
CACGGCGACAATGATGCTGCGCCGGAGAATCAGCCCTCTCAGTTCCTTCT
CTTCCGCGGACTGGAACCTTCCGTGACGGAAGAGCTCCTCGCCAAGGGCG
TTGCCAAGCTGTATCGTCCTGCATCCGGGAACGAGGCACCAGGCAATGGG
AAGAAGGGGGCAAAGGTGGCTTCTACTACAGGCGATTCTAACCTTGGCGC
CAGGGAGGGCTCCATCCGTCGTGTCTTGCTGGTGAGAGACCGTCGCAGTA
ACGAGAGCTGGCGCTATGGGTTCGCCGAATTTGCGACTATTCAGGTAAGC
ATATCGCTATTACAGCCAGAGCTTTCTAACACCATATAGGATGCCCAAGC
TGCCATTACACGCCTGAACTCGTTTGAAAAATTCACCATATCATCCAGAC
CGGTTCTCGTCAGCTACATCCACGCCGGTGTATTCGTTCCGGTGCTCAAT
CCTACAAGCAGTGAACGCTTCACATTCAGTCCTCTGAACAACCCATCGCT
GAAACTTATGTACTGGGATGAGGAGGCATACGCCAGTGAGCTTACGGTAT
CAACTGCAGAACTCGATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACC
GATCACAAATCCAAGGATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGC
GGCGGCCGCCGCCGGAGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGT
TCTGGAGCAACCGCCATGCCGAATTGCATGGTATCCAAAAGAAGGACGCG
GACGAGAAAAGCACAGAACATGGCTCAGACCACGCCGGCTCTCCATCCGA
TACATCCGCTCCACCATCCCAATCCTATGCCGATCCCAACCGCAATTGCT
GCTACTTGTGCTTGCGCCAATTCAAGTCATCGGCCGAAGTTAATCGCCAC
GAGCGTCTCAGTCAACTCCATCGTGGAAATCTCCAGAATGAAGAATCGGT
AGCCAGGGGGATTCGCAAACTCGTCAAGCACGGAATTATCCCAGCGCCGA
CGGAGTATCGTGATCGCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCG
AAGCCCTCAGCGAAGAACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGA
ACCTCCAGTGCAGAGCACATCAAAGGGAGCATCTCTCCTCAGCAAGATGG
GATGGACCGGTGCTGGTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCA
ATAGCCACCGAGGTATACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAG
CAAACTGGGAGACGCAACCGAAGAAGCCGGCCGCAACACGCGCAACCGGT
ACGACGAATTCCTGGAGAAGACGAAGCAAACGGCACGAGAACGATACGAG
AAGCTAGACCGATAG back to topCoding sequence (CDS) from alignment at NKJJ01000020.1:456481..459045+ >CAN33_50835-T1 ID=CAN33_50835-T1|Name=CAN33_50835-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=12600bp|location=Sequence derived from alignment at NKJJ01000020.1:456481..459045+ (Aspergillus niger FDAARGOS_311)
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG
ATGAGGCCAGGTATCCGCCTGGTCCATCACACAGACCTATGCCCCGCCGT
GACGACCGGGACGGCCGCATGTACGACGATCGTTCGCCATCCCGATCGCG
CTCGCCTGGCGGTATACGCTCTCCTCCCCGCAACCAGTAGCACAGAGCGC
ATGCTTTCCTTGGACAAGCGTCCACTTGCTTCCTCAGATCTAGCTGTTAC
TAACTCAATACATGAGAAGATCTCTCACGCTCGCCTCCCCGTGGGCCTGC
GGCGGACAGAAGACCCGAATATTCCAGAGACCGAGTCGACTCTAGACCCC
GTTACCGCAGTCGCGATCGCGATGACTTTCGACGGCGCTCATCACGCTCC
CCTCCTCCCAGGCGGGGGAGACCAGCCTACCGGGATCGCGACCATTACCA
AAGAGCTTAAAGAGTTTTATCAAGTTGAAGGCCTAGATGACGTTCGTGTC
ATTCGTGATCGACAGACGAAGCTTTCCCGACAACTTGGGTTTTTGAGGTT
TCGGAATCTAAGCTTGTCTCGCGCATTCGTCGAGCGCAACTTTCCTACGA
TCTACCTACATGGACCCAGCGCACAGGACGACCGCGGCACAAAGGTCCGC
ATCGCATATAGCCGTGAAAGGGAGGACCGGGCTCGTGCGAGAGCAGAGGC
GGACTGGAACTGCATGATGTGTGGCATTGTGAATTACTCTACTCGTCAGA
AATGCTTTAGGTGTCAAGCGCCCCGACCTGACGCTGGCCCGGCTGGTCCT
CCTGGGTTGCCAGCTCCGAAGGTGGAGAACCACGGCGACAATGATGCTGC
GCCGGAGAATCAGCCCTCTCAGTTCCTTCTCTTCCGCGGACTGGAACCTT
CCGTGACGGAAGAGCTCCTCGCCAAGGGCGTTGCCAAGCTGTATCGTCCT
GCATCCGGGAACGAGGCACCAGGCAATGGGAAGAAGGGGGCAAAGGTGGC
TTCTACTACAGGCGATTCTAACCTTGGCGCCAGGGAGGGCTCCATCCGTC
GTGTCTTGCTGGTGAGAGACCGTCGCAGTAACGAGAGCTGGCGCTATGGG
TTCGCCGAATTTGCGACTATTCAGGATGCCCAAGCTGCCATTACACGCCT
GAACTCGTTTGAAAAATTCACCATATCATCCAGACCGGTTCTCGTCAGCT
ACATCCACGCCGGTGTATTCGTTCCGGTGCTCAATCCTACAAGCAGTGAA
CGCTTCACATTCAGTCCTCTGAACAACCCATCGCTGAAACTTATGTACTG
GGATGAGGAGGCATACGCCAGTGAGCTTACGGTATCAACTGCAGAACTCG
ATAACCCCAAGGGAGAGAAACCAGCCGGTCAAACCGATCACAAATCCAAG
GATGCAGATAAGGCGAAGAAACGCAAGGCGGAAGCGGCGGCCGCCGCCGG
AGCCAAGAAGATGGCCGTGCCGTCACATCTGCAGTTCTGGAGCAACCGCC
ATGCCGAATTGCATGGTATCCAAAAGAAGGACGCGGACGAGAAAAGCACA
GAACATGGCTCAGACCACGCCGGCTCTCCATCCGATACATCCGCTCCACC
ATCCCAATCCTATGCCGATCCCAACCGCAATTGCTGCTACTTGTGCTTGC
GCCAATTCAAGTCATCGGCCGAAGTTAATCGCCACGAGCGTCTCAGTCAA
CTCCATCGTGGAAATCTCCAGAATGAAGAATCGGTAGCCAGGGGGATTCG
CAAACTCGTCAAGCACGGAATTATCCCAGCGCCGACGGAGTATCGTGATC
GCGCACGGGAGCGGCGCAAGGCATTCGGCAGCTCGAAGCCCTCAGCGAAG
AACAAACCCGCTCCGCCCCCGCCAAAGGAAGAGGAACCTCCAGTGCAGAG
CACATCAAAGGGAGCATCTCTCCTCAGCAAGATGGGATGGACCGGTGCTG
GTTTGGGTGCTCAAGGCACAGGCATGACCGCCCCAATAGCCACCGAGGTA
TACGCCCAGGGCGTGGGCTTAGGAGCGCAAGGCAGCAAACTGGGAGACGC
AACCGAAGAAGCCGGCCGCAACACGCGCAACCGGTACGACGAATTCCTGG
AGAAGACGAAGCAAACGGCACGAGAACGATACGAGAAGCTAGACCGATAG 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 polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR036443 |
| DBxref | InterPro:IPR035979 |
| DBxref | InterPro:IPR013087 |
| DBxref | InterPro:IPR001876 |
| DBxref | InterPro:IPR000504 |
| DBxref | InterPro:IPR000467 |
| DBxref | PFAM:PF00641 |
| DBxref | PFAM:PF00076 |
| DBxref | PFAM:PF01585 |
| Product | G-patch 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 | NKJJ01000020.1:456481..459045 + |
|
