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Sequences
The following sequences are available for this feature:
mRNA from alignment at NKJJ01000003.1:900411..904355+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >CAN33_31155-T1 ID=CAN33_31155-T1|Name=CAN33_31155-T1|organism=Aspergillus niger FDAARGOS_311|type=mRNA|length=3945bp|location=Sequence derived from alignment at NKJJ01000003.1:900411..904355+ (Aspergillus niger FDAARGOS_311)
ATGCAGAATTCGACGGCAGGTCTACGAATTCCTGCAGCTCCGACTTTCCC
TCTGTCATCTCCGATCACAGAGGAGATTCCGAGCCCGGTGCCATCATCTC
CAGAGGACCATGACATGGAAAGGAATCGACCTTTTGCTTTTCTGAATAAG
ACAACACGCAGAAATAACCCATTCATACGTGAAGGAAGTTATGATAAGCA
CACTCAGTCACAGGAAGCAGTAGATGGGACGGGGGTCTCTTATCAGGCAA
ATCCGAACCAAGAGGACTTAAGCAATCTTGGGCTCTACACAGGGAAGAGC
TCAGGACGGCCTTTTGGGTTGAGCTTGGTTACGGATTTCTCTCACTCTAC
ATCAAAGGCACCTGAAGATGGATCAGTGCCGACTCTCGTGGATTTGAATG
ACTTGAAGGCTCTCTCTGAGGTGCGAGAACAGGAAAGGAATGCACATACT
CTTAAAGGGATATTGAAGAAAGTCCCCGGTCAGGACTACGACCAAAAGCC
CGGGAAACCGTCCGTATTCGACAACAAACGACTATCTTACTTCAACATCA
GGCGGAAAAAGAAGGGAAACGACGACCTGTCGCCATCCGATCGACCGATT
ATGATTGGACTAAGCATGCCATCTGATGAATCGTTAAGTACTCAAGGAAG
AGGGCTAACAGTAAATACTGGCCATGCCCAACGAGCGGCACTGACTCCCT
CGATAATTGTGACTCCGGCCAAGGAAGACACATTTTGGACAGGCCTTGAC
ACGACTCATCCTCGTCCTAGGATAGCGTCTAGCATCTACTCTCAACCAAC
GCCGTATCCCGATGAAAATGACAGCGACCTTGACATTCCACCTGTGCCTG
CTATTCCTAATTATGCCTTTTTGGCGCATAATGAGAACCCGAGCACGAAT
ATGAACACTGACTCTACACAAAGGCAATTTGTATCCGCAGCAGGGAGACA
ACGCTCCCTCTCGGCTGGCACTCTGTTTGAAGAAGATGACGTGCGACGGG
AGAGCCGCTCTCGGTCATATTCCAGCGGGACTGTCAAAAAGATTCCGGAT
AGGTTAAGCATCAACACTGAAACCAACAGGCATCAGTCACAGGGTTGGTG
GACTTACTTGCTCTCACCTTTGCTGAGTCGTTACAGCACAGCCATGGGTC
CCACCACCCCAACTGAGGCTGCCAGACCACCAGTTCCCAGCATCGCAACG
GAGTCAAGGGAATCGAGTGACGAGTGGTGGGAAAAGGAAGTATCCAGCTT
CTCGCCCGATACGCCAGAAGCCATCATACCTCATCATAAGGAATTGTCAC
CTGACTGGACAGATGCTAGTTTGAACCCCTTTGATGAGAAAAGACTGAGT
ATTCAAGACCAACCTGTCGAACGAGAGCGAAATGCCACATCCTTTATGTT
CCCGGGAAGGCCAATCCAGGGCTCTGCGGCTGAATACTACCAAGCCTGCG
CACACGAATTGTTCAGCGGACGGCCGTACTTTGAATGCGTCAACCATGTC
TGCTCTATAACACCCAAGGACAAGATTCCCGGCTATACCGAGGGTACAGT
TGTGGGTTCCTCAGATAACAGGAGTCTTCTGATTGACGTTGGGGACATGC
CACAAAACGAAATTCCTGGCTTGAGAGCTGTTCCCACTACTTCGGAGCCA
CGCACTGTGTATGAACCGAGTGTAATGGATAAGGGAGTAGAGGCCACCCT
TGACAATCTTCAGGACGATGATCCGGTTGGAAAAGCTAGCTCGAGGGGGG
TACCTCCGTCTGAGCATCCAACGATCCAACCTCCTCCCACCCTGCGTCCT
CTGAGTGAGTATCCTCCGACCGAGCACCCTCCAAGTGAGCACCCTCCTAG
CGAACATCCTCCTAGCGAGCATCCCCCGAGTGAACACCCTCCGGCTGGTC
AACCTCCAGTCGACAACAATCCAGATCAACCTATTCCTGATGAGGGGTCA
CGGGAATTGCCTCAGGAAGCCTTTCCAACATCACATGCCGGAGGAGAAAC
AGGAGAATTAGCACCGCCTCCAAACAGTCAAAGCGAAAGGAAGACGTCTT
GGCCTATCTTTCAGCCAATTATCCAGCCAGTCGTTCAACCAGCACCGCAG
CCAGCACCTCAGCCAGCCATTCAACCAATAATAGTGCAAGCTCCTCAACC
GGTTGCTCAACCTGCCCCTCCAACTCAGACCTTCCATGTCCATCCTGCTA
CTGTCCCATCGCCGATTCTCATAGCACCCCATGGGCACCAGCATCCAGCA
TTTCCTCAAGAACAGCAGACTGAACCACAGCCTGAACCACAGCCCCCTAA
CCCTACGTCTCCTGGCCTCCAACAAGCCACCGTGAGGGGTGGCTCAATTC
CGCTATCTGACATACATACTACCCCGGCTCCTGCATATACATCCAACCAC
AATAGCTCCTCGACCCCAGCGCCTACATATACTTCCCACTACACTAGCTC
TATGCCTCGCATGGAGCCTCATCCACTCCCACAAGAGGGAATGACACATA
CCACCACAGAGAGAGAGATAATCGAGATACGACGGAAAACGTTAGAGACA
GAAGACAAGAAGAAGAAAAAAAAGAAGTTTGGCTTGTTGTTCTGCTGTTG
CTGTTGCGGTGGTGACCGGTCTCATAAAAATGGCTGTTTCGGTAGGAAAG
ACAAGGACAAGAAGGTCAAACGTCGGTGGTACCTAGCTATCCTCACGTCC
TTCCTCATAATCATAGCGATTATCCTCCTTCTAGTCATGACCTTGACAGG
AAAAGGCGACTCAACTCCAGTGGAGTCACAGTGGCTCAACCTCACCGGCT
ATCCACCGATGCCCACTGGTATCGCAACAATTGCCGGACCGAAGCCTCAG
GTACAGCAGTCAGGATGCATAACTCCATCCACCCTTTGGAGCTGTGCTCT
ACCACCAGAGGAACAATCCGCCAACAAGCCCTACGCGGCCAATGAGCCGA
ACTTCCGCGTGGAAATACGATTCCGCAACGGCACCTACCCTAACAGCACC
ACAATTGCCTCACGATCCAGCAAAACCCTCTCCTCACGGAGCTCCGACAA
CCCCTACAGTCCATCCCCATCCCCACCAAGCATGAAAGATCAGACCTTCC
TCGGCAATACAACAGACAACAACACCGTCCCCTATGCTGGCGAGGAAACC
CCCTTCTACATGACCTTCCTCTCAACCAGCACCCTAACATCCACATCCAC
CCTTCGCCTGGCGCGAAGATCCTCCGACAGCTCCTTCCCTAACCTCGCAA
CAATTATCCCCTCCCCAGACGAAGATTCCGACGGAACCGCCGCCGCCGCA
GATCTATACCCAATGCCCTCCTCCCAACCAGTCCGTCTCTACAACCGCGG
CCTCAACACAGAACACTATGGCTTCTACACCTACTTCGACCGCTCCATCT
TCCTCTCCTCCCGAGCCCCCCTCGACGGCAACACAACCGACACAAACCCC
AACGACCGAAACGGCGGATCCAACGAATCTGACGCCCGCGTCCGCTGCAC
CTGGTCCCAGACCCGCTTCCTCGTCCAAATCTGGACGCGCTCCAACAACA
CACTCCTGGAGAATGCAACGGCCACGTCCACAGCATCAGCAACTGCATCA
ACATCAACAGCAACAGCCACGACAACGCCTTCCTCCGCGAATGACTGGAC
CCGGCCCGGATCCTTTCCTTACCCTGTCACCATAACTCTAGACCGCCATG
GAGGAGACGCTAAAGAGAAAATGGTCTACTGTTATGGCATGGAGAGCGGC
GAGCAGATCAACTCAACGGAAGTCAAGTTGCAGCTCGAGGATCGATCATA
CGGTGGGACGCTGGTAAATCCGGCCCCAGGGATATTCGACTTATATGGTA
ATTCGTCGACGGACGCTACGGGGGATTATGGGGGCGTCGATGGGGGAAGT
GGAGGGTGCTCTTGTAAATGGGCAAATTGGGTATCGAGTTCATGA back to topCoding sequence (CDS) from alignment at NKJJ01000003.1:900411..904355+ >CAN33_31155-T1 ID=CAN33_31155-T1|Name=CAN33_31155-T1|organism=Aspergillus niger FDAARGOS_311|type=CDS|length=10080bp|location=Sequence derived from alignment at NKJJ01000003.1:900411..904355+ (Aspergillus niger FDAARGOS_311)
ATGCAGAATTCGACGGCAGGTCTACGAATTCCTGCAGCTCCGACTTTCCC
TCTGTCATCTCCGATCACAGAGGAGATTCCGAGCCCGGTGCCATCATCTC
CAGAGGACCATGACATGGAAAGGAATCGACCTTTTGCTTTTCTGAATAAG
ACAACACGCAGAAATAACCCATTCATACGTGAAGGAAGTTATGATAAGCA
CACTCAGTCACAGGAAGCAGTAGATGGGACGGGGGTCTCTTATCAGGCAA
ATCCGAACCAAGAGGACTTAAGCAATCTTGGGCTCTACACAGGGAAGAGC
TCAGGACGGCCTTTTGGGTTGAGCTTGGTTACGGATTTCTCTCACTCTAC
ATCAAAGGCACCTGAAGATGGATCAGTGCCGACTCTCGTGGATTTGAATG
ACTTGAAGGCTCTCTCTGAGGTGCGAGAACAGGAAAGGAATGCACATACT
CTTAAAGGGATATTGAAGAAAGTCCCCGGTCAGGACTACGACCAAAAGCC
CGGGAAACCGTCCGTATTCGACAACAAACGACTATCTTACTTCAACATCA
GGCGGAAAAAGAAGGGAAACGACGACCTGTCGCCATCCGATCGACCGATT
ATGATTGGACTAAGCATGCCATCTGATGAATCGTTAAGTACTCAAGGAAG
AGGGCTAACAGTAAATACTGGCCATGCCCAACGAGCGGCACTGACTCCCT
CGATAATTGTGACTCCGGCCAAGGAAGACACATTTTGGACAGGCCTTGAC
ACGACTCATCCTCGTCCTAGGATAGCGTCTAGCATCTACTCTCAACCAAC
GCCGTATCCCGATGAAAATGACAGCGACCTTGACATTCCACCTGTGCCTG
CTATTCCTAATTATGCCTTTTTGGCGCATAATGAGAACCCGAGCACGAAT
ATGAACACTGACTCTACACAAAGGCAATTTGTATCCGCAGCAGGGAGACA
ACGCTCCCTCTCGGCTGGCACTCTGTTTGAAGAAGATGACGTGCGACGGG
AGAGCCGCTCTCGGTCATATTCCAGCGGGACTGTCAAAAAGATTCCGGAT
AGGTTAAGCATCAACACTGAAACCAACAGGCATCAGTCACAGGGTTGGTG
GACTTACTTGCTCTCACCTTTGCTGAGTCGTTACAGCACAGCCATGGGTC
CCACCACCCCAACTGAGGCTGCCAGACCACCAGTTCCCAGCATCGCAACG
GAGTCAAGGGAATCGAGTGACGAGTGGTGGGAAAAGGAAGTATCCAGCTT
CTCGCCCGATACGCCAGAAGCCATCATACCTCATCATAAGGAATTGTCAC
CTGACTGGACAGATGCTAGTTTGAACCCCTTTGATGAGAAAAGACTGAGT
ATTCAAGACCAACCTGTCGAACGAGAGCGAAATGCCACATCCTTTATGTT
CCCGGGAAGGCCAATCCAGGGCTCTGCGGCTGAATACTACCAAGCCTGCG
CACACGAATTGTTCAGCGGACGGCCGTACTTTGAATGCGTCAACCATGTC
TGCTCTATAACACCCAAGGACAAGATTCCCGGCTATACCGAGGGTACAGT
TGTGGGTTCCTCAGATAACAGGAGTCTTCTGATTGACGTTGGGGACATGC
CACAAAACGAAATTCCTGGCTTGAGAGCTGTTCCCACTACTTCGGAGCCA
CGCACTGTGTATGAACCGAGTGTAATGGATAAGGGAGTAGAGGCCACCCT
TGACAATCTTCAGGACGATGATCCGGTTGGAAAAGCTAGCTCGAGGGGGG
TACCTCCGTCTGAGCATCCAACGATCCAACCTCCTCCCACCCTGCGTCCT
CTGAGTGAGTATCCTCCGACCGAGCACCCTCCAAGTGAGCACCCTCCTAG
CGAACATCCTCCTAGCGAGCATCCCCCGAGTGAACACCCTCCGGCTGGTC
AACCTCCAGTCGACAACAATCCAGATCAACCTATTCCTGATGAGGGGTCA
CGGGAATTGCCTCAGGAAGCCTTTCCAACATCACATGCCGGAGGAGAAAC
AGGAGAATTAGCACCGCCTCCAAACAGTCAAAGCGAAAGGAAGACGTCTT
GGCCTATCTTTCAGCCAATTATCCAGCCAGTCGTTCAACCAGCACCGCAG
CCAGCACCTCAGCCAGCCATTCAACCAATAATAGTGCAAGCTCCTCAACC
GGTTGCTCAACCTGCCCCTCCAACTCAGACCTTCCATGTCCATCCTGCTA
CTGTCCCATCGCCGATTCTCATAGCACCCCATGGGCACCAGCATCCAGCA
TTTCCTCAAGAACAGCAGACTGAACCACAGCCTGAACCACAGCCCCCTAA
CCCTACGTCTCCTGGCCTCCAACAAGCCACCAAGGTCAAACGTCGGTGGT
ACCTAGCTATCCTCACGTCCTTCCTCATAATCATAGCGATTATCCTCCTT
CTAGTCATGACCTTGACAGGAAAAGGCGACTCAACTCCAGTGGAGTCACA
GTGGCTCAACCTCACCGGCTATCCACCGATGCCCACTGGTATCGCAACAA
TTGCCGGACCGAAGCCTCAGGTACAGCAGTCAGGATGCATAACTCCATCC
ACCCTTTGGAGCTGTGCTCTACCACCAGAGGAACAATCCGCCAACAAGCC
CTACGCGGCCAATGAGCCGAACTTCCGCGTGGAAATACGATTCCGCAACG
GCACCTACCCTAACAGCACCACAATTGCCTCACGATCCAGCAAAACCCTC
TCCTCACGGAGCTCCGACAACCCCTACAGTCCATCCCCATCCCCACCAAG
CATGAAAGATCAGACCTTCCTCGGCAATACAACAGACAACAACACCGTCC
CCTATGCTGGCGAGGAAACCCCCTTCTACATGACCTTCCTCTCAACCAGC
ACCCTAACATCCACATCCACCCTTCGCCTGGCGCGAAGATCCTCCGACAG
CTCCTTCCCTAACCTCGCAACAATTATCCCCTCCCCAGACGAAGATTCCG
ACGGAACCGCCGCCGCCGCAGATCTATACCCAATGCCCTCCTCCCAACCA
GTCCGTCTCTACAACCGCGGCCTCAACACAGAACACTATGGCTTCTACAC
CTACTTCGACCGCTCCATCTTCCTCTCCTCCCGAGCCCCCCTCGACGGCA
ACACAACCGACACAAACCCCAACGACCGAAACGGCGGATCCAACGAATCT
GACGCCCGCAGCGGCGAGCAGATCAACTCAACGGAAGTCAAGTTGCAGCT
CGAGGATCGATCATACGGTGGGACGCTGGTAAATCCGGCCCCAGGGATAT
TCGACTTATATGGTAATTCGTCGACGGACGCTACGGGGGATTATGGGGGC
GTCGATGGGGGAAGTGGAGGGTGCTCTTGTAAATGGGCAAATTGGGTATC
GAGTTCATGAATGCAGAATTCGACGGCAGGTCTACGAATTCCTGCAGCTC
CGACTTTCCCTCTGTCATCTCCGATCACAGAGGAGATTCCGAGCCCGGTG
CCATCATCTCCAGAGGACCATGACATGGAAAGGAATCGACCTTTTGCTTT
TCTGAATAAGACAACACGCAGAAATAACCCATTCATACGTGAAGGAAGTT
ATGATAAGCACACTCAGTCACAGGAAGCAGTAGATGGGACGGGGGTCTCT
TATCAGGCAAATCCGAACCAAGAGGACTTAAGCAATCTTGGGCTCTACAC
AGGGAAGAGCTCAGGACGGCCTTTTGGGTTGAGCTTGGTTACGGATTTCT
CTCACTCTACATCAAAGGCACCTGAAGATGGATCAGTGCCGACTCTCGTG
GATTTGAATGACTTGAAGGCTCTCTCTGAGGTGCGAGAACAGGAAAGGAA
TGCACATACTCTTAAAGGGATATTGAAGAAAGTCCCCGGTCAGGACTACG
ACCAAAAGCCCGGGAAACCGTCCGTATTCGACAACAAACGACTATCTTAC
TTCAACATCAGGCGGAAAAAGAAGGGAAACGACGACCTGTCGCCATCCGA
TCGACCGATTATGATTGGACTAAGCATGCCATCTGATGAATCGTTAAGTA
CTCAAGGAAGAGGGCTAACAGTAAATACTGGCCATGCCCAACGAGCGGCA
CTGACTCCCTCGATAATTGTGACTCCGGCCAAGGAAGACACATTTTGGAC
AGGCCTTGACACGACTCATCCTCGTCCTAGGATAGCGTCTAGCATCTACT
CTCAACCAACGCCGTATCCCGATGAAAATGACAGCGACCTTGACATTCCA
CCTGTGCCTGCTATTCCTAATTATGCCTTTTTGGCGCATAATGAGAACCC
GAGCACGAATATGAACACTGACTCTACACAAAGGCAATTTGTATCCGCAG
CAGGGAGACAACGCTCCCTCTCGGCTGGCACTCTGTTTGAAGAAGATGAC
GTGCGACGGGAGAGCCGCTCTCGGTCATATTCCAGCGGGACTGTCAAAAA
GATTCCGGATAGGTTAAGCATCAACACTGAAACCAACAGGCATCAGTCAC
AGGGTTGGTGGACTTACTTGCTCTCACCTTTGCTGAGTCGTTACAGCACA
GCCATGGGTCCCACCACCCCAACTGAGGCTGCCAGACCACCAGTTCCCAG
CATCGCAACGGAGTCAAGGGAATCGAGTGACGAGTGGTGGGAAAAGGAAG
TATCCAGCTTCTCGCCCGATACGCCAGAAGCCATCATACCTCATCATAAG
GAATTGTCACCTGACTGGACAGATGCTAGTTTGAACCCCTTTGATGAGAA
AAGACTGAGTATTCAAGACCAACCTGTCGAACGAGAGCGAAATGCCACAT
CCTTTATGTTCCCGGGAAGGCCAATCCAGGGCTCTGCGGCTGAATACTAC
CAAGCCTGCGCACACGAATTGTTCAGCGGACGGCCGTACTTTGAATGCGT
CAACCATGTCTGCTCTATAACACCCAAGGACAAGATTCCCGGCTATACCG
AGGGTACAGTTGTGGGTTCCTCAGATAACAGGAGTCTTCTGATTGACGTT
GGGGACATGCCACAAAACGAAATTCCTGGCTTGAGAGCTGTTCCCACTAC
TTCGGAGCCACGCACTGTGTATGAACCGAGTGTAATGGATAAGGGAGTAG
AGGCCACCCTTGACAATCTTCAGGACGATGATCCGGTTGGAAAAGCTAGC
TCGAGGGGGGTACCTCCGTCTGAGCATCCAACGATCCAACCTCCTCCCAC
CCTGCGTCCTCTGAGTGAGTATCCTCCGACCGAGCACCCTCCAAGTGAGC
ACCCTCCTAGCGAACATCCTCCTAGCGAGCATCCCCCGAGTGAACACCCT
CCGGCTGGTCAACCTCCAGTCGACAACAATCCAGATCAACCTATTCCTGA
TGAGGGGTCACGGGAATTGCCTCAGGAAGCCTTTCCAACATCACATGCCG
GAGGAGAAACAGGAGAATTAGCACCGCCTCCAAACAGTCAAAGCGAAAGG
AAGACGTCTTGGCCTATCTTTCAGCCAATTATCCAGCCAGTCGTTCAACC
AGCACCGCAGCCAGCACCTCAGCCAGCCATTCAACCAATAATAGTGCAAG
CTCCTCAACCGGTTGCTCAACCTGCCCCTCCAACTCAGACCTTCCATGTC
CATCCTGCTACTGTCCCATCGCCGATTCTCATAGCACCCCATGGGCACCA
GCATCCAGCATTTCCTCAAGAACAGCAGACTGAACCACAGCCTGAACCAC
AGCCCCCTAACCCTACGTCTCCTGGCCTCCAACAAGCCACCAAGGTCAAA
CGTCGGTGGTACCTAGCTATCCTCACGTCCTTCCTCATAATCATAGCGAT
TATCCTCCTTCTAGTCATGACCTTGACAGGAAAAGGCGACTCAACTCCAG
TGGAGTCACAGTGGCTCAACCTCACCGGCTATCCACCGATGCCCACTGGT
ATCGCAACAATTGCCGGACCGAAGCCTCAGGTACAGCAGTCAGGATGCAT
AACTCCATCCACCCTTTGGAGCTGTGCTCTACCACCAGAGGAACAATCCG
CCAACAAGCCCTACGCGGCCAATGAGCCGAACTTCCGCGTGGAAATACGA
TTCCGCAACGGCACCTACCCTAACAGCACCACAATTGCCTCACGATCCAG
CAAAACCCTCTCCTCACGGAGCTCCGACAACCCCTACAGTCCATCCCCAT
CCCCACCAAGCATGAAAGATCAGACCTTCCTCGGCAATACAACAGACAAC
AACACCGTCCCCTATGCTGGCGAGGAAACCCCCTTCTACATGACCTTCCT
CTCAACCAGCACCCTAACATCCACATCCACCCTTCGCCTGGCGCGAAGAT
CCTCCGACAGCTCCTTCCCTAACCTCGCAACAATTATCCCCTCCCCAGAC
GAAGATTCCGACGGAACCGCCGCCGCCGCAGATCTATACCCAATGCCCTC
CTCCCAACCAGTCCGTCTCTACAACCGCGGCCTCAACACAGAACACTATG
GCTTCTACACCTACTTCGACCGCTCCATCTTCCTCTCCTCCCGAGCCCCC
CTCGACGGCAACACAACCGACACAAACCCCAACGACCGAAACGGCGGATC
CAACGAATCTGACGCCCGCAGCGGCGAGCAGATCAACTCAACGGAAGTCA
AGTTGCAGCTCGAGGATCGATCATACGGTGGGACGCTGGTAAATCCGGCC
CCAGGGATATTCGACTTATATGGTAATTCGTCGACGGACGCTACGGGGGA
TTATGGGGGCGTCGATGGGGGAAGTGGAGGGTGCTCTTGTAAATGGGCAA
ATTGGGTATCGAGTTCATGAATGCAGAATTCGACGGCAGGTCTACGAATT
CCTGCAGCTCCGACTTTCCCTCTGTCATCTCCGATCACAGAGGAGATTCC
GAGCCCGGTGCCATCATCTCCAGAGGACCATGACATGGAAAGGAATCGAC
CTTTTGCTTTTCTGAATAAGACAACACGCAGAAATAACCCATTCATACGT
GAAGGAAGTTATGATAAGCACACTCAGTCACAGGAAGCAGTAGATGGGAC
GGGGGTCTCTTATCAGGCAAATCCGAACCAAGAGGACTTAAGCAATCTTG
GGCTCTACACAGGGAAGAGCTCAGGACGGCCTTTTGGGTTGAGCTTGGTT
ACGGATTTCTCTCACTCTACATCAAAGGCACCTGAAGATGGATCAGTGCC
GACTCTCGTGGATTTGAATGACTTGAAGGCTCTCTCTGAGGTGCGAGAAC
AGGAAAGGAATGCACATACTCTTAAAGGGATATTGAAGAAAGTCCCCGGT
CAGGACTACGACCAAAAGCCCGGGAAACCGTCCGTATTCGACAACAAACG
ACTATCTTACTTCAACATCAGGCGGAAAAAGAAGGGAAACGACGACCTGT
CGCCATCCGATCGACCGATTATGATTGGACTAAGCATGCCATCTGATGAA
TCGTTAAGTACTCAAGGAAGAGGGCTAACAGTAAATACTGGCCATGCCCA
ACGAGCGGCACTGACTCCCTCGATAATTGTGACTCCGGCCAAGGAAGACA
CATTTTGGACAGGCCTTGACACGACTCATCCTCGTCCTAGGATAGCGTCT
AGCATCTACTCTCAACCAACGCCGTATCCCGATGAAAATGACAGCGACCT
TGACATTCCACCTGTGCCTGCTATTCCTAATTATGCCTTTTTGGCGCATA
ATGAGAACCCGAGCACGAATATGAACACTGACTCTACACAAAGGCAATTT
GTATCCGCAGCAGGGAGACAACGCTCCCTCTCGGCTGGCACTCTGTTTGA
AGAAGATGACGTGCGACGGGAGAGCCGCTCTCGGTCATATTCCAGCGGGA
CTGTCAAAAAGATTCCGGATAGGTTAAGCATCAACACTGAAACCAACAGG
CATCAGTCACAGGGTTGGTGGACTTACTTGCTCTCACCTTTGCTGAGTCG
TTACAGCACAGCCATGGGTCCCACCACCCCAACTGAGGCTGCCAGACCAC
CAGTTCCCAGCATCGCAACGGAGTCAAGGGAATCGAGTGACGAGTGGTGG
GAAAAGGAAGTATCCAGCTTCTCGCCCGATACGCCAGAAGCCATCATACC
TCATCATAAGGAATTGTCACCTGACTGGACAGATGCTAGTTTGAACCCCT
TTGATGAGAAAAGACTGAGTATTCAAGACCAACCTGTCGAACGAGAGCGA
AATGCCACATCCTTTATGTTCCCGGGAAGGCCAATCCAGGGCTCTGCGGC
TGAATACTACCAAGCCTGCGCACACGAATTGTTCAGCGGACGGCCGTACT
TTGAATGCGTCAACCATGTCTGCTCTATAACACCCAAGGACAAGATTCCC
GGCTATACCGAGGGTACAGTTGTGGGTTCCTCAGATAACAGGAGTCTTCT
GATTGACGTTGGGGACATGCCACAAAACGAAATTCCTGGCTTGAGAGCTG
TTCCCACTACTTCGGAGCCACGCACTGTGTATGAACCGAGTGTAATGGAT
AAGGGAGTAGAGGCCACCCTTGACAATCTTCAGGACGATGATCCGGTTGG
AAAAGCTAGCTCGAGGGGGGTACCTCCGTCTGAGCATCCAACGATCCAAC
CTCCTCCCACCCTGCGTCCTCTGAGTGAGTATCCTCCGACCGAGCACCCT
CCAAGTGAGCACCCTCCTAGCGAACATCCTCCTAGCGAGCATCCCCCGAG
TGAACACCCTCCGGCTGGTCAACCTCCAGTCGACAACAATCCAGATCAAC
CTATTCCTGATGAGGGGTCACGGGAATTGCCTCAGGAAGCCTTTCCAACA
TCACATGCCGGAGGAGAAACAGGAGAATTAGCACCGCCTCCAAACAGTCA
AAGCGAAAGGAAGACGTCTTGGCCTATCTTTCAGCCAATTATCCAGCCAG
TCGTTCAACCAGCACCGCAGCCAGCACCTCAGCCAGCCATTCAACCAATA
ATAGTGCAAGCTCCTCAACCGGTTGCTCAACCTGCCCCTCCAACTCAGAC
CTTCCATGTCCATCCTGCTACTGTCCCATCGCCGATTCTCATAGCACCCC
ATGGGCACCAGCATCCAGCATTTCCTCAAGAACAGCAGACTGAACCACAG
CCTGAACCACAGCCCCCTAACCCTACGTCTCCTGGCCTCCAACAAGCCAC
CAAGGTCAAACGTCGGTGGTACCTAGCTATCCTCACGTCCTTCCTCATAA
TCATAGCGATTATCCTCCTTCTAGTCATGACCTTGACAGGAAAAGGCGAC
TCAACTCCAGTGGAGTCACAGTGGCTCAACCTCACCGGCTATCCACCGAT
GCCCACTGGTATCGCAACAATTGCCGGACCGAAGCCTCAGGTACAGCAGT
CAGGATGCATAACTCCATCCACCCTTTGGAGCTGTGCTCTACCACCAGAG
GAACAATCCGCCAACAAGCCCTACGCGGCCAATGAGCCGAACTTCCGCGT
GGAAATACGATTCCGCAACGGCACCTACCCTAACAGCACCACAATTGCCT
CACGATCCAGCAAAACCCTCTCCTCACGGAGCTCCGACAACCCCTACAGT
CCATCCCCATCCCCACCAAGCATGAAAGATCAGACCTTCCTCGGCAATAC
AACAGACAACAACACCGTCCCCTATGCTGGCGAGGAAACCCCCTTCTACA
TGACCTTCCTCTCAACCAGCACCCTAACATCCACATCCACCCTTCGCCTG
GCGCGAAGATCCTCCGACAGCTCCTTCCCTAACCTCGCAACAATTATCCC
CTCCCCAGACGAAGATTCCGACGGAACCGCCGCCGCCGCAGATCTATACC
CAATGCCCTCCTCCCAACCAGTCCGTCTCTACAACCGCGGCCTCAACACA
GAACACTATGGCTTCTACACCTACTTCGACCGCTCCATCTTCCTCTCCTC
CCGAGCCCCCCTCGACGGCAACACAACCGACACAAACCCCAACGACCGAA
ACGGCGGATCCAACGAATCTGACGCCCGCAGCGGCGAGCAGATCAACTCA
ACGGAAGTCAAGTTGCAGCTCGAGGATCGATCATACGGTGGGACGCTGGT
AAATCCGGCCCCAGGGATATTCGACTTATATGGTAATTCGTCGACGGACG
CTACGGGGGATTATGGGGGCGTCGATGGGGGAAGTGGAGGGTGCTCTTGT
AAATGGGCAAATTGGGTATCGAGTTCATGA 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 |
| Product | hypothetical 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 |
|---|
| NKJJ01000003.1 | supercontig | NKJJ01000003.1:900411..904355 + |
|
