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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch1:2606687..2611091+ Legend: exonpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_001011-T1 ID=KYF_001011-T1|Name=KYF_001011-T1|organism=Aspergillus niger KYF3|type=mRNA|length=4405bp|location=Sequence derived from alignment at ch1:2606687..2611091+ (Aspergillus niger KYF3)
ATGAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAAT
CCCAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTC
GAGAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCC
TCTGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCG
GAGCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTG
TGACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTC
AATGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTT
TACCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTG
TCAAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGT
ACCACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCAT
CAAGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAAT
ATCGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGG
TTGACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTC
TCATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAA
AGCAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAG
GTAGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGT
CTCTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACA
ACAGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCT
TTGCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTA
TCAAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGG
ATGAGGGAGAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTC
ATGGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGTAAGTA
TTCTCAAATCACATGCTGCTACTGAGGGTTGACCGATATTGACGCTTCCC
AGGTGATTTTTTAACAGGCGTGACCGTGCCTACTGAGCGAAGGATAAGAC
CTGGGTATGAAAACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAG
TATAAGGCGTCAGCTATCTACAGCCACATGACAGCGGAATACGACTATCC
CACAAGCGCGATCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTG
CCTTCGAAAAGACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGA
TTTGGGACTCAAGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTG
GGGTGAAAAGTCCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGG
CCTTGATTGCAGGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGG
CTTTTCACAAAAGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGAT
CGTCGCTATGTCTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCA
TCAAGCATAAGGCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCA
CAGATAACAGCTGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTC
GGTTGTATTGTATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTT
TCACTTTTTGGATCATCCTATTCACCACGACTTTGGTGAGTTCTTCCAAA
CCCAGTAATAGCTCTCAACTAACGTCGTTTAGTGTGTTACGGCGCTATTT
CGATGCATTGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTC
GGGAACCGCTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTA
AGCCAAAGGTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATG
GCTTATGCCTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATAT
TCCTTGTGTTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATG
TCGACTCAGCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGT
GCAGACTACGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCA
TTCCCAGCTTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTT
TCGCCGTGCTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGG
GGGAGTGCTTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAA
AAGCATCGACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTG
CCACTAGCGACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACT
GCCGTCTTTACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGG
CGACCGGGTCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGC
TTGGGGCTCTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGAT
GTTCTTGCACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGT
TGATGGCCGGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCG
AGCAATTAGATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAG
TTCTCTGCATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACT
TAAGTATGTTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAG
ACACTCTTATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAA
CGAGTCACCATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTT
CTTGGATGAGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAG
TGCGGTTCCTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACT
ATCCATCAACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCT
TCTCGCACGCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATG
GACAAACGATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATC
GAGGCTAACCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGA
GAGCGTTAAAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAAC
ATCAGCAGATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCG
AAGCCCTCTGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTG
GGAACAAACGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGA
ACACCAACTACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTG
CTCAATGGTTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCA
ATTGAAGATGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTA
TCAATCAGCTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCA
CGAGAGAAAAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCT
GATTGTGTCCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCC
TTTGCTGGTACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGT
GCTACCTTCTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGG
CCAGTTCATCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGA
ACCCCATGATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCG
TACACGCAACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCC
GTTCAACTATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCA
AGGTCACCTGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGC
ACCTGCGCTGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGT
CAATTTGACCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACC
GTCGTGGAAGCGACTTCTTGACTACACTCAACATCAACCACTACTATTAC
GGGTGGCGGAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGC
GTTGGTGTTCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGG
AGTAG back to topCoding sequence (CDS) from alignment at ch1:2606687..2611091+ >KYF_001011-T1 ID=KYF_001011-T1|Name=KYF_001011-T1|organism=Aspergillus niger KYF3|type=CDS|length=12897bp|location=Sequence derived from alignment at ch1:2606687..2611091+ (Aspergillus niger KYF3)
ATGAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAAT
CCCAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTC
GAGAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCC
TCTGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCG
GAGCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTG
TGACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTC
AATGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTT
TACCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTG
TCAAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGT
ACCACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCAT
CAAGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAAT
ATCGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGG
TTGACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTC
TCATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAA
AGCAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAG
GTAGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGT
CTCTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACA
ACAGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCT
TTGCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTA
TCAAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGG
ATGAGGGAGAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTC
ATGGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGTGATTT
TTTAACAGGCGTGACCGTGCCTACTGAGCGAAGGATAAGACCTGGGTATG
AAAACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAGTATAAGGCG
TCAGCTATCTACAGCCACATGACAGCGGAATACGACTATCCCACAAGCGC
GATCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTGCCTTCGAAA
AGACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGATTTGGGACT
CAAGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTGGGGTGAAAA
GTCCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGGCCTTGATTG
CAGGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGGCTTTTCACA
AAAGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGATCGTCGCTAT
GTCTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCATCAAGCATA
AGGCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCACAGATAACA
GCTGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTCGGTTGTATT
GTATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTTTCACTTTTT
GGATCATCCTATTCACCACGACTTTGTGTGTTACGGCGCTATTTCGATGC
ATTGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTCGGGAAC
CGCTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTAAGCCAA
AGGTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATGGCTTAT
GCCTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATATTCCTTG
TGTTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATGTCGACT
CAGCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGTGCAGAC
TACGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCATTCCCA
GCTTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTTTCGCCG
TGCTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGGGGGAGT
GCTTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAAAAGCAT
CGACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTGCCACTA
GCGACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACTGCCGTC
TTTACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGGCGACCG
GGTCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGCTTGGGG
CTCTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGATGTTCTT
GCACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGTTGATGG
CCGGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCGAGCAAT
TAGATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAGTTCTCT
GCATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACTTAAGTA
TGTTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAGACACTC
TTATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAACGAGTC
ACCATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTTCTTGGA
TGAGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAGTGCGGT
TCCTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACTATCCAT
CAACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCTTCTCGC
ACGCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATGGACAAA
CGATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATCGAGGCT
AACCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGAGAGCGT
TAAAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAACATCAGC
AGATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCGAAGCCC
TCTGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTGGGAACA
AACGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGAACACCA
ACTACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTGCTCAAT
GGTTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCAATTGAA
GATGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTATCAATC
AGCTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCACGAGAG
AAAAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCTGATTGT
GTCCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCCTTTGCT
GGTACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGTGCTACC
TTCTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGGCCAGTT
CATCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGAACCCCA
TGATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCGTACACG
CAACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCCGTTCAA
CTATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCAAGGTCA
CCTGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGCACCTGC
GCTGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGTCAATTT
GACCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACCGTCGTG
GAAGCGACTTCTTGACTACACTCAACATCAACCACTACTATTACGGGTGG
CGGAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGCGTTGGT
GTTCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGGAGTAGA
TGAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAATC
CCAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTCG
AGAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCCT
CTGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCGG
AGCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTGT
GACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTCA
ATGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTTT
ACCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTGT
CAAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGTA
CCACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCATC
AAGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAATA
TCGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGGT
TGACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTCT
CATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAAA
GCAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAGG
TAGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGTC
TCTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACAA
CAGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCTT
TGCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTAT
CAAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGGA
TGAGGGAGAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTCA
TGGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGTGATTTT
TTAACAGGCGTGACCGTGCCTACTGAGCGAAGGATAAGACCTGGGTATGA
AAACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAGTATAAGGCGT
CAGCTATCTACAGCCACATGACAGCGGAATACGACTATCCCACAAGCGCG
ATCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTGCCTTCGAAAA
GACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGATTTGGGACTC
AAGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTGGGGTGAAAAG
TCCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGGCCTTGATTGC
AGGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGGCTTTTCACAA
AAGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGATCGTCGCTATG
TCTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCATCAAGCATAA
GGCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCACAGATAACAG
CTGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTCGGTTGTATTG
TATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTTTCACTTTTTG
GATCATCCTATTCACCACGACTTTGTGTGTTACGGCGCTATTTCGATGCA
TTGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTCGGGAACC
GCTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTAAGCCAAA
GGTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATGGCTTATG
CCTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATATTCCTTGT
GTTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATGTCGACTC
AGCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGTGCAGACT
ACGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCATTCCCAG
CTTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTTTCGCCGT
GCTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGGGGGAGTG
CTTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAAAAGCATC
GACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTGCCACTAG
CGACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACTGCCGTCT
TTACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGGCGACCGG
GTCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGCTTGGGGC
TCTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGATGTTCTTG
CACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGTTGATGGC
CGGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCGAGCAATT
AGATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAGTTCTCTG
CATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACTTAAGTAT
GTTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAGACACTCT
TATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAACGAGTCA
CCATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTTCTTGGAT
GAGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAGTGCGGTT
CCTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACTATCCATC
AACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCTTCTCGCA
CGCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATGGACAAAC
GATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATCGAGGCTA
ACCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGAGAGCGTT
AAAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAACATCAGCA
GATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCGAAGCCCT
CTGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTGGGAACAA
ACGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGAACACCAA
CTACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTGCTCAATG
GTTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCAATTGAAG
ATGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTATCAATCA
GCTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCACGAGAGA
AAAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCTGATTGTG
TCCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCCTTTGCTG
GTACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGTGCTACCT
TCTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGGCCAGTTC
ATCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGAACCCCAT
GATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCGTACACGC
AACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCCGTTCAAC
TATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCAAGGTCAC
CTGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGCACCTGCG
CTGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGTCAATTTG
ACCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACCGTCGTGG
AAGCGACTTCTTGACTACACTCAACATCAACCACTACTATTACGGGTGGC
GGAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGCGTTGGTG
TTCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGGAGTAGAT
GAATCCTCCTGAGTTTCCGGAAGACGAGAAGTCTTCCGACTTACCAATCC
CAGAACGGAAGAGCCTCGACACACTGAATGTCCCCCATATCAATGTTCGA
GAAGCTCCAAGCGCAGAAACCTTGATCGTTCCCCATGCAGTCAACGCCTC
TGCTCCTGGGAAGGATGCAGAATGGAGCATGACCCCGCAGGTAATCCGGA
GCCAGGAACGTGAGGCTGCGGCAGGATTCAAAAAGCGGGAGCTAGGTGTG
ACCTGGAAGAATCTCGGCGTGGATGTCCTTGCAGCAGAAGCGGCGGTCAA
TGAGAACCTATTCTCCCAATTCAACTTACCACAACGAATCCGCGACTTTA
CCCGAAAGCCACCCCTGAAATCTATATTGACGGAAAGCCACGGCTGTGTC
AAGCCAGGGGAGATGCTCCTAGTCTTGGGACGCCCGGGTTCAGGATGTAC
CACTCTTCTCAATTTACTCTCCAATCGCCGCCATGGCTACCACACCATCA
AGGGTGACGTGAGCTTTGGAAATATGTCCCATGAAGAAGCAGCTCAATAT
CGCAGCCATATCGTGATGAATACGGAAGAAGAGCTATTCTATCCACGGTT
GACCGTAGGTCAGACAATGGACTTTGCTACTCGGCTCAAAGTTCCTTCTC
ATCTTCCCGACGGTGCCGCATCCGTGAAAGAATATACTGCTGAGACAAAG
CAATTTTTGATGGAATCTATGGGGATTTCACATACCGCTGACACGAAGGT
AGGGAACGAGTTTGTGCGGGGTGTGTCGGGAGGAGAACGAAAGCGAGTCT
CTATTATTGAATGCCTGGCAACAAGGGGCTCTGTCTTTTGCTGGGACAAC
AGTACCCGCGGTCTCGATGCCAGTACTGCATTGGAGTGGGCTAAGGCTTT
GCGAGCGATGACTAACGTCCTCGGTCTCTCGACAATTGTGACCCTTTATC
AAGCGGGGAATGGGATATATAATCTCTTTGATAAGGTTTTGGTTCTGGAT
GAGGGAGAACAGATATTCTATGGCCCAGCGGCTGCAGCAAAACCATTCAT
GGAGAACCTGGGGTTCGTCTATACAGATGGTGCCAATGTTGGTGATTTTT
TAACAGGCGTGACCGTGCCTACTGAGCGAAGGATAAGACCTGGGTATGAA
AACAGGTTTCCCCGGAATGCCGATTCTATTATGGTAGAGTATAAGGCGTC
AGCTATCTACAGCCACATGACAGCGGAATACGACTATCCCACAAGCGCGA
TCGCTCAGGAGCGGACGGAGGCATTCAAGGAGTCTGTTGCCTTCGAAAAG
ACCACACACCAGCCAAAGAAGAGTCCGTTTACCACAGGATTTGGGACTCA
AGTCCTCGCATGTACACGGCGTCAGTACCAGATTCTGTGGGGTGAAAAGT
CCACATTCTTAATTAAGCAAATCCTGTCTCTGGTGATGGCCTTGATTGCA
GGATCCTGCTTTTACAACGCCCCGCAGACATCTGCTGGGCTTTTCACAAA
AGGTGGAGCGGTCTTTTTCTCCCTGCTCTACAATACGATCGTCGCTATGT
CTGAGGTTACCGAGTCCTTCAAAGGGCGGCCTGTGCTCATCAAGCATAAG
GCATTTGCTTTCTACCATCCGGCTGCTTTCTGCTTGGCACAGATAACAGC
TGACTTCCCGGTGCTGCTATTCCAGTGCACGATCTTTTCGGTTGTATTGT
ATTGGATGGTTGGGCTCAAAGCAACAGCAGCGGCGTTTTTCACTTTTTGG
ATCATCCTATTCACCACGACTTTGTGTGTTACGGCGCTATTTCGATGCAT
TGGTGCAGGGTTCAGTACCTTCGAAGCTGCATCGAAGATTTCGGGAACCG
CTATTAAGGGAATCGTCATGTATGCTGGCTACATGATCCCTAAGCCAAAG
GTCAAAAACTGGTTCCTTGAGCTCTACTATACCAACCCCATGGCTTATGC
CTTTCAAGCTGCGCTGTCGAATGAGTTTCACGGCCAACATATTCCTTGTG
TTGGAAAGAACATTGTCCCTAACGGCCCTGGATATGAGGATGTCGACTCA
GCCAACAAAGCCTGTACTGGTGTAGGCGGTGCTCTTCCCGGTGCAGACTA
CGTGACCGGTGACCAGTATCTTTCATCGCTTCATTACAAGCATTCCCAGC
TTTGGAGGAACTTCGGAGTTGTGTGGGCGTGGTGGGGCTTTTTCGCCGTG
CTCACCATTATTTGCACCACATATTGGAAAGCTGGTGCCGGGGGGAGTGC
TTCACTGTTGATCCCTCGTGAAAATCTAAAGCAGCACCAGAAAAGCATCG
ACGAAGAGTCTCAGGTCAAGGAAAAGGAGCAAGCCAAGGCTGCCACTAGC
GACACGACTGCAGAGGTGGATGGCAACCTTTCCCGCAATACTGCCGTCTT
TACCTGGAAGAACCTCAAATATACCGTCAAAACACCTTCCGGCGACCGGG
TCTTGTTGGATAATATCCACGGTTGGGTTAAACCAGGCATGCTTGGGGCT
CTCATGGGCTCTTCAGGAGCAGGCAAGACGACCTTACTTGATGTTCTTGC
ACAGCGAAAGACAGAGGGCACCATTACTGGGTCTATCATGGTTGATGGCC
GGCCGTTGCCTGTGTCATTTCAAAGAATGGCTGGGTACTGCGAGCAATTA
GATGTCCATGAACCGTTTGCTACGGTTCGGGAAGCTCTAGAGTTCTCTGC
ATTATTACGCCAGCCACGAACAACCCCTAAAGAAGAGAAACTTAAGTATG
TTGAGACTATCATTGACCTGCTTGAGCTTCATGATCTGGCAGACACTCTT
ATTGGCACAGTTGGCAATGGCCTTAGTGTGGAGCAAAGAAAACGAGTCAC
CATTGGCGTGGAGCTTGTGTCCAAACCAAGCATCTTGATCTTCTTGGATG
AGCCTACCTCTGGGTTGGATGGACAGTCTGCTTATAATACAGTGCGGTTC
CTCCGCAAGTTAGCTGACGTTGGACAAGCTGTCTTGGTGACTATCCATCA
ACCTTCTGCCCAGTTATTTGCGCAGTTTGACACTCTTCTGCTTCTCGCAC
GCGGCGGTAAAACTGTGTACTTTGGTGATATCGGCGAAAATGGACAAACG
ATCAAGAATTATTTCGGCAAATATGGCGCGCAATGCCCCATCGAGGCTAA
CCCAGCCGAGTTCATGATCGACGTGGTCACTGGAGGCATCGAGAGCGTTA
AAGACAAAGACTGGCACCATGTTTGGCTTGAGTCGCCTGAACATCAGCAG
ATGATCACCGAGCTTGATCATTTGATATCCGAGGCTGCCTCGAAGCCCTC
TGGTGTTAACGACGATGGATGCGAGTTTTCGATGCCACTCTGGGAACAAA
CGAAGATCGTTACCCACAGAATGAACGTGGCTCTTTTCCGGAACACCAAC
TACGTCAACAACAAATTCTCCCTGCATATCATCTCTGCCTTGCTCAATGG
TTTCTCATTTTGGAGGGTCGGTCCAAGCGTGACAGCCCTGCAATTGAAGA
TGTTCACGATTTTCAACTTTGTTTTCGTTGCACCAGGTGTTATCAATCAG
CTCCAACCATTGTTCATCCAGCGACGCGATATCTACGATGCACGAGAGAA
AAAGTCGAAGATGTATTCTTGGATCTCTTTTGTCATTGGTCTGATTGTGT
CCGAGTTCCCATACCTCTGTGTATGCGCAGTTTTGTATTTCCTTTGCTGG
TACTACTGCGTACGCCTGCCTCATGACTCCAACAAGGCGGGTGCTACCTT
CTTCATCATGCTCATTTACGAGTTCATCTACACGGGTATTGGCCAGTTCA
TCGCAGCCTACGCGCCCAATCCAACCTTCGCAGCTCTCGTGAACCCCATG
ATCATCAGTGTTTTGGTGCTCTTCTGCGGTATCTTCGTTCCGTACACGCA
ACTCAACGTGTTCTGGAAATACTGGCTCTACTACCTCAACCCGTTCAACT
ATGTCGTGTCCGGCATGCTCACCTTCGATATGTGGGATGCCAAGGTCACC
TGCAACGAGGACGAGTTTGCACTGTTCAACCCTACCAATGGCACCTGCGC
TGAATACCTGAAGGACTACATCGCGGGTCAGGGCTGGCGTGTCAATTTGA
CCAACCCGGATGCTACCTCGACGTGCCGGGTGTGTGAGTACCGTCGTGGA
AGCGACTTCTTGACTACACTCAACATCAACCACTACTATTACGGGTGGCG
GAATGCTGGTATCACTGTCATCTTTGCGATTAGTGGGTATGCGTTGGTGT
TCGCATTGATGAAGCTTCGGACAAAGGCTTCGAAGAAGGCGGAGTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0016021 | integral component of membrane |
| GO:0016020 | membrane |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0055085 | transmembrane transport |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0042626 | ATPase-coupled transmembrane transporter activity |
| GO:0005524 | ATP binding |
| GO:0016887 | ATPase activity |
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:IPR027417 |
| DBxref | InterPro:IPR034003 |
| DBxref | InterPro:IPR034001 |
| DBxref | InterPro:IPR017871 |
| DBxref | InterPro:IPR010929 |
| DBxref | InterPro:IPR003439 |
| DBxref | InterPro:IPR013525 |
| DBxref | InterPro:IPR003593 |
| DBxref | PFAM:PF06422 |
| DBxref | PFAM:PF00005 |
| DBxref | PFAM:PF01061 |
| 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 |
|---|
| ch1 | supercontig | ch1:2606687..2611091 + |
|
