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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch8:2362065..2364200- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >KYF_010805-T1 ID=KYF_010805-T1|Name=KYF_010805-T1|organism=Aspergillus niger KYF3|type=mRNA|length=2136bp|location=Sequence derived from alignment at ch8:2362065..2364200- (Aspergillus niger KYF3)
ATGGGTCCACCGTATGTTCCACCGTTGTCACACTTGAGGGAATGTCGTGA
CTAATATATCAACAGGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTC
AACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGGTAAGTACATAA
TACCTTCTCGATGCATGTCGCTAACGGAGAAAGCAATTGCTATCTCTATG
GAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGG
TTTGACATCACTTGCTCTGATTGTATTGCCGGAGATGCTGACTCGACAGA
TTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACTG
CTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTAG
TGCTGAAGAGGTGTAAGTATTTAGTAAGCATTCAAAGACAGGATACTGAG
ACATGGTAGTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTC
GACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATG
GATTTACTCAGGGTTGAAGGCAACATGAAGCGACGGTATGTTGTTCTCTT
TGCAAGTAGGCCTATTATTGACTTCTTTAGACGGAAATTGATCGGACAAT
TCCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCTA
GGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTCT
TGAACAAATCTGCTGTCCCATACCACGCTATATAATGATGACACAGAACT
TGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGG
GATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAATA
CCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTGG
ATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAG
GCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCATT
GGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGCT
ACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGAC
GATCGCACACCGGAAGAATTAGCCACCACGGTATTATGCACACACCCTAT
AGTTCCTTGGCTTAACTAACTCATGCAATGTAGCCACCACGTTATTCTTG
GAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAAT
ACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGGC
GGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGGA
CCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGTA
CTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACACGTCCGACTC
AAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCC
GATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTTA
TGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGTG
CCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATGC
TGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAG
AGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGT
TCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGGA
TGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGAC
TGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGATG
GAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAG
CGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGAC
ACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGAC
CTGATCCAGGAGATTGTTCGGATGGAAGACTCATGA back to topCoding sequence (CDS) from alignment at ch8:2362065..2364200- >KYF_010805-T1 ID=KYF_010805-T1|Name=KYF_010805-T1|organism=Aspergillus niger KYF3|type=CDS|length=12894bp|location=Sequence derived from alignment at ch8:2362065..2364200- (Aspergillus niger KYF3)
CCACCACGTTATTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCAGC
CAATATGGAAAGCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAAAC
AACGCTTACTAGATGGCGGCATGGATGAACCTTTGGCGATGCATTATGCC
ACTATTCTCTCACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAAAA
CTTTGATCTAAATGGTACTGGCATATTTGATGTCTACTACAGCACTGTAT
GGCAACACGTCCGACTCAAAATCCCCTTGACCGACGACGGACCCGGCTGG
CGGGTGGAGTTCCGGCCGATGGAAGTACAGTTGACCGATTTCGACAACGC
TGCTTTCGCAATCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCTTC
ACCTGAACTTCTACGTGCCTATCGACCAGTTGGGAGATTCCATGGAACGC
GCGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGAC
CGGATGGTCATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAG
GCTGCGTCAACTGCTGTTCAAAGTCGACTGCACATGCATCACCATCATGT
GCTCTCCTTACCGCGGATGAGATCATCAATGGCGAGGATCCAAAGGACCC
CTCCAGCTTCCCTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTACA
ATAACACGCCTGTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATGTG
ATCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATGCG
CTCGTTTGTCACCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAATG
AGAAGATCCGTTATGACCTGATCCAGGAGATTGTTCGGATGGAAGACTCA
TGAACGGAAATTGATCGGACAATTCCTATCGCCCGACCAACACCCTGTAC
CATTATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCA
GAAAGTCCGGATGAGACCTCTCTTGAACAAATCTGCTGTCCCATACCACG
CTATATAATGATGACACAGAACTTGCTGGCACGCCGACAACGGCGTGTTG
AGAGCTACATCCCAGTCTTCCGGGATGAGCAGACAAAAACACCTTTTCAT
GACAATTCTGTGTCATTTGAATACCCCGCAGAACATCCCCCGGGTAATGG
AAAGGAGGGTCATGTACATCTGGATGGGATTGGTCTCGGGGTCGGGAATT
GCTGCATTCAAGTTACGTTCCAGGCTCCCAATGAGATTGAAGCCCGATGG
TTGCATGATCAAATGATCGCATTGGGGCCGGTCATGCTAGCACTTACCGC
TGCGACGCCGATATACAAGGGCTACCTGGTAGATACAGAAGTGCGCTGGG
GCCGAACCTCTGAATGCTTTGACGATCGCACACCGGAAGAATTAGCCACC
ACGTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTCGACATA
TGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATGGATTTA
CTCAGGGTTGAAGGCAACATGAAGCGACGATTGAATATACCCTGGTCAGC
CTCGATGCGGACAGTTCGCGAGCAACACTGCTTCTTAACCAAGAAGATAT
TTTACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAAGAGGTCAATTGCT
ATCTCTATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGG
GTGACGAGGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAACAAGT
TGCACCTATTGCTCGTCAAGGAGCCGTGGAGATGGGTCCACCCCACCACG
TTATTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGG
AAAGCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTA
CTAGATGGCGGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCT
CTCACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATC
TAAATGGTACTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACAC
GTCCGACTCAAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGA
GTTCCGGCCGATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCG
CAATCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAAC
TTCTACGTGCCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAA
GCGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGT
CATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTC
AACTGCTGTTCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCT
TACCGCGGATGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCT
TCCCTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACG
CCTGTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAA
GCGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTG
TCACCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATC
CGTTATGACCTGATCCAGGAGATTGTTCGGATGGAAGACTCATGAACGGA
AATTGATCGGACAATTCCTATCGCCCGACCAACACCCTGTACCATTATGT
GTATTCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCC
GGATGAGACCTCTCTTGAACAAATCTGCTGTCCCATACCACGCTATATAA
TGATGACACAGAACTTGCTGGCACGCCGACAACGGCGTGTTGAGAGCTAC
ATCCCAGTCTTCCGGGATGAGCAGACAAAAACACCTTTTCATGACAATTC
TGTGTCATTTGAATACCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGG
GTCATGTACATCTGGATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATT
CAAGTTACGTTCCAGGCTCCCAATGAGATTGAAGCCCGATGGTTGCATGA
TCAAATGATCGCATTGGGGCCGGTCATGCTAGCACTTACCGCTGCGACGC
CGATATACAAGGGCTACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACC
TCTGAATGCTTTGACGATCGCACACCGGAAGAATTAGCCACCACGTGAAC
CCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTCGACATATGGTAGAA
GCAACTCCAGGAGAGCCATACGGGGGAGATGTCATGGATTTACTCAGGGT
TGAAGGCAACATGAAGCGACGATTGAATATACCCTGGTCAGCCTCGATGC
GGACAGTTCGCGAGCAACACTGCTTCTTAACCAAGAAGATATTTTACGGA
AAGAGGAGAGCCAATGCTCTAGTGCTGAAGAGGTCAATTGCTATCTCTAT
GGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAG
GGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAACAAGTTGCACCTA
TTGCTCGTCAAGGAGCCGTGGAGATGGGTCCACCCCACCACGTTATTCTT
GGAACCGCACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAA
TACCCGCTGACTCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGG
CGGCATGGATGAACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGG
ACCCAATTGTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGT
ACTGGCATATTTGATGTCTACTACAGCACTGTATGGCAACACGTCCGACT
CAAAATCCCCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGC
CGATGGAAGTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTT
ATGTACCTTCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGT
GCCTATCGACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATG
CTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCA
GAGCAGTGCGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTG
TTCAAAGTCGACTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGG
ATGAGATCATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGA
CTGGTGAACATCGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGAT
GGAGCAAAAGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAA
GCGGGGAGCTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGA
CACGAGGAGTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGA
CCTGATCCAGGAGATTGTTCGGATGGAAGACTCATGAACGGAAATTGATC
GGACAATTCCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTCCC
CGGCCTAGGTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGA
CCTCTCTTGAACAAATCTGCTGTCCCATACCACGCTATATAATGATGACA
CAGAACTTGCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGT
CTTCCGGGATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTCAT
TTGAATACCCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTA
CATCTGGATGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTAC
GTTCCAGGCTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAATGA
TCGCATTGGGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATATAC
AAGGGCTACCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATG
CTTTGACGATCGCACACCGGAAGAATTAGCCACCACGTGAACCCTGGAAC
GAAGTAAAGTTACAGGCGGAATGGGCTCGACATATGGTAGAAGCAACTCC
AGGAGAGCCATACGGGGGAGATGTCATGGATTTACTCAGGGTTGAAGGCA
ACATGAAGCGACGATTGAATATACCCTGGTCAGCCTCGATGCGGACAGTT
CGCGAGCAACACTGCTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAG
AGCCAATGCTCTAGTGCTGAAGAGGTCAATTGCTATCTCTATGGAAGAGG
CAGAAAGATAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGGGTGAGCG
GAACACCGCTTTCATGGCAAGAGCTTCAACAAGTTGCACCTATTGCTCGT
CAAGGAGCCGTGGAGATGGGTCCACCCCACCACGTTATTCTTGGAACCGC
ACATACATCTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAATACCCGCT
GACTCCTATGAACGAGTCGGTTAAACAACGCTTACTAGATGGCGGCATGG
ATGAACCTTTGGCGATGCATTATGCCACTATTCTCTCACGGGACCCAATT
GTGCTCAACCGAACAGACCTGGAAAACTTTGATCTAAATGGTACTGGCAT
ATTTGATGTCTACTACAGCACTGTATGGCAACACGTCCGACTCAAAATCC
CCTTGACCGACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCCGATGGAA
GTACAGTTGACCGATTTCGACAACGCTGCTTTCGCAATCTTTATGTACCT
TCTTTCTCGAGCCATAACGGACCTTCACCTGAACTTCTACGTGCCTATCG
ACCAGTTGGGAGATTCCATGGAACGCGCGCAGAAGCGTAATGCTGCCCTC
GAAGAGCGCTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAGAGCAGTG
CGAGCGTCCACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGTTCAAAGT
CGACTGCACATGCATCACCATCATGTGCTCTCCTTACCGCGGATGAGATC
ATCAATGGCGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGACTGGTGAA
CATCGTACGCGCTTATCTTCAGTACAATAACACGCCTGTGATGGAGCAAA
AGAAGATCATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAGCGGGGAG
CTTCCGACCCCAGCTCAATGGATGCGCTCGTTTGTCACCGGACACGAGGA
GTACCAGCGAGACAGCTACGTGAATGAGAAGATCCGTTATGACCTGATCC
AGGAGATTGTTCGGATGGAAGACTCATGAACGGAAATTGATCGGACAATT
CCTATCGCCCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCTAG
GTGAAAAGGGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTCTT
GAACAAATCTGCTGTCCCATACCACGCTATATAATGATGACACAGAACTT
GCTGGCACGCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGGG
ATGAGCAGACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAATAC
CCCGCAGAACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTGGA
TGGGATTGGTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAGG
CTCCCAATGAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCATTG
GGGCCGGTCATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGCTA
CCTGGTAGATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGACG
ATCGCACACCGGAAGAATTAGCCACCACGTGAACCCTGGAACGAAGTAAA
GTTACAGGCGGAATGGGCTCGACATATGGTAGAAGCAACTCCAGGAGAGC
CATACGGGGGAGATGTCATGGATTTACTCAGGGTTGAAGGCAACATGAAG
CGACGATTGAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCA
ACACTGCTTCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATG
CTCTAGTGCTGAAGAGGTCAATTGCTATCTCTATGGAAGAGGCAGAAAGA
TAGAAGCGATTTGGAGCCACTTTGGGGTGACGAGGGTGAGCGGAACACCG
CTTTCATGGCAAGAGCTTCAACAAGTTGCACCTATTGCTCGTCAAGGAGC
CGTGGAGATGGGTCCACCCCACCACGTTATTCTTGGAACCGCACATACAT
CTCGCAAGAGAAGCCAGCCAATATGGAAAGCAAATACCCGCTGACTCCTA
TGAACGAGTCGGTTAAACAACGCTTACTAGATGGCGGCATGGATGAACCT
TTGGCGATGCATTATGCCACTATTCTCTCACGGGACCCAATTGTGCTCAA
CCGAACAGACCTGGAAAACTTTGATCTAAATGGTACTGGCATATTTGATG
TCTACTACAGCACTGTATGGCAACACGTCCGACTCAAAATCCCCTTGACC
GACGACGGACCCGGCTGGCGGGTGGAGTTCCGGCCGATGGAAGTACAGTT
GACCGATTTCGACAACGCTGCTTTCGCAATCTTTATGTACCTTCTTTCTC
GAGCCATAACGGACCTTCACCTGAACTTCTACGTGCCTATCGACCAGTTG
GGAGATTCCATGGAACGCGCGCAGAAGCGTAATGCTGCCCTCGAAGAGCG
CTTCTGGTTCCGTCGGACCGGATGGTCATCCGCAGAGCAGTGCGAGCGTC
CACAGCGTCAGCGAAGAGGCTGCGTCAACTGCTGTTCAAAGTCGACTGCA
CATGCATCACCATCATGTGCTCTCCTTACCGCGGATGAGATCATCAATGG
CGAGGATCCAAAGGACCCCTCCAGCTTCCCTGGACTGGTGAACATCGTAC
GCGCTTATCTTCAGTACAATAACACGCCTGTGATGGAGCAAAAGAAGATC
ATGCCCTACCTGGATGTGATCAGTAAGCGAGCAAGCGGGGAGCTTCCGAC
CCCAGCTCAATGGATGCGCTCGTTTGTCACCGGACACGAGGAGTACCAGC
GAGACAGCTACGTGAATGAGAAGATCCGTTATGACCTGATCCAGGAGATT
GTTCGGATGGAAGACTCATGAACGGAAATTGATCGGACAATTCCTATCGC
CCGACCAACACCCTGTACCATTATGTGTATTCCCCGGCCTAGGTGAAAAG
GGGCAGTTTACACTCCCAGAAAGTCCGGATGAGACCTCTCTTGAACAAAT
CTGCTGTCCCATACCACGCTATATAATGATGACACAGAACTTGCTGGCAC
GCCGACAACGGCGTGTTGAGAGCTACATCCCAGTCTTCCGGGATGAGCAG
ACAAAAACACCTTTTCATGACAATTCTGTGTCATTTGAATACCCCGCAGA
ACATCCCCCGGGTAATGGAAAGGAGGGTCATGTACATCTGGATGGGATTG
GTCTCGGGGTCGGGAATTGCTGCATTCAAGTTACGTTCCAGGCTCCCAAT
GAGATTGAAGCCCGATGGTTGCATGATCAAATGATCGCATTGGGGCCGGT
CATGCTAGCACTTACCGCTGCGACGCCGATATACAAGGGCTACCTGGTAG
ATACAGAAGTGCGCTGGGGCCGAACCTCTGAATGCTTTGACGATCGCACA
CCGGAAGAATTAGCCACCACGTGAACCCTGGAACGAAGTAAAGTTACAGG
CGGAATGGGCTCGACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGG
GGAGATGTCATGGATTTACTCAGGGTTGAAGGCAACATGAAGCGACGATT
GAATATACCCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACTGCT
TCTTAACCAAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTAGTG
CTGAAGAGGTCAATTGCTATCTCTATGGAAGAGGCAGAAAGATAGAAGCG
ATTTGGAGCCACTTTGGGGTGACGAGGGTGAGCGGAACACCGCTTTCATG
GCAAGAGCTTCAACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGA
TGGGTCCACCCCACCACGTTATTCTTGGAACCGCACATACATCTCGCAAG
AGAAGCCAGCCAATATGGAAAGCAAATACCCGCTGACTCCTATGAACGAG
TCGGTTAAACAACGCTTACTAGATGGCGGCATGGATGAACCTTTGGCGAT
GCATTATGCCACTATTCTCTCACGGGACCCAATTGTGCTCAACCGAACAG
ACCTGGAAAACTTTGATCTAAATGGTACTGGCATATTTGATGTCTACTAC
AGCACTGTATGGCAACACGTCCGACTCAAAATCCCCTTGACCGACGACGG
ACCCGGCTGGCGGGTGGAGTTCCGGCCGATGGAAGTACAGTTGACCGATT
TCGACAACGCTGCTTTCGCAATCTTTATGTACCTTCTTTCTCGAGCCATA
ACGGACCTTCACCTGAACTTCTACGTGCCTATCGACCAGTTGGGAGATTC
CATGGAACGCGCGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTTCTGGT
TCCGTCGGACCGGATGGTCATCCGCAGAGCAGTGCGAGCGTCCACAGCGT
CAGCGAAGAGGCTGCGTCAACTGCTGTTCAAAGTCGACTGCACATGCATC
ACCATCATGTGCTCTCCTTACCGCGGATGAGATCATCAATGGCGAGGATC
CAAAGGACCCCTCCAGCTTCCCTGGACTGGTGAACATCGTACGCGCTTAT
CTTCAGTACAATAACACGCCTGTGATGGAGCAAAAGAAGATCATGCCCTA
CCTGGATGTGATCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCCAGCTC
AATGGATGCGCTCGTTTGTCACCGGACACGAGGAGTACCAGCGAGACAGC
TACGTGAATGAGAAGATCCGTTATGACCTGATCCAGGAGATTGTTCGGAT
GGAAGACTCATGAACGGAAATTGATCGGACAATTCCTATCGCCCGACCAA
CACCCTGTACCATTATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAGTT
TACACTCCCAGAAAGTCCGGATGAGACCTCTCTTGAACAAATCTGCTGTC
CCATACCACGCTATATAATGATGACACAGAACTTGCTGGCACGCCGACAA
CGGCGTGTTGAGAGCTACATCCCAGTCTTCCGGGATGAGCAGACAAAAAC
ACCTTTTCATGACAATTCTGTGTCATTTGAATACCCCGCAGAACATCCCC
CGGGTAATGGAAAGGAGGGTCATGTACATCTGGATGGGATTGGTCTCGGG
GTCGGGAATTGCTGCATTCAAGTTACGTTCCAGGCTCCCAATGAGATTGA
AGCCCGATGGTTGCATGATCAAATGATCGCATTGGGGCCGGTCATGCTAG
CACTTACCGCTGCGACGCCGATATACAAGGGCTACCTGGTAGATACAGAA
GTGCGCTGGGGCCGAACCTCTGAATGCTTTGACGATCGCACACCGGAAGA
ATTAGCCACCACGTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGG
GCTCGACATATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGT
CATGGATTTACTCAGGGTTGAAGGCAACATGAAGCGACGATTGAATATAC
CCTGGTCAGCCTCGATGCGGACAGTTCGCGAGCAACACTGCTTCTTAACC
AAGAAGATATTTTACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAAGAG
GTCAATTGCTATCTCTATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAG
CCACTTTGGGGTGACGAGGGTGAGCGGAACACCGCTTTCATGGCAAGAGC
TTCAACAAGTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGATGGGTCCA
CCCCACCACGTTATTCTTGGAACCGCACATACATCTCGCAAGAGAAGCCA
GCCAATATGGAAAGCAAATACCCGCTGACTCCTATGAACGAGTCGGTTAA
ACAACGCTTACTAGATGGCGGCATGGATGAACCTTTGGCGATGCATTATG
CCACTATTCTCTCACGGGACCCAATTGTGCTCAACCGAACAGACCTGGAA
AACTTTGATCTAAATGGTACTGGCATATTTGATGTCTACTACAGCACTGT
ATGGCAACACGTCCGACTCAAAATCCCCTTGACCGACGACGGACCCGGCT
GGCGGGTGGAGTTCCGGCCGATGGAAGTACAGTTGACCGATTTCGACAAC
GCTGCTTTCGCAATCTTTATGTACCTTCTTTCTCGAGCCATAACGGACCT
TCACCTGAACTTCTACGTGCCTATCGACCAGTTGGGAGATTCCATGGAAC
GCGCGCAGAAGCGTAATGCTGCCCTCGAAGAGCGCTTCTGGTTCCGTCGG
ACCGGATGGTCATCCGCAGAGCAGTGCGAGCGTCCACAGCGTCAGCGAAG
AGGCTGCGTCAACTGCTGTTCAAAGTCGACTGCACATGCATCACCATCAT
GTGCTCTCCTTACCGCGGATGAGATCATCAATGGCGAGGATCCAAAGGAC
CCCTCCAGCTTCCCTGGACTGGTGAACATCGTACGCGCTTATCTTCAGTA
CAATAACACGCCTGTGATGGAGCAAAAGAAGATCATGCCCTACCTGGATG
TGATCAGTAAGCGAGCAAGCGGGGAGCTTCCGACCCCAGCTCAATGGATG
CGCTCGTTTGTCACCGGACACGAGGAGTACCAGCGAGACAGCTACGTGAA
TGAGAAGATCCGTTATGACCTGATCCAGGAGATTGTTCGGATGGAAGACT
CATGAACGGAAATTGATCGGACAATTCCTATCGCCCGACCAACACCCTGT
ACCATTATGTGTATTCCCCGGCCTAGGTGAAAAGGGGCAGTTTACACTCC
CAGAAAGTCCGGATGAGACCTCTCTTGAACAAATCTGCTGTCCCATACCA
CGCTATATAATGATGACACAGAACTTGCTGGCACGCCGACAACGGCGTGT
TGAGAGCTACATCCCAGTCTTCCGGGATGAGCAGACAAAAACACCTTTTC
ATGACAATTCTGTGTCATTTGAATACCCCGCAGAACATCCCCCGGGTAAT
GGAAAGGAGGGTCATGTACATCTGGATGGGATTGGTCTCGGGGTCGGGAA
TTGCTGCATTCAAGTTACGTTCCAGGCTCCCAATGAGATTGAAGCCCGAT
GGTTGCATGATCAAATGATCGCATTGGGGCCGGTCATGCTAGCACTTACC
GCTGCGACGCCGATATACAAGGGCTACCTGGTAGATACAGAAGTGCGCTG
GGGCCGAACCTCTGAATGCTTTGACGATCGCACACCGGAAGAATTAGCCA
CCACGTGAACCCTGGAACGAAGTAAAGTTACAGGCGGAATGGGCTCGACA
TATGGTAGAAGCAACTCCAGGAGAGCCATACGGGGGAGATGTCATGGATT
TACTCAGGGTTGAAGGCAACATGAAGCGACGATTGAATATACCCTGGTCA
GCCTCGATGCGGACAGTTCGCGAGCAACACTGCTTCTTAACCAAGAAGAT
ATTTTACGGAAAGAGGAGAGCCAATGCTCTAGTGCTGAAGAGGTCAATTG
CTATCTCTATGGAAGAGGCAGAAAGATAGAAGCGATTTGGAGCCACTTTG
GGGTGACGAGGGTGAGCGGAACACCGCTTTCATGGCAAGAGCTTCAACAA
GTTGCACCTATTGCTCGTCAAGGAGCCGTGGAGATGGGTCCACC back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006750 | glutathione biosynthetic process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003824 | catalytic activity |
| GO:0004357 | glutamate-cysteine ligase activity |
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:IPR014746 |
| DBxref | InterPro:IPR004308 |
| DBxref | PFAM:PF03074 |
| 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 |
|---|
| ch8 | supercontig | ch8:2362065..2364200 - |
|
