Detailed information of effector
Summary
| Effector ID | EFF18625  |
| Effector type | Tde |
| Cognate immunity protein | IMU17305 |
| Related T6SS (Type) | T6SS17501 (Type i3) |
| Strain | Neisseria cinerea isolate CCUG346T (346T) |
| Replicon | chromosome |
| Sequence | Protein sequence (1368 a.a.); Nucleotide sequence (4104 bp) |
| Description | Nte3 is a putative endonuclease of the HNH/Endo VII family with conserved LHH (pfam14411). All Ntes are toxic, with their expression leading to decreased viability and reduced optical density (OD) of E. coli cultures compared to empty vector controls; toxicity was counteracted by co-expression of the corresponding Nti. |
| Reference |
Experimental investigation has been performed.
Bioinformatics investigation has been performedExternal database links
| Locus tag (Gene) | Nte3 |
| Coordinates (Strand) | 21905..26008 (-) |
| NCBI ID | - |
| GenBank | 346T_plasmid |
| Uniprot ID | - |
| KEGG ID | - |
| PDB ID | - |
Pfam domain hit(s)
| Domain | Pfam ID | E-value | Aligned region |
|---|---|---|---|
| DUF6531 | PF20148.1 | 2.5e-21 | 126..200 |
| LHH | PF14411.8 | 1.1e-11 | 1291..1356 |
| RHS | PF03527.16 | 1.9e-11 | 1140..1172 |
| RHS_repeat | PF05593.16 | 3.1e-08 | 526..555 |
| RHS_repeat | PF05593.16 | 1.3e-06 | 625..661 |
| RHS_repeat | PF05593.16 | 6.2e-06 | 478..512 |
Transmembrane helices
- Transmembrane helices are predicted using TMHMM 2.0 software.
| Prediction | Region | Sequence |
|---|---|---|
| Outside | 1-1367 | MASFGNTFGVLIPKPAAPAMVSQGSANPPEPLTNAAGPVDVIEMVADVASTALSIVASDSAAADTVDAISELVSLASMIPGQPGPKPPSRKMVSGFSGGMGMGFDGGVVTSGHGHCIPCKVAAAIGNPVNAVLGIKVLFDDTETDFAFDSPLPLVWQRSYYSDQIGNGWLGQGWSLPFSMRLVRTADGFLYIDEQGREIPLPDISDKADEPYSAADDDEDDLYEEEAAPRPASAEEDPYGLDDAYFDPYEQIFFSQISDDLYQIASPDGGARLLFAEVDSGCGIYQLVAQLDRNGRHIRLCYDDNGLPHSIYDGSGRHFQPVFSSIRLHDNDPDFDPAGERDVFVSKDERFYVNRLTSVTFNGKELVRYDYDGYGDLTAVYGRDSKKLRGFAYRNHIMVEHNQPDGLVSRYEYDRYDTDGKVLKSSNNLGEEWTFDYRKDHTVVTDALGRTEVYGFDENHELVYRIDADGQRSDSERDSYGRITVERDPLGRETRYLYDTEGNVIAITAPDGGSTQIDYHETLNLPVAVNDPAGRITAYTYDGRGNLVSITDPAGYTTRYGYNARWLPETITDALGKTRRLHYDTLDQLVCFTDCTGETTRFAYTEYGDLETVTDALGHTTRHHYDAAGNPVRTDYPDGSHETFEYDRLNRLTAHIDGLGAQTAYELAVDGLPLKRTNALGHTFAYAYDKARRLTVLTNENGETYRLDYGPTDNLIQETGWDGKITAYGYDAAGQLVQQTEYGQSNNEGRLKDRPETWHIHRFKRNILGQLIEKQSRKVSGRNGQSKDEGISRTRFDYDPITGNLTKARNRHSSVELAYDELDHLIGETTVHNGQSATVGYQYDPLGNRIRTILPDGRHIDYLYYGSGHLHQISLDGEVITDIERDKLHREIQRTQGSISSLYDYDPMGRLKSQRTVRSGTQTPRGKQNPPAGGAVNRRYAYDKAGNLIQSADQRSGVLHYVYDKIGRIQEARNSQTGRSETFAFDPAHNILSDKTAEGKDKGSNISSGNRLESYNGIEYTYDALGNLIYRQLPNGENQYYQYDLENQLVRAEIKKPAGNTEIWEYAYDPFGRRLSKERQDKLAWTSTDPKRTHFVWDGSRLLQEYTYKGSYTYLYTDQDSYEPLAQIFDNAKDSKQYLAYFHNDQIGIPREMTDIHGNLLWYGEYTAWGRLKKDGRVYQHAHQPFRLQNQYYDEETGLHYNLMRYYEPEAGRFVNQDPIGLLGGENLYWFAPNVFNWLDLFGLNRTPISFTSSTGLTLSVTGYTGLQHLSDSQVKSLAYLNGPENKRPFGKSPVDKKGNTIILHHYKQQSQGPIIAMPERCHRENSKALHPLGNKGGIDNRDEFNQWKREFWYDQALKELSRRGIK |
Signal peptides
- Sec/SPI: "standard" secretory signal peptides transported by the Sec translocon and cleaved by Signal Peptidase I (Lep).
- Sec/SPII: lipoprotein signal peptides transported by the Sec translocon and cleaved by Signal Peptidase II (Lsp).
- Tat/SPI: Tat signal peptides transported by the Tat translocon and cleaved by Signal Peptidase I (Lep).
| Prediction | Probability | Cleavage site | Signal peptide sequence |
|---|---|---|---|
| Other | 0.7491 | - | - |
Protein sequence: 1368 a.a. .
>EFF18625 346T_plasmid:c26008-21905 Type VI DNase and RNase Effector (Tde) [synthetic DNA construct]
MASFGNTFGVLIPKPAAPAMVSQGSANPPEPLTNAAGPVDVIEMVADVASTALSIVASDSAAADTVDAISELVSLASMIP
GQPGPKPPSRKMVSGFSGGMGMGFDGGVVTSGHGHCIPCKVAAAIGNPVNAVLGIKVLFDDTETDFAFDSPLPLVWQRSY
YSDQIGNGWLGQGWSLPFSMRLVRTADGFLYIDEQGREIPLPDISDKADEPYSAADDDEDDLYEEEAAPRPASAEEDPYG
LDDAYFDPYEQIFFSQISDDLYQIASPDGGARLLFAEVDSGCGIYQLVAQLDRNGRHIRLCYDDNGLPHSIYDGSGRHFQ
PVFSSIRLHDNDPDFDPAGERDVFVSKDERFYVNRLTSVTFNGKELVRYDYDGYGDLTAVYGRDSKKLRGFAYRNHIMVE
HNQPDGLVSRYEYDRYDTDGKVLKSSNNLGEEWTFDYRKDHTVVTDALGRTEVYGFDENHELVYRIDADGQRSDSERDSY
GRITVERDPLGRETRYLYDTEGNVIAITAPDGGSTQIDYHETLNLPVAVNDPAGRITAYTYDGRGNLVSITDPAGYTTRY
GYNARWLPETITDALGKTRRLHYDTLDQLVCFTDCTGETTRFAYTEYGDLETVTDALGHTTRHHYDAAGNPVRTDYPDGS
HETFEYDRLNRLTAHIDGLGAQTAYELAVDGLPLKRTNALGHTFAYAYDKARRLTVLTNENGETYRLDYGPTDNLIQETG
WDGKITAYGYDAAGQLVQQTEYGQSNNEGRLKDRPETWHIHRFKRNILGQLIEKQSRKVSGRNGQSKDEGISRTRFDYDP
ITGNLTKARNRHSSVELAYDELDHLIGETTVHNGQSATVGYQYDPLGNRIRTILPDGRHIDYLYYGSGHLHQISLDGEVI
TDIERDKLHREIQRTQGSISSLYDYDPMGRLKSQRTVRSGTQTPRGKQNPPAGGAVNRRYAYDKAGNLIQSADQRSGVLH
YVYDKIGRIQEARNSQTGRSETFAFDPAHNILSDKTAEGKDKGSNISSGNRLESYNGIEYTYDALGNLIYRQLPNGENQY
YQYDLENQLVRAEIKKPAGNTEIWEYAYDPFGRRLSKERQDKLAWTSTDPKRTHFVWDGSRLLQEYTYKGSYTYLYTDQD
SYEPLAQIFDNAKDSKQYLAYFHNDQIGIPREMTDIHGNLLWYGEYTAWGRLKKDGRVYQHAHQPFRLQNQYYDEETGLH
YNLMRYYEPEAGRFVNQDPIGLLGGENLYWFAPNVFNWLDLFGLNRTPISFTSSTGLTLSVTGYTGLQHLSDSQVKSLAY
LNGPENKRPFGKSPVDKKGNTIILHHYKQQSQGPIIAMPERCHRENSKALHPLGNKGGIDNRDEFNQWKREFWYDQALKE
LSRRGIK*
MASFGNTFGVLIPKPAAPAMVSQGSANPPEPLTNAAGPVDVIEMVADVASTALSIVASDSAAADTVDAISELVSLASMIP
GQPGPKPPSRKMVSGFSGGMGMGFDGGVVTSGHGHCIPCKVAAAIGNPVNAVLGIKVLFDDTETDFAFDSPLPLVWQRSY
YSDQIGNGWLGQGWSLPFSMRLVRTADGFLYIDEQGREIPLPDISDKADEPYSAADDDEDDLYEEEAAPRPASAEEDPYG
LDDAYFDPYEQIFFSQISDDLYQIASPDGGARLLFAEVDSGCGIYQLVAQLDRNGRHIRLCYDDNGLPHSIYDGSGRHFQ
PVFSSIRLHDNDPDFDPAGERDVFVSKDERFYVNRLTSVTFNGKELVRYDYDGYGDLTAVYGRDSKKLRGFAYRNHIMVE
HNQPDGLVSRYEYDRYDTDGKVLKSSNNLGEEWTFDYRKDHTVVTDALGRTEVYGFDENHELVYRIDADGQRSDSERDSY
GRITVERDPLGRETRYLYDTEGNVIAITAPDGGSTQIDYHETLNLPVAVNDPAGRITAYTYDGRGNLVSITDPAGYTTRY
GYNARWLPETITDALGKTRRLHYDTLDQLVCFTDCTGETTRFAYTEYGDLETVTDALGHTTRHHYDAAGNPVRTDYPDGS
HETFEYDRLNRLTAHIDGLGAQTAYELAVDGLPLKRTNALGHTFAYAYDKARRLTVLTNENGETYRLDYGPTDNLIQETG
WDGKITAYGYDAAGQLVQQTEYGQSNNEGRLKDRPETWHIHRFKRNILGQLIEKQSRKVSGRNGQSKDEGISRTRFDYDP
ITGNLTKARNRHSSVELAYDELDHLIGETTVHNGQSATVGYQYDPLGNRIRTILPDGRHIDYLYYGSGHLHQISLDGEVI
TDIERDKLHREIQRTQGSISSLYDYDPMGRLKSQRTVRSGTQTPRGKQNPPAGGAVNRRYAYDKAGNLIQSADQRSGVLH
YVYDKIGRIQEARNSQTGRSETFAFDPAHNILSDKTAEGKDKGSNISSGNRLESYNGIEYTYDALGNLIYRQLPNGENQY
YQYDLENQLVRAEIKKPAGNTEIWEYAYDPFGRRLSKERQDKLAWTSTDPKRTHFVWDGSRLLQEYTYKGSYTYLYTDQD
SYEPLAQIFDNAKDSKQYLAYFHNDQIGIPREMTDIHGNLLWYGEYTAWGRLKKDGRVYQHAHQPFRLQNQYYDEETGLH
YNLMRYYEPEAGRFVNQDPIGLLGGENLYWFAPNVFNWLDLFGLNRTPISFTSSTGLTLSVTGYTGLQHLSDSQVKSLAY
LNGPENKRPFGKSPVDKKGNTIILHHYKQQSQGPIIAMPERCHRENSKALHPLGNKGGIDNRDEFNQWKREFWYDQALKE
LSRRGIK*
Nucleotide sequence: 4104 bp .
>EFF18625 346T_plasmid:c26008-21905 Type VI DNase and RNase Effector (Tde) [synthetic DNA construct]
ATGGCCTCTTTCGGTAACACTTTCGGTGTTCTCATTCCTAAACCAGCCGCCCCAGCCATGGTGTCTCAAGGCTCTGCCAA
TCCACCCGAGCCGCTGACCAATGCAGCCGGTCCGGTGGATGTGATAGAAATGGTTGCCGATGTTGCTTCCACTGCCCTTT
CCATCGTTGCGTCTGATTCTGCCGCAGCTGATACAGTTGATGCCATATCCGAACTGGTTTCCCTTGCGTCCATGATACCC
GGTCAGCCGGGTCCCAAGCCCCCTTCCCGTAAAATGGTCAGCGGTTTCAGCGGTGGTATGGGTATGGGTTTTGATGGTGG
GGTGGTTACCTCGGGTCATGGTCACTGTATTCCTTGTAAGGTGGCCGCAGCTATCGGTAATCCTGTAAACGCAGTGCTCG
GTATCAAAGTCCTATTTGACGATACCGAGACCGACTTTGCCTTCGATTCCCCGCTTCCCCTTGTTTGGCAGCGCAGCTAC
TATTCCGACCAAATAGGCAACGGCTGGCTGGGGCAAGGTTGGTCGCTGCCGTTCTCCATGCGTCTTGTCCGGACTGCCGA
CGGTTTCCTCTATATTGATGAGCAGGGCAGGGAAATTCCGTTGCCGGATATCAGCGACAAAGCGGACGAGCCTTATTCCG
CAGCCGACGACGATGAAGACGATCTATATGAAGAAGAGGCTGCGCCAAGACCTGCTTCCGCCGAAGAAGATCCCTACGGT
TTGGATGACGCCTATTTTGATCCTTACGAACAAATCTTCTTTTCACAGATTTCAGACGACCTCTATCAAATCGCCTCCCC
CGACGGCGGCGCACGGCTGTTGTTTGCCGAAGTCGATTCCGGCTGCGGCATTTACCAACTGGTCGCCCAACTCGACCGCA
ACGGCCGCCATATCCGCCTCTGCTACGACGACAACGGGCTGCCGCACAGCATTTACGACGGCAGCGGCCGACATTTCCAA
CCCGTATTCTCCTCCATCCGTCTGCACGACAACGATCCCGACTTCGACCCGGCCGGAGAACGGGACGTCTTCGTTTCCAA
AGACGAACGTTTCTACGTCAACCGCCTCACCTCCGTCACCTTCAACGGCAAGGAACTGGTGCGCTACGACTACGACGGCT
ACGGCGATTTGACCGCCGTTTACGGACGCGACAGCAAAAAACTGCGCGGTTTTGCCTACCGCAACCACATCATGGTCGAA
CACAACCAGCCCGACGGACTGGTATCCCGCTACGAATACGACCGTTACGACACCGACGGCAAAGTGCTCAAAAGCAGCAA
CAACCTCGGCGAAGAATGGACGTTCGACTACCGCAAAGACCATACCGTCGTTACCGACGCATTGGGACGGACGGAAGTGT
ACGGTTTCGACGAAAACCACGAACTCGTCTACCGCATCGACGCCGACGGACAACGCAGCGACAGCGAACGCGACAGCTAC
GGCCGCATTACCGTAGAACGCGACCCCCTCGGACGCGAAACCCGCTATCTCTACGATACCGAAGGCAACGTCATCGCCAT
CACCGCCCCCGACGGCGGCAGCACCCAAATCGACTACCACGAAACCCTCAACCTGCCGGTTGCCGTCAACGATCCCGCCG
GCAGGATTACCGCCTACACCTACGACGGACGCGGCAACCTCGTCAGCATCACCGATCCCGCCGGTTACACCACCCGCTAC
GGCTACAACGCCCGATGGCTGCCCGAAACTATTACCGACGCCTTAGGCAAAACCCGACGCCTACACTACGACACCCTCGA
CCAACTCGTCTGCTTTACCGACTGTACCGGCGAAACCACCCGCTTCGCTTATACCGAATACGGCGATCTCGAAACCGTTA
CCGATGCGCTGGGCCATACCACCCGCCACCACTACGACGCAGCGGGCAACCCCGTCCGTACCGACTATCCCGACGGCAGT
CACGAAACCTTCGAATACGACCGCCTCAACCGTCTGACCGCCCACATCGACGGACTCGGTGCCCAAACCGCCTACGAACT
CGCAGTGGACGGACTGCCGCTCAAACGCACCAACGCACTGGGCCATACCTTCGCCTACGCCTACGACAAAGCCCGCCGTC
TGACCGTCCTCACCAACGAAAACGGCGAAACCTACCGTCTCGATTACGGCCCGACCGACAACCTGATCCAAGAAACCGGC
TGGGACGGCAAAATCACCGCCTACGGCTACGATGCCGCCGGACAACTGGTTCAACAGACCGAATACGGCCAAAGCAATAA
TGAAGGTCGTCTGAAAGACCGTCCCGAGACTTGGCACATCCACCGGTTCAAACGCAACATCCTCGGCCAACTGATCGAAA
AACAAAGCCGCAAAGTCTCCGGCCGCAACGGACAAAGCAAAGACGAAGGCATCAGCCGCACCCGTTTCGACTACGACCCC
ATTACCGGCAACCTGACCAAAGCCCGCAACCGACACAGCAGCGTCGAACTCGCCTACGACGAACTCGACCACCTCATCGG
CGAAACCACCGTCCACAACGGCCAAAGCGCCACCGTAGGCTATCAATACGACCCGCTGGGCAACCGCATCCGCACCATCC
TGCCCGACGGCCGCCATATCGATTACCTGTACTACGGCAGCGGACACCTGCACCAAATCAGCCTAGACGGCGAAGTCATC
ACCGACATCGAACGCGACAAACTGCACCGCGAAATCCAAAGGACGCAGGGCAGCATCAGCAGCCTGTACGACTACGACCC
CATGGGTCGTCTGAAAAGCCAGCGTACCGTCCGCAGCGGCACACAAACACCCCGCGGCAAACAAAACCCGCCGGCCGGCG
GCGCCGTCAACCGCCGCTACGCCTACGACAAAGCCGGCAACCTGATTCAAAGTGCCGACCAAAGAAGCGGCGTCCTTCAT
TACGTTTACGACAAAATCGGACGGATTCAGGAAGCCCGCAACAGCCAAACCGGCCGCAGCGAAACCTTCGCCTTCGACCC
CGCCCACAACATCCTTTCCGACAAAACAGCCGAAGGGAAGGACAAAGGCAGTAACATTAGCAGCGGCAACCGCCTAGAAT
CATACAACGGCATCGAATACACCTACGACGCACTGGGCAACCTGATCTACCGCCAGCTGCCCAACGGTGAAAACCAATAT
TACCAATACGATTTAGAAAACCAACTCGTCCGCGCCGAAATCAAAAAGCCCGCCGGTAATACCGAGATTTGGGAATATGC
CTATGACCCGTTCGGAAGACGCCTTTCCAAAGAACGCCAAGACAAACTCGCCTGGACGAGCACCGACCCCAAACGCACCC
ACTTCGTCTGGGACGGCAGCCGCCTATTGCAGGAGTACACCTACAAAGGCAGCTACACCTATCTCTACACCGACCAAGAC
AGCTACGAACCGCTGGCGCAAATCTTTGATAACGCCAAAGACAGCAAACAATACCTCGCCTATTTCCACAACGACCAAAT
CGGCATACCGAGGGAGATGACCGACATCCACGGCAATCTCTTATGGTACGGCGAATACACCGCCTGGGGTCGTCTGAAAA
AGGACGGGCGGGTCTATCAGCACGCGCATCAGCCGTTTAGATTGCAGAACCAGTATTATGATGAAGAGACCGGGCTGCAT
TACAACCTGATGCGCTATTACGAGCCTGAGGCCGGGCGGTTTGTGAATCAGGATCCGATTGGGTTGTTGGGCGGGGAAAA
TCTTTATTGGTTTGCACCTAACGTTTTTAATTGGCTAGATTTATTTGGCCTGAATAGAACACCTATATCCTTTACAAGCT
CTACAGGACTAACTTTGTCTGTTACAGGCTATACAGGGCTGCAACATTTATCAGACTCTCAAGTAAAAAGTCTTGCCTAT
TTAAATGGTCCTGAAAACAAAAGACCCTTCGGCAAGTCTCCTGTTGACAAAAAAGGAAATACAATTATTCTTCACCACTA
TAAACAACAAAGCCAAGGTCCTATTATTGCCATGCCTGAACGCTGTCATCGCGAAAATTCCAAGGCTTTGCATCCATTAG
GAAATAAAGGCGGCATTGACAATAGAGATGAATTTAATCAATGGAAGCGCGAGTTCTGGTACGACCAAGCTTTAAAAGAA
TTATCAAGAAGAGGTATTAAATGA
ATGGCCTCTTTCGGTAACACTTTCGGTGTTCTCATTCCTAAACCAGCCGCCCCAGCCATGGTGTCTCAAGGCTCTGCCAA
TCCACCCGAGCCGCTGACCAATGCAGCCGGTCCGGTGGATGTGATAGAAATGGTTGCCGATGTTGCTTCCACTGCCCTTT
CCATCGTTGCGTCTGATTCTGCCGCAGCTGATACAGTTGATGCCATATCCGAACTGGTTTCCCTTGCGTCCATGATACCC
GGTCAGCCGGGTCCCAAGCCCCCTTCCCGTAAAATGGTCAGCGGTTTCAGCGGTGGTATGGGTATGGGTTTTGATGGTGG
GGTGGTTACCTCGGGTCATGGTCACTGTATTCCTTGTAAGGTGGCCGCAGCTATCGGTAATCCTGTAAACGCAGTGCTCG
GTATCAAAGTCCTATTTGACGATACCGAGACCGACTTTGCCTTCGATTCCCCGCTTCCCCTTGTTTGGCAGCGCAGCTAC
TATTCCGACCAAATAGGCAACGGCTGGCTGGGGCAAGGTTGGTCGCTGCCGTTCTCCATGCGTCTTGTCCGGACTGCCGA
CGGTTTCCTCTATATTGATGAGCAGGGCAGGGAAATTCCGTTGCCGGATATCAGCGACAAAGCGGACGAGCCTTATTCCG
CAGCCGACGACGATGAAGACGATCTATATGAAGAAGAGGCTGCGCCAAGACCTGCTTCCGCCGAAGAAGATCCCTACGGT
TTGGATGACGCCTATTTTGATCCTTACGAACAAATCTTCTTTTCACAGATTTCAGACGACCTCTATCAAATCGCCTCCCC
CGACGGCGGCGCACGGCTGTTGTTTGCCGAAGTCGATTCCGGCTGCGGCATTTACCAACTGGTCGCCCAACTCGACCGCA
ACGGCCGCCATATCCGCCTCTGCTACGACGACAACGGGCTGCCGCACAGCATTTACGACGGCAGCGGCCGACATTTCCAA
CCCGTATTCTCCTCCATCCGTCTGCACGACAACGATCCCGACTTCGACCCGGCCGGAGAACGGGACGTCTTCGTTTCCAA
AGACGAACGTTTCTACGTCAACCGCCTCACCTCCGTCACCTTCAACGGCAAGGAACTGGTGCGCTACGACTACGACGGCT
ACGGCGATTTGACCGCCGTTTACGGACGCGACAGCAAAAAACTGCGCGGTTTTGCCTACCGCAACCACATCATGGTCGAA
CACAACCAGCCCGACGGACTGGTATCCCGCTACGAATACGACCGTTACGACACCGACGGCAAAGTGCTCAAAAGCAGCAA
CAACCTCGGCGAAGAATGGACGTTCGACTACCGCAAAGACCATACCGTCGTTACCGACGCATTGGGACGGACGGAAGTGT
ACGGTTTCGACGAAAACCACGAACTCGTCTACCGCATCGACGCCGACGGACAACGCAGCGACAGCGAACGCGACAGCTAC
GGCCGCATTACCGTAGAACGCGACCCCCTCGGACGCGAAACCCGCTATCTCTACGATACCGAAGGCAACGTCATCGCCAT
CACCGCCCCCGACGGCGGCAGCACCCAAATCGACTACCACGAAACCCTCAACCTGCCGGTTGCCGTCAACGATCCCGCCG
GCAGGATTACCGCCTACACCTACGACGGACGCGGCAACCTCGTCAGCATCACCGATCCCGCCGGTTACACCACCCGCTAC
GGCTACAACGCCCGATGGCTGCCCGAAACTATTACCGACGCCTTAGGCAAAACCCGACGCCTACACTACGACACCCTCGA
CCAACTCGTCTGCTTTACCGACTGTACCGGCGAAACCACCCGCTTCGCTTATACCGAATACGGCGATCTCGAAACCGTTA
CCGATGCGCTGGGCCATACCACCCGCCACCACTACGACGCAGCGGGCAACCCCGTCCGTACCGACTATCCCGACGGCAGT
CACGAAACCTTCGAATACGACCGCCTCAACCGTCTGACCGCCCACATCGACGGACTCGGTGCCCAAACCGCCTACGAACT
CGCAGTGGACGGACTGCCGCTCAAACGCACCAACGCACTGGGCCATACCTTCGCCTACGCCTACGACAAAGCCCGCCGTC
TGACCGTCCTCACCAACGAAAACGGCGAAACCTACCGTCTCGATTACGGCCCGACCGACAACCTGATCCAAGAAACCGGC
TGGGACGGCAAAATCACCGCCTACGGCTACGATGCCGCCGGACAACTGGTTCAACAGACCGAATACGGCCAAAGCAATAA
TGAAGGTCGTCTGAAAGACCGTCCCGAGACTTGGCACATCCACCGGTTCAAACGCAACATCCTCGGCCAACTGATCGAAA
AACAAAGCCGCAAAGTCTCCGGCCGCAACGGACAAAGCAAAGACGAAGGCATCAGCCGCACCCGTTTCGACTACGACCCC
ATTACCGGCAACCTGACCAAAGCCCGCAACCGACACAGCAGCGTCGAACTCGCCTACGACGAACTCGACCACCTCATCGG
CGAAACCACCGTCCACAACGGCCAAAGCGCCACCGTAGGCTATCAATACGACCCGCTGGGCAACCGCATCCGCACCATCC
TGCCCGACGGCCGCCATATCGATTACCTGTACTACGGCAGCGGACACCTGCACCAAATCAGCCTAGACGGCGAAGTCATC
ACCGACATCGAACGCGACAAACTGCACCGCGAAATCCAAAGGACGCAGGGCAGCATCAGCAGCCTGTACGACTACGACCC
CATGGGTCGTCTGAAAAGCCAGCGTACCGTCCGCAGCGGCACACAAACACCCCGCGGCAAACAAAACCCGCCGGCCGGCG
GCGCCGTCAACCGCCGCTACGCCTACGACAAAGCCGGCAACCTGATTCAAAGTGCCGACCAAAGAAGCGGCGTCCTTCAT
TACGTTTACGACAAAATCGGACGGATTCAGGAAGCCCGCAACAGCCAAACCGGCCGCAGCGAAACCTTCGCCTTCGACCC
CGCCCACAACATCCTTTCCGACAAAACAGCCGAAGGGAAGGACAAAGGCAGTAACATTAGCAGCGGCAACCGCCTAGAAT
CATACAACGGCATCGAATACACCTACGACGCACTGGGCAACCTGATCTACCGCCAGCTGCCCAACGGTGAAAACCAATAT
TACCAATACGATTTAGAAAACCAACTCGTCCGCGCCGAAATCAAAAAGCCCGCCGGTAATACCGAGATTTGGGAATATGC
CTATGACCCGTTCGGAAGACGCCTTTCCAAAGAACGCCAAGACAAACTCGCCTGGACGAGCACCGACCCCAAACGCACCC
ACTTCGTCTGGGACGGCAGCCGCCTATTGCAGGAGTACACCTACAAAGGCAGCTACACCTATCTCTACACCGACCAAGAC
AGCTACGAACCGCTGGCGCAAATCTTTGATAACGCCAAAGACAGCAAACAATACCTCGCCTATTTCCACAACGACCAAAT
CGGCATACCGAGGGAGATGACCGACATCCACGGCAATCTCTTATGGTACGGCGAATACACCGCCTGGGGTCGTCTGAAAA
AGGACGGGCGGGTCTATCAGCACGCGCATCAGCCGTTTAGATTGCAGAACCAGTATTATGATGAAGAGACCGGGCTGCAT
TACAACCTGATGCGCTATTACGAGCCTGAGGCCGGGCGGTTTGTGAATCAGGATCCGATTGGGTTGTTGGGCGGGGAAAA
TCTTTATTGGTTTGCACCTAACGTTTTTAATTGGCTAGATTTATTTGGCCTGAATAGAACACCTATATCCTTTACAAGCT
CTACAGGACTAACTTTGTCTGTTACAGGCTATACAGGGCTGCAACATTTATCAGACTCTCAAGTAAAAAGTCTTGCCTAT
TTAAATGGTCCTGAAAACAAAAGACCCTTCGGCAAGTCTCCTGTTGACAAAAAAGGAAATACAATTATTCTTCACCACTA
TAAACAACAAAGCCAAGGTCCTATTATTGCCATGCCTGAACGCTGTCATCGCGAAAATTCCAAGGCTTTGCATCCATTAG
GAAATAAAGGCGGCATTGACAATAGAGATGAATTTAATCAATGGAAGCGCGAGTTCTGGTACGACCAAGCTTTAAAAGAA
TTATCAAGAAGAGGTATTAAATGA