Mus caroli (Ryukyu mouse): 110284850 Help Entry 110284850         CDS       T05910                                  Gene name Ctnna1 Definition (RefSeq) catenin alpha-1 isoform X1   KO K05691   catenin alpha Organism mcal  Mus caroli (Ryukyu mouse) Pathway mcal04390   Hippo signaling pathway mcal04520   Adherens junction mcal04670   Leukocyte transendothelial migration mcal05100   Bacterial invasion of epithelial cells mcal05200   Pathways in cancer mcal05213   Endometrial cancer mcal05226   Gastric cancer mcal05412   Arrhythmogenic right ventricular cardiomyopathy Brite KEGG Orthology (KO) [BR:mcal00001]  09130 Environmental Information Processing   09132 Signal transduction    04390 Hippo signaling pathway     110284850 (Ctnna1)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04520 Adherens junction     110284850 (Ctnna1)  09150 Organismal Systems   09151 Immune system    04670 Leukocyte transendothelial migration     110284850 (Ctnna1)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     110284850 (Ctnna1)   09162 Cancer: specific types    05226 Gastric cancer     110284850 (Ctnna1)    05213 Endometrial cancer     110284850 (Ctnna1)   09166 Cardiovascular disease    05412 Arrhythmogenic right ventricular cardiomyopathy     110284850 (Ctnna1)   09171 Infectious disease: bacterial    05100 Bacterial invasion of epithelial cells     110284850 (Ctnna1) Cytoskeleton proteins [BR:mcal04812]  Eukaryotic cytoskeleton proteins   Actin filaments / Microfilaments    Actin-binding proteins     Cross-linking proteins      110284850 (Ctnna1) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Vinculin I_LWEQ FUSC Motif Other DBs NCBI-GeneID:  110284850 NCBI-ProteinID:  XP_021006440 Ensembl:  MGP_CAROLIEiJ_G0022104 UniProt:  A0A6P5P2H3 LinkDB All DBs Position 18 AA seq 906 aa AA seqDB search MTAVHTGNINFKWDPKSLEIRTLAVERLLEPLVTQVTTLVNTNSKGPSNKKRGRSKKAHV LAASVEQATENFLEKGDKIAKESQFLKEELVVAVEDVRKQGDLMKSAAGEFADDPCSSVK RGNMVRAARALLSAVTRLLILADMADVYKLLVQLKVVEDGILKLRNAGNEQDLGIQYKAL KPEVDKLNIMAAKRQQELKDVGNRDQMAAARGILQKNVPILYTASQACLQHPDVAAYKAN RDLIYKQLQQAVTGISNAAQATASDDAAQHQGGSGGELAYALNNFDKQIIVDPLSFSEER FRPSLEERLESIISGAALMADSSCTRDDRRERIVAECNAVRQALQDLLSEYMGNAGRKER SDALNSAIDKMTKKTRDLRRQLRKAVMDHVSDSFLETNVPLLVLIEAAKNGNEKEVKEYA QVFREHANKLIEVANLACSISNNEEGVKLVRMSASQLEALCPQVINAALALAAKPQSKLA QENMDLFKEQWEKQVRVLTDAVDDITSIDDFLAVSENHILEDVNKCVIALQEKDVDGLDR TAGAIRGRAARVIHVVTSEMDNYEPGVYTEKVLEATKLLSNTVMPRFTEQVEAAVEALSS DPAQPMDENEFIDASRLVYDGIRDIRKAVLMIRTPEELDDSDFETEDFDVRSRTSVQTED DQLIAGQSARAIMAQLPQEQKAKIAEQVASFQEEKSKLDAEVSKWDDSGNDIIVLAKQMC MIMMEMTDFTRGKGPLKNTSDVISAAKKIAEAGSRMDKLGRTIADHCPDSACKQDLLAYL QRIALYCHQLNICSKVKAEVQNLGGELVVSGVDSAMSLIQAAKNLMNAVVQTVKASYVAS TKYQKSQGMASLNLPAVSWKMKAPEKKPLVKREKQDETQTKIKRASQKKHVNPVQALSEF KAMDSI NT seq 2721 nt NT seq  +upstreamnt  +downstreamnt atgactgccgtccacacaggcaacataaacttcaaatgggaccccaaaagtctggagatt aggactctggctgttgaaagactgttggagcctcttgttacacaggttacaaccctggta aacaccaatagtaaagggccctctaataaaaagagaggccgttctaagaaggcccatgtt ttggctgcatctgttgaacaagcaactgagaatttcttggaaaagggggataaaattgca aaagagagccagtttctcaaggaggagcttgtggttgctgtagaagatgttcgaaaacaa ggagatttgatgaagagcgctgctggggagtttgcagatgatccatgctcttctgtgaag cgaggcaacatggtccgggcagctcgagctttgctctctgccgtcacccggctgctgatt ctggctgacatggcagatgtctacaaattacttgttcagctgaaagttgtggaagatggt atattgaaactgaggaatgctggcaatgaacaagacttagggatacagtacaaagctctg aaaccagaagtagataagctgaacatcatggcagcaaaaagacagcaggaactaaaagat gtgggcaatcgtgatcagatggctgcagctagaggaatcctgcagaaaaatgttccaatc ctctatactgcatcccaggcatgcctacaacaccctgatgttgcagcctataaggccaac cgggacttgatatacaagcagctgcagcaggccgtcacaggaatttctaatgcagcccag gctactgcatcagatgatgctgcccagcaccagggtggcagtggcggagagctggcatac gctctcaacaactttgataaacaaatcattgtggaccctctgagcttcagcgaggagcgc tttaggccgtccctggaggagcgcctggaaagcattattagtggggctgccctgatggct gactcatcctgcacacgtgatgaccgtcgggagcgcattgtggcagagtgtaatgctgtc cgccaggctctacaggacctgctctcagaatacatgggcaacgctggacgtaaagaaaga agtgatgcactcaactctgcaatagataaaatgaccaagaagaccagggacttgcgtaga cagcttcgcaaagctgtcatggaccacgtatcagactctttcctggagaccaatgtccct ctgttagtactgattgaagctgcaaagaatggaaatgagaaagaagttaaggaatatgcc caagtttttcgtgaacatgccaacaaactgattgaggttgccaacctggcctgttcaatc tccaacaatgaagaaggcgtgaagcttgtccgaatgtctgcaagccagttagaagcactg tgtcctcaggttatcaatgctgcattggctttagcagcaaagccacagagtaaactggcc caagagaacatggatctttttaaagagcaatgggaaaagcaagtccgtgttctcacagat gctgttgatgacattacttccatcgatgacttcttggctgtctcagagaaccacatttta gaagatgtgaacaagtgtgttattgctctccaagagaaagatgtggatgggctggatcgc actgccggtgccatccgaggccgggcagcccgagtcattcatgtagtcacctcagagatg gacaactacgagccaggagtttacacagagaaggttctggaagccaccaagctcctctcc aacacagtcatgccgcgcttcactgagcaggtggaagcagctgtggaagccctcagctcg gacccggcccagcccatggatgagaatgagttcatcgacgcctcccgtctggtgtacgac ggcatccgggacatccggaaagcagtgctgatgataaggacccccgaggagttggacgac tctgacttcgagactgaagactttgatgtcagaagcaggaccagtgtccagacagaagat gaccagctgatagctggccagagcgcccgggcgatcatggctcagcttcctcaggagcaa aaagcaaagattgcagaacaggtggccagtttccaggaagagaagagcaagctggatgct gaagtgtccaagtgggatgacagtggcaatgacatcattgtgctggccaagcagatgtgc atgatcatgatggagatgaccgacttcacccgaggcaaagggccactcaaaaacacctct gatgtgatcagtgctgccaagaaaattgcggaggcgggatccaggatggacaagctcggc cggaccatcgcagaccactgcccagactcggcatgcaagcaggacctgctggcctacctt cagcgcatcgctctctactgccaccagctcaacatctgcagcaaagtcaaggctgaagta cagaaccttggtggagagcttgtcgtctctggggtggacagcgccatgtccctgatccag gcagccaagaacttgatgaatgctgttgtgcagacagtgaaggcgtcctacgtggcttcc accaaataccagaagtcacaggggatggcgtctctgaaccttcctgctgtgtcatggaag atgaaggcccctgagaagaagccgttggtgaagagagagaagcaggatgagacgcagacc aagattaagcgagcttctcagaagaaacacgtgaaccctgtgcaggccctgagcgagttc aaagccatggacagcatctga

Mus caroli (Ryukyu mouse): 110295850 Help Entry 110295850         CDS       T05910                                  Gene name Ctnna2 Definition (RefSeq) catenin alpha-2 isoform X1   KO K05691   catenin alpha Organism mcal  Mus caroli (Ryukyu mouse) Pathway mcal04390   Hippo signaling pathway mcal04520   Adherens junction mcal04670   Leukocyte transendothelial migration mcal05100   Bacterial invasion of epithelial cells mcal05200   Pathways in cancer mcal05213   Endometrial cancer mcal05226   Gastric cancer mcal05412   Arrhythmogenic right ventricular cardiomyopathy Brite KEGG Orthology (KO) [BR:mcal00001]  09130 Environmental Information Processing   09132 Signal transduction    04390 Hippo signaling pathway     110295850 (Ctnna2)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04520 Adherens junction     110295850 (Ctnna2)  09150 Organismal Systems   09151 Immune system    04670 Leukocyte transendothelial migration     110295850 (Ctnna2)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     110295850 (Ctnna2)   09162 Cancer: specific types    05226 Gastric cancer     110295850 (Ctnna2)    05213 Endometrial cancer     110295850 (Ctnna2)   09166 Cardiovascular disease    05412 Arrhythmogenic right ventricular cardiomyopathy     110295850 (Ctnna2)   09171 Infectious disease: bacterial    05100 Bacterial invasion of epithelial cells     110295850 (Ctnna2) Cytoskeleton proteins [BR:mcal04812]  Eukaryotic cytoskeleton proteins   Actin filaments / Microfilaments    Actin-binding proteins     Cross-linking proteins      110295850 (Ctnna2) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Vinculin Motif Other DBs NCBI-GeneID:  110295850 NCBI-ProteinID:  XP_021019871 Ensembl:  MGP_CAROLIEiJ_G0028517 UniProt:  A0A6P5Q089 LinkDB All DBs Position 6 AA seq 966 aa AA seqDB search MTDIHSSYTYTGSMTSATSPIILKWDPKSLEIRTLTVERLLEPLVTQVTTLVNTSNKGPS GKKKGRSKKAHVLAASVEQATQNFLEKGEQIAKESQDLKEELVAAVEDVRKQGETMRIAS SEFADDPCSSVKRGTMVRAARALLSAVTRLLILADMADVMRLLSHLKIVEEALEAVKNAT NEQDLANRFKEFGKEMVKLNYVAARRQQELKDPHCRDEMAAARGALKKNATMLYTASQAF LRHPDVAATRANRDYVFKQVQEAIAGISSAAQATSPTDEAKGHTGIGELAAALNEFDNKI ILDPMTFSEARFRPSLEERLESIISGAALMADSSCTRDDRRERIVAECNAVRQALQDLLS EYMNNTGRKEKGDPLNIAIDKMTKKTRDLRRQLRKAVMDHISDSFLETNVPLLVLIEAAK SGNEKEVKEYAQVFREHANKLVEVANLACSISNNEEGVKLVRMAATQIDSLCPQVINAAL TLAARPQSKVAQDNMDVFKDQWEKQVRVLTEAVDDITSVDDFLSVSENHILEDVNKCVIA LQEGDVDTLDRTAGAIRGRAARVIHIINAEMENYEAGVYTEKVLEATKLLSETVMPRFAE QVEVAIEALSANVPQPFEENEFIDASRLVYDGVRDIRKAVLMIRTPEELEDDSDFEQEDY DVRSRTSVQTEDDQLIAGQSARAIMAQLPQEEKAKIAEQVEIFHQEKSKLDAEVAKWDDS GNDIIVLAKQMCMIMMEMTDFTRGKGPLKNTSDVINAAKKIAEAGSRMDKLARAVADQCP DSACKQDLLAYLQRIALYCHQLNICSKVKAEVQNLGGELIVSGTGVQSTFTTFYEVDCDV IDGGRASQLSTHLPTCAEGAPIGSGSSDSSMLDSATSLIQAAKNLMNAVVLTVKASYVAS TKYQKVYGTAAVNSPVVSWKMKAPEKKPLVKREKPEEFQTRVRRGSQKKHISPVQALSEF KAMDSF NT seq 2901 nt NT seq  +upstreamnt  +downstreamnt atgacagatattcactcaagctacacatatacagggagcatgacttcggcaacttcacct attattttaaaatgggatcccaaaagtttggaaatccggacactcacagtggaaagacta ttggagccacttgtgacacaggtaacaacgcttgtcaacacaagcaacaaaggtccgtct ggtaaaaagaaagggaggtcaaagaaagcccatgtgctggcagcatctgtagaacaagct actcagaacttcctggaaaagggtgaacagatcgctaaggagagccaagacctcaaagaa gagttggtggctgctgtagaggatgtgcggaagcaaggtgagacaatgcggatcgcctcc tcagagtttgcagatgacccttgctcttcggtcaagcgtggcaccatggtgcgtgcagca agggctctgctatcggctgtgacacgcttgctcatcctggccgacatggcagatgtcatg aggcttttatcgcatctgaaaattgttgaggaggccttggaagcagtcaaaaatgctaca aatgaacaagaccttgcaaaccgctttaaagagtttgggaaagagatggtgaaactgaac tatgtagcagcaagacggcagcaggagctgaaggaccctcactgtagggatgagatggct gcagcccgtggagctctgaagaagaatgccaccatgctatacacagcctcccaagccttc ctccggcatccagatgttgctgctacaagggccaaccgagattatgtatttaaacaagtc caagaggccatcgctggcatctccagtgctgctcaggccacctcccccaccgatgaagcc aaaggccacacaggcatcggcgagctggctgcagccctgaatgagtttgataataagatc atcctggaccccatgacgttcagcgaggccaggttccggccgtccctggaggagagactg gagagcatcatcagtggggctgctctcatggcggattcctcctgcacacgtgatgaccgc cgtgagcgtattgtggccgagtgcaatgcagttcgccaggcactccaggacctgctaagc gagtacatgaataacactggaaggaaagagaaaggagaccctctcaacattgcgattgac aagatgaccaagaaaacaagagatctgaggagacagcttcggaaagctgtgatggatcac atatcagattctttcttggaaactaatgtccctttgctggttctcattgaggctgcgaag agtgggaatgagaaggaggtgaaggaatatgcccaagttttccgtgaacatgccaacaag ctggtggaggttgccaatttggcttgttccatctccaacaatgaggaaggggtgaaatta gtcaggatggcagccacccagattgacagcctgtgtccccaggtcattaatgctgccctc acactggctgctcggccacagagtaaagttgctcaggacaacatggatgtcttcaaagac cagtgggaaaagcaggtccgggtgctcactgaggcagtggatgacatcacctctgtggat gacttcctctctgtctcagaaaaccatatcttggaggatgtgaacaaatgtgtgattgcg ctgcaagagggagacgtagacacactggatcgcacagctggggccatacggggccgggca gcccgggtcattcacatcatcaatgcagagatggagaattatgaagctggggtctatacg gagaaagtgctggaagccacaaaattgctttcagaaacagtgatgccacgctttgctgaa caagttgaggtggccatcgaagccctgagcgccaatgtccctcagccgttcgaggagaac gagttcatcgatgcctcgcgcctggtgtatgatggtgttcgggacatcagaaaggctgtg ctgatgatcaggactccagaagagctagaagacgattccgactttgagcaagaggattat gatgtgcggagtcggacaagtgttcagacagaggatgaccagctcattgctggacagagt gcacgggccatcatggcgcaactaccacaggaggagaaagcaaaaatagctgaacaggtg gagattttccaccaagaaaaaagcaagctggatgctgaagtggccaagtgggatgacagc ggcaatgacatcattgtgctggccaagcagatgtgtatgatcatgatggagatgacagac ttcacaagaggcaaaggcccactgaaaaatacatctgatgtcattaatgctgccaagaag attgcagaagcaggctctcgaatggacaaattagcacgcgctgtggctgatcagtgtcct gattcagcatgtaagcaggatttattagcctaccttcagcggattgccttgtactgccat cagcttaacatctgcagcaaagtgaaggctgaggttcagaacctaggaggagagctcatt gtgtcagggacaggagttcagagcactttcactaccttttatgaggtagattgtgatgtc atagatgggggcagggctagtcaactttctacccacctcccaacctgtgctgagggagct ccaatcgggagtggaagcagtgactcctccatgctggacagtgctacatcactcatccag gcagccaaaaacctgatgaatgctgttgtcctcacggtgaaagcatcttatgtagcctca actaaataccagaaggtctatggaacagcagctgtcaactctccagttgtgtcttggaag atgaaggctcctgaaaagaagccccttgtgaagagagaaaagcctgaagaatttcagaca agagttagacgagggtctcaaaagaaacacatttcacctgtgcaggctttaagtgaattc aaggcaatggattccttctag

Mus caroli (Ryukyu mouse): 110302662 Help Entry 110302662         CDS       T05910                                  Gene name Ctnna3 Definition (RefSeq) catenin alpha-3 isoform X1   KO K05691   catenin alpha Organism mcal  Mus caroli (Ryukyu mouse) Pathway mcal04390   Hippo signaling pathway mcal04520   Adherens junction mcal04670   Leukocyte transendothelial migration mcal05100   Bacterial invasion of epithelial cells mcal05200   Pathways in cancer mcal05213   Endometrial cancer mcal05226   Gastric cancer mcal05412   Arrhythmogenic right ventricular cardiomyopathy Brite KEGG Orthology (KO) [BR:mcal00001]  09130 Environmental Information Processing   09132 Signal transduction    04390 Hippo signaling pathway     110302662 (Ctnna3)  09140 Cellular Processes   09144 Cellular community - eukaryotes    04520 Adherens junction     110302662 (Ctnna3)  09150 Organismal Systems   09151 Immune system    04670 Leukocyte transendothelial migration     110302662 (Ctnna3)  09160 Human Diseases   09161 Cancer: overview    05200 Pathways in cancer     110302662 (Ctnna3)   09162 Cancer: specific types    05226 Gastric cancer     110302662 (Ctnna3)    05213 Endometrial cancer     110302662 (Ctnna3)   09166 Cardiovascular disease    05412 Arrhythmogenic right ventricular cardiomyopathy     110302662 (Ctnna3)   09171 Infectious disease: bacterial    05100 Bacterial invasion of epithelial cells     110302662 (Ctnna3) Cytoskeleton proteins [BR:mcal04812]  Eukaryotic cytoskeleton proteins   Actin filaments / Microfilaments    Actin-binding proteins     Cross-linking proteins      110302662 (Ctnna3) BRITE hierarchy SSDB OrthologParalogGFIT Motif Pfam:  Vinculin TMEM89 Motif Other DBs NCBI-GeneID:  110302662 NCBI-ProteinID:  XP_021029115 Ensembl:  MGP_CAROLIEiJ_G0015403 UniProt:  A0A6P5QFN7 LinkDB All DBs Position 10 AA seq 895 aa AA seqDB search MSAETPITMNMDTQDLQIQTFTVEKLLEPLIIQVTTLVNCPQNPSNRKKGRSKRARVLLA SVEEATWNLLDKGEMIAKEATVLKEELAAALQEVRKESKALKVSAERFTDDPCYLPKREA VVQAARALLAAVTKLLVLADMIDVMCXLQHVSSFQRTFESLKNVSNKSDLQRTYQKLGKE LESLDYLAFKRQQDLKSPSQRDEIAGARATLKENSPLLHSICSACLEHSDVASLKASKDT VCEEIQNALDVISNASQGIQNVPAPPEPQAATLGSALDELESLIVLNPLTVTEEDVRPSL EKRLEAIISGAALLADSSCTRDLHRERIIAECNAIRQALQDLLSEYMSNTGKTERSNTLN TAIVNMSKKTRDLRRQLRKAIIDHISDSFLDTTVPLLVLIEAAKNGRVKEIKDYAAIFHE HTGRLVEVANLACSMSTNEDGIKIVRIAANHLETLCPQIINAALALASRPKSQVVKNTME MYKRTWEHYIHVLTEAVDDITSIDDFLAVSESHILEDVNKCIIALRDQDADNLDRAAGAI RGRAARVAHIVAGEMDSYEPGAYTEGVMRNVNFLTSTVIPEFVTQVNVALDALSKNSLTA LDDNQFVDISKKIYDTIHDIRCSVMMIRTPEELEDVSDLEDDHEVRSHTSIQTEGKTDRA KMTQLPEAEKEKIAEQVADFKKVKSKLDAEIEIWDDTSNDIIVLAKKMCMIMMEMTDFTR GKGPLKHTTDVIYAAKMISESGSRMDVLARQIANQCPDPPCKQDLLAYLEQIKFYSHQLK ICSQVKAEIQNLGGELIVSALDSVTSLIQAAKNLMNAVVQTVKMSYIASTKIIRIQSSAG PRHPVVMWRMKAPAKKPLIKREKPEETWAAVRRGSAKKKIHPVQVMSEFRGRQVY NT seq 2688 nt NT seq  +upstreamnt  +downstreamnt atgtccgcagaaacgccaataaccatgaatatggacactcaggatctgcagatccaaacg ttcactgtggagaaactgctggagcctctgataatccaggttactaccctggtgaattgt ccgcagaatccttccaacaggaagaaaggacgttcaaagagagccagagttcttctagct tctgtggaggaagcaacttggaatttgttagacaagggggagatgattgctaaggaagcc acggttttaaaggaagagctggcagctgcactccaggaagttcggaaagagagcaaagct ctgaaggtatcagctgagagatttacagacgacccctgttacctcccgaaaagggaggcc gtggttcaagccgcccgcgccctgttggcagcagttacaaaactccttgttcttgccgac atgattgatgtcatgtgcntcttgcagcatgtgtcatctttccaaagaacattcgagtct ctcaaaaatgtttccaacaagtccgacctccagagaacctaccagaagctcgggaaggag ctggaaagcctggattatttggccttcaaacgccagcaggacttaaaatctccaagccag agggatgaaattgcaggggcccgggccaccttgaaggagaactccccactcctgcattca atttgttcagcatgcttggaacattccgatgttgcttcgctcaaagccagtaaggacacc gtctgtgaagagatccagaacgctcttgatgtcatttcaaatgcttcccaaggcatccag aatgtgccagcgccccctgaacctcaggcagcaacactgggaagtgctcttgatgagttg gagagcttaattgtcctgaacccactcacagtgacagaggaagacgtaagaccatcacta gagaaacgcctagaagccatcatcagtggggccgcactgttggccgactcgtcctgcacc agggacctccaccgggagcggatcatcgccgagtgcaatgccatccgccaggcgctccag gacctgctgtcggagtacatgagtaacactggaaaaacagaaaggagtaataccctgaat actgccattgtcaacatgagcaagaagacaagagacctccgccgacagctccgcaaagct atcatagatcacatatcagattctttcttggatacaacagttccactcctggtcctcatt gaagctgcgaagaatggccgagtcaaggaaatcaaagactatgctgccatatttcatgag cacactggcaggcttgtggaggtggcaaatctggcttgttccatgtcaacgaatgaagat gggattaaaatcgtcagaattgcagccaatcacctggagaccctgtgtccacagatcata aatgctgcacttgctttggcatcaagacccaagagtcaagtggtcaaaaacaccatggaa atgtacaagcgcacatgggaacactacatccacgtcctcactgaagctgtggatgacatc accagcattgacgactttctggctgtatctgaaagccacatcctggaagatgtcaacaaa tgcattatagccttgagagatcaggatgctgataatttagaccgagctgctggtgccatc agaggacgggccgcaagagtagctcacatcgttgcgggtgaaatggatagttatgaacct ggcgcttacactgaaggtgtgatgagaaatgtcaacttccttacaagcactgtgatccca gagttcgtgacacaagtgaatgtggccctagatgctttaagcaagaactctctgactgct cttgatgataatcagtttgtggacatctccaagaagatctatgacacaatccatgatatc aggtgttcggtcatgatgattcggacaccagaggaactagaggatgtttctgaccttgaa gatgaccatgaggtccgtagccacaccagcattcagacagaagggaaaactgatcgggcc aagatgactcaactgcctgaggcagaaaaggaaaagattgctgagcaagtcgccgacttc aagaaggtgaagagcaagctggacgcagagattgagatatgggatgacacaagcaatgac atcattgttcttgccaagaagatgtgcatgatcatgatggagatgaccgacttcacgagg gggaaaggaccactaaagcataccactgatgtaatctatgcagctaaaatgatatcagag tcaggatcaaggatggatgttcttgctcggcagattgctaaccagtgtccagatccacct tgcaaacaggacttgctggcttacctggaacagattaaattctactcccaccagctgaaa atctgcagtcaagttaaagcagagatccaaaacctggggggagaactcattgtatcagct ttggacagtgtcacctccctgatccaggcagccaagaatttaatgaatgctgtagtgcaa acagtgaaaatgtcatacattgcctccaccaagatcatccgcatccagagttctgcagga ccccggcacccagttgtcatgtggaggatgaaggctccggctaagaagcccttgattaaa agagagaagccagaagaaacatgggcagctgtcagaagaggctctgccaagaaaaagatc cacccagttcaagtcatgagtgaattcagagggagacaagtctactga

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