Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_14795 LG3 52581826 52600896 PREDICTED: serine/threonine-protein kinase dst1 isoform X3
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   intracellular signal transduction, regulation of MAPK cascade, regulation of reactive oxygen species biosynthetic process, regulation of cell growth, protein phosphorylation, regulation of MAPK cascade, protein phosphorylation, regulation of reactive oxygen species biosynthetic process, protein phosphorylation, protein phosphorylation, defense response to bacterium, regulation of cell growth, response to molecule of bacterial origin, response to molecule of bacterial origin, regulation of MAPK cascade, regulation of reactive oxygen species biosynthetic process, regulation of cell growth, defense response to bacterium, response to molecule of bacterial origin, protein phosphorylation, intracellular signal transduction, protein phosphorylation, protein autophosphorylation, protein autophosphorylation, defense response to bacterium, protein autophosphorylation, regulation of cell population proliferation, regulation of cell growth
Cellular Component   located in   plasma membrane, trans-Golgi network, nucleus, mitochondrion, chromosome, trans-Golgi network, nucleus, nucleus, chromosome, centromeric region, cytoplasm, early endosome
Molecular Function   enables   protein binding, protein binding, protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein binding, protein binding, protein serine/threonine kinase activity, protein binding, protein binding
SNP Position Effect Amino acid change
T/C 52581879 5_prime_UTR_variant
C/A 52582024 synonymous_variant p.Arg42Arg
T/A 52582125 synonymous_variant p.Pro75Pro
G/C 52582128 synonymous_variant p.Pro76Pro
T/A 52582211 missense_variant p.Phe104Tyr
G/A 52582214 missense_variant p.Gly105Asp
G/A 52582309 missense_variant p.Ala137Thr
T/A 52582317 synonymous_variant p.Pro139Pro
T/C 52582392 synonymous_variant p.Val164Val
G/A 52582518 synonymous_variant p.Gly206Gly
C/T 52582683 splice_region_variant&intron_variant
C/G 52582701 intron_variant
G/A 52582909 intron_variant
C/T 52582954 intron_variant
T/A 52583124 intron_variant
T/C 52583129 intron_variant
T/A 52583130 intron_variant
G/T 52583367 intron_variant
T/A 52583368 intron_variant
T/C 52583659 intron_variant
A/C 52583679 intron_variant
C/T 52583924 intron_variant
T/C 52584004 intron_variant
T/G 52584050 intron_variant
G/T 52584345 intron_variant
A/C 52584408 intron_variant
C/A 52584556 intron_variant
T/C 52584666 intron_variant
C/T 52584795 intron_variant
C/T 52584879 intron_variant
T/A 52584883 intron_variant
A/G 52584885 intron_variant
G/A 52585001 intron_variant
G/A 52585138 intron_variant
T/A 52585250 intron_variant
T/C 52585265 intron_variant
G/A 52585445 missense_variant p.Glu419Lys
T/A 52585453 synonymous_variant p.Ile421Ile
C/T 52585717 intron_variant
T/A 52585768 intron_variant
T/C 52585798 intron_variant
T/G 52585906 intron_variant
T/C 52585986 intron_variant
A/C 52586041 intron_variant
A/C 52586077 intron_variant
G/T 52586168 intron_variant
G/A 52586192 intron_variant
T/G 52586259 intron_variant
A/G 52586297 intron_variant
C/A 52586358 intron_variant
C/A 52586365 intron_variant
G/T 52586443 intron_variant
C/T 52586448 intron_variant
T/A 52586461 intron_variant
G/C 52586502 intron_variant
T/C 52586510 intron_variant
A/G 52586574 intron_variant
C/G 52586596 intron_variant
A/T 52586716 intron_variant
G/A 52586780 intron_variant
T/C 52586828 intron_variant
A/G 52586848 intron_variant
T/C 52586852 intron_variant
C/G 52586921 intron_variant
G/A 52586932 intron_variant
T/C 52586947 intron_variant
T/G 52587002 intron_variant
C/T 52587055 intron_variant
T/C 52587119 intron_variant
G/A 52587128 intron_variant
G/A 52587140 intron_variant
G/T 52587171 intron_variant
A/C 52587380 intron_variant
T/C 52587514 intron_variant
A/G 52587650 intron_variant
G/A 52587782 intron_variant
A/C 52587955 intron_variant
T/A 52588235 intron_variant
T/C 52588565 synonymous_variant p.Ser438Ser
G/C 52588566 missense_variant p.Ala439Pro
T/A 52588661 intron_variant
A/T 52588961 intron_variant
A/G 52588995 intron_variant
G/A 52589086 intron_variant
C/T 52589165 intron_variant
A/G 52589188 intron_variant
A/T 52589202 intron_variant
A/T 52589209 intron_variant
A/T 52589210 intron_variant
C/T 52589246 intron_variant
G/A 52589350 intron_variant
A/C 52589642 intron_variant
T/C 52589643 intron_variant
G/A 52589735 intron_variant
T/G 52589741 intron_variant
A/G 52589981 intron_variant
A/T 52590070 intron_variant
T/A 52590328 intron_variant
A/C 52590329 intron_variant
C/A 52590334 intron_variant
A/T 52590343 intron_variant
G/C 52590531 intron_variant
C/T 52590545 intron_variant
A/T 52590691 intron_variant
A/G 52590872 intron_variant
G/C 52590899 intron_variant
A/C 52591046 intron_variant
G/A 52591097 intron_variant
G/A 52591163 intron_variant
A/G 52591208 intron_variant
T/C 52591214 intron_variant
A/C 52591335 intron_variant
T/C 52591459 intron_variant
G/A 52591513 intron_variant
A/T,* 52591519 intron_variant
G/A 52591522 intron_variant
T/G 52591648 intron_variant
T/C 52591723 intron_variant
G/A 52591733 intron_variant
C/T 52591997 intron_variant
A/C 52592008 intron_variant
A/G 52592200 intron_variant
T/G 52592286 intron_variant
T/C 52592358 intron_variant
T/C 52592533 intron_variant
G/A 52592551 intron_variant
A/C 52592587 intron_variant
C/T 52592919 intron_variant
T/C 52592976 intron_variant
A/C 52593015 intron_variant
T/G 52593065 intron_variant
A/G 52593394 intron_variant
A/G 52593436 intron_variant
T/G 52593606 intron_variant
A/G 52593633 intron_variant
C/T 52593737 intron_variant
G/A 52593769 intron_variant
T/A 52593780 intron_variant
A/T 52593793 intron_variant
A/T 52593820 intron_variant
G/T 52594016 intron_variant
C/T 52594136 intron_variant
G/A 52594150 intron_variant
G/A 52594154 intron_variant
G/T 52594173 intron_variant
G/A 52594178 intron_variant
C/T 52594267 intron_variant
C/T 52594280 intron_variant
A/G 52594297 intron_variant
A/G 52594371 intron_variant
T/A 52594411 intron_variant
A/T 52594463 intron_variant
A/T 52594469 intron_variant
T/C 52594717 intron_variant
G/T 52594787 intron_variant
C/T 52594820 intron_variant
A/T 52594821 intron_variant
A/T 52594897 intron_variant
C/A 52594923 intron_variant
A/T 52594948 intron_variant
C/T 52595028 intron_variant
C/G 52595089 intron_variant
T/A 52595151 intron_variant
C/A 52595168 intron_variant
C/G 52595209 intron_variant
A/G 52595229 intron_variant
A/G 52595296 intron_variant
C/T 52595325 intron_variant
C/A 52595342 intron_variant
G/A 52595389 intron_variant
C/A 52595424 intron_variant
C/T 52595481 intron_variant
A/G 52595484 intron_variant
C/T 52595488 intron_variant
C/A 52595513 intron_variant
T/A 52595571 intron_variant
T/C 52595577 intron_variant
T/C 52595609 intron_variant
G/A 52595639 intron_variant
A/G 52595650 intron_variant
G/A 52595657 intron_variant
C/T 52595660 intron_variant
A/T 52595872 intron_variant
T/G 52595939 intron_variant
A/G 52595981 intron_variant
T/C 52596007 intron_variant
A/G 52596033 intron_variant
A/C 52596068 intron_variant
T/A 52596074 intron_variant
A/T 52596080 intron_variant
T/C 52596088 intron_variant
T/A 52596120 intron_variant
G/A 52596149 intron_variant
C/T 52596210 intron_variant
A/G 52596227 intron_variant
A/G,* 52596284 intron_variant
G/C,* 52596285 intron_variant
G/A,* 52596291 intron_variant
T/C 52596304 intron_variant
G/A 52596322 intron_variant
C/T 52596323 intron_variant
A/G 52596335 intron_variant
C/T 52596340 intron_variant
C/T 52596341 intron_variant
T/C 52596354 intron_variant
G/C 52596364 intron_variant
G/C 52596453 intron_variant
A/C 52596839 intron_variant
T/C 52596857 intron_variant
C/T 52596868 intron_variant
G/C 52597071 intron_variant
A/G 52597073 intron_variant
C/G 52597079 intron_variant
A/T 52597099 intron_variant
T/C 52597148 intron_variant
G/A 52597159 intron_variant
T/A 52597164 intron_variant
T/C 52597220 intron_variant
G/T 52597229 intron_variant
G/A 52597236 intron_variant
G/A 52597237 intron_variant
T/C 52597246 intron_variant
G/A 52597297 intron_variant
T/C 52597313 intron_variant
T/A 52597620 intron_variant
A/T 52598184 intron_variant
C/T 52598205 intron_variant
T/A 52598493 intron_variant
A/T 52598494 intron_variant
T/G 52598497 intron_variant
C/A 52598498 intron_variant
T/C 52599010 missense_variant p.Phe615Ser
T/A 52599072 splice_region_variant&intron_variant
G/A 52599091 intron_variant
C/A 52599208 intron_variant
C/G 52599209 intron_variant
A/T 52599284 missense_variant p.Asp641Val
G/A 52599294 synonymous_variant p.Lys644Lys
G/A 52599505 intron_variant
T/C 52599663 intron_variant
C/T 52599793 synonymous_variant p.Pro717Pro
A/C 52599886 synonymous_variant p.Gly748Gly
A/G 52600122 synonymous_variant p.Leu797Leu
A/G 52600477 3_prime_UTR_variant
T/C 52600500 3_prime_UTR_variant
T/C 52600647 3_prime_UTR_variant
C/A 52600653 3_prime_UTR_variant
T/G 52600665 3_prime_UTR_variant
T/C 52600808 3_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_14795.1
MDRSSFRSGMRKSRSKPDIYSTFVVHDDEGDDDDGVETNRRRKSGGAQPHEDPYATMVYKDNGRDDDDDEYSSLPPLLKHLPKDFGGGAPLDYDDDDDDDAGDFGTMIVKSDRRRHNDRPSSSLASPPWKSRSSSQASPMNRFGEGEDDGDEEDDSGGFSTFVVRSTVKSGERESVSGTVVRRSSGGSGGVGSTMGRAVASMQGMGDFGFGKQRKGSGSSQNDEGRHHSITTKVSTSSIPESITREDPTIKYELLNELGKGSYGAVYKARDLKTSEMVAIKVISLSEGEEGYEEIRGEIEMLQQCNHPNVVRYLGSYQGEEYLWIVMEYCGGGSVADLMGVTDESLDEGQIAYICREALKGLDYLHSIFKVHRDIKGGNILLTEQGDVKLGDFGVAAQLTRTMSKRNTFIGTPHWMAPEVIQESRYDGKVDVWALGVSAIEMAEGVPPRSDVHPMRVLFMISIEPAPMLEDKEKWSLYFHDFVAKCLTKEPRLRPTASEMLKHKFFEKWKTGSAAMLPKLEKAREIRASMALQVQTLAPAASEDQLVSKPNDEYGDTVPSRPHNIGVEGAANLSSRGTVRKLREVEDVDMSEGNFGTVIVHADELHQKTTQYTDFAVSDSAVPSGTGGRLADSGIENQKVDLTKTTSLRGSSATTNTIQSSIPYASDSTEQSLRIKGSYRAPAGMGSDIFRGETGSRKAFALQDKLWSIYAAGNTVPIPFLRATDISPIALLSDNVLGGLQQDTGGTGTVEALQELFSGDGQSKKGRRALNEQMPLPPSIYQRLTSSSTLMNLAQALAYHKMCYEDMPLQELQATQEQRTIQNLSDTLRTILRL*


CDS Sequence:
>Vu_14795.1
ATGGATCGGAGCTCTTTCCGGTCGGGAATGCGAAAATCCCGTTCTAAACCCGACATATACTCAACCTTCGTGGTTCACGATGACGAAGGCGATGACGACGACGGCGTAGAGACTAATCGCCGGCGGAAATCCGGCGGCGCGCAGCCGCATGAAGATCCTTACGCGACCATGGTGTACAAAGACAACGGCCGCGACGACGACGACGACGAATACTCCTCTCTCCCTCCGCTTCTCAAGCACCTCCCCAAGGACTTCGGCGGCGGAGCGCCGCTGGACTACGATGACGACGATGACGACGACGCTGGCGACTTCGGCACCATGATCGTGAAGAGCGACCGTAGACGGCATAACGATCGCCCTTCTTCCAGCTTGGCTTCGCCGCCGTGGAAGTCTCGGAGTTCGTCTCAGGCGAGTCCTATGAATAGATTCGGCGAAGGGGAAGACGACGGTGATGAGGAGGACGATAGTGGCGGATTCTCGACATTCGTCGTTCGTTCGACGGTGAAGTCTGGCGAGAGAGAGTCGGTAAGCGGAACAGTTGTACGACGGTCCTCCGGGGGCAGCGGCGGTGTCGGTTCGACGATGGGGAGAGCGGTGGCGAGCATGCAGGGGATGGGGGATTTTGGATTCGGAAAGCAGAGAAAGGGAAGTGGATCTTCGCAGAACGATGAGGGGAGGCATCACTCGATAACGACGAAGGTTTCGACGAGTTCGATTCCTGAAAGTATTACCAGAGAGGACCCAACGATTAAATACGAATTGCTCAATGAACTTGGGAAGGGGTCCTATGGAGCTGTTTACAAAGCAAGGGATTTGAAAACCTCGGAGATGGTTGCCATCAAAGTGATATCGTTATCCGAAGGGGAGGAGGGGTATGAGGAAATCCGTGGTGAGATTGAAATGTTACAACAATGTAATCATCCTAATGTTGTCCGTTATCTTGGAAGCTATCAAGGAGAAGAGTATCTTTGGATAGTGATGGAATACTGTGGTGGTGGTAGTGTTGCTGATTTAATGGGTGTGACTGACGAGTCACTGGATGAAGGTCAAATAGCATATATCTGTAGAGAAGCACTGAAGGGTCTTGATTATCTGCACTCAATTTTTAAAGTCCATAGAGACATCAAAGGTGGGAATATCTTATTAACTGAGCAAGGGGATGTCAAGCTAGGGGATTTTGGTGTTGCTGCACAGCTTACAAGGACCATGTCAAAGCGGAATACGTTCATTGGAACTCCTCATTGGATGGCTCCAGAAGTTATTCAGGAAAGTCGCTATGATGGAAAGGTTGATGTTTGGGCTCTTGGTGTGTCTGCTATTGAAATGGCTGAGGGTGTTCCTCCAAGATCTGACGTACATCCAATGAGGGTTTTATTCATGATATCAATTGAACCAGCTCCGATGCTTGAGGATAAAGAAAAATGGTCTCTGTATTTCCATGATTTTGTTGCAAAGTGCCTAACCAAAGAGCCTCGGCTCCGTCCTACTGCATCTGAGATGTTGAAGCACAAATTCTTTGAAAAGTGGAAAACTGGATCTGCTGCAATGTTGCCAAAATTAGAGAAGGCAAGGGAAATCAGGGCTTCAATGGCTTTGCAGGTGCAAACACTTGCTCCAGCAGCATCAGAAGATCAGCTAGTTTCAAAACCAAATGATGAATATGGAGACACTGTTCCATCAAGACCTCATAACATTGGCGTTGAAGGGGCTGCTAATTTGTCATCACGTGGCACTGTGAGGAAGCTACGTGAGGTGGAAGATGTAGACATGAGTGAAGGCAACTTTGGCACTGTTATAGTCCATGCTGATGAGTTACATCAGAAGACTACACAATATACAGATTTTGCAGTTTCCGACTCTGCTGTACCAAGTGGCACAGGAGGCAGATTGGCTGACTCTGGGATTGAGAATCAGAAAGTTGACTTGACGAAGACCACCTCTTTAAGAGGATCTAGTGCTACTACCAATACTATTCAATCATCTATACCTTATGCTAGTGATTCAACTGAGCAGAGCCTCAGAATCAAAGGTAGTTATCGAGCACCAGCTGGAATGGGTAGTGATATATTCAGGGGGGAAACCGGCAGCCGTAAAGCATTTGCTTTACAAGATAAGCTCTGGTCCATTTATGCTGCTGGTAATACTGTGCCCATCCCATTCTTAAGGGCAACAGATATATCACCTATTGCTCTCTTGTCAGACAACGTACTTGGTGGCCTACAACAGGATACTGGTGGAACCGGAACAGTGGAAGCACTGCAAGAGCTTTTCAGTGGTGATGGACAGTCCAAGAAGGGCCGCAGAGCGCTAAATGAGCAGATGCCTCTTCCTCCAAGCATTTACCAAAGGTTGACATCAAGTTCAACACTTATGAATTTGGCACAGGCTTTAGCTTACCATAAGATGTGTTACGAGGATATGCCACTGCAAGAGCTGCAAGCGACCCAGGAGCAGCGAACTATTCAAAATCTCTCTGACACACTTCGAACCATACTTCGGTTGTAG


Promoter Sequence:
>Vu_14795::LG3:52579826-52581826(+)
CATAATCTAGAATAAACATCCATTAGAAGAATTTTGAATTATGTAATTCAAAATTATAATTTTACTTAATTATGGATGTATAACATGCTTTGAAATTGACTTATTTAGAATTTTATATTTAACTTTAATTGCCAAAATTTTACTTTCCAATTTGGTTTACTTGTGAGCGCAATCTATCCGTGCTAATGATTTTTTTTTCTTTAAGAAGACAAGTCACTTAGTTGGATACAACATAGAGTAACAAAGTAAAAATTTAAATTTGTATATCTCAAAAGGCAAGAAGCTAAAAAAGCTAGTAATACAACACAACAATACACGTATAATTCAGAAATAAGCCAAAATCATCTTGCTTTACAAGTTTTCAAATTTATACCATGGCAAATTTCTGAAACAAAATCATAATATTGCATTCACTATCACAACAAAACATATTGTCAAAAATTTTACATAATCTAATCATATGTTCGAAATAAAGTATAATAAAAAGGTTTAAAATGTATTCTAAATTGTACAATTTAAAAATATAAATTTCATATTATATGAAATCATAAATAAAATAAAAATTATTAAATATACAATTTAAAAGTATTTCTCAAATTATCGGATTATAATTATTAAATATACAATTTAGAAGCTTTTTTTCAGGTTATCCGATTATATAAATCTAAAATATAACACAATTTTTTAAGTTTTGGGTGAATTGATTTATAATGTTATACTGGACTAAACAATTTAAAAATATTACGAAACAATCGATGTAAACTGTTTCTCATTATATTACATATTACAATTACAATATTTACGATGTAAAGGCACAATTAAAATTTTTTTCCGTAAAAGGTGCATGAATGAAAAAAAGTAGGCAGTTGGTCCCTCCACCACCACCGAATACTCCCTACACCATTCCATACCAATTTTGCCCTTCTTTAAAATGGATGTCAATATCCGTTTCATCTTCAACGGATGTTGACATCCGTCCGTTTATATATTTTATATTTTAATTTATTTATTTTATTTAAAAAAAAAAAAAAATCTTCAACGAATGTCGTGACATCCGTTAACGGATTGCCACATCCGTTTAAATAAAAATTTTAAAACTATTTTTATTATTATTTAAATAATAATATATAAAATAAATTAATAATAATTATTTTATCAAATAAAATAAAATTAATTCATAAATAATTAAGTAATAATTTTAAATTAATTAAATAATATTTATATATTAATTTAAAATATAATAAATTAAAAACTAAAAATTTAAAAAGAAAAAACTTCATTTACCACATCCTGTTTTAATAAATTTTTAAAAACTATTTTATTATTTAAATAATAATACATAAATTAAATTAATAATAATTATTTTATTAAATAAAATAAAATAAAATAAATTTATAATTAATTAAATAATAATTTAAAAAATTTAAATAATATTTATATATTAATTTAAAATATAATAAAATAAAAAACTAAAAACTTTGAAAAGAAAAAACTCAATGATTACAACATCCGTATCCTTTTTTAATAAATTTTTCAAAATTATTTTAATTATTATTTAAAATAATAATACGTAAATTAAATTAATAATTATTATTTTATTAAATAAAATAAAATTAATTTATAAATAATTAAGTAATAATTTTAAAAAAAAGTTAAATAATATTTATATATTAATTTAAAAACTTAAAAAAACTAAAAACTTAAAAAAAAAAATTAAACGGATGTGGGAATCCACGGATGTGGCACATCCGTTGAAGAATTTTTTCTTCAACAGATGTCGACATCCGTTCAAGAAAAAAGAGGAGGTGTAAGATATTTTAAAATATAAAAGATAGTTTTGGAATTTAAAAAAAGTGTGGTGGTACAGGAAGGAATGTGTGGTGGTGTAGGGAGTAACCCTCAAAAAAGTAACGGAGATGGTGTAAGTAAAAATAAAAGAGATAAAGCCCAAATAGAGCAGGCCCAATAAAAAGCCAGTAAACATCGTAGGCATTCTCCGT


Gene Sequence:
>Vu_14795(+)
TCACGGTGACGGCAAGTTGAGTGAAAAGGATTGATTCCTTTTTTTCACTCTGTTATACCTGCTCGGAGTGGAAAAATGGATCGGAGCTCTTTCCGGTCGGGAATGCGAAAATCCCGTTCTAAACCCGACATATACTCAACCTTCGTGGTTCACGATGACGAAGGCGATGACGACGACGGCGTAGAGACTAATCGCCGGCGGAAATCCGGCGGCGCGCAGCCGCATGAAGATCCTTACGCGACCATGGTGTACAAAGACAACGGCCGCGACGACGACGACGACGAATACTCCTCTCTCCCTCCGCTTCTCAAGCACCTCCCCAAGGACTTCGGCGGCGGAGCGCCGCTGGACTACGATGACGACGATGACGACGACGCTGGCGACTTCGGCACCATGATCGTGAAGAGCGACCGTAGACGGCATAACGATCGCCCTTCTTCCAGCTTGGCTTCGCCGCCGTGGAAGTCTCGGAGTTCGTCTCAGGCGAGTCCTATGAATAGATTCGGCGAAGGGGAAGACGACGGTGATGAGGAGGACGATAGTGGCGGATTCTCGACATTCGTCGTTCGTTCGACGGTGAAGTCTGGCGAGAGAGAGTCGGTAAGCGGAACAGTTGTACGACGGTCCTCCGGGGGCAGCGGCGGTGTCGGTTCGACGATGGGGAGAGCGGTGGCGAGCATGCAGGGGATGGGGGATTTTGGATTCGGAAAGCAGAGAAAGGGAAGTGGATCTTCGCAGAACGATGAGGGGAGGCATCACTCGATAACGACGAAGGTTTCGACGAGTTCGATTCCTGAAAGTATTACCAGAGAGGACCCAACGATTAAATACGAATTGCTCAATGAACTTGGTAGAGCCATTCGAGTTCATTCGTTCAATTTCTTACTTTGCCGAGTCCATTCTTTTAATTTTTCATTCGTGTTATGCTTTTCTCGCATTGAGAATTATTGTGGTGTTTGTGTTGGGGATGATGGAATGCAGGGAAGGGGTCCTATGGAGCTGTTTACAAAGCAAGGGATTTGAAAACCTCGGAGATGGTTGCCATCAAAGTGATATCGTTATCCGAAGGGGTGAGTTTAGGTTGCTTGATGTCTGTGTTATGGTGTTTTTATTAGACTAAGTTTGAACCGTTGAGAATGACTTTTTGTATGGTTATTAAGGAGGAGGGGTATGAGGAAATCCGTGGTGAGATTGAAATGTTACAACAATGTAATCATCCTAATGTTGTCCGTTATCTTGGAAGCTATCAAGGAGAAGAGTATCTTTGGGTAAGAGTTCCTTAGCTTGTTATGTAACACTGACTTTGTGAAACTCTTTATATTTAGAGTATTCTTGTGACTTTGGTTTAATGGTGACATATTTTTGTTTGTTTGGGCTTCCTTGGGGCTGTGGTGGTGATTGGCTAATTTTTACTCTAGATTGGCAAGATTGTTCTTTTGGCTTTTGTTTGCTCTTGGTTCTTTCACTAGGACTCCCTTCTTAATTCTTATCAATTGTCTTTCTCTATGCTTTTGTACAAATTTGCTTGATTCTAGTTACGAGTTTGATTTTGCCTGTTAAAATGTGTTATCTGAATTCTGATTAAGTTTTTGGCAGATAGTGATGGAATACTGTGGTGGTGGTAGTGTTGCTGATTTAATGGGTGTGACTGACGAGTCACTGGATGAAGGTCAAATAGCATATATCTGTAGAGAAGCACTGAAGGTATAGCTGATGGGCTTCGTTAGCACTGATTGTTTGACTTCTACCAAGTTTTCAATTTTAAGAATAATTAATTGATTTTGATAGAATTTAGAGAGCAAAGTACTTCAATAGATTTGTTTGAACCAAGGTTTCTGCTGTGTCTGTATGTTACTTTTGTTTAGTTTAGCCCCTAATAGTTTATCTAATCATGTGTAGGGTCTTGATTATCTGCACTCAATTTTTAAAGTCCATAGAGACATCAAAGGTGGGAATATCTTATTAACTGAGCAAGGGGATGTCAAGCTAGGTGAGTACAAAAGTTATATGATGATTGTCATATTGTTTCTTTGCAAATGAGAACTATAATAGCAATATGCCTTAGAGGAGTTGAATATTCTTTGTTACCCTCCCCTCTCAAAGAAATGTCATTCATTCATTAAATTTGTGTAATAATTTTTGCCTTGAATGCTTAGCTAGCAAGTAGCTACAATTAACTGAGTAGTGAAGCAACAGAAAAACCTTGAATGAAGTAGTGATTGTATCTTGAGATGGGATATTCTATCTCTTCCCATGGTGTACTGAAGATTCTTAACTGAAAGAATCGGTCACCCAAAAAAACAGTGACAAGAGAAAGAGGATGAGACAACTTATAAGGATTGATGATCTCAATATTTGCCTCAAACAAACATCTCTGCAACAGAGATTCTTCAAACTCATTTTCATAACATTACATTAGGATCTCTAAAATAGTTACCTCCTAGTAACAGTTGATTGCCCCAGTATCGAAAAAAAGTGTGTTCGAATTGAGCATATTTCTTTTCAGTGTGCAAATACACGATCAATGGCTGGAATCCTTTTTGTTTGTAATCAGCTTTTTGGAAATACAATTTACATTTTCAACTCTAGAGTTTTTGTTCAATTATATTTTAACTCTAGGTTTCTTGAGCAGGGGATTTTGGTGTTGCTGCACAGCTTACAAGGACCATGTCAAAGCGGAATACGGTAGTTGATGCGATAACATTATTTTTATTTATTATGATTTGTATTCTTTTGTTATTATTACTTGATTATTTTAATTTTTTCCCCATATAGAATAGAAATGCTAATTGTTACTGATTTCAGTCCCTATGATGTAGGGAATCTTGATTTGCATGTTATGTATTTAAATAAAGTGGGCTGATAGTTTTTCCTTTCAAGCAATTCATAATAAAAGCAACTATCAGAATGTTATTCTGTCTGATTAATGAAGGGAAGAGTAGGACTAAGAACATGGTTTTGAATCCTTACATGCTGGGGTTATCGCTAGATGCAAGATTATTATTTTTTTAATAAATAGAAAGGGGTCATGAATCAAGTATTTTGATTTACATCACATTATTTCAGTTTTGGAACCATGTTAAATAGGTGGGTGCCATTAAGTTGTTTATTAAGTATGTTATTTCTATCAAATTGCATCCTAAAAGGAGTTGGAGATGGTTGTATTATGTGCATTGCATGAATATCCTTCTAGTGGGATTGGCTTTGAATACAAGTACACATATTTTGAATTGAATTTGTTCTATCATTTCTTTACTCAGATTTTTGGGGCACTTGTTTCTGATTAACCTTGTGGGACATATTCAAATCCCCGCCTGCCACCTGTTGTGGCTACACACACAGTTGTTTTTAGTCCCACTGTAGTTACTTGAGAGTAATATGAGCTTATAATTATATCCAAAAGTATTTGGCCGAAAACTTTGGCTTCAGTGAGTTGTTGTTTACCTTGTACATGCCCTTGAGAATTCTTGAAAATGACATGCACTCATATTCTAAAGAAGTTGATTTAGAATGCTTCTTAAATGGACATGTCATTCATTCCTTTTATCTTATAAGATTTTTTTTTTATTTCTATTTAATGTGCTTATAGTTCATTGGAACTCCTCATTGGATGGCTCCAGAAGTTATTCAGGAAAGTCGCTATGATGGAAAGGTATTGTGTTTTTCTAAAATTGTGAACCTTGTTTACTTGGTTGCATAATTTTTTTATTTCACTGTCATCTCCTCCATGCTTTATTTCCATCTGCCCTTCCTTTTCTTCTGTAGATTGTTCTTAGGTTAAGGAGTTAGGAGAAAAAGTTGCACACTATACTGCCAGAAAACAGTATTTAAATATGTATATTTAAATTTGGACAAATAAAAATTAATTTGATACTAGTGGGTTTCAAAATTCTTCTTCCATGCTACGTCATGGACCTCCTTCAAAATGTGAAAGTTCGACCTTTATGTTTTGTTTGCTTGATAATCATTGAATGAAGTGGATGAAGGAATTTTTTTGAACTGGAAACTACAATATTTTTCATATGTTAGTGGTTCAAATAATCAGAAACAGTAATACATAAAGTTTTTATTGGAGGTAAGTGATGTTGAAGTATAGGAAGTAATTATTATATATGAATATAATAGTTGGAGTTCATCATTGAAGTATTTGCCTTATAAACTTTTTCAAAATATTGCTAATTGTAGTGTGGCAGTCTAGTGATATACTTGAGAACAAATCTCTTTGAAAGATTAAGCAGTGATAAATAATGAAAAAAGCTGATTAAAGCCTAGTTGATGATGCCCAATGAATTGAAAGATGTTAATGACGATGTTAGTTTAAGCATGTTAGAGTGTATACTTAGTTATATTTTGTACATAATTTGTTGGAGATCTATAAGCTATTACTAATAGCTATATCTTATGTTGCAAGCGGTTACCTACAAATACTTTTGTAAGCTTCTTATTTCAGTATAAAGATTGAATACAATTCAATTTGTTATAAAATCATTAAGTTCCTTTCACATGGTATCTAGAGCCATATTTTGACGTTCCTCTTCTCAAGTTCTAGGGTTCCTCTTAGCAAGTTCCTCATTGCAAGTTTATTTTCATGTCGACTTCTCTTGGCAGTGTCTTCTTGGCAACGTCTTGTTTTGTTTCCATGGCATTTGCTTCGCAGTCATTTCCAACCTCCATTTGTGAAAGCTTGATGACTTGAAATTTCTCCATTACAAATAACATGTTGAACCGATAATAAAATTGCATAAGCTATAGTGATTTGTCGTGAATCACCCAGTTCCACCACATTATCTCATTGAAGATGATTGTACCCTTGATCTAATTAATCTGAAGTATGAAGCAAGGGGAGTTGAAGACCAAATGTTACTTGTTTGACTTCAATCTATTTTCTCTAAGTCAGTTGTGTCAAGTTCTTGGGTCGAGTCACTCCTATGGGCTTTGGGAGAAGTTCATGAATGTTTTGGTCTTTAAATAAAATCTCACATGCTTCCATGCATACGTGATGTGTACATTTTGCTTGTTTCCAAATTAGTGGAAGAGTATTCTTAGAAAATAGACTTTAAACTTAGCTCAACTTCGCAAAATCAACTTGTTAGCACCCAATTATGTGCTACATTGACCATATCATTAGTTGATGTGAGATTTTTTACACACTGCTCATCTTGAGGATTGGACATCTTGAATGTAGGACTAAATGTTTATAGGTGGTTCAGTAGTGGGTGTTACAATGAGCCCAACTAAGCTTGCTAGGATAGGTCCTCGATATGTTCTATATGGTCTTAAAAGTATTTAACCTTACAAAACTGTCTTGTAAGGTGAAACTCACACCCAGTTGGATACTATAATTTGGTCATATATCAAGTTGATATGGAATCTCTAACAATTATCTTCAAGATTAAGAGTTTGTTGATTAGCTAGCTGGTGTTGGAGTTCTGGTCTGTAATAAAGAATATGTTGATGCAATTCTTGAAGGACTTTTGTCTAATTATGCACCAATTGTTTCAGTTACTGAAAGCAAAAAGTGTACACCGTCCATTGCTGAAATAAGAAGCTTAAGATTATGAAAGGAATGAAGTCCATTAACACCAATAATTCCTTGAAAAAGAACTTTATTTTTCCCTTGATATTTGACAAGACACTTTTCAGGATTAAATTCTAGCAAAACTAAATCATCTTTGGCAAATTGGCGAATACTTTAACAAGTTTTTAGGAATAGAAGAAACATGTAACAATTTGTTTAGTTTAGAGGTGATGCGTGAATCATGAGGTGACACAAATAAAGAGAAACCAACACCATAAATACTTTAACTTTCACCATTGCCTATGAATATTTGATCCAGACCATCAAAATGAATAAGTTGTTTGATATGTTGTGGTTCACCAGTCACATGAAAGCTTGCACTAGAATCTGGTATCCAAGAAGCATTTCCGGTTTCTTGAGAATGAGTTTGTTAACATTGCACGCTCTTGGCTGGGCAGTGTTTGGAGACTAAATATTAGGATTGACCCAAGTATTTGAGATTTTATAGGATGTAGCAGAATAAGGAATATATTGTTGTGTAGCTGGATCAATGAAATACATTGACTTATGAGGCTGATAAGAAATATCATATCTAAAATGACAGTCATTTGATGTGTGGCCAAACTTAAGGCAGATCTAACATTGAGAATTAACAAATTTACCACCACCACAATCACGGCCTGAACTGGAAGCACAATGAGTGACCTAACCACTAGAGACACCGCAATTAGTGAAACCCATCACACGATACCATCATCACTGCAACAATATTAGCCAAAGTAGTCTTCATTATAATTCAGTAAAGGAGATACCAAACCTTGCATCTCATTAACATACCAAACAAGAAATGTTTCATGGCCATAACAAAGAGTTTCAAGGAATGTGAACTGTTTATTTGCTCAAGTTGAATATAAAGTTAATGGGAAGAATTAAGTTCAAGAGCTTAACATAAAAAATTTTAGTATAATTGACTGTGATTTATCTAGTATACGTTTTAAAAAATTTAATTAAGAAAAAACGAGGACCTTTATGTTATTTTACAGAAATATTTTGTTCCAGCACTGTTCCCAATGTGTTGTTAATCAGAGTCTAGAAAAATGCATATTGCCAATGATAATGTTTTACATTATATGATTAAATTATTGGAGTCATCCATATTTTGATGTGGTTACATTTATTTAAATATGATTTTCAGGTTGATGTTTGGGCTCTTGGTGTGTCTGCTATTGAAATGGCTGAGGTATATCCAGTGCTTGTGTTTTTATTCTAGATCTTCCAAGTAGATTGGTAATTAATCCAATGTGGGTTACCTTTTTCTTTCGCTTTTTATGCTTCCACCTTGTGCAAGGTATTGCCAATTTAACACTTTTAAAGGTGATTATAGCCTATAAGGTGGTCTTAGATTTTCTGGGTTTGGTCTTGACCCAACCTCATAAAGCTATCTTGTAAGGGGAAGTTTTCACTCCACTCAATATTTTTAGCCTTATCACTAGTAGATTTGAGACTAAACCACAACCCTAGAGATTGCCGCTTAGGCCACCCTTAAAGTGGCTCTAACTAAGGTGGGCTTGGGCTGACTGCAATTAAGGTGGCTTTCCAACAGTCCCCTTCATGTCCAGGACTTTAAGCCTGGAGCACGGCAAATGGATCTAGGATGGGCTTTGTACTATCTTAGATTTTTGGGTTTGCATCCCACTTCTATTTTCTATTTTAGCCATATCACTAGATGATTTGAGACTGAGGCTAAACCACCACCTGGAGAATGCAATTAAGGCAACCTCCAAAGAGGTCACAACTAAGGCAGGTGAGGGGTGACTTTAACTAAGGTGGCTTTTCCAGCAGGCAAAGTTTAAGCCCAAGCACTCAACGGGATAAACAATGTTCTGGATAATCTTTTACCCCCTCCTCTTTTTTCCTTTCTTCCATGAAGTTTAAGTTTATAGGTGTTATGAAGAAATTTCCTATCTTTACATGGATTGGTGATTATTTGTGGGCTGTTATTTACAGTTTCATATAATGCAGTTGGATAAAAAAATTTATATTAGATATTTTTTATCCTGATGTTGCATTAGAAAAATAACTCATTGTCATTCTTAGTGATGCTTGAAGTCTGTTACCTCAATTTTCAGGGTGTTCCTCCAAGATCTGACGTACATCCAATGAGGGTTAGTAACTTCATACATATTTGTTATTGACTGTTGTTTTATTGATAACATATGATCTATTTTTCCCCTGCCTCCTTCTCATAAGTAATATTCAACTGGTAATATATCTTGATGTTCTTAAAATGTTTGGATTATTTGTTGTTTCACCTATTGTTTCATGTTTTCAGTTAGTTAGGATAAATTTTAATATTTGAATGGGTGAATTAGGAAGGAGAAACATAAGATTGACTGATATAAATAGAAGAGTAATTGAATAGGTGAGTTTATGGATATTGTAATATTGGATAGCTTTATGGTGACAGTTTGAAATATTGATTAGTCATGAAAGAGAATCTAGATTTTAGTTGTATTAGAATTCAGAACAAGGCTGAAAAGTTCTCGTATAGCAGCATGTAGCGGTGAACTCTAAAATGCTTTGTCAGGACAGTAGTAGGGGAGGCTGCTATATTAAATATTAGAATGCAACTAAATAATTTATACCACCATAAATGCTCTCTGTTTAGAGACTGGTTGTATCTGCTGTACGTGAAATAATACTGAGAAAAGACTAGTTGTAACTGCAATCGGAAAAGTAATCTGGCTAAGCTTTCTGAAGCTGTTTTCTATGTAGCTGAACAATCTTTATGTAGTTACAGATTCTACTAGCCTGAACTTGTCCTATGAACCTTTTTGTATGCTCTTTTTGCTAATCTATATATGCATATTGCTGCTGAGCGAAATCATCCAGTCAAGCATTTTCAGCAACTCTAAATCTTCAAGTCCTGCAAACATAAAAAGATCGAAGAAATTCTTGAGAAATAATGTCTTGTTTTATATACATAATCACCATCAATAATAAGAACATAGTAATGAAGTTAATTACCGAGATGATGGTGAAGTTGATGGGAAAAAAACATAATAAATTAGATAAAACTCATTTTATTGATATTGGATGGCGGTAAATATCCGTGACCCCTGATGAAAATATTGGAACAATACCATTAAGGAGCAAAAATTTGGAGCATTCATGATCTACATATTTAGTACCTTTATTGGACCTAATTTTATATTTTTTTCTAAATTGACTTTTGATAAGACAAATAAAGTCAGCAAGTTTTGAAATACCTCAGACTTTTCATAACATATGTCCATGCAACATGGGTGCAATCATCAATAAAAATTAACAAACTATATTGCCGTAAAACAGGATCCCAAACATCAAAGTGAATTAAATCAAAAGAAAAATTACTCTGTTTATTTGGATGGGATAGTCTTCTATGATGAAAGCCTTGTTGGGAATTTGTGCATGTTTCTATTGTTGCTTTGTTGGCTTATGACCCCCTTGTGTTGTTTGGACATAAAACCACTTTGCTTCTTAGCAGTTAATATCATCTTCCTTGTAGAAGGTCCTGGAAGACACAATAAGACGAGAAAAATGTTACTAAATAGGAAATGTTACTAAAGTCTTTTACTAAATAGGAAATGTTACTAAAGTCTTTTCTAATTCAATAGATGATTCTAACATTATATTCCGAGAAGAACCACATATGGGTATACTATCACAATTTTCCACTATAATGAGTTGTTTTGTATTCATTTTGACATATAAGTTGAAAGCATAGGAAATGGAATCATGTGATCAATTGTTCTTGAATCAAGAATCCAAACACCTTGGGACACATGGACAACCATATTCAATGAACTCTTACCTCTTATGGAAATGGTATATGATCCAGAGGACTTACTCATTGATTTACTATTGTCATGGCAAAGCTTGTGTTGGAGGTTCCTCCATTAAGCATGACGATCCTCTGACTTTCTTCTGCCTTGACAATAAAGCAATAAAGAAAAAACTTGTAATTAACAAGCTTAGTGATTGGCTGTTGTAAAATAAATTAACCAGGGTTACTCTTTTTAGAATGAGTATCTTACTCCCTACTTTATTATTTAATAATAAACTCTTGGTTATTTTATCGTTTATTTGGCATTTATGAAGGCATGTTTGTTTTTCTCTCTTTTCTTTGAGGGGATACAGTGTATAATAATTTTTTTTATTTCTTTTATAATTGTAGGTTTTATTCATGATATCAATTGAACCAGCTCCGATGCTTGAGGATAAAGAAAAATGGTTTGTTTCTATAGTCTGTTGTCATCCAAGCTTTACATTTTCTCATTTTTTAATAAGTGAGCTTGAAGAGTCATCATTTGATGATCTAGAATGAATTCTAGTTTAGATAATTCTAATGATCTTTTTCCATGTGCTATATATTATGTTTTATGTTGTGCTCATTTTATATTTTTGTAAAGCCAGTAGGGTGTAATTGCATGCTGCAATTCTTCTACTATACAATTTTTGCCTTTGATACTTTATTTATATTGAGATGATGTTGAATGGAAACCACTTGTAAATTTGAAAGCATAACTTTTTATCTTGAATTGTGTTGTTAGCTAGGTGCTATCTCCTATTAGTTGTATATCTATTCTACATGTTATAAAGTCATGTATCGGCCAGAAACTCATATATTATCCTACACAAACAAAATTTCATACATTCTTTGCTCCTTCCCACTTCCTAGTTCATGAATATAGCACATCCATTCAAATGGTGATTCACTGTCGTATTGAAGTTTAAGAATACAAAGGTTGGTGCATTTAAGGAGAAGGGACTTGATGTACCAAAAATTCGTTGTGATCTCCTCGCTTGATCTTAATAAGATTTCTTTTCTTAACCCAGAAAAAATAGTGCTTGATTGGTGCTTTCATTGGCTAATGGTAATAAATGCAACATAAACTACCCTTATTATATTTGCCAATGTGATATCTTGGTGTATGTGATAGTGTCTCTAATTAGTGATGATACCTTTATGTGATAGTGATTTGAATTTGAATTTCTCTTTAGGTCTCTGTATTTCCATGATTTTGTTGCAAAGTGCCTAACCAAAGAGCCTCGGCTCCGTCCTACTGCATCTGAGATGTTGAAGGTATGCTTAGTAATATTGTTTCTAATCAAATTTAATTACTATTATGGGGAGTCGTAAGTTTTGTTTGAAGTTATCCTTATATGTTAAATATTTGAAGGAAAATATAACGAGAGACAGAAAAAGACGAGATGACATCCACTTGTCACATCTCAATATATTTGGTTCTGTATGAAAGGTTGGATTAGAGACAATGTGTAATATTTCTTCCTAGTTGTCACATGTAAGGTGCAGTTAGGAGCTTTCTTCAAATTTAAGTTCTTTGAGAAGTTGTTTTAGCCATATGAGCTCACGAATGACTATTGTCATTGCCCAATATTTTGTTTCTGCTCTTAATTTTGCCATAACATTTTGTGGCTTACTTTTCCACAATATTAAATTACCTCCAAGAACACAATACATTGAGTGGACCTACCATTTTGTCAGAATACCCAATAATTTGAGTAGTTCCTTCATCTTCATAAACAAGGCCTTTTCCAGAATCATTCTTAATATTAATATACTTCGGCATCTCTGCGACTGCATTCAATGGTCTTGACAAAGAGAGTTAAAAAATTTACTTGAAATAAATTGCTATCTCTAGAAAGAGGAGGGTGTTCTCTTTCAAGACCTTTTGGAAACTTTTCACAAGCTTGATGAATTAGGCACTGACGGGGATGTCTAAAGATTTGAATTAGTTCACAATCTTTTCTTAAAATAGTAGGAGGTTGCTCGTATAGACTATTGTAGAAAGACCACCATGAAATAAATGCATTTTTTGTTATGTTAGGCTGAAACGGAGTCTGGTAGTGATTAGTTGCAAGGCAAAATACAGGTCAAATAAATGTCATTTTGGCAATAGGAGATAAAGTGTTAGTATAATCTTCACCATAGATTTGTGTTTCCTATGGAAACCAGCCAAGATTTATAGCAATCAATGTTACTATCAAGTTTTGTTTTAAGTGTATAAGACCCAGCAATTTATTTGCTAACTGGAAGAGGAGCCAATTTCCAAGTACCACTGCTTTGAAAGACCAGATCTGGTATGAGACCAGATCTAGTACGAGAGATAGTGTAGGGGAAGGATTCGGACATGACCTCCACTATATTGTTATCTGTTGAAGATGGGTCTCGTCATGAATTTCAATCCGTGAATGACGCTAGTGTACCTGAAGAGGTGCTGGAGAAACATCATGAGTTATGGCATAGTCATCTGATGGTGATGAAGGAAGATTGGCATTGGTGGGAAACTGATTACATATCTTGTCATTAGAAGGAACATGTGTATAGTACGAAACATACTCAATAAAAGGAGACAGTAGCAGAAACAATACCTATGAAGATTAGGAGAGAAACGTCATTACCCTTTCAGAGAATGATGATATCCCACAAAGACACATTTGAGCTATCGAGGAGAAAGTTTATCCCGAGCATATGTGAGGTTATGTATAAAACATGTCTAGGAAGTACGGAGGAGATTGTGAAAAAGGGTAAAGTGTGGAACCTGATCACTAAGGAGAAATGGTGGCATCCAATTAATGATAACATGTTGTAAGGACAACATCCTCCCAGAAATGGTGAGAAAGATGACTTTGAAGAAGTGTTTGATAGTTACAATACAATACTTGAAGAGTTGAGAGAAGATGAAAAGTCTTATATTTTTCACTTAATGAGCCTAATACAACTTACTACTGTATTTATAGGAGACAGTAGTTCTGAAAAATAAAAGGGCGGGAAGCCCCTAACAAAGCCCTAACATAAATATTAATAATAATAAAGACACTATACTTCAACACAATGTTTGTTATTGCATTTGGGTACTCCATTTTGTTGAGCAGTATGTGGACACAAAATTGGGTGAAAACTACCACTAGATGCCACAAACCGCTGGAATTAATGAGAAAAATGTTCACAAGCATCATCATTACGAAAAACATGGATATACCTAATCGTGTTTTTGGTTTCATTAAAAAGGTTTGAAATATAGAAAGCACTTCTAGTTGATTTTTCATTAACCAAATCAAACTACACCTAGAATAATCATTAAGATAATAAAATATTGGTGGGGTAATAGAATGGTAAAGACCTCAAATATCAGAGTAAACCAAAGAAAAAAGATATGAAACTTGTTTATTGAGACTGCTAGGAAATGACCGGTGAATATCCTTTTCTAACTGTCATGACTCAATTCAAAAGTAGACAAATATTTTAGACTTGGAACCATCTTTTGCAATTTTGTCAACCTGAGATGAAATATCTGTGCATGAATCATTATTAGAGAGAGCAAAGATACACATACCGATGCTGATGGAGAGATAGTTAAGGTCATGTGACTCTTATCCGATGCTAATTGTATGACTTGTAATTTGATCTTGCAAGTTAATATTATTGTTATTGAAAGTGAAAATAATATCATGGGATTGGGTTAGTTGGGTAGCAAACAATAAATTGAAGGGGATACTGATAGAATAATGAATGCATATGTTAGGAGGAAACATATAAAAAAATAGGTTGTTGGTTGGGTTGTTAGGTGAGGGACTTTCGGTGAAAGGGGGCCCTGTTGTGAGGGGATGTTTTTTGGATCATTACTATCCTGTGTAGGAGGGAACATTGTCCCTGGATTGTTTTTGCCTATGTTTGTTGCCTAAGATCAATAATATTAGGGATATTCAGTGTATCTTCAAGACCGAATACATTTTTGTTAGTTTCTTCTATAAAGAAATCTAATAGGCACGTAGGGACATAAAGAAACTTGAGATTGAAACTAGAAAATATATTTCTAGAAGACTTAATTGATCCCTCTCACTTTTATCTATTTATAATAAAGCTCTGATACAAAAGTATATGGAAGATTAAGGGTCTGCCATAGACACCTAGGTGCAAACCTACGTACTACTCTAGATACTACACATAAAGACTAGCACACTACCCTTAAGTAGGCTTAGTGATGATACATAGATGCAATTATTCTAACACTTTCCCTCAAGTTGGAGCATACAGATTGTATGTATCAAACTTGGAACAAATAAACTCAATCCGAGAACCCCTTAATGACTTGGTCAATACATCTGCGAGTTGGTCATTTGATTGGTCATTTGATCCAACAAACTCAGTACATATTTCTTTTGTCAATAACTTTTCACGAACAAAATGACAATCAATTTTTATATGTTTAGTCCTTTCGTGAAACATTGGATTTGATGCAATGTGGAGAGCAGCTTGATTATCGCAATACATCTTCATAGTCTGGATGTCACAGAAGTTAAGCTCTTGAAGGAATTGCTTCACCCATATATAAGTTCAAATGTTAGTAACACCATTGCCCCGACTTCAACTATTGATCAAGCTACTACATTCTGTTTCTTACTTTTCCATGAAATATGTTTTCTCCCAGGAAAACACAATATTCGGTAATAGACCATCTATCAATAGGCGAACCTACCCAATCTGCATCACAGTACCCAGAGACCTGAATGCTTCCTTTATCTTTAGCTTATTAAGCATGAGCTTTATTTTTGGCGGTTGCTTATTGTTAGATATATTATCTTTATTTTATATTTTTTTTTTATCTTTAGTTAGTTTGTTATTATTTTTTATTTGTATTTTGGGCTTACTCCATATTTATTCTATTATAAATAGAGAATCCTATGTGTGTATTCAACACAAGGGAGAGTATTCCCACATATGGTTTTTCACTATATTCAGCATGGTATCTAGAGTCTGGTTCTTTTGAGGAAAAAAATTATGCTGTCTCTACCACTACACCCACCACTGCCGGTGGCAGGGCCTTCTAGCGCTACCGGCGACGCCTTCTAGCGCTACCGGCGACGCCTTCTAGCAGTACCGGCAGCGCCATTGTTTATCGTCGTCATCTACCGCTGCCACTACCGAAGTTCCAGTTTCAACCGATGATCACACAGTTTTGATAGTCTCGGTCAGGTGACCACCGTGTCGTCAACAACGCCTTCATCGGAGCTCCTACGCGCTTTCAACACCTTTTACATGGAAGAACCTTCCACATTTGTTGCTCAAGGGAAGTCTTCTGGGTTGGTATTTTGTCTTCTATGTCGCCTTTGCAAATCATTAGTGTTTCGGAAGGATTTAGAACCCTAATCCAAAACATTCAAAGTTGTCTGTTCCGAGATCCAGTTGTGTTGTCTTCTCTCTTCTCCTTGTCCAAGCCGCGGGGGAGGGTGCCTGCAAAAGACACTCCGACGCTCAAGTCAGCGACTTTTTTAATAATCTTGTAATCAAGATTTAGTTATCAGAGCTCTAAGTTTCAGTTCAAGTTCAAGTTACTTGTACCTTTTGTCAGACAAATATTTATAAATTACAATGAGCTTACCGTTAGGTCTGACTCATTAACCACCCATGAATTACAATATTAACTATCAATAAATGTCAATTATTTTTATTAACTCTCCGACAGTTATTACTATTAATTACCTTAACGGCTGATTTAACCGATCGATTTATTGACCTGAGAGGTATCATCGGTCGGACTGATTTAATCGGTCGGTTTATTGACCTGAGAGGTATCATCGGTCGGACGACTCTTCTGCACCCTTACCGTTCGGTCGGCTATGATCCCATAGTAACAATTAGCAATTTGGTATCACTCGAGTGGAAAAGCACATATTTTCCTTAAGTCTTTATAGATTATATTAGTATCAAGCTTGGTACATACGATTTGTATGCACTAGTTTGAGGGAAAGTGTTTGATATATTATCTTTATTTTATATTTATCTTTTATCTTTAGTTAGTTTGTTATTATTTCTTATTTGTATTTTGGGCTTAGTCTATATTTCTTCTATTATAAATAGAGAATTCTATGTGTGTATTCAACACAAGGGAGATTAATCCCACATATAGTTTTTCACTATATTCAACACTTATAATAATTGGTGACTAGAAAACTCCAGACATATATGCCTTGATTTGCTACTATCTGGTTTGCAATGACATATTTAAACTTTTTTCAATGATGTATTTTGCATCAAGTGAAAGTTATTTTCTATTGCTGTGTAGCACAAATTCTTTGAAAAGTGGAAAACTGGATCTGCTGCAATGTTGCCAAAATTAGAGAAGGCAAGGGAAATCAGGGCTTCAATGGCTTTGCAGGTGCAAACACTTGCTCCAGCAGCATCAGAAGATCAGGTATGATAAAAACTCCCTCCCTCTTACGCACATCCATGCATCTTGTTCCATCTACCTTCTACATTGTAAAACTCAATAAAGAAAGTAATTTCCATGTAAAACACAAGTTCTTAATCTGAAGTAGCCCATTTTAGTCTCAAGAGGTTGATGAATTATTCTTTTTCTGATAATACATGCATTATATATATATATATATATAAACTAGAGGCCCATAACTTGCGGGTTTCATATCAGAGAAAAAAGCACTAGTAAATATCCTTGATTTAGGGGATACAATCTGTTATGGAATATTTCCTAAAATAACTAACATGTTCTTGTTTTCGTTTTTTTCCAGCTAGTTTCAAAACCAAATGATGAATATGGAGACACTGTTCCATCAAGACCTCATAACATTGGCGTTGAAGGGGCTGCTAATTTGTCATCACGTGGCACTGTGAGGAAGCTACGTGAGGTGGAAGATGTAGACATGAGTGAAGGTATGTGATTCTTGCATCTTGTCTGTGGATTGGCAATTTTTTCTCAATTTTGATTATCGCCTAATGTTAGAATGTTTGCTGTGCATGCTTTTGTGTATGTATGAGAATATCTTGGAAGTCAACTATCATATAATATAAAATGTTTATCTTCTTGTATAGTACCTCTTCCAACTGAACAATTGTTTACAGTTTTTCCTTGGATGTTTTGCTTATTATGGTTTATAATTTTGGTCTTGATTGTTAAGATTTCATGCATTGACAAATAATATAGGCAAAATACTGCATATAAGGCTGGGACTGTCCTTCCTTTTTACCTAGCTTTTGGGGTTGTATTAAGCCCTATTTTTTTCTTCTAATCATTGTTTTATTCATTGTTCAAGCACTGTGATTTTTCTGAAATGTTACTGAATAATCTATGTCGTATTTAAAAGAATTTTCTGGTTATTCCTCGAGTTAAAGACTCCAGACATGCAAACCAATGTGGTTGGGGATTACTAGGGTAAACCCTGTACCTAAGTTCCCTAATCCTCCATCTGTCTCATATTGCTTGGCATATTGATTGGGAGGGAAAATTGGAAATGGTTTTTAATTTTCTCTTCGGTTGAAAAGATAAAATGAAAAGAAAAGGTATGGTATGGTATGGTATGGTATGGTGAGAGAAAACTGTAGAAACAAAGAGTTCACAATTTTATCTTTGTTTCTAAATTCGCCTACCATTTTCTTCCTTTAATCCATATAAACGGTTAGACTTATAATTTATTTCTTTTCTAAAATACACAGTTCTTAAATTTTGGATGATGGAAGACCTTGTTTTTGTTTTATGTAGGAGTTGAATATTATGATTTATGTGGATTATTATTGGCAGGCAACTTTGGCACTGTTATAGTCCATGCTGATGAGTTACATCAGAAGACTACACAATATACAGATTTTGCAGTTTCCGACTCTGCTGTACCAAGTGGCACAGGAGGCAGATTGGCTGACTCTGGGTACTTACCTGTCTTCACTACCTGTATTTTTTAAGAAGGCAGTTTTCTTTTATTCTCTCGGTCTGATATTCAAACTGTATTAGCTTTGCAAATTTGTGAATTGTACTTCATTTTCATATTATAGTCTGTCCCTCTCTTTTCCTTTTCATTTTGCATGTCTTACCGCAGTCTGCTTTCTTTTGGGATAATCTTTTAGGATTGAGAATCAGAAAGTTGACTTGACGAAGACCACCTCTTTAAGAGGATCTAGTGCTACTACCAATACTATTCAATCATCTATACCTTATGCTAGTGATTCAACTGAGCAGAGCCTCAGAATCAAAGGTAGTTATCGAGCACCAGCTGGAATGGGTAGTGATATATTCAGGGGGGAAACCGGCAGCCGTAAAGCATTTGCTTTACAAGATAAGGTATTTTTGTGATTTGATTTGCGCATCGGATGTCAAACCCTTTCTGTAAGGGATATCACCCTGTTTGAGCAAAATTTGATGTTTTTAGTTATTAGAGTTGTTACCTCTAGCTTTTCAAAAAGTATATCTTCCTGAATCCTTTGTTTGGCAGATTTCTAGCCCTTTTCGTTTCTTGAATTAATTGTTCCATTAATTATGTATATATATTGTCCGTCATGAATGTCTTGTGTGATTGCAGTGTCTGACTTACCTTTTTAATTCAATTTCTGTGCCAATGTAGCTCTGGTCCATTTATGCTGCTGGTAATACTGTGCCCATCCCATTCTTAAGGGCAACAGATATATCACCTATTGCTCTCTTGTCAGACAACGTACTTGGTGGCCTACAACAGGATACTGGTGGAACCGGAACAGTGGAAGCACTGCAAGAGCTTTTCAGTGGTGATGGACAGTCCAAGAAGGGCCGCAGAGCGCTAAATGAGGTAACTGTGTGTGGTGCGAATTTGCCCATGTATGTATACGTGTACTACACTTGTTATGGCCATTTATGTTTGTTTTCCAATTGATGCAGCAGATGCCTCTTCCTCCAAGCATTTACCAAAGGTTGACATCAAGTTCAACACTTATGAATTTGGCACAGGCTTTAGCTTACCATAAGATGTATGTCTCTTAAACTTTTGATCAGCAAAACTTTTACCATTTCGACGTGAACAAAATAACATTAATCTATTCAAATGCGTAAATAGGAGAGCTGTACCAGATTTCACCAATGGGCGTGTCAATTAAGCAAACAATTTTAGGACTCGGGATATCCTGATGCAGTGATTCCTTTCAGCTCCTCCTATGTTCATGTTGATATTCTGTGCCTAATTGTTTTGCTTGTTGTTAGGTGTTACGAGGATATGCCACTGCAAGAGCTGCAAGCGACCCAGGAGCAGCGAACTATTCAAAATCTCTCTGACACACTTCGAACCATACTTCGGTTGTAGGTAGGTAGGATATCTTCTTGCGACTATTTTAGTCTCCAAACCTTACTGGCCTCAAAGATCACAGAATCATTCTTCTTTTGTCGTATCATTTATATATATATATATATGCTAATCAGTGGCAGATAAGCCGCAGCTGCCTTTTATTTATTATACATATTTTTTAGGTGTATGATTGTGTAACTAGTACCCCTAAAGTTTTTCCGGTTTCTTTCACCCTTTTTCTTAGTTTTGTTAAGTAAACCCTAGAATAATAGGTTTTTGTAAGCTGCCACATATTTGTATGTAAATAGTGTATGCATGACTTTCAACTAACATTGTTGCATTTGTTCACGTTGTAGTCATTAGTGGGAGTTTTAAAGGAATGTAAGAATTTTCTGTACCATATTTGAATTATAATATGAATGGATGGATGAATTAGTTTCATTCAGTGG