Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_30134 LG8 34023629 34032464 PREDICTED: serine/threonine-protein kinase EDR1
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   protein autophosphorylation, response to water deprivation, response to water deprivation, response to water deprivation, regulation of defense response to bacterium, regulation of salicylic acid mediated signaling pathway, negative regulation of abscisic acid-activated signaling pathway, negative regulation of abscisic acid-activated signaling pathway, regulation of defense response to fungus, defense response to oomycetes, regulation of defense response to bacterium, regulation of defense response to fungus, regulation of defense response to fungus, negative regulation of abscisic acid-activated signaling pathway, protein phosphorylation, regulation of salicylic acid mediated signaling pathway, protein phosphorylation, response to ethylene, negative regulation of abscisic acid-activated signaling pathway, regulation of salicylic acid mediated signaling pathway, protein phosphorylation, response to fungus, response to bacterium, negative regulation of abscisic acid-activated signaling pathway, regulation of salicylic acid mediated signaling pathway, response to fungus, MAPK cascade, signal transduction, defense response to oomycetes, response to bacterium, protein autophosphorylation, regulation of defense response to fungus, protein autophosphorylation, cell death, regulation of defense response to bacterium, response to ethylene, defense response to oomycetes, regulation of defense response to fungus, regulation of defense response to fungus
Cellular Component   is active in   cytoplasm
Cellular Component   located in   nucleus, endosome, cytoplasm, trans-Golgi network, plasma membrane, endoplasmic reticulum, trans-Golgi network transport vesicle membrane, trans-Golgi network, trans-Golgi network transport vesicle membrane, cytosol, trans-Golgi network transport vesicle membrane, cytoplasm, early endosome, endoplasmic reticulum
Molecular Function   enables   kinase activity, protein binding, protein serine/threonine/tyrosine kinase activity, MAP kinase kinase kinase activity, MAP kinase kinase kinase activity, protein serine/threonine/tyrosine kinase activity, protein binding, MAP kinase kinase kinase activity, protein kinase activity, MAP kinase kinase kinase activity, protein kinase activity, protein binding, protein kinase activity, protein serine/threonine/tyrosine kinase activity, protein binding, MAP kinase kinase kinase activity, MAP kinase kinase kinase activity
SNP Position Effect Amino acid change
A/G 34024106 downstream_gene_variant
G/A 34024107 downstream_gene_variant
T/*,A 34024162 downstream_gene_variant
C/A 34024170 downstream_gene_variant
C/A 34024229 downstream_gene_variant
G/C 34024238 downstream_gene_variant
A/C 34024247 downstream_gene_variant
G/A 34024276 downstream_gene_variant
G/T 34024329 downstream_gene_variant
G/C 34024389 downstream_gene_variant
G/C 34024471 downstream_gene_variant
C/A 34024833 downstream_gene_variant
A/G 34024869 downstream_gene_variant
G/T 34024876 downstream_gene_variant
G/A 34024911 downstream_gene_variant
T/C 34024935 downstream_gene_variant
A/T 34024969 downstream_gene_variant
G/T 34024971 downstream_gene_variant
A/C 34024993 downstream_gene_variant
T/A 34024995 downstream_gene_variant
G/T 34025006 downstream_gene_variant
A/T 34025007 downstream_gene_variant
G/A 34025011 downstream_gene_variant
A/G 34025034 downstream_gene_variant
G/A 34025615 intron_variant
A/C 34025664 intron_variant
T/C 34025846 synonymous_variant p.Ser797Ser
A/T 34025859 stop_gained p.Leu793*
T/G 34025987 intron_variant
G/T 34026201 intron_variant
T/A 34026524 intron_variant
A/T 34026525 intron_variant
T/G 34026576 intron_variant
C/A 34026595 intron_variant
A/G 34026669 intron_variant
T/C 34026672 intron_variant
A/T 34026718 intron_variant
G/A 34026927 intron_variant
A/T 34026978 intron_variant
A/T 34027100 intron_variant
T/C 34027112 intron_variant
T/G 34027113 intron_variant
T/A 34027114 intron_variant
T/G 34027278 intron_variant
A/T 34027279 intron_variant
A/T 34027439 intron_variant
T/C 34027449 intron_variant
T/C 34027821 intron_variant
T/C 34027844 intron_variant
A/C 34028092 intron_variant
C/A 34028098 intron_variant
A/T 34028168 intron_variant
T/A 34028372 intron_variant
G/A 34028454 intron_variant
A/C 34028525 intron_variant
T/A 34028609 intron_variant
C/T 34028622 intron_variant
T/A 34028935 stop_gained p.Lys630*
G/T 34029227 synonymous_variant p.Val532Val
T/G 34029332 missense_variant p.Leu497Phe
T/A 34029539 stop_lost p.Ter428Cysext*?
T/G 34030166 downstream_gene_variant
C/T 34030193 downstream_gene_variant
G/T 34030349 downstream_gene_variant
T/A 34030468 downstream_gene_variant
G/A 34030521 downstream_gene_variant
T/C 34030560 downstream_gene_variant
G/A 34030613 downstream_gene_variant
A/G 34030668 downstream_gene_variant
T/C 34030905 synonymous_variant p.Ala217Ala
G/A 34031160 downstream_gene_variant
A/C 34031171 downstream_gene_variant
T/A 34031187 downstream_gene_variant
G/A 34031188 downstream_gene_variant
A/T 34031220 downstream_gene_variant
T/G 34031229 downstream_gene_variant
T/G 34031230 downstream_gene_variant
G/A 34031292 downstream_gene_variant
T/C 34031639 downstream_gene_variant
A/C 34031641 downstream_gene_variant
T/C 34031642 downstream_gene_variant
T/C 34031689 downstream_gene_variant
G/T 34031961 downstream_gene_variant
T/A 34032046 missense_variant p.Asp140Val
C/T 34032081 synonymous_variant p.Leu128Leu
A/C 34032114 synonymous_variant p.Pro117Pro
T/G,* 34032264 synonymous_variant p.Ala67Ala

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_30134.1
MSERVKKEKPTEKRERMKNIFKKLHIGGNHDPQRSNDNSPPVPSPSCAADHSQSSGATPASPSSASATASASTAVVSPAGGMSPVVNRQDFFSSEEEFQVQLALAISASNSEFRDDPEKDQIHAATLLSLGGLRIDSVRDKDDASEALSRQYWEYNVLDYEEKVVDGFYDVYGPSNDSVMQGKMPSRTDLEANPGGSEVVIVNRTIDPALEELIQIAQCIALDCPVTSLAQRLAELVTSHMGGPVKDANIMLARWTETRAELRTNLHTIVLPLGSLNIGLSRHRALLFKVLADNINMPCRLVKGSHYTGVEDDAVNIIKLEGERFCGTDISFSAFREFLVDLMAAPGTLIPLMPADILSTKDSAFNKAFNPKILPNLPSSKDTEFSYSRPIEPSHGEGSSQNPVIKDHSLPWNGKSYVEKSEPSNIGLRRDTGVGPSKISNRGTPNQLENLPAMSSTSLYKGTLGMNTIGDGTRLNVNVVPYTQNSSNDPRNLFADLNPFQIKGMGKASGLNKPVEIKPHEIKSTKNNTVSGRPPVLLTKKNRHAYNEDPRKTNYNPNEYKPPLFVSNGSSTSENVDLSSKPLYNSNLNNDVNVQTLAHGTGSVSSSVPELNQIEDHNADFNQGDLENSQNFMVEAVREPDNAEIRHHDRRKHTYDRFMGNNLKLKEPESPSSSIDSITNRVDQILDDVDVGECEIPWEDLFLGERIGIGSYGEVYHADMNGTEVAVKKFLDQDFSGAALSEFKREARGMNCLHTSTPIIVHRDLKSPNLLVDKNWNVKVCDFGLSRLKHNTFLSSKSTAGTVRIWENLYRCDVYSFGVILWELATLRLPWTGMNPMQVVGAVGFQNRRLEIPKEVDPIVARIIWECWQQDPNLRPSFAQLTVALKPLQRLVMPSHQDQVPPLVPQEISVNSTP*


CDS Sequence:
>Vu_30134.1
ATGAGTGAGAGAGTGAAGAAGGAAAAGCCGACGGAGAAAAGAGAGAGGATGAAAAACATCTTCAAGAAGCTTCACATAGGTGGCAACCACGATCCTCAGCGATCCAATGACAATTCGCCACCTGTGCCGTCGCCGTCATGCGCCGCCGATCACTCTCAAAGCTCCGGTGCCACTCCTGCGAGTCCCTCGTCGGCCTCGGCAACAGCGTCGGCCTCCACCGCCGTGGTTAGTCCCGCCGGTGGCATGAGCCCGGTGGTGAATCGGCAGGACTTTTTCTCGTCGGAGGAGGAGTTTCAGGTGCAGCTAGCCCTAGCTATCAGCGCTTCCAATTCGGAGTTCCGCGACGATCCTGAGAAGGATCAGATCCACGCGGCGACGTTGTTGAGTCTAGGAGGTCTTCGAATCGATTCGGTGAGGGACAAGGACGACGCGTCGGAGGCGCTGTCGAGGCAGTACTGGGAATATAATGTGCTTGACTATGAGGAGAAAGTAGTAGATGGTTTTTATGATGTATATGGGCCCTCTAATGATTCAGTGATGCAAGGAAAGATGCCATCTCGAACGGATCTTGAAGCAAATCCTGGAGGTTCTGAGGTGGTCATTGTTAATAGAACAATTGATCCTGCACTGGAAGAACTGATACAAATTGCACAATGTATTGCATTAGACTGCCCAGTCACTAGTTTGGCACAAAGGCTTGCTGAACTTGTTACAAGTCATATGGGTGGTCCTGTAAAGGATGCTAATATTATGTTAGCAAGATGGACAGAAACAAGAGCAGAGTTAAGGACAAATCTTCACACAATTGTATTGCCTCTTGGGTCCTTAAATATTGGGCTCTCTAGACATCGTGCTTTGCTTTTCAAGGTATTAGCTGACAACATTAACATGCCTTGTAGACTGGTAAAAGGGAGTCATTACACTGGTGTGGAGGATGATGCTGTCAACATTATAAAATTGGAGGGTGAAAGGTTCTGTGGTACTGATATCTCCTTCTCTGCTTTCAGGGAGTTTTTGGTTGATCTCATGGCTGCTCCAGGGACACTTATCCCACTTATGCCAGCTGATATTTTGAGCACCAAGGATAGTGCCTTTAACAAGGCTTTTAATCCCAAGATTTTACCCAATTTACCTTCCTCCAAGGATACTGAATTTTCTTACTCCAGACCTATCGAACCGTCTCATGGTGAAGGTAGTAGTCAAAATCCTGTGATAAAAGATCATTCACTGCCTTGGAATGGAAAATCATATGTTGAGAAGTCAGAGCCTTCAAACATAGGTTTGAGAAGAGACACTGGCGTTGGTCCTTCTAAAATTTCTAATAGAGGGACCCCTAATCAACTGGAGAATTTGCCTGCCATGTCTAGTACTTCTCTGTACAAAGGGACCCTCGGAATGAATACAATTGGTGATGGGACGAGACTTAATGTCAATGTTGTACCATATACTCAAAACAGCTCCAATGACCCTCGAAACCTTTTTGCAGATCTTAACCCATTCCAAATAAAAGGAATGGGGAAGGCCTCTGGGCTTAACAAACCCGTAGAAATTAAACCTCATGAGATTAAAAGTACTAAAAATAATACTGTTTCTGGTCGGCCCCCAGTGCTACTGACAAAAAAGAACCGTCATGCCTATAATGAAGACCCCAGGAAAACTAATTATAACCCTAATGAGTACAAACCTCCCTTGTTTGTTTCCAATGGTTCTTCTACATCTGAAAATGTTGACCTTAGTTCCAAACCATTATATAATTCAAATTTAAATAATGATGTAAATGTTCAAACTTTGGCACATGGTACTGGTTCAGTTTCATCATCTGTACCTGAACTGAACCAGATTGAGGATCACAATGCTGATTTTAACCAGGGGGATCTGGAAAATTCTCAAAACTTCATGGTAGAGGCAGTTAGAGAACCAGATAATGCCGAAATCAGACATCATGACCGGAGGAAGCATACTTATGATAGATTCATGGGAAACAATCTCAAACTAAAGGAACCAGAGAGTCCTAGCTCATCAATTGATTCCATCACAAACAGGGTGGATCAAATATTGGATGATGTAGACGTTGGTGAATGTGAGATTCCATGGGAGGATCTGTTTCTTGGTGAAAGAATTGGTATAGGTTCATACGGTGAGGTATACCATGCCGACATGAATGGCACAGAGGTTGCTGTAAAGAAATTTTTGGATCAGGATTTTTCAGGCGCTGCATTGTCTGAATTCAAAAGAGAAGCTAGGGGCATGAATTGCTTACACACCAGCACACCTATAATTGTTCACCGAGATCTAAAGTCTCCGAATCTTTTGGTTGATAAGAACTGGAATGTTAAGGTATGCGATTTTGGGTTGTCAAGGTTGAAGCACAACACTTTTTTGTCATCCAAGTCAACTGCTGGAACGGTGAGAATTTGGGAAAATCTGTATAGATGCGATGTTTATAGTTTTGGAGTCATCCTATGGGAGCTTGCTACACTAAGGTTGCCGTGGACTGGAATGAATCCTATGCAAGTTGTTGGTGCTGTTGGTTTTCAAAATCGTAGACTTGAAATTCCTAAGGAAGTCGATCCTATAGTTGCAAGAATAATCTGGGAGTGTTGGCAACAGGATCCAAATTTGCGGCCCTCGTTTGCACAACTCACAGTGGCTCTAAAGCCTCTGCAGCGTCTGGTTATGCCATCGCATCAAGACCAGGTACCTCCACTCGTGCCGCAGGAGATTTCTGTAAATTCCACCCCATGA


Promoter Sequence:
>Vu_30134::LG8:34032464-34034464(-)
TGTACCGTCTTTGATAGCGTGAAGATTACATACAGATTAGAGCTTCGTTCTGTTAAAATGACATTTTAGTCCCCTTTTTAGCTCAAAATTAATTTCTGTTCCACACGCAGGAATCTTAAAATATGGAGGAGTATGTCAATTATGTTTTAGGCATAAGAAGAAATTTTATAACATAGTTTTAGGGTTCTTTTTCTTCAATAAATACGTGTGCAATTAAGTTTTTACACATTAATTTGGGGGCATACATTCTCAACAGTCAATACATAAAGTCTGGGGAACAACTATTATTATTATTAAACGTTCATTGCATTTGGAGAGTCAATATCTGAAGTATTGAATAGAAAAATTTGGGAGCATCATAAACAGTCTGTAGCCAAACCTAAAGGATAAGCTTGTCAACTTCTTATGTTGATTTTGAAAATAATGTAGAAGCTAGACCGCTTGTCAACTTCTTATGTTGTTTTTGAAAATAATTTAGAAGTTAGACGGATTTAATTAATGAGATTCAGATATGATTCTGTAACTTTTAATGAATTTTAATCAATTGTGAAAGTCATTATCAATATTATTAATTTTTGTAGTTAATATTTTTTTGTTTTTTTCATTTATTATTTTCATACGTACATAAAGTAGATCTCCATCATATAACGGCACCGAGAAGGAGAAAAAAAGAATCAATTGCAATAACTTTCTATGAATACTTTCTTGTTTAAAGAATATAACCCTCTACTAGTCCACTTATCAACATATGAATTCAAATTCATAATGAGTTAACTTCTAAATATTATTGTAGACTATCCCAATATGTTAATTAACCATTACAAATTTTTCTAGAAAACACAAGAAGTGAAATTTCGATTATTTGAAAAAAAAAACAACCTCAATGATTTATCTAAGAGAGATTATGTTGATATATGTGAGGTTAGATGTGTGATCAAATTAAACTTAGTCCAAAATCTTTTGACTCCTATGTTTTTTTTTTTTTCTGAAAAAGCAGGGATATTTTAGCAAAATTAATAAATAATTCAAAAAAAAAATTAAACAGTAGAGATACTGTATGTAATAAATGCTTATAAATTATAGAGCCGTTAGTTATATATCAAACTTTTCGATAGTAGAGATACCGTAAGTTTACCATGTGCAGTATAATGTAATCTTTCTTTTTAACTTTAACTATCACACTATTCACTATTTTTGGATGTAGTTTTTAGAAGATAATTTCATCAGACACTGTTGGATTGATATTTCTTCCATTTTCACGGTGATTAATTTCAGATACATAGAAAAATTCCAAATTAACTACTATTCTCGCATTTAAATGAAGTGTTCATTTTTTTGCTTAATTTATGTTCAAATTAACTCATCCAAAATAAGGTATGTTCAGAAAAATAAAGTCATTTTAAAAAGTGATATATTTATTATTTTTCTTAATTTTTATAAAAAACCTTAAGCTACCATGAAACAGATGATATGAAATGATAATATAGACTGTGATCTCATATTTCACACCGAAACAATGACAAAATTATTTTGAAAAGGAAAAATGAAGTAAAATTGAATGATTATACGAAGGAAAAAGCATGTATAAACGAATAAGCGGAGTTAGGAAGTTAAGAGCTCCACGTAGAGTCTTCACGAGACACGTAGGTTCCCATGTCAACATCGAATCGACGCGTTCATATAGCGCGGTGATCGTAGCGTATCCAAGTGTGCATGTCATTTTCGTAATTTATGGGAACTCGGAGGCCATTTGATTACCGGCCATTCCAACGCTTGTTCTACTCGCCCAAGTTTTTCCCTCCTAACACTTCTTTCCCTTGGAGTCCCTTGACCCTCGAAGGCAACCTCGCACAGAAAAAACGAAGAAAAGGGGAAGAAAATTGAAGAGAAAAGAAATCGGCGAGAAAAGGAACCGACTGGTGAACTGAAAATCAGGGAAAGAGATTTCGATTGATATTTAGAATTCGAAAGTGACTTCAATTTCTTTCTGAGCTGCTTTG


Gene Sequence:
>Vu_30134(-)
ATGAGTGAGAGAGTGAAGAAGGAAAAGCCGACGGAGAAAAGAGAGAGGATGAAAAACATCTTCAAGAAGCTTCACATAGGTGGCAACCACGATCCTCAGCGATCCAATGACAATTCGCCACCTGTGCCGTCGCCGTCATGCGCCGCCGATCACTCTCAAAGCTCCGGTGCCACTCCTGCGAGTCCCTCGTCGGCCTCGGCAACAGCGTCGGCCTCCACCGCCGTGGTTAGTCCCGCCGGTGGCATGAGCCCGGTGGTGAATCGGCAGGACTTTTTCTCGTCGGAGGAGGAGTTTCAGGTGCAGCTAGCCCTAGCTATCAGCGCTTCCAATTCGGAGTTCCGCGACGATCCTGAGAAGGATCAGATCCACGCGGCGACGTTGTTGAGTCTAGGAGGTCTTCGAATCGATTCGGTGAGGGACAAGGACGACGCGTCGGAGGCGCTGTCGAGGCAGTACTGGGTAAGGTCTTACTCAGTTGTTGTAATCCACTTCTTGCAATGTTTCTCTTTCGTTGTGGTTAATTGAGGCAAAGCTGTGAATTGTAGAGGTTCATACAGAGCGGGTTTCACTCTAGATTTTTATTTATTTGTTCTTGCAGTAAATTCAGTTGTGTATTGGAACTTAGATTCGGGGTTTTATATGTGTCTAGGGCTAGCTACTCCAGTGAGGTTCGAAATGCGTTTTTGATCAGCGAGTTAAAATTTGGTATCTGCAGAAAGTAGACGGAACTCCGGTAGAAGCTGATTGATAGGGCAACCAGTGGTTAAATGATGTTAAATATTTGGGTGGTTTTTGTGGAATTGCAATAAACCCCTAGGAATTATAAATGTGGGATGCTGTTATTAGAATCACCGGGTGTTTATTTGTGTGCTTGATGTTGAAAAAACAAGGAATATTTGTGATTGAGTTGGTGCACTGGCAAACATTTGGTGGGACAGTTTACATTTTTACACTATGATACGATGAATTTTCTGCCATAATCAGCGTTGATTGTTGTACGGATGTTGTGTGTGTTTGACATTCTGTGGCTATCGTTTTGAATTGCATTAGTTTTCTACGGCATAGCAATTTTAAGAAAATTGTACAAGTATATGCTTTATACTCATTATTACACACTCACCCGCTTCATCACATGGTATTGGTTAACTATGTCATTGTCTTGGAAATTTTCTCTGTATTAAGTGAACATGGTATCATAAATTTATTTTTATCTGTTCAGCACCAAGATAGAAATAATAAAATTATAAAATGTAGTTAAGGAACATGGAACTTGTTTCACCTCCATTGGTGCTTTCTCACCTTTTCGTTTAGTGACCTTTCTTGAACTGCTTCTGTTTGATTATCTTTCATTCCTATTTTGTTGATCAGGAATATAATGTGCTTGACTATGAGGAGAAAGTAGTAGATGGTTTTTATGATGTATATGGGCCCTCTAATGATTCAGTGATGCAAGGAAAGATGCCATCTCGAACGGATCTTGAAGCAAATCCTGGAGGTTCTGAGGTGGTCATTGTTAATAGAACAATTGATCCTGCACTGGAAGAACTGATACAAATTGCACAATGTATTGCATTAGACTGCCCAGTCACTAGTTTGGCACAAAGGCTTGCTGAACTTGTTACAAGTCATATGGGTGGTCCTGTAAAGGATGCTAATATTATGTTAGCAAGATGGACAGAAACAAGAGCAGAGTTAAGGACAAATCTTCACACAATTGTATTGCCTCTTGGGTCCTTAAATATTGGGCTCTCTAGACATCGTGCTTTGCTTTTCAAGGTTAGTATTGTGGCTTTTATTGGTAATTAAAGTTCTTGTTAGCTGTAATGTAATTTGTTGTTAGGTTAATGCAGTCATAATCTGTTAAAAAAATCAGACACAACTACATTAAAAGAAAAAGAAGTGGAACGTGATATCTGCTATAACTATCAAATAATTATATCACCCGATAACATTCTTTAAATGAAAACATTAATAAATTAATAAATGTACTTCAGATAGTTTTCTTTAAAATTACTCATGCTGATAAAAATATCCCCTACTAATATAGCCTGAGCTTGCATTAAGAAATATATTTGCTCTAAGTATGCTTAGCTGAAAAAAATGAGAAATCATGCTCCATTTATGAAGATTGAGTCATTAAACTTATGGCTGACTTTGCTCATCAGTAGGAGTAAAGCTTCTTTAGGTTTTTAACCTTGGCTTAGTTGTGATGTAGTTGCAAAGCTAGTTTTAAACACGAGATTTGAGAATATATCTTCCAGTTAAATTTCAGTAATTTTTGTGTGCATTTTAGAGGATAATATTATAGTTCTTGATCTATTGCCTGTGTAATAATGTACTTGTTCTTTTTCTGCATTCAGGTATTAGCTGACAACATTAACATGCCTTGTAGACTGGTAAAAGGGAGTCATTACACTGGTGTGGAGGATGATGCTGTCAACATTATAAAATTGGAGGGTGAAAGGTTAAGGATCTTTGTATTTCATGTATCTGTTAGCTCACTAATTTGTGCGTCCATTTGCTTCTCATATCCATGCCTGTGTACTATTGGCACTGGTTGATGAAATCATTAGATTTCTAAGTTTACCCAGAAAGTTTATGTGGTTCTTCAGGTTCTGTGGTACTGATATCTCCTTCTCTGCTTTCAGGGAGTTTTTGGTTGATCTCATGGCTGCTCCAGGGACACTTATCCCACTTATGCCAGCTGATATTTTGAGCACCAAGGATAGTGCCTTTAACAAGGCTTTTAATCCCAAGATTTTACCCAATTTACCTTCCTCCAAGGATACTGAATTTTCTTACTCCAGACCTATCGAACCGTCTCATGGTGAAGGTAGTAGTCAAAATCCTGTGATAAAAGATCATTCACTGCCTTGGAATGGAAAATCATATGTTGAGAAGTCAGAGCCTTCAAACATAGGTTTGAGAAGAGACACTGGCGTTGGTCCTTCTAAAATTTCTAATAGAGGGACCCCTAATCAACTGGAGAATTTGCCTGCCATGTCTAGTACTTCTCTGTACAAAGGGACCCTCGGAATGAATACAATTGGTGATGGGACGAGACTTAATGTCAATGTTGTACCATATACTCAAAACAGCTCCAATGACCCTCGAAACCTTTTTGCAGATCTTAACCCATTCCAAATAAAAGGAATGGGGAAGGCCTCTGGGCTTAACAAACCCGTAGAAATTAAACCTCATGAGATTAAAAGTACTAAAAATAATACTGTTTCTGGTCGGCCCCCAGTGCTACTGACAAAAAAGAACCGTCATGCCTATAATGAAGACCCCAGGAAAACTAATTATAACCCTAATGAGTACAAACCTCCCTTGTTTGTTTCCAATGGTTCTTCTACATCTGAAAATGTTGACCTTAGTTCCAAACCATTATATAATTCAAATTTAAATAATGATGTAAATGTTCAAACTTTGGCACATGGTACTGGTTCAGTTTCATCATCTGTACCTGAACTGAACCAGATTGAGGATCACAATGCTGATTTTAACCAGGGGGATCTGGAAAATTCTCAAAACTTCATGGTAGAGGCAGTTAGAGAACCAGATAATGCCGAAATCAGACATCATGACCGGAGGAAGCATACTTATGATAGATTCATGGGAAACAATCTCAAACTAAAGGAACCAGAGAGTCCTAGCTCATCAATTGATTCCATCACAAACAGGGTGGATCAAATATTGGATGATGTAGACGTTGGTGAATGTGAGATTCCATGGGAGGATCTGTTTCTTGGTGAAAGAATTGGTATAGGTAATGTACATGATTTGCATTCATTTTCTTCTTGAAACGTCAATAATATTTACTGAAAATTGGACATTGCTCTGATTTACTATTTAATTTAGTGGGACTCCCAATTGATGCAAATCAATCACTAATCTAGCATTAATCTTCACCCTATTTTTAAATTGATTATTTTATTTTTGTTTCTATTTGTGCAAGCATGGTTATGTCAAGCTCTATTAAGTCTTCAATATTTTATGTTTTTTCCATGCGCTATACCATTTTATATGTGATAGTTGGGGAGGCTGGTAGTGTGCTTTAAGTATTGCACTTGTTTCTGAATTTTTTTTAATATATATGTTCATACTTTCTTTCTAATAGGTTCATACGGTGAGGTATACCATGCCGACATGAATGGCACAGTGAGTTCTTTAATTCCTTTTCATATTTGTGGAATATTATTGTTATAGATTGATTTAGAAAATTCTTATATTGTCATGTTCTTAATTATGGTTATTATGTACTTCTATCTGCACGATTCAAATGTGAAAGTGATCTCGCTAATGATAATATAAAGATATTACCTGATCAGATCATTTAGATAACATTCTTCAAAAATGGATAGATGTTAATTTCTATAGTTGTCTATATGCCTAGTAACTCGTCATTCTAGAGAAGTGAGATGGATGCTTAATACTACAGTAATTGGGTTAAAAAATGAAAATAGAATTATTGCTGAGTTGAGATTGTATTTTTATATAACGTGTCTTCGTTTTAGTGTCATCATCAACAATAATTTAATGAACATGATTGCGTTACTAACTGTGATTGCATGATTTGTAAATGATTCAATTTAACTTGTGCTAAATCGAAAGAACAAGATCAACACCCAAGAATCTGTGAGAGTTTGGGGAGTTTATATACTAGACCCTTGTTAAATTGCCAAAACATCTGAAAGAAAGAAAAGGAAAAAGATGAAAAAATTGATGAGATCTCTTTTAGGCTACTGAAGTCTCAAAATCATAGCTCCCAGTTTCTTAATTTCAGAACTTTTAACCAAAACATAAGGATTTGTAGTCTCTGATTTTCTGAATGATGATCCGCTATTGAAATATCAGGAGGTTGCTGTAAAGAAATTTTTGGATCAGGATTTTTCAGGCGCTGCATTGTCTGAATTCAAAAGAGAAGTAAGTACTAATTTTGTTTTCTGATTTTGCTTATTATTATTATTATTATTATTATTATTATTATTATTATTATTTCTATGAGAGAAATAAAAGAGATAGTGTACACTTGTCAATTTAAAGAAAATAATTTTGTTACTTTCAATTTAAAACATAGAATATTTGAGCATAAATACCAATAGGGAAAAAGAACAAGTTAACTTGGTAGGCAGTGGTTTCATGGATAAGGATCTACTATCAATACCCTTTTAAAGGCCAAAATTAATCTGTTTTTCCATCCTTTTTGCTGCAAGGTACGGATAATGCGTAGATTACGTCATCCAAATATTGTTCTTTTTATGGGTGCTGTCACTCGTCCTCCTAATCTTTCAATCATTTCAGAGTATTTACCAAGGTATATAGCTTTTTTCCATTATGACATTTTTACAAAATAATTACTTGTTGACCATATTATTTGTCCTTGGAATCCTTAGCTGTTTCCCATGTTACTCTTTCCTTATTTACATGTCTCACTATTGTTACTGATGTCCATTTTGCAGAGGAAGCTTGTACAGATTACTTCATCGCCCTAATTGTCAGATCGATGAGAAACGAAGAATAAAAATGGCTTTGGACGTGGTATGAAATAATTACACTTCTTCCTTTTCAACCATCATTTATACCAATAAACTTTCACATTTTGAACTCTCCAAATTTACAGGCTAGGGGCATGAATTGCTTACACACCAGCACACCTATAATTGTTCACCGAGATCTAAAGTCTCCGAATCTTTTGGTTGATAAGAACTGGAATGTTAAGGTATATGATTGGCAACTCATACTGTCCCTTTGCCTTGCTTGTCATTGTTTTTCATTTGTATAGGCTCCTGAATTCTTTTTCTGCTATATTAAATATATATGTTCATTAGTTTAGTGAAGTCAGCTAGACTGGTTTAAAAAACATGGTGTTTGAGTATAGTTATCTGATTATTTGTGCAACCTGCATGTTTTTTGGATTTCATCTATAGAAACCTTTCTATTTTCATGATATTTTGTAAGCCCAGTCTTGGTATATTATACGAAGGGTGATGTAAACACATGCAACCATATGCAATGTGTTGTTCCAACTATCAATTTCTGAGAGAGATGCACATGTGGAAGTTCACATCCACCTAAATGATCAATTTTTTCATGTTAAACTTGTGTATACAAGATTAGTTAGTTATATATAGGAGGTACCATATATGGAAAATATAATAATAATAACGACAGCAACTTGATGATGATGTCTTGTTGAAATTATGTAGTCTTACGAGTGAAAAACAGATTTTTGGGTTACAACAGTTGTGAAATTTACTAGTCTTAGCCAACTCAAACTGAAATTTGGATTTTGAATCAACCCAACCAGATACAGAAAACAAAACCAGATCAGTATTGTAGTTGGCTTGCTTGGGTTTGGTCTGGCTTGCTTGGGTTTTGAATAGTTGTAAATTGTAATCATATGGAAAATGTGTGTTTACAATGCGAATGATAATTTTGTGGGTATTATTTTTTTTCAAATAGATTTCTTGAATTATGTATACGTCAATTTCTGAGTTATTGTGTATTTTATATGATCTTATTGGTTATGTTAGTTGTAAGTAAGCCGTTCTTTCTACAGGTATGCGATTTTGGGTTGTCAAGGTTGAAGCACAACACTTTTTTGTCATCCAAGTCAACTGCTGGAACGGTGAGAATTTGGGAAAATCTGTATAGGTCTTTTCTTAGGCACATGCAGCGTGTCTTATCTGTCTTTTACATTTCACTGACATTATTTTATCAATATATTAGCCGGAGTGGATGGCTCCTGAAGTTCTCCGCAATGAACCCTCAAATGAAAAGTGAGTTGTTATTAATTTTAGATGAAGGTCTTTCTTATTCTTGATTGTCATTGTTATTTCATATCGTCTTTGTGTAATCAATGCTTGTCCATAGCTGCTTCACTCTAGTGGGTCTGAGAGTCTCTAAAAATGGGAACAGGATTGAGCTAATCACAGCATCGGACCTGGTTCTATTAAAAGAATACAGTTAGCAATTTTAACACACTAGTAAAACAGGTTCTGCTGGTGGATGTATTCCTAGGTCAGTTGGGATTGGATTTGGGAGGAAATCAAGTCCAAACCAATCAATTTTCATTAGCTCAGATTTAAAAAATAAAAAAATAAAAATTCAAACTAAGTCAATGAAGAATGAATTGGAGCGATTAGATTAACTGGATCCGATGATATCCAGATATACAAAATTCTATTTGAGAAATAGGAAAAATGCATAGTTTTAGTAAAAAAATTGCAAATAATTCTATGATTATAAGAAATAAGCAACATTTTGTATTGTAAGTAATTGACTTACATCAACAAACTAGTGGCAAAAATTATAAAAAAGAATTATATAATTGTTCCTACCACACCCAATAATCCCATTGTGACGGAACACAAACTCCAAAGCAGACAATACTTTGGATAAAAGGTGATTGACCTAACATTGTCACTTGATGGACTTGAGATAGGAACATCGGCTCTTACCATGGGACTGATTAAGGGGTTCTAAGTTTCCTTAAGGCCTCCATTGGGACTGGGGCTTATGTTCCTATCATACCCAATAATCTCACATCACTTAAGAGTTAAGACTTAAGGTAGTTTAAATACTCCTTCTATTTTCCTAAGACGCCTTTTAAAGACAAAATCGTGATGGAGCACAAACACTAAAGCGGACAATACCTCATATGAGGGGTAATTGATCCTAAGAATATCACTTGACGAACTTAGAATTGGATGCTCATCGTGGAACAAATAATGAGGTTCTAACACAAACCATTTCCTTAAGCCCTCCATTGGAATTGGGGGCTTATGTTCCTCCAACACTCTCACCTTCCAAGACACTTTTTAAGGGCAATACCGTGACGAATCACAAATTCCAAAGCGGACAATACCTTGGAATCGGAATAATAATTATATATGAAATTTCGTATATAGTAATATTAATAAGAAACATATATTCGGTTTGTTTTAGGTTTATTGGATTTGTAAATCATAAATCCAATACCTAAACTAATCAACATAAGATTTGATTGGTTTGGTTCCGATTGAATTTGAGGTGAACATCTTAACCAGTGTAATTGGTTTGGTTTGGATTATCGGGTTGATCCAAACCATGAACATCACACCCCTATCTGCTAGGCACTCTTTACATATTTTCGCTTGATGAAAAACATTTTTCTTAACCCTTATTTCGTTGTTGTGTTCAATTACTGAATTGTTTTCTCCATTCATAAAAAGTTTAGTTTTACTTTTATCTGTAACTAAAAACTTAGCGCCTGGTAGACATGGCTATAACAGATTTAGAAGCAAAATTCTGGAAATATATGATCTTTATTTAACATTTTGAACATGTATTTAGATTAAAATATTTGCGTGTTTCTTTTCTTGCTGTCTATTGAATGTATCTCTATTAATCATCATCCCAAATACAGATGCGATGTTTATAGTTTTGGAGTCATCCTATGGGAGCTTGCTACACTAAGGTTGCCGTGGACTGGAATGAATCCTATGCAAGTTGTTGGTGCTGTTGGTTTTCAAAATCGTAGACTTGAAATTCCTAAGGAAGTCGATCCTATAGTTGCAAGAATAATCTGGGAGTGTTGGCAACAGTAAGAATGTTCAGCTTTAAATTTGATTTATTCCTTTTCTTCTCCTTCCACACACCATTAAATGATTTCAGGAAATTTTGCAATTAGACTTATTTTCCCTCTCCCTGTGTCAGGGATCCAAATTTGCGGCCCTCGTTTGCACAACTCACAGTGGCTCTAAAGCCTCTGCAGCGTCTGGTTATGCCATCGCATCAAGACCAGGTACCTCCACTCGTGCCGCAGGAGATTTCTGTAAATTCCACCCCATGA