Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_06151 LG1 91298546 91306499 PREDICTED: casein kinase II subunit alpha-like
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   regulation of photoperiodism, flowering, peptidyl-serine phosphorylation, phosphorylation, peptidyl-threonine phosphorylation, cellular response to abscisic acid stimulus, regulation of cell cycle, regulation of growth, peptidyl-threonine phosphorylation, negative regulation of seed germination, regulation of cell cycle, cellular response to abscisic acid stimulus, phosphorylation, peptidyl-serine phosphorylation, regulation of photoperiodism, flowering, cellular response to abscisic acid stimulus, regulation of photoperiodism, flowering, peptidyl-threonine phosphorylation, negative regulation of seed germination, peptidyl-serine phosphorylation, regulation of photoperiodism, flowering, regulation of photoperiodism, flowering, chloroplast-nucleus signaling pathway
Cellular Component   located in   chloroplast, nucleus
Molecular Function   enables   protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein serine/threonine kinase activity, kinase activity
Pathway   B 09122 Translation   C 03008 Ribosome biogenesis in eukaryotes [PATH:ko03008]
SNP Position Effect Amino acid change
A/G 91298573 synonymous_variant p.Leu3Leu
C/A 91298636 synonymous_variant p.Ser24Ser
A/G 91298718 missense_variant p.Thr52Ala
T/A 91298726 synonymous_variant p.Pro54Pro
T/C 91299032 downstream_gene_variant
T/C 91299290 downstream_gene_variant
A/T 91299485 downstream_gene_variant
A/T 91299556 downstream_gene_variant
G/T 91299626 downstream_gene_variant
G/A 91299640 downstream_gene_variant
T/G 91299705 downstream_gene_variant
A/G 91299763 downstream_gene_variant
C/T,* 91299768 downstream_gene_variant
C/T 91300096 intron_variant
C/A 91300124 intron_variant
C/T 91300800 intron_variant
C/T 91300883 intron_variant
C/T 91301000 intron_variant
T/A 91301494 intron_variant
T/A 91301988 intron_variant
C/G 91302011 intron_variant
T/G 91302053 intron_variant
T/G 91302143 intron_variant
A/T 91302183 intron_variant
A/T 91302191 intron_variant
A/G 91302204 intron_variant
C/T 91302359 intron_variant
T/C 91302782 intron_variant
T/G 91302858 synonymous_variant p.Arg303Arg
C/T 91302972 intron_variant
A/T 91303012 intron_variant
T/C 91303029 intron_variant
C/T 91303035 intron_variant
A/G 91303056 intron_variant
C/T 91303171 intron_variant
T/A 91303397 intron_variant
C/T 91303402 intron_variant
G/T 91303422 intron_variant
C/G 91303489 intron_variant
G/A 91303596 intron_variant
A/G 91303640 intron_variant
T/G 91303700 intron_variant
A/T 91303859 intron_variant
C/T 91303915 intron_variant
G/C 91304234 intron_variant
G/C 91304470 intron_variant
G/T 91304543 intron_variant
T/C 91304677 intron_variant
A/C 91304777 intron_variant
T/G 91304830 intron_variant
C/G 91304932 intron_variant
C/T 91304953 intron_variant
T/G 91304995 intron_variant
G/A 91305036 intron_variant
C/T 91305112 intron_variant
G/A 91305138 intron_variant
G/T 91305390 missense_variant p.Gly349Val
A/T 91305573 intron_variant
T/A 91305603 intron_variant
C/T 91306135 synonymous_variant p.Val402Val
T/G 91306316 3_prime_UTR_variant
A/T 91306330 3_prime_UTR_variant
T/G 91306402 3_prime_UTR_variant
A/G 91306462 3_prime_UTR_variant
T/A 91306480 3_prime_UTR_variant
T/G 91306491 3_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_06151.1
MALRPFHYNFSRDRLLLLLRSSLSHSFPSPPIRSPNFPITFPPASAFRHFATAPLARSPPPPPLDAMAQKFGKSTRRPGASSKARVYADVNVVRPKEYWDYESLNVQWGEQDDYEVVRKVGRGKYSEVFEGVHCTDGEKCVIKILKPVKKKKIKREIKILQNLCGGPNIVKLLDIVRDQQSKTPSLIFEYVNNTDFKVLYPTLSDYDIRYYIFELLKALDYCHSQGIMHRDVKPHNVMIDHEQRKLRLIDWGLAEFYHPGKEYNVRVASRYFKGPELLVDLQDYDYSLDLWSLGCMFAGMIFRKEPFFYGHDNYDQLVKIAKVLGTDELSAYLDKYRIELDPHLAALIGRHSRKPWAKFINVDNHHLAVPEAVDFVDKLLRYDHQERPTAKEAMAHPYFNPVRNAETSRTRTH*


CDS Sequence:
>Vu_06151.1
ATGGCCCTAAGGCCCTTCCATTACAACTTCTCGCGCGATAGATTGCTTCTTCTCCTCCGCTCCTCTCTTTCCCATTCCTTTCCCTCTCCTCCTATCCGCTCTCCCAACTTCCCCATAACTTTTCCACCAGCTTCCGCCTTCCGCCACTTCGCCACCGCCCCTCTTGCTCGCTCTCCGCCGCCGCCGCCCCTCGACGCCATGGCGCAGAAATTCGGAAAGTCCACGCGCCGCCCCGGCGCCTCCTCCAAGGCCAGGGTTTACGCGGATGTCAACGTTGTTCGCCCTAAGGAATATTGGGACTACGAGTCCCTAAACGTCCAGTGGGGGGAGCAAGATGATTACGAGGTGGTGAGGAAGGTCGGTAGGGGGAAATACAGTGAGGTGTTCGAAGGCGTTCACTGCACTGATGGTGAGAAATGTGTCATTAAGATTCTGAAACCCGTGAAGAAGAAGAAGATCAAGAGGGAAATCAAAATATTACAGAATCTTTGTGGAGGGCCTAATATTGTAAAGTTGCTTGACATTGTTAGAGATCAGCAGTCAAAGACCCCAAGTCTTATATTTGAATATGTCAATAACACTGATTTTAAAGTGCTCTATCCAACATTGTCAGACTATGATATTCGATATTACATTTTTGAACTTCTGAAGGCACTGGATTATTGCCATTCACAAGGAATCATGCATCGGGATGTGAAACCACATAATGTAATGATTGATCATGAGCAGCGTAAGCTTCGCCTTATAGATTGGGGACTTGCAGAGTTCTATCATCCTGGAAAAGAGTATAATGTTCGTGTGGCTTCAAGATATTTCAAAGGTCCTGAGCTTCTTGTTGATCTTCAAGACTATGATTACTCTCTAGATTTGTGGAGTCTTGGTTGTATGTTCGCTGGGATGATATTTCGTAAGGAGCCATTCTTTTATGGACATGATAACTATGATCAACTGGTCAAAATAGCTAAGGTGCTTGGGACAGATGAATTAAGTGCCTATTTGGATAAGTATCGAATAGAGTTGGACCCACATCTTGCGGCACTAATTGGGAGGCATAGCCGTAAGCCTTGGGCAAAGTTTATTAATGTAGACAATCATCACTTGGCTGTTCCTGAGGCTGTTGACTTTGTTGACAAGTTATTACGTTATGATCACCAAGAACGTCCCACTGCAAAAGAAGCCATGGCCCATCCATACTTCAATCCAGTCAGAAATGCAGAAACTAGTAGAACTCGTACGCACTGA


Promoter Sequence:
>Vu_06151::LG1:91296546-91298546(+)
TTAAGTTTAGGAATAAGATGTCTATACTTGATGATGATGTTATTGATGGCTCAACAGTCAACACACATCTTACATGGTCCATCATTCTTAGGAACAAGGATGACCGGCATGGGACATGGACTTAAGCTTTCTTTAACCCATTTTTTCTCCATGAGTTGCTCCACTTACTTTTGTATTTCTCTAGTCTCTTCCATGTTGCTTTTATAGAATGGCTTATTAAAAAGGGATACAACAGGAATAAGGTTCATGTAATGTTCAATACCCCTTTTAGTATTGTCAGTTATGACAAATGTCTTTAGGGAATACATCCTTACACTCCTTGAGAAGTTGCTCCATATTTAAAGACAAAGAAACTTGGACAAAACACAACAAAATATTGTTAGGCATAAGTAAATATAAATGTTGTCTCTTAAACAACACTCTATTTACTTTGTTTTCTCTCAAGAAAAAAGCTTTTACCACTCTTTATTTTTTTACTTTCCTTTTCCATGCCTTTATCTAGAATTTTCTCTCTTCCTTCATTTGTCTCTTACTCTCTTTTCACTTTTATCTTAATTTGATCCTCACAAACCTTTTTAGGAGATAAAGGTGTTAGGGACACCTTTTGCTATTTTGAAAAAGAAAGTATACTTATTGGTTAAACCATCATGGGTTACCTTTCTATCATATTGTCAAGGTCTTCCCAACAACAAGTGACTCGTCTCCATAGGTCGTATGTTCTTGTGTAATTTTTCTATATTAGCAAACAACCAAATTTATTGAAAACTCTTTCAAAGTCTATGTTAGTATGATGAAAATGTTTGTATATAGTTAATTGAAAAATAAAAGCTTAAATTTGCGATAAATTAGGAGTTAATTGTATTTTTCCTTGTATTCAAAATGAATAATTTTTTTCTCAAAAAGAAGATTCATGGGCTAGCCTTGGCCCATTGGGCTTTTGTGGATATTTTGACCCTGTGGGCTTAAAGGACCTTTTGGTCTTGTGAGTTTTTATGACCATAGTCTTTGTGGGTTAAGACCAATCTATTTGAGGGGGAGAAATTGATAGATCTACTCAATATAGTTTTTTGAAAATTAATAATAATCTCAACTTAATCGTAACTTCTTATATAGGAATTAAGAGTATTGGAAGTTTCACATTGACTATAAATAAAACTAATTTACAGTATATAAAGTAAGTATAAATCTCATCTTATAAGTCAATTTTACAAAATTGAGATAAACTTAAAATTTACTTTTTTACATAATATTGAAATTATGAATCGATGAAATTTATGATTTTTTAGATTTATTATTCCATCTACGGTAAAATCATTATTGGATGAAATTTTACAAATAAACCTATGCGAGAATGTGTATTAAAATTCTCAATAATTAAAAATAAAACTAATTTACAAGTACTACAAACCACAGTATCACCTGCTAAAATTTTACATCTAATATATATATATATATATATATATATATATATATATATATATATATATATATTATATTTGAGTATTGCTTTTTCAAGTGACTAAATTTCAACATCTTTTAATCATATTCTTCTGTTACAAAAATAGACTCACAATACATGTTTATATTTGAAAAGACGTCATTTCAAATCAAAAAGTTGTGATACGGTTTATATTTATGAAGGATGGGAGAAATCAATATTGTGATCCATTCAATGGACAATTTTGGAAACCTTTTTATTAATTAATAATGTGATCCATTGAATGGACAATTGGAGGGCTAAATTAGCGACTCCGAATTAAATTGCCAACAATGTGAGATTGACTTGGGGTCTTAATGCAAACAAAGTTAGTGCAGCAAGTTTCACTTTAATTAAAACTGATATTTTATTTCTGTTTTACTGTAAGGCAAACTAAAAGGATAAAGGAATAAATAAAGGGAAGAAAAGTAAAAGAAGAAAAGGAGATTTTTTAATTAAAAAAAAAAATGAGACGAGGGTTTGAAAATTGCGTCTTAGGCATCAGAGCCTTTTTTTCCCTGCA


Gene Sequence:
>Vu_06151(+)
AACTTTTATTTGCAATTTAATGGCCCTAAGGCCCTTCCATTACAACTTCTCGCGCGATAGATTGCTTCTTCTCCTCCGCTCCTCTCTTTCCCATTCCTTTCCCTCTCCTCCTATCCGCTCTCCCAACTTCCCCATAACTTTTCCACCAGCTTCCGCCTTCCGCCACTTCGCCACCGCCCCTCTTGCTCGCTCTCCGCCGCCGCCGCCCCTCGACGCCATGGCGCAGAAATTCGGAAAGTCCACGCGCCGCCCCGGCGCCTCCTCCAAGGCCAGGGTTTACGCGGATGTCAACGTTGTTCGCCCTAAGGAATATTGGGACTACGAGTCCCTAAACGTCCAGTGGGGGTAAAAGATGCTCCTTCCTCTTCTTGTTTTCCTTCGATCTTCAAATTCCTGTAGCTTTTTTTTTGTCTTCTTTTATTTTATTTTGGATAATATAAATTGTCTTTCTTGCTTTTCCAAAATGAAAGAATTTAGGGTTGTTATTGTTGTGGCTCTTTTACAGGGAGCAAGATGATTACGAGGTGGTGAGGAAGGTCGGTAGGGGGAAATACAGTGAGGTGTTCGAAGGCGTTCACTGCACTGATGGTGAGAAATGTGTCATTAAGATTCTGAAACCCGTGAAGAAGAAGAAGGTGAGTTATGTTTGGGCGCTGTCGTTTTATTCCTTGAACCTTTTGGTTTTCGTTTCTGTGTGTTGTTGGTTGTGGTTACTTTTCAATTTTAGTTTAGTAAATGAATGTGTTATAATAATCATAGGCAAGTCATGTTGGTGGTTGAGGTGGTTGGTGATATATTATTGGGGAAAGCATACAATTGAAGAGTGGTAAGCATATGTTGTTTTTGCAGTTGAAACGTTTCACCTCCCAGAGTTAACATATTGCACCCACACACACACACACATATATATTATGATTATTATTGTATTTGGTAAGAGGGAAACTTTGGTTATTTAATTTTTCGGGGGTTCAGGTATGATATGTAATAACTTGAAAAAGGATATGCTTAAAAGGATGTTTAGACAGGATTACAAAAATCAGTCACATCCCATGTGAAATTAGTTACCGGAGTTGGAAGAAGGTATATCTGTTTTCGCACCAATTTCTTTACGGATCCTGTACTCATTTGTATTATCTTTGGGGCTTTGTTTTAAAACATGTCCCCTCTCCTCTTCAATTGTTTTGTGTTCTGACCCACTTTGAAATCTCTATTTGTTCATGTCCCTATTCATTTTATTCTTTGTTGTGATCTTCACACTCACCACTACTTGTTTATATTAATTCTACTATCTTTTCTTTATTGTGATCATATGTTTATTGTATGACTTTTGAATATTAATCATGTATAATTTTTGTCTTTACTTTTGGATAGTTCTTAAGTTTGAACATTTATACATGTGCAGTACAAAGGAATAATCTTGCATATAGTACATAGTTTTTTACATAGCAGTCATCCCATTATCCACTACATCACTAGCAATTTTTGTGTTGATTTCTCTACACACCTATTTGGGATTGAGACTACATTTCTATCATAGGAAGTCAAATTGACTAAAAGTATCAAACATGATAAAAAAAACTGATGTGGAAAAGGAACGGCAAAGGTTATAAACCTTTCATGCAGAACTTCAAGGGAAAGACAAAGTGAGTTTGTGTTTATTATTGAACGTGAGTTTCGTGCAAGTGACCATAGTGCTACATAGTAGTTCCAATTATTTCCTTCCATTTGGTTACTTGGATAAAAAATGCTCCGGTAGGAGAGGGGCTCTTTAGTTGTTTATTTCTTCTTAACTAAAATATTTGGCACTCATCCTGTTTATTTACATGTAACTTTGACAATGCTTCTGGTTCTGAATGCAGATCAAGAGGGAAATCAAAATATTACAGAATCTTTGTGGAGGGCCTAATATTGTAAAGTTGCTTGACATTGTTAGAGATCAGCAGTCAAAGACCCCAAGTCTTATATTTGAATATGTCAATAACACTGATTTTAAAGTGCTCTATCCAACATTGTCAGACTATGATATTCGATATTACATTTTTGAACTTCTGAAGGCAAGTTTTATACTCTGTCGTTAATATTAGCTAAAAGCATGAATTTGCCACAGCTATTAATTTTTTTTCTTATCCATACATTGTGTTGGACGCAAGATAGACTTGATGCTTCATAACAAGGTTAAATGTTAATGATTTTTGTCATCTTCTTGTTGAATTATATTTGGTAATAAAAATTTCAGTCATTTTCTTTACAGATTCAGTGAATACTTTCTCTCTTAGGTTTAGTTTCAGATGAACATTGCATAATGAGGAATAACTTTTAGAGTTACTCTTCAAGTAACTTGATCCCTCTTCTCTCTCTCTCCATCTCTACCTATCTATCTATCTATCTATATATATATATATATATATATATATATATATATATATATATATATATAATATATAACTGATGTTACGGGTATCTTAAAAACGAAGCATAGTTTCATCCCACTACCTGCTATGTTGATTTTGGGGTCAATTGCTTCATGCTGCTATTTGACAACTATGCCTTAAGCCTTTCTAGGATTCAGAGGCAAATTTTAGTGATTGTATGGTAATGGTATTGTTGATAGTTTGTGCCATTCAATGAATAATCTTTGATGAAAAAATCAACATGTCACTTGATTATGGAATTGTTTTACTGAAGTTGCAAACTATAGTCTTACTTTGAGAGTTTAAATTATAAATAATATTTGCAAAGGATAATGTATCTGTATCTATATGCCTGTGTGTTGTGTTGGTTTCTTTATTGTCATATTACTTGCACTTTCCTTTGTATGGTGTGTGTATTGTCACTATTGTGTTTCATTGTTCAATTTGTTACCTATAATCTGCATTAGATTATATTATCAATCATACGATGTAAATTGTTTGTGGCTATCAACATGGAAGCAATTGTTTTTTGGGAATTTCCTCCAGGCACTGGATTATTGCCATTCACAAGGAATCATGCATCGGGATGTGAAACCACATAATGTAATGATTGATCATGAGCAGCGTAAGCTTCGCCTTATAGATTGGGGACTTGCAGAGTTCTATCATCCTGGAAAAGAGTATAATGTTCGTGTGGCTTCAAGGTAGATCTACTCTTATTCTATTTTCTGGTTGGGGGGATGTTTGTGGGAGGATTCATAGTTGTGGTGGGCTGGTGGGATGTTCGTTGAGCCTTTGGACAAAGCCCAGTTGAACATCAGGCAGAGGGGCGGGTGGGTGGAGGGGGGAAAGGGGTATAGGGTCTATTGTGGGCTTTTAACTTATGCGTTCTTGTTGCATGCTGCTCAACTCAAGTATTCAACCAACTAAACCATCCTAGGAGGGTTACGCATGCTTTTTCAAATGATTTATAAATTCACAAAGTAATTGCTGAAGAAACATTTCCATACACATTGCACTGCTTTGGCTTTTCTTTTGGGTTTTGTGATTACTCCTTCCATCTGCCTTTAGGTTTGGTTACATGAACTAAACCCTTTGATGCAAAATTTAGAGTTAGAACATTAAGAGGGCTTTCTTTTTGTTTAAAATGTCATTTGGTAAGCCAAATTTGTTTGTGGCCAAGAATTTGTGGGCTTTGGAAATTTAATGTCCAAAATCAATGCATAAGTTGGTAAATTATGAACGGCAATATCCCTCCATGAACATCTTTTAGCCATTGGGTGATGATAAATTTGGTGTACTGCAGAACAGGTGGGGGTGTCATTAGCTAGTCCAGATTCTCTGCTAGGTTATTTGGTACTGTTTTCTACTGAGCATTAAAAATACACTGATGTTGGTATATCAAATTTATTTTAATATAGTCTAAAATATCAGAATCAGTGTATTTTAAAGACAACAGAGGAACAACATAGAAAACCCAATAGAGAATCCAAATTTGTCATTAGCTTGTTTATGTTTTTGGTAAAAAAAGGATGTTTATTATGGTTACTTGATAGTTTTTATTTTTAATTGTTATCAATCAACATTTTTTTTCTGCTTTAACCTTTGATTTTCTTGTGCAGATATTTCAAAGGTCCTGAGCTTCTTGTTGATCTTCAAGACTATGATTACTCTCTAGATTTGTGGAGTCTTGGTTGTATGTTCGCTGGGATGGTAAGTGGTGCACTTTTCTTCAAATACAGTGTTATATTATTCAGTGTTTAGCTTCATTGAGAGATAAACCTTAGAATCTTTAGCTACTGCATGATAGATCAATTTCTTTTTTTGAAGTCTTAATACAGGTTGAAATATCCTCCCCTGCTTGATTCAGGCTTGTGTTTTTACATTGTTCAGATATTTCGTAAGGAGCCATTCTTTTATGGACATGATAACTATGATCAACTGGTCAAAATAGCTAAGGTAAGCCTGGGACATCTACCCGAATTTGAGTCAGATTGTTGTGTTTGGGTGATTACCCATTACTGTTTTGCTCCTGCCCTGTTGACTGTTTTCTGTAATCATACATATTATGCTAGGGGCATTTTGTGTTGCAAATTTGCATTCTTCTTGAATCCTATATCTTTTCTCTTTTCCTGTTTATTCATTTCTGTGTACTAGAGTTTGTTATACTTAGTAGTTGGTTGTTTGAAAAAATTACACATTTAAATGATTTCTCATGTAATCAGGTTGACAGCATACAATGTAACCTAGGGATATTAACCCATATTTCATTCAACTTTTTTGTTCTTCAAAATACCATGATTTATTGCAAGTAAATCCTTATTGCTGAGTGTCAACACCACTTGAAACACTTCCAAAGCACCATAATACTGTCCTCAGTGTCAACATGTTGTCAAAGCAGGTTCATTCTCAATTAAACGTGGACTTCTCATCCTTCTTCTGCACCGGGTTGTTCACTCAACTGCGTCCATTATTGTTTCTTGGAAATTTGCCCGGACACTTTAAACTCCAGCCTGTGTGAAAGCCATGTACCCTCTTCCCGTTGACAAATCCAACTAGTGCACTACCTTTGTTAGTTTTGGTCCATTCTTTGTCCATTCCAAGTCTCAGGTTATTTATTTCCTTGATCTGAGCAGTGGGTCTGTTAACCCTAGATCGATGAAGTATAGTAGCGGTGTGACTGACATTTGTTTTTGCAGTTCTATCTGAGCAAGAATCAGAAATATCACTTCTTTTTTTCTCCTTGGTGACATCAATCACCTCTGAAATTTAACGAGTGTTGCCTTAATTGACATTCATCTGTTGAAGTTTGGGTCCTTGACAAAAGTTACCTTTTAGCACTCTGATCATTCTCCAAGAAGGCTGAAGATATTGCCACCTCTCTAAAGGAAGAATGGTAGACAAGTAGCTATCAATTGACATCCCTTCTGACTATCTATTGATTCTATTGGCCATTACCATTTTGGATAAATCCTTATATGAGAAATGAAGCCAAAAAGTATATGCAAATGGCAATCAGTTCCTTTATGACTCATTTCACAGCTTCACAATTCTTCAAATGCAAAGTATATATTTTCTTTATATTTAAACGACTCAGTCAACCAGCCAGCTAATTAAGACAATCTTATTAGTCATAACCTTAAGAAAATAGTGGATAAATTATACCAATATGCATATAGCATTTCTTCTGCATGACTTTTCTAAGGATTTTGAGAATCTTTGAAATCAAGTTGTTGCATACTCAACATTCCCACTGTATGAAGTTGTAGACCACAATGCTCCCACCACTGTAAGCTAAAGGGGCACACTCAAGACGTTCCCTACATGGTTTTCAAGAATAATCTGCACCTCTCCAATTATAGGGTGCTAGACACAAAGTATTTCACTCCGCAAGAAAAAAAGTTCTATATCCTACGAGTACAAAGTATATCTAAATTTTAATGATTTTTCTACCCCTAAATTTGGTAATTACGGATTCTATTAGTGTGTTTGGTAGGGATTAAATAAGGAAGAGATAGGGAGGAGTTGAAATTGAAGAGAGATGGCAAATGAAGAATGTTTGGTAGCGGAGAAATATAGACAAAAAGGGTTGTAGGTCTACACACCCTTTTATTTTGCCTCAAATATAATAACAGGAAACGAACAGTGATAACATTAATAGAAATTACATATGCTGATGGTTGAACATTGAAGAATTTGTTGTTTATTTATTTTATATCTTAAACAATTTTCACTTCATTCCTCAGTTATTTCTATTTACTCTACTTTCCTCTTCCCTGTGTCCATCCATTGTATTTCTCGTTTATTTATTTTCTTCCTTACAAATGCACCCTTCATAAACCAAACATTATTCTTAATTGTTCAATAGCTTTCTCTGACACTTCTTTGCATGCATGACTGGAGTATGTGGTAGGTGTTAGCAAGCATTAAATCACATTGACTATATTGTCTTCAACTTTGTGAAGACTAAATTGCCGAAGGAGAGATGAGATGTCCCTCTTATTTTGCCGAGTGCCAAATCATTAGTATTTAACCATATTACCTTTAAATGTGCATCCCTAAATCTTGTCTCAATTGTGGTCTTGTAATGAAACGGGATGTTTACTAGCTTTTTGAAAATCCCGTCTTCCATTTCCTACTTGGTGCGTTAGTTTTCTATCACCGATCTTTTGCAGAAGCGAGCTATTTTACTTGTTTAACTTTTATCAAGGTCTGAGAAAACAGTTTGAAATCTAAAGTAGATTTAGAAACTAAAAAAGTTGTCTATGCTTAGTACATGGCTACAGCACGGTGTAGAAGCAACATAAAATAGATGATAGGGAATTTGATTGATAATCTTTTGCTCTTGCAATAGGTGCTTGGGACAGATGAATTAAGTGCCTATTTGGATAAGTATCGAATAGAGTTGGACCCACATCTTGCGGCACTAATTGGGAGGTTTGTTTGTATGCTTTCATAGTTTAGTTTATGTCGCTTTTGTTATATAAAATTATTGTTTTGACTAAGAAGACACTCGAAATATTGTGACAGGCATAGCCGTAAGCCTTGGGCAAAGTTTATTAATGTAGACAATCATCACTTGGCTGTTCCTGAGGTAGTATGCGTTGTAATTATATATTTAAATGTACTTCTATTATCGTTGTTTCTCATTTTATATTTATACTATTTTTTTGAAAGGCTGTTGACTTTGTTGACAAGTTATTACGTTATGATCACCAAGAACGTCCCACTGCAAAAGAAGCCATGGTAAGCTCAATCTTTTTTAGAATTGGGAAATCCCAGCTAAGTAGACGACTTCCCTGCTATTCGATGGTTCCAAATTATTTATGGTGCTTGTTAAGTTATCCTACCTTTAGTTGGATTCTAATTCTTTACTTGATGCCCTAGATGATTTGTAGTTAGGGCCTGGATTTTTATGTTTGTTTCCCTCTTAAACTTATTTGTTTTGGTAACAAGTGCTGTAATAAAGAGTATTAAATGAAAAACTTAAGAAATTAATATATCAGGAACTTGCCAACAAAATCTTATTTTTGACTAATTGTGTGTTTTGCTCAAATTGTATAGTAAGCTGCCAACGCCCTTCCTACAACCGAAGTATTTGGTATTATGAACTTTTGTAAAATGTTTGGTAAACAAAATATTTATTGGTATGCAGGCCCATCCATACTTCAATCCAGTCAGAAATGCAGAAACTAGTAGAACTCGTACGCACTGAGTTGTTGATGTTTGTTGAGATATGGTGTCCGTTCTTGGAAGGGGGGCCTTCAACAAATTATCTGAACTGTTATTTCTGGCGGAACTTGCTTTTAGGAGCTTCGGTCCTTGTTCTGTTGTAAAACTCAGTTTGATCGGTTCTCTCTACCTAATCGTCTTAATTCTGGATTTCAAATTATTTTTTGGGTGGAAAATTCAGTTCTAAAAATTATTTGATTGTGTGCCAAATGTTGAAATGTCTCGATTCAGTTTCAGAAAAATTAAACGCGTTTTTTTATGCTATATAAACTCAACTATTAAATCAAAATTTACTGTTATGGTTTCATTTC