Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_28609 LG8 11620156 11630032 hypothetical protein DEO72_LG9g594
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   organic hydroxy compound biosynthetic process, response to red or far red light, terpenoid metabolic process, response to light intensity, response to water deprivation, small molecule biosynthetic process, terpenoid metabolic process, organic hydroxy compound biosynthetic process, cellular response to light stimulus, cellular response to light stimulus, terpenoid metabolic process, response to osmotic stress, response to osmotic stress, small molecule biosynthetic process, protein phosphorylation, pigment biosynthetic process, flavonoid metabolic process, protein phosphorylation, response to water deprivation, protein phosphorylation, response to blue light, response to water deprivation, cellular response to light stimulus
Cellular Component   is active in   plastoglobule, plastoglobule
Cellular Component   located in   chloroplast
Molecular Function   enables   protein kinase activity, protein kinase activity, protein kinase activity, protein kinase activity, protein kinase activity, ATP binding, protein kinase activity, ATP binding
Pathway   B 09181 Protein families: metabolism   C 01001 Protein kinases [BR:ko01001]
SNP Position Effect Amino acid change
G/C 11620743 intron_variant
A/G 11620916 intron_variant
A/T 11620923 intron_variant
T/C 11621093 intron_variant
C/A 11621209 intron_variant
T/G 11621292 intron_variant
T/A 11621938 intron_variant
G/C 11621985 intron_variant
T/A 11622159 intron_variant
T/A 11622160 intron_variant
A/G,T 11622162 intron_variant
A/T 11622174 intron_variant
A/T 11622179 intron_variant
C/A 11622433 intron_variant
C/T 11622645 intron_variant
A/G 11622651 intron_variant
C/T 11622826 synonymous_variant p.Ser203Ser
A/G 11622938 intron_variant
T/C 11623127 intron_variant
T/C 11623198 intron_variant
T/C 11623492 intron_variant
T/C 11623869 intron_variant
G/A 11623888 intron_variant
T/C 11623916 intron_variant
A/T 11623919 intron_variant
C/T 11624256 intron_variant
T/G 11624359 intron_variant
A/T 11624365 intron_variant
A/G 11624381 intron_variant
C/T 11624395 intron_variant
A/T 11624500 intron_variant
C/T 11624501 intron_variant
C/T 11624578 intron_variant
G/A 11624697 intron_variant
A/T 11624855 intron_variant
A/G 11624982 intron_variant
G/T 11625034 intron_variant
C/T 11625362 synonymous_variant p.Arg372Arg
T/A 11625490 synonymous_variant p.Val389Val
A/G 11625549 intron_variant
T/A 11625635 intron_variant
A/T 11625645 intron_variant
G/A 11625693 intron_variant
C/G 11625700 intron_variant
G/C 11626404 missense_variant&splice_region_variant p.Ala399Pro
G/A 11626593 missense_variant p.Gly462Ser
C/T 11626743 missense_variant p.His512Tyr
G/C 11626828 intron_variant
T/A 11626833 intron_variant
A/G 11626834 intron_variant
T/G 11626846 intron_variant
G/T 11626849 intron_variant
C/T 11626885 intron_variant
T/C 11626898 intron_variant
T/A 11627423 intron_variant
A/T 11627430 intron_variant
A/T 11627634 missense_variant p.Thr586Ser
G/T 11627741 synonymous_variant p.Gly621Gly
G/C 11627771 missense_variant&splice_region_variant p.Glu631Asp
G/T 11627809 intron_variant
T/C 11627987 intron_variant
C/T 11628005 intron_variant
A/T 11628006 intron_variant
A/G 11628011 intron_variant
A/T 11628255 intron_variant
G/T 11628396 intron_variant
T/C 11628669 intron_variant
G/A 11628785 intron_variant
T/C 11629116 intron_variant
C/T 11629144 intron_variant
G/A 11629363 intron_variant
A/T 11629513 synonymous_variant p.Leu651Leu
G/T 11629597 synonymous_variant p.Thr679Thr
C/T 11629732 intron_variant
C/G 11629811 intron_variant
T/C 11629817 intron_variant
A/C 11629827 intron_variant
G/T 11629859 intron_variant
C/T 11629873 intron_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_28609.1
MDAASQLVYLGIDPFPRSSPSPRRRNSLLQLRRRSGRVFAVSAEPKPARQKIVDGANSSRTVNGVSTRIGDVSKEIKRVRAQMEEDEQLATLMRGLRGQNLRDSLFAEDDVELRLVEVVEESSEFLPLVYDPASISAYWGKRPRAVATRIVQLLSVAGGFLSRIALDVINKKVKENEVARAIELREIVTSLGPAYIKLGQALSIRPDILSPVAMTELQKLCDKVPSFADDVAMALIEEELGQPWQKMYSELSSSPIAAGSSPDNQYLSFFEIYAASLGQVYKGRLKENGDLVAVKVQRPFVLETVTIDLFIIRNLGLALRKFPQAKWIDGEKLSQSTESDVGELVNVGVICYLKQLLDTGFFHADPHPGNLIRTPDGKLAILDFEVDATSFNARSAVKSGLVTKLTDDQKYGMIEAIAHLIHRDYPAIVKDFVKLGFIPDGVNLEPILPVLAKVFDQALEGGGAKNINFQELASDLAQITFDYPFRIPPYFALIIRAIGVLEGIALVGNSDFAIVDEAYPYIAQRLLTDESPRLRDALRYTIYGKSGVFDAERFIDVMQAFENFITAAKSGGGEDMNGNMAELGILATSQSEYLLPGIQSVIPQPQQPVQTRAALAFLLSDRGNFFREFLLDEIVKGIDAVTREQLVRTMSILGIQNATPVFSMVPTVGPFKPAALIPSITEEDEVILNNVQMVVEFLTAGSSLSRTSGQGLNIPQIIQELLPVLPGISVKVLPDVLSRLSSRVLARLIRDTFL*


CDS Sequence:
>Vu_28609.1
ATGGATGCAGCTTCGCAGCTTGTCTACCTCGGAATCGATCCCTTTCCTCGAAGCTCTCCATCGCCGCGCCGTCGCAACAGCCTCCTCCAACTCCGTCGCCGCTCCGGCCGCGTCTTTGCTGTCTCTGCCGAGCCAAAACCGGCGCGGCAAAAAATTGTAGATGGAGCGAATTCGAGCAGAACAGTCAACGGAGTCTCCACGAGAATTGGAGATGTTTCGAAGGAGATCAAGAGAGTGAGGGCTCAAATGGAAGAGGACGAACAGTTAGCGACACTCATGAGAGGTCTTCGAGGCCAGAATTTGAGGGACTCTCTCTTCGCTGAGGATGATGTTGAGCTTCGTCTTGTAGAGGTGGTGGAGGAGAGTAGTGAGTTTTTGCCTCTGGTGTATGATCCTGCCAGCATTTCTGCGTATTGGGGAAAACGACCACGGGCTGTTGCAACCCGCATTGTGCAATTGTTATCTGTTGCTGGAGGTTTTCTTTCACGTATTGCCTTGGATGTGATTAACAAGAAGGTTAAGGAGAATGAAGTTGCTCGAGCCATTGAGCTACGTGAAATTGTGACATCTTTGGGTCCAGCGTACATTAAACTTGGGCAAGCATTGAGCATTCGACCTGATATTCTTTCACCTGTAGCAATGACGGAGCTGCAGAAGCTTTGTGATAAAGTTCCTTCATTTGCTGATGATGTGGCTATGGCTCTAATTGAGGAGGAACTTGGTCAGCCATGGCAAAAGATGTATTCTGAGCTATCATCTTCTCCCATTGCTGCTGGTAGCTCTCCAGACAACCAGTATTTATCTTTCTTTGAAATCTATGCAGCATCTCTTGGACAAGTATATAAGGGTCGCCTAAAGGAAAATGGGGATTTGGTTGCTGTTAAAGTGCAAAGACCTTTTGTTCTCGAGACAGTTACAATTGATTTATTCATTATCAGGAACCTTGGTTTGGCTCTTCGAAAGTTTCCTCAGGCAAAATGGATTGATGGAGAGAAGCTTTCACAGAGCACAGAAAGTGATGTTGGAGAGCTAGTTAATGTTGGAGTCATCTGCTATCTGAAACAGCTTCTTGATACTGGATTTTTTCATGCTGATCCACATCCGGGAAATTTGATCCGCACTCCTGATGGAAAACTTGCCATACTTGACTTTGAGGTAGATGCCACTTCGTTTAATGCTAGGTCCGCTGTTAAGTCGGGGCTTGTGACAAAACTGACAGATGATCAAAAGTATGGCATGATTGAAGCAATTGCTCATCTCATCCATCGGGATTATCCAGCCATAGTAAAAGACTTTGTTAAACTTGGATTCATTCCAGATGGTGTCAATTTGGAGCCTATATTGCCTGTCCTTGCCAAGGTTTTTGATCAGGCATTAGAAGGTGGAGGGGCTAAAAACATCAATTTTCAGGAGCTGGCTTCAGATTTAGCTCAAATTACCTTTGATTATCCTTTCAGGATACCCCCATACTTTGCGCTTATAATTAGAGCTATTGGTGTTCTGGAAGGGATAGCTTTAGTAGGAAATTCTGATTTTGCCATCGTTGATGAGGCCTATCCATATATTGCTCAGAGGCTCCTCACAGATGAATCTCCTCGGCTAAGGGATGCTCTACGTTACACTATATATGGGAAATCTGGAGTTTTTGATGCTGAAAGATTTATTGATGTCATGCAAGCCTTTGAGAATTTTATTACAGCTGCCAAAAGTGGTGGTGGAGAGGATATGAATGGGAATATGGCTGAGCTTGGGATTCTCGCTACCAGCCAGTCAGAATATTTGTTGCCAGGAATCCAATCTGTTATTCCTCAACCACAGCAGCCAGTGCAAACAAGGGCAGCTTTAGCGTTTCTGTTGTCTGACAGGGGGAATTTTTTCCGAGAATTTCTTTTGGATGAGATTGTTAAGGGAATTGATGCAGTAACAAGGGAACAATTGGTGAGAACAATGTCCATACTAGGAATTCAGAATGCAACCCCTGTTTTCAGTATGGTACCGACCGTGGGACCCTTTAAGCCTGCGGCTCTAATACCCAGCATAACGGAAGAGGATGAAGTTATATTGAACAATGTGCAGATGGTGGTGGAATTCTTGACTGCAGGAAGTTCCCTATCAAGAACATCTGGTCAGGGATTGAATATTCCTCAAATTATTCAAGAGCTTCTCCCAGTGCTGCCGGGCATCTCTGTTAAAGTGCTTCCTGATGTTCTTAGCAGATTATCGTCTCGGGTTTTAGCACGATTAATACGTGATACATTTTTGTAA


Promoter Sequence:
>Vu_28609::LG8:11618156-11620156(+)
TTCTGCATCATTCTGCAGAACTTTTGCAGAATGATGAACACGCTAGATTTTACCAAAACTAAACATTTTTCCCAACTTCTAATCCTCCATACATGAATCATATACCAATTTACACTTATCCAAGGGTACCTAAATCTTTCTGACATCATTCCAAAGAGTCTCATACCATATTTCACTCCAAATTCTACATAATCAACAAATCAATGACCTAAAATCCATTTTCCTACTTTCTACACATTTTAGAGGGACTTAAAGGTTCTAACATGTCCAATTACACTTTCTCATACTCTCCTCACTGACCAATTTCACTCCCAACCCCAAACTCTCATTTTCACCTACCCACTTCCTCAAGACCAGAATAGGCCGAACACTTATGTAGAGAAACTCCAACCAGTTCATAGGTTCCAGCATTCACAAATTCAACACAATTCAATCAAACATGAAATTTACACACATGCAACCATCCAAACAGTAATTTCATACATAGAAAATCACAATTAAATTAACTAGCTTCATTTACCTCTAACCGAATCAAACAACTTCTACAACCTTCAAGAATTTGCTTACTCTTCAAGGAAATTCTAAGAACACCAATGGACCACCGATTGATGAAAGAAGATCAACCGTAGAACCAAAATGAAATCAGAAAGGGAAGAAAAGGATTGCGGAACACATGCAAACATCATTGTTCCTTGCATGCATCAGAAACCAAAAATCACTAAAAATCGGAGAACGAGACTTACCAGTTCTAAACGCTAAACCAAACGGTGCAACAGAAAGCCCTTGACGCCAGAATCACTTAGGTGCCTCCTGATCATCGAATAGATGAGCCACTGGTGAGAAATTATAGAGAAAAGGGAGAGGAAGAGTAGAGAATAGTGTTTTTAGAGAGATAAAAAATATTTAGATAATGAACCAAGTGTTTTAAATTTCTATTTACACTGTTGACTTATTTTAACACAAATGCTTGGTCTCATTACTTTAATACATCTATCTATTCTTAACATACTATTTCATGGATTCTTACTATTCATTTTCCCTCAAATTTATCCTTACAAATGAAGACAACCCTAATATTAATTTCATTCAAAACTTAATTATAAACTAAAACATATTTATTTTTTTCCTCCATCACTAATTCTCTTTTAAAACTAATAAAAAAGAAGAATATAATAGAATAAAAAATAGAATGATCAATTATAAAGAATCTTTATTTATAATAAAGCGACACAACAGAAAAATATAAAATAAAATTTAGTGCATGCTAGTCTTTTCGAAAAATGTAGATTTAATTATATTTTTGTCTTTTTAATTTTAAATAATTTGATGTTTATGAATTTAATGTTGAATTTAAACTGCATATGTGAAAAAAAATTACTATTGAGTCACTATTTAATTTTCAATGTGTTATGATGCGATAAATTTAATATATATTTGTACGACATTAATTATAAAATGTGTACAAATTGAGTACTTCGATATAAGACATCAAATAAATAATAACATAAATTAAACAATAAATAATTTATAAAAGTCACCATTCAACCTAAAATAAATTAGTTACATAGGAAATAACTAAAATTCCAAACATTATTCTGGGTAGGTAAATTTGTAAGTTCCGACCATTACAAAAACATCACACTCATTATTACAAACGTAAAATAAAAGGCATCGCTGTTTTTATTGACCTAATTTTTCAAAGCCAACCAAAAATAAATAACACTAAAAAAATTTCCAATCACTAACAAACCAAAAAAGTTCTCACACGTGGGAACTTCAGTTAAGTGGCTCACATTAAATATAATTAAATTAAATTAAAAATTCAGTTCTCTCTCTTGGCTCCTTCTGCAAACACTACCACCGTTTTGTTTGCATCACAAGTGCTCTTCATTCATTCACACTTAGCATATTCTCCCACCAAAACCACAGCCACAACCACGAAGCCTTCACTTTCTCGCGCTATAACCAAATTCAAGAAAAAAGAGTCACGAGTTCCGTCA


Gene Sequence:
>Vu_28609(+)
ATGGATGCAGCTTCGCAGCTTGTCTACCTCGGAATCGATCCCTTTCCTCGAAGCTCTCCATCGCCGCGCCGTCGCAACAGCCTCCTCCAACTCCGTCGCCGCTCCGGCCGCGTCTTTGCTGTCTCTGCCGAGCCAAAACCGGCGCGGCAAAAAATTGTAGATGGAGCGAATTCGAGCAGAACAGTCAACGGAGTCTCCACGGTAACCTCTCTCGGATTCTGAATATGTCGAATCGGGTTTCGTAACAGGAATTAGTTCAAAAATTCAAACGAGTTATTGCTTAATTAACTGAAGATAATTAGTCTCCCTTGTTTTTTTGCGTTGTTGCTTGCAATGGTGATAGAGAATTGGAGATGTTTCGAAGGAGATCAAGAGAGTGAGGGCTCAAATGGAAGAGGACGAACAGTTAGCGACACTCATGAGAGGTCTTCGAGGCCAGAATTTGAGGGACTCTCTCTTCGCTGAGGATGATGTTGAGCTTCGTCTTGTAGAGGTGGTGAATCGAAATTATTTCTGAAGAAATAATCTGAATTTTTTTTCTTATCATAGTATCTGTTCATTTCATGAGATGCTCTTGTTCCATATGTGTTTTGTTTATAAGGTTAATTTGTGTATGATCAATTATAAAAAATATTGAATAAAATTGTAAGCTTCATAAAATGTTATACTTAAATTCAATAAAAACTTTCAAAAAAGTTATGAGTTTAATGTATTTAAAGTTTTACACTGCTTAAACCACAATTACCCTAAAAGAAATTATATGAAAGACTTTCACATTTAAAATTTTCTAACTTATTGTTATTAAACTCAACAAAGTTAACATGCATGTTGAATTGTGATTGGACAAATGTAAGAACTTAGTCTCTCTTATTTTGTCACGCATGTATAATATTCACCAAAGTTTAAAAATATTTTCAATGTAAAGAAATATGTTCAATTATTATATATATATATATATATATATATATATATATATATATATATATATATATATTAATTTTATATGTGTAATGAACGTGGTATATTTTTAGTTGGTTACCTTAAGACTAAAATCACCAAATTTTTACAATATTTAGAAATGGAAATATATATTTTTTGGATAAGAATTTAAATAAAAGGAAAATTTCTTAATAAATTAAACCTTTTTTTTGCATGAAAAGTGACAAGCTATAAATAATTGATGTTTTATGATTTCTATCAACTCACTCCTTTTATTATTAAATTTTCCTATAGCTGGTAAAGTTGAATAGCTATTGCTTTGTAGTATTTTCTTTCAGAAGTAAATCTGTCTGTACTTCATTTTGGAAAACAAAATTTGGTAACATATAACATTCCCCTAGAGAAAAGACATATTTTTAGGTGAAAATTATTACTATGATAATTTCAGGTGGTTGTTAATTATCAATGGGAAAGTAGCTACATGAGGAATATAACAGACATTGGTACTTTGTAAATGCTGTAGGTGGAGGAGAGTAGTGAGTTTTTGCCTCTGGTGTATGATCCTGCCAGCATTTCTGCGTATTGGGGAAAACGACCACGGGCTGTTGCAACCCGCATTGTGCAATTGTTATCTGTTGCTGGAGGTTTTCTTTCACGTATTGCCTTGGATGTGATTAACAAGAAGGTTAAGGAGGTAATTCTCCAATGTTCCTATGGTCTAAAATAGATTAGCTGCATTCTTAAGCTGATGGTTGCTGTGGATGATAAATCTCCAATGTCCCTATGAACTAAAATAGTTTACCTGCATTCTTAAGCTGATGGTTTCTGTAGCTGTAATGTTCTTCCCTCTGCTTGCTGCATTCTGATTCTTGTGTTTTCTTAGTTACACTGCTTCGGAGAATAAGTTAAAAAAAAATCATGATATAGGTTTTTAGAGTTTTTATGAACTGTGGAATCTGCATCTTTTTGCTTCTATGGAAAACATTAAAATAGTTGATGTTTTTCTCTCCTGAAGAATTTATGTATTTATAAATTTTTTAAGCGAATTTTTTTAATTAATTTTTTTTAAAAAAAAATACAAAATAGTCCTAAATAAAACGCATTGGTGAAAATACAAACTAGACAATGAACATAACATAATAACTAACTACCCTTATAGCTATTTGAATTACCCACTAACATAAATATATATAAGAAGTTTTCTAGTTTTCGAAAAGGTGATAATTTTAATAGAAGGTTTTTTGTCATTATACAATATACAGTATACAATAAACATATCGTAACAAGTTAAACATTAAAGGCTTTTTTTTTTCCTCCTAGGTGGAGTTTACTACAAGGCTGAAACTGAAACAATGACATAATGTCTCAACATAAATCGTGTCTAATGACTTTGTATACTGTAAATATATAAATTAACTGTATTACTATATTTTTTATAAATATGTAAGTAATACTGTACATGTTTGTTTTATATCCAAATAATGAATAAATAGGTAGTATTGAAGAGCTTATGGCTTAAGCTTTGTGTTATGTATGGGTTGATATTTAAGCTTTTAATGGTTCCTTATATTTTGTAGTCATTGTTCAAAAATGCGATTTTCAAGATTACATTTTGGATACTCTTTTTTTGTCTTTTTTGCATAACCAGAATGAAGTTGCTCGAGCCATTGAGCTACGTGAAATTGTGACATCTTTGGGTCCAGCGTACATTAAACTTGGGCAAGCATTGAGCATTCGACCTGATATTCTTTCACCTGTAGCAATGACGGAGCTGCAGAAGCTTTGTGATAAAGTAAGCTCGTTGTTGTTTTCTCTTCAAGACATGTTATTGTTTCTATTTTAAAATACATATCTAAGTCTCATACTTTGTTATTGGGACAATACCTAGTAAGATAATTTTTTTCTTTTAACAATTTGATTTGTTAGACAACTTTGATTTATTTCTGCAGTCAATTTGAGGACTGTGAAAACAAATTTCGTATTCTTCATTTCAGTAAAAATGTAACAAGTTAGACTGGTATCATTTTGAAAATTTTTGTTCTAATTTTTGAAATAACTTACAATATTTCTTCTGTTAGCTTATTTAATTATTTAGAATCAAGATCCCTTTAAACAAAAATCGCATATAAGCATTCGCACAGGCTCATCTTGATTTCTGATATTGCAAGTATTATTCTTCTTGCTGAGATTGCCTTTTTTTGATGGGGGTGTGGGGGGACACCATAAAATATGAAGGTTCCTTCATTTGCTGATGATGTGGCTATGGCTCTAATTGAGGAGGAACTTGGTCAGCCATGGCAAAAGATGTATTCTGAGCTATCATCTTCTCCCATTGCTGCTGGTAGCTCTCCAGACAACCAGTTAGATATATTACTTTCTTAGTAGAAAAGTACAGTCTCTAAGAGCTGGTTCTCTATGTTGATTAATCGACAGGTATTTATCTTTCTTTGAAATCTATGCAGCATCTCTTGGACAAGTATATAAGGGTCGCCTAAAGGAAAATGGGGATTTGGTTGCTGTTAAAGTGCAAAGACCTTTTGTTCTCGAGACAGTTACAATTGATTTATTCATTATCAGGAACCTTGGTTTGGCTCTTCGAAAGTTTCCTCAGGCAAGTAAAATTCTTGAGAGCATAGACTTAAATTCGGATCCAAATTTATTTCTTAAAGATGACACTTGGTAGTAACTTAGAGATACTAAATTAATTAATCATTATAAATGTCGTTTGCTCAACCAAACCTCCTTTTACCTAATATTTTGCAGGTCTCTATTGATGTGGTTGGGTTGGTTGATGAGTGGGCTGCTCGATTTTTTGAGGAATTGGACTATGTGAATGAAGGAGAAAATGGGAACCGTTTTGCTGAAATGATGAGGAAAGACCTACCGCAGGCAAGTCTGTTAGTTTTTCATTTTTCATTTTTTACCACTTTTAAATTTTAATCATGTATAAATCATACATTTTCTTTTATTCAACTTCAATATATATGGTGAATCAGATGATGGTAGTCGTAAGTGATCCAACCATTCTCTTTTCTAGGCCTGTGCATCACAGCAAACATCTTAATTCACTAACTAGATCATCTTCCTTATAATAACCTGCTGCTGTACAAAGGAAATTTCATTTAATTACCTGACATCCCCAACTAACTCATACTTGAGCTCAGAAAGGGAAAATAAGGATATGTTATTTAGATGGATGACCATTAATTTGATTAATTTGATTTAGTGAGTGAATAGAAAAAGCCTTTTTAACCTTATAAAATTTTTAGTAAGTTTCTTACACCAGAGAAAACTAGAAGTCAGCTGTCTCTCATTATGGGACCTAAGAGCACATGGATTATAGTCAATATCTAAACTTCCAAATTTGGTAAAACTAGACTGGTGTCTATGGAATGAGTGATAGGGACAATAGTTATTTCTTTTTCATTTTTTTCCTTAAAATTTTTGGCTGTTTATAGATGTATTTGTAGTTACTCGAATGTACAGTGGAGTACTGATTTGTGGGTTTGTAATTTACAGAAAGTAGAAACACCTATATAACTTCATTCGCATTGTATGAGTACTCTAAATGAACTAATGCTTTATTTCATGGAAGAAAAATTGAAAAGAAACAAGGCTGAGTTTTTATCAGGATGGAATTATATTACTTTCAGCCAATGCTCATCAGTATCAGCAAATAGTATAAGTGGTCATGGAGAATTTTCTTGTATCTTCTGACAGTTTTAGTTTCAGGTTGTCATACCAAGAACCTACCATAAATATACATCAAGAAGGGTTCTTACCACAGAATGGATTGATGGAGAGAAGCTTTCACAGAGCACAGAAAGTGATGTTGGAGAGCTAGTTAATGTTGGAGTCATCTGCTATCTGAAACAGGTAATTTTGGTACTTTTTCTGGTATTATGCATTAGAATCACTCAGCTTTCAGCTAACATTTCTGTATGCAGTCATTGTATATCATTCATCTTATATATTTGATTATTTATCCTTACAATAGGTAGGTTGTTTACTCAGATTTCTACATATTCAGTAGACCGTAACAGATGATGACATTCCCAAACTTGGGTTCATGTGCATATTGCATTGACTATTTATTGCAATTTACAAGTGTGCAGGCAGTCTTGTATTCCAAGAAAATATTGTTATATATTAATAAATAAATTCTTGCTTAGCTATTCTATTTTTTGTATTAATATATTTTCATTTTACTTCAGCTTCTTGATACTGGATTTTTTCATGCTGATCCACATCCGGGAAATTTGATCCGCACTCCTGATGGAAAACTTGCCATACTTGACTTTGGTAATTTTTTGTTGTTGTAATTAGTACTGAATTATTTTATATTTGTAGATTAATTTTTTATTTGTGTTTAGGAAGAGGTAGATGCCACTTCGTTTAATGCTAGGTCCGCTGTTAAGTCGGGTAATAATTGTTATTTAATGAAGTATTATAAGAAAGAAACTATATATTTAATATATAATCATGAAGAGGATATTTTCATAGCACCATTTATCGTCATGGTTTTTTCAATTTTGAATTTTGAATTTGAAAATGAAAATATCCACTTTTTTTTGGCTGGAAAAGGAATATTCATTCCTGATCATACGACGAATTTGACAAGTATATAGTTACTGGTTAAAGATTAATTAGATAAGATTCAGAAAATTATTTTAAAACACTATTTTAGAAAATTGTTTCTTTCAGTAATTTATCAAATATTTTCAATATAATGAGTTGTAACTTGTATCTTCTTACGAATCTTTGTATTTCCATATAAAAAAAGTATTTAAGAAAGAATAAATATATTTAATTTATTATTTTTGGTGAACTATATATTTAATGTATGGGATACGTAAAAAAATCTTCAATACTTTCTATATTTAGCAACTAAGGATTATTGGGAAAGGTATTGTTGGAGATTTTAGGATTGTTCAATTTAAAGATGGGAATAGTGAGATTTTTTTTCCATAGACTCTAAATATAAAACAAGTGCTTCCATTACCTAATGATGCAATTTAACTCTTGTTGTGGTTCACCAAGAACAATTTGTCTATGGAAAATTAAATGTGAATTTACAAAAATATATAAGCAAACTGGAATTGGAAGCATGCCAAATTTTTTTGGTCGTTGTTTATCGCCTATCTTTAAAAGAAATAGAAAAGTGTGGTGCTTTATTTGTAACTGTGCCTGGATATTGTTCTTCACAGTGGTTCTGATGACATGAATGAAAAACTATATTGCTTAGTTTACTTTTGTTCCAAGATTCTAATCTTCATGACAAATGATGGAAGTTTTATGTTGCACCCAGGGCTTGTGACAAAACTGACAGATGATCAAAAGTATGGCATGATTGAAGCAATTGCTCATCTCATCCATCGGGATTATCCAGCCATAGTAAAAGACTTTGTTAAACTTGGATTCATTCCAGATGGTGTCAATTTGGAGCCTATATTGCCTGTCCTTGCCAAGGTTTTTGATCAGGCATTAGAAGGTGGAGGGGCTAAAAACATCAATTTTCAGGAGCTGGCTTCAGATTTAGCTCAAATTACCTTTGATTATCCTTTCAGGATACCCCCATACTTTGCGCTTATAATTAGAGCTATTGGTGTTCTGGAAGGGATAGCTTTAGTAGGAAATTCTGATTTTGCCATCGTTGATGAGGCCTATCCATATATTGCTCAGGTATAATATCCTGAGGAATTTTTAGTTATCTGTCTCATTCTTTAGATGTTGGCTTATATTTTTTCCCAATGGGTACATGTTCATGTTAATTTTCTGCATAATTGATCACTGTGTATTTACTTGAGACTTGGAGTCTTACTTGATGCATAAGATTCTCCATTGGTTTTTATTTCCAATAACGGAATCATGAACTGTGCTAAAGGGAAAATCAGCGAGATTTTATTGGGCTATATTGGTTAGATCGTATCATTCAATGGAAAAAGGGATGAAGCCAACAGCATGTGGATTGAATGAAAAATTCTGTCCTGCGCCTGGAAATAATGGGCTAACATTGTTTCAATTTGAGGTGTTCCTAGTCTAGAGGAGGCACGTGAAGTAGAAATATCAATTTTTAATAGTATACATAGAAAGAAAAACAACCTCTATTTAGTGTTATTAATTAGAATAAACACTTCATCCAAATTTTCTCCAATCATAATTCTTGACTAGTTTTTAATTGTTTTCACTTGACACAAAAGAATGAATCTCCTCGTCCAGTTTATTGCTTTGAACATGGAACCACTATGATTTTGCATCCCCACACACTGCAAACTGACTGGTGTTACTTTATTACATTCTTTTGATTATTCTGAGTAATCTGAATTGATATTGATAATTTTCTCTTATAGAGGCTCCTCACAGATGAATCTCCTCGGCTAAGGGATGCTCTACGTTACACTATATATGGGAAATCTGGAGTTTTTGATGCTGAAAGATTTATTGATGTCATGCAAGCCTTTGAGAATTTTATTACAGCTGCCAAAAGTGGTGGTGGAGAGGATATGAATGGGAATATGGCTGAGCTTGGGATTCTCGCTACCAGCCAGTCAGAATATTTGTTGCCAGGAATCCAATCTGTTATTCCTCAACCACAGCAGCCAGTGCAAACAAGGGCAGCTTTAGCGTTTCTGTTGTCTGACAGGGGGAATTTTTTCCGAGAATTTCTTTTGGATGAGGTACTCTCTTGAGGCACTGAAGAAACATTTGTTTGTTGTCATTAGAATATATGGAAATAGAAAAAATATTTTATCATATCTTTGATTGTCCTCTTCGAATAGTTACCATATCTAATTATCCTATCATGATTTCTTTCTTTAAAATAGGGTCGTGATTAGTATAAACAACTGTTAGTGCAGTTTTATGAATGTATAAGTACATTGTCACATTTCAATAACAATTTTGTGTTACTCATTGTATTTCACTTCTTTTCCTCGTTCTATATCTAAAATCACCTTTTTCAACTGATAGTTATCAATGTTTTTAAATATAGTTTCATATCTTGCTTACTCTGGATCTTTCTATTTGCAAAGGAATTTTGTTATTTACTCTTTCCAGAAGAAATATTTATTTTCACCTTCTTGTCCTTGACTCTTTGATTTGTTGTTTGTTTGTTGTATCCTACAAGTAGTATAAAACTAAAATCTGTAGAAGTTTTTAAAATTAGACTTTCAATGTTTATCTACTTACTATATGTGAGAAATAGATTTACTATTTGTTGAAATAATTCGTGACATTCAATTTGCTCAATGTTCTATGCTATACATATTTTCTTTTGAATTAAACCCAGGAACATTGATGAAGTTTTCTGTTTTCCCCTTCATTTTGGGTTGTGTCTTTAAGGATATTTTATTTGCATGTCTTCTTTGTTAATAATTTTCTTTATCATATTACAAAAAGAAATGTTTTATACATAATATGATTTGTGTTTCACTAGTTATTGGGTCAATAGTGACATTTCATAAATTGATGGAGAACATTTCAATTACAATTCATAACATGTATTCCATATTATGTTTCTAATCATGTCTTGTATCTGGTTACTGAAGGAAATTGATACTTCAATTCATAAGATGTATTATTGAAAGCTTAACGTAAAAAAAAAAATGAAGGTATTGGTATAAATGCATACTTAATAGTAGTACTTATAACTATATCAATTTAAAATTTATTGACTAGTCTGGTTATAATTGTAGCCATAGTAGCTGCTTAATTTGCAATTAGAAAAAGCTTGCCACCACAAAAAGGAAAAACAAAAATGAAAATAAATAAAACAACAGAACTTGGGGAACCTCTTGGCAGCATAAAGACACGATCAAGATGAGCTATACCTTTGCATATCCAATTATTGTTGTGTTTAGCCGAACTTCTTATGGTCTTCTAGTATGGAACACATTTTATCACAAGTATTGACATGATCGTTCAGATTTGATGTCAGCACAAAGAATTGACTGCATTCATTATGATTTTCAATTGGGGAACCTCTATAATATTTTATAGGGATGGGAGTATTAATAGATAGTTGCATCATTGCATGCACCTACATGGATACAGTTATTATTGTAAAAAAGAAAAACACTAGAATACATGAAATATGTAAATATTTCAAGATATTTAATTGGATTATGTGAATTTTATGGTTGCTTAGTTAATTCTATTACATTTGTGGCTGTGGTAAATATAGTTTTGTAGTATGTAATGTATTACCACTGTCATAAATCATAATAAAATAATGGTGTGTGAGAGAAACTAGTCTGTTGAAGTTACTGAGATTTGAATGACTTCTAATGCCTCCCTTCTGAGCATTTATGGAGTTTATGGCTTCCAAATATTTGACTGACTTTATTGCTGGTGGAAGCAGATTGTTAAGGGAATTGATGCAGTAACAAGGGAACAATTGGTGAGAACAATGTCCATACTAGGAATTCAGAATGCAACCCCTGTTTTCAGTATGGTACCGACCGTGGGACCCTTTAAGCCTGCGGCTCTAATACCCAGCATAACGGAAGAGGATGAAGTTATATTGAACAATGTGCAGATGGTGGTGGAATTCTTGACTGCAGGAAGTTCCCTATCAAGAACATCTGGTCAGGTAATGAAGAATTCCCCGCTCAAAATCATAATGCAAGCACACACTTTCGGACAAACTTGAAATTTATTAAAAATTACAAAATTTGGCTGGTTTCATTTTATTTAATGAATCTCTTCAATTCCCTATCAATTTTAACCAATAAAAAAACTCTAAATGCAGTTCAAGTTCAAGATAGTTATTTATTTATTCGTCGTCTTGTTTGTGATGTCATAGGGATTGAATATTCCTCAAATTATTCAAGAGCTTCTCCCAGTGCTGCCGGGCATCTCTGTTAAAGTGCTTCCTGATGTTCTTAGCAGATTATCGTCTCGGGTTTTAGCACGATTAATACGTGATACATTTTTGTAA