Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_00327 LG1 5920057 5929132 hypothetical protein
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   hormone-mediated signaling pathway, indole-containing compound metabolic process, response to abscisic acid, hormone-mediated signaling pathway, regulation of signal transduction, signal transduction, hormone-mediated signaling pathway, defense response to bacterium, protein phosphorylation, cellular response to abscisic acid stimulus, positive regulation of cellular process, cellular response to abscisic acid stimulus, hormone-mediated signaling pathway, root development, protein phosphorylation, protein phosphorylation, regulation of signal transduction, response to abscisic acid, regulation of signal transduction, protein phosphorylation, root development, cellular response to abscisic acid stimulus, indole-containing compound metabolic process, protein phosphorylation, defense response to bacterium, defense response to bacterium, protein phosphorylation
Cellular Component   located in   plasma membrane, extracellular region, plasma membrane
Molecular Function   enables   protein serine/threonine kinase activity, protein binding, protein binding, protein serine/threonine kinase activity, protein binding, protein serine/threonine kinase activity
SNP Position Effect Amino acid change
C/A 5920127 missense_variant p.Ala24Asp
A/T 5920355 intron_variant
A/T 5920358 intron_variant
A/T 5920361 intron_variant
T/A 5920386 intron_variant
C/T 5920544 intron_variant
C/T 5920711 intron_variant
A/G 5920716 intron_variant
T/C,* 5920736 intron_variant
T/G 5920802 intron_variant
A/T 5920811 intron_variant
G/A 5920888 stop_gained p.Trp48*
C/A 5921134 intron_variant
G/A 5921170 intron_variant
C/T 5921178 intron_variant
G/C 5921324 intron_variant
A/C 5921441 intron_variant
G/C 5921489 intron_variant
T/G 5921574 splice_region_variant&intron_variant
A/G 5921607 intron_variant
A/G 5921608 intron_variant
C/T 5921614 intron_variant
A/T 5921622 intron_variant
G/A 5921670 intron_variant
A/T 5921674 intron_variant
C/T 5921678 intron_variant
A/G 5921776 missense_variant p.Gln119Arg
T/C 5921800 missense_variant p.Leu127Pro
C/T 5921801 synonymous_variant p.Leu127Leu
C/G 5921856 intron_variant
G/A 5921866 intron_variant
G/C 5921888 intron_variant
T/C 5921890 intron_variant
C/T 5921893 intron_variant
G/C 5921914 intron_variant
A/G 5921917 intron_variant
G/T 5921974 intron_variant
T/C 5922011 intron_variant
T/C 5922019 intron_variant
C/T 5922022 intron_variant
C/T 5922056 intron_variant
A/G 5922109 synonymous_variant p.Gln139Gln
A/T 5922170 missense_variant p.Thr160Ser
T/A 5922313 intron_variant
T/G 5922373 missense_variant p.His191Gln
T/G 5922402 missense_variant p.Phe201Cys
G/T 5922419 intron_variant
T/*,A 5922441 intron_variant
A/T,* 5922468 intron_variant
T/G 5922601 intron_variant
G/A 5922604 intron_variant
G/A 5922605 intron_variant
G/A 5922610 intron_variant
G/C 5922618 intron_variant
T/C 5922623 intron_variant
C/A 5922633 intron_variant
G/A 5922656 intron_variant
T/A 5922671 intron_variant
T/C 5922750 intron_variant
G/T 5922751 intron_variant
A/T 5922806 intron_variant
T/G 5922815 intron_variant
T/G 5922820 intron_variant
G/A 5922826 intron_variant
T/A 5922827 intron_variant
C/T 5922840 intron_variant
T/A 5922845 intron_variant
T/C 5922846 intron_variant
C/A 5922865 intron_variant
C/T 5922891 intron_variant
C/T 5922892 intron_variant
C/T 5922895 intron_variant
T/A 5922896 intron_variant
A/G 5922902 intron_variant
G/A 5922907 intron_variant
T/C 5922908 intron_variant
T/C 5922913 intron_variant
T/G 5922914 intron_variant
G/A 5922929 intron_variant
G/C,* 5922943 intron_variant
A/T,* 5922992 intron_variant
C/T,* 5922995 intron_variant
A/T,* 5922998 intron_variant
T/C,* 5923002 intron_variant
T/A,* 5923004 intron_variant
A/C 5923314 intron_variant
G/T 5923351 intron_variant
G/C 5923550 intron_variant
G/A 5923739 intron_variant
A/G 5923744 intron_variant
T/G 5923749 intron_variant
T/A 5923767 intron_variant
C/T 5923874 intron_variant
T/G 5923883 intron_variant
A/G 5923891 intron_variant
C/T 5923899 intron_variant
C/A 5924627 intron_variant
G/A 5924661 intron_variant
T/G 5924672 intron_variant
T/A 5924700 intron_variant
G/C 5924923 missense_variant p.Cys301Ser
G/T 5925312 missense_variant p.Trp378Cys
C/T 5925669 intron_variant
G/T 5925704 intron_variant
C/A 5925937 intron_variant
T/C 5926085 intron_variant
T/C 5926308 intron_variant
A/C 5926391 intron_variant
C/G 5926396 intron_variant
T/A 5926410 intron_variant
C/T 5926417 intron_variant
G/C 5926461 intron_variant
G/A 5926518 missense_variant p.Val558Ile
G/T 5926606 missense_variant p.Arg587Met
T/A 5926608 missense_variant p.Ser588Thr
C/T 5926625 synonymous_variant p.His593His
C/G 5926646 missense_variant p.Cys600Trp
C/G 5926648 missense_variant p.Thr601Arg
C/T 5926682 synonymous_variant p.Leu612Leu
A/C 5926719 missense_variant p.Lys625Gln
C/A 5926740 missense_variant p.Leu632Ile
C/G 5926816 intron_variant
T/A 5926844 intron_variant
T/C 5926851 intron_variant
C/T 5926852 intron_variant
A/G 5926901 intron_variant
G/T 5926905 intron_variant
T/C 5926920 intron_variant
T/C 5927068 intron_variant
G/A 5927081 intron_variant
A/T 5927164 intron_variant
G/A 5927185 intron_variant
T/G 5927216 intron_variant
C/T 5927226 intron_variant
C/T 5927236 intron_variant
A/T 5927237 intron_variant
G/A 5927248 intron_variant
C/T 5927252 intron_variant
A/G 5927255 intron_variant
G/A 5927257 intron_variant
T/C 5927265 intron_variant
C/T 5927269 intron_variant
A/G 5927279 intron_variant
T/A 5927280 intron_variant
C/T,G 5927289 intron_variant
C/A,* 5927294 intron_variant
C/T,* 5927296 intron_variant
A/T 5927326 intron_variant
T/C 5927328 intron_variant
A/G 5927353 intron_variant
A/C 5927384 intron_variant
G/A 5927408 intron_variant
T/A 5927421 intron_variant
C/A 5927454 intron_variant
G/A 5928073 intron_variant
T/A 5928081 intron_variant
A/T 5928089 intron_variant
C/G 5928163 intron_variant
T/C 5928177 intron_variant
C/T 5928191 intron_variant
T/A 5928221 intron_variant
G/A 5928241 intron_variant
A/G 5928249 intron_variant
T/C 5928255 intron_variant
T/C 5928260 intron_variant
T/G 5928277 intron_variant
A/G 5928293 intron_variant
G/A 5928303 intron_variant
A/C 5928306 intron_variant
T/C 5928313 intron_variant
G/A 5928315 intron_variant
T/C 5928325 intron_variant
A/T 5928328 intron_variant
C/T 5928330 intron_variant
A/G 5928332 intron_variant
C/T 5928337 intron_variant
G/A 5928344 intron_variant
C/T 5928350 intron_variant
A/T 5928540 missense_variant p.Thr770Ser
A/G 5928666 intron_variant
C/T 5928683 intron_variant
T/A 5928685 intron_variant
C/T 5928695 intron_variant
G/A 5928729 intron_variant
G/A 5928889 synonymous_variant p.Lys819Lys
T/G 5928913 missense_variant p.Asp827Glu

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_00327.1
MYLSKGCRCEVVLFLWFSCYFLLAASQVTDPTEVEALRTIKRSLIDINGNLSNWDRGDPCTSNWTGVMCSNTTLADGNLHVLQLQLLNLNLSGTLAPEIGNLSYLEIVDFMWNDITGSIPKEIGNIKTLKLLLLSGNKLTNNLPEELGHLPVLERMQIDENNITGPIPLSFANLNSTQHFHMNNNSLSGQIPLQLSKLGSLIHLLLDNNKLTGNLPSELSEMPSLTILDLSFNQLNESIPTNKLSDNMTTIDLSNNKLNGTIPSYFSGLPRLQKLLISWSMNLCVLHFSSSLGDTICENMQMSVYSQGILNMKHNQLTSISGTTNLPSNVTLMLEGNPLCSNDSSLSQFCRRESDNNMDGSSSVLCQSQGCPPSYEYNVECICVAPLIVHYRLKSPGFSDFRAYVIEFESFLSDGLRVHTNQLFIERYTWEEGRLRMNLKLFPEYIDNSSSRQFNTNEVVRIRDMFREWDIPDSDLFGPYELLDFVLLDIYREATTPSSSSGISTGALVGIILGAIACAVTLSAIVSILILRVRMRDYRALSRRRNASRISIRVEGVRSFDYKEMALATNNFNESAQIGEGGYGKVYKGRLPDGTVVAIKRAQEGSLQGEREFSTEIELLSRLHHRNLVSLIGYCDEEGEQMLVYEYMPNGTLRDHLSAHSKDVFSFSRRLKIALGSAKGLLYLHTEANPPIFHRDVKASNILLDSRYTAKVADFGLSRLAPVPDIEGNVPAHVSTVVKGTPGYLDPEYFLTRNLTDKSDVYSLGVVFLELLTARPPIFHGENIIRQVNMTYQSGGISRVVDKRIESYPSEYAERFLTLALKCCKDSPDDRPKMAEVARELEYICSMLPDSDTKGAEYVKSDSSGTIFSSEPSSSIIRTPFISGDVSGSDLVSGSIPTIKPR*


CDS Sequence:
>Vu_00327.1
ATGTATCTTTCAAAGGGTTGCAGGTGTGAAGTTGTTCTCTTTTTGTGGTTTTCCTGCTATTTTCTATTGGCTGCTAGTCAGGTCACTGACCCCACAGAAGTTGAGGCATTGAGAACCATAAAGAGAAGTTTGATTGATATTAATGGAAATTTGAGCAACTGGGATCGTGGAGATCCATGTACATCGAACTGGACAGGGGTTATGTGCTCCAATACAACATTAGCCGATGGCAATCTACATGTTCTACAATTGCAACTGCTGAATTTGAACCTGTCTGGAACTTTGGCACCAGAGATCGGCAACTTGTCTTATTTGGAAATAGTGGACTTTATGTGGAATGACATAACTGGGAGTATACCAAAGGAGATTGGCAATATCAAAACTCTGAAACTCTTACTCCTGAGTGGAAATAAACTAACAAATAATCTGCCTGAAGAGCTTGGCCATCTTCCAGTGCTGGAGAGAATGCAAATTGATGAGAACAATATTACAGGACCCATACCACTATCATTTGCAAACCTGAACAGCACACAACACTTCCACATGAACAACAATTCACTTAGTGGACAAATCCCATTACAGCTTTCAAAATTAGGAAGCCTCATTCACCTTCTTCTTGACAACAATAAATTGACAGGAAATCTCCCATCCGAGCTCTCTGAGATGCCAAGCTTGACGATACTTGACCTCAGTTTCAATCAGTTGAATGAATCAATTCCTACCAATAAGCTATCAGACAATATGACAACTATTGACTTATCAAACAACAAGCTCAATGGAACAATTCCATCCTACTTTTCTGGTCTTCCACGTCTTCAGAAATTGTTGATATCGTGGAGCATGAATTTATGTGTCCTTCATTTTTCTTCTTCATTGGGTGATACCATTTGTGAGAACATGCAGATGTCTGTATATTCCCAAGGCATCCTGAACATGAAGCATAATCAACTTACAAGCATATCAGGCACTACAAATCTTCCTTCAAATGTCACACTCATGCTTGAGGGAAATCCTTTATGTTCGAATGACAGCTCCTTATCTCAGTTTTGTAGACGTGAAAGTGACAATAACATGGACGGAAGCTCAAGTGTTCTCTGTCAAAGTCAAGGGTGTCCCCCTTCTTATGAATACAATGTGGAGTGTATCTGTGTTGCCCCATTGATTGTTCATTATCGGTTGAAAAGTCCAGGTTTTTCAGATTTCCGTGCATATGTTATAGAATTTGAGAGCTTCCTGTCAGATGGTCTTAGGGTGCATACTAATCAGCTGTTCATTGAGCGTTATACGTGGGAAGAAGGGCGATTGAGAATGAACCTGAAGCTTTTTCCAGAATATATTGACAATTCAAGTTCTCGTCAGTTCAATACAAATGAGGTTGTTCGAATTAGAGACATGTTCAGAGAATGGGATATTCCGGACAGTGACCTGTTTGGTCCTTATGAACTCTTGGACTTCGTTCTACTGGATATTTACAGGGAAGCGACTACTCCGTCTTCAAGTTCAGGGATAAGCACAGGTGCACTGGTTGGAATAATCTTAGGTGCAATTGCCTGTGCAGTTACATTATCTGCAATTGTTTCCATTCTTATTCTGAGAGTACGCATGAGAGATTATCGTGCACTTTCCAGACGGCGTAACGCATCAAGGATCTCGATAAGAGTTGAAGGTGTAAGATCGTTTGATTACAAAGAAATGGCATTGGCCACAAACAATTTTAACGAGTCTGCTCAAATTGGAGAAGGAGGCTATGGGAAGGTTTATAAAGGTCGTCTTCCTGATGGCACAGTTGTTGCCATAAAACGTGCACAGGAGGGTTCACTGCAAGGTGAGAGGGAGTTCTCTACAGAAATAGAATTGCTGTCAAGGCTACACCATCGAAACCTTGTGTCTCTCATTGGCTACTGTGACGAAGAGGGTGAACAGATGTTGGTTTATGAATATATGCCAAATGGAACTCTAAGGGATCACCTTTCTGCTCATTCAAAAGATGTTTTTAGTTTTTCTCGGAGGTTAAAGATTGCTCTAGGATCAGCAAAAGGTCTTCTATATCTGCACACAGAAGCTAATCCTCCTATATTCCACCGAGACGTGAAGGCCAGCAATATATTATTGGACTCTAGGTACACGGCAAAAGTTGCTGATTTTGGACTTTCACGTCTTGCCCCAGTTCCAGATATTGAAGGAAATGTACCTGCTCATGTATCCACAGTAGTAAAGGGGACCCCGGGTTATCTTGATCCAGAGTACTTCTTAACTCGTAATTTGACCGATAAAAGTGATGTTTATAGTTTGGGTGTTGTATTTCTGGAACTTTTGACTGCGAGGCCACCAATCTTTCATGGTGAAAATATTATTAGACAGGTTAATATGACATACCAGTCTGGTGGAATATCTCGGGTGGTTGATAAACGTATTGAGTCTTACCCATCTGAATATGCAGAGAGATTTTTGACTTTAGCCTTAAAGTGTTGCAAAGATTCACCAGATGATAGACCTAAAATGGCAGAAGTGGCTAGAGAGCTTGAATACATCTGTTCTATGTTACCCGATTCCGATACCAAGGGAGCTGAATATGTTAAAAGTGATTCTTCTGGTACAATATTCAGTTCAGAACCTTCATCATCTATTATAAGGACTCCTTTTATTTCAGGAGATGTCTCAGGTAGTGACCTTGTCAGTGGAAGCATACCAACCATCAAACCAAGATAG


Promoter Sequence:
>Vu_00327::LG1:5918057-5920057(+)
ATTAATAAAAACATTTCATAATTTATATTAAACATACAAATTATATAGACATACTCTATGTATTATATTATTCCTTCGAAGAAAGATTTCAAAAACAGAATACTTTAAACAAAAAAAAATCATTGCAAATCACTTCACTCCCGTTTCAAATAATGCAAATCAAATCAAAGAGAATTTAAATTAAAATAGAATATATACATCGTTCACACATCTCATACTTCTTTCTTTTTCATCTATTATTCATTATTTATATATCATATATATCAAACACATGTATCTTAACTTTTCTAAACTGATTACATATAATTTAAATTCAATTAAAATATTAATAATACATTGCAATAACATAATATTTAATTACAATATTTTCATTAATTATATAAAAATAATCAAAATTTCAGTGAAACGAAAATATTGCATGTAGGTAAGTGGCATCCAAAATCCTTGAAAAAATATTGATTTGAGAATGTTTAGTGATTCAAAAGTGAAATTAAGTGTCAACAAGTCAGCGAGTTCACTAATTTTGTTACAATCGATGGTACCACAGAGACACTTAATATTATATCAAATTTTGGGACTTTTATGAGCTTAAATTGATCAATTTGACTTTTCCAAAATTGTTCATTACTAAATATGTCTTATAAGATTACAAGTTAGCTTTGTATTAGAAATTCCTTATTAAGGACTAAAACAACACAAAAGAATTGAAATTAATTTGTTCTATATGAGAAATTGATCCGATGAACTTAAAGATCTTGCTTCAAGAATTTCTCAAGTGGTTTCTGATTCTCAAAACAAATAAACAAAAAGTGAGAACTTCTAGAGAGAAGTCAAGTAACTTAGAAAAATAGTTTGTAAAGAGATAATATATTTTAAAATAATAAAACTCATTTATAATACTATTAACCTTTTAATATTAAAATAATCGAATCTCATTATTTTAAATCACTACTACATATCATTTTTTATGTATTTATAAATTTTATTTACTATATAACATGTTTCAAATATTAGTTATACTAACTTTTATTTTCATATACATAAAAAAATGTTATTATTCGTAAAGTAGTTGTTTTTTTTTCTTTAAATTTTTTAATTTTTCCTTTGATCTTTGAAATTGGAACATTCAAGCACACATGTAAGTAGTTGTCTCTTTGTTGTCCAATTCAGCCGTCAAAGGATAAAAATATCTAGGTAACTTCATACAACACCTCTTGAAAATAATACCCTAAGAGAAAGGACCAATTCCATATAATTAACCCGCTCTTATATTTTATTCCAGAAAGTCAACACCACCAGCTACATAAATAAATGTGATTAATTATATAACATGAATCTCTTGTGTTTGGTTCCACAAGTTAAGAATGGCCAACTCCACTATGAAAAGTTCTCTCCCTCTTTTTAATTACTTTAGTTGATATTTACGTATGCACCTACGTTGAAAATTAAATTAGCTACAGTAACGAAAGTGATGGCCTTCGTCACCACTCCTAAACTACACCTGCAATTCCACGTTGCATTGGAGACGTGGTCAGAAGTTTGCATTCACCTGTGTACTCAGTTTTCAATGTTAATCTTCTTTGTTATAATGACATATAAAGTTGTAGTTTACGTGTTGCTTCTCTCATATAATATTTGCTTGCAGGTTAATTATATATACAATCCTTTTCTGGGATAGGTTCTACTCTGTTGTTCCCGCAAGTGGGGTTCATTATTTTCTTGTTCTAAGCTTTCAGTGAAAAGGGTATTCTTATAAGGTTTTCTAGCTTTCTGGGATTTTTTTTACTTGGATAATGAAGTTGCTTTTGCAAAGGGTATTCTACTTTGATTTGATAGCTATCTGTGTTTTGGATTTAGAAGAATATATGGGGTGGTGGGTTTTAAGTGCACGCAAATGAATGTTTCTGACTGGTGTTGTTGCTGGTAGGGAAAGAAAAGCAAAATCCTGTTCAGTTCAGGAGGGACAATCTAGAGGCTTTGTGTTTTCTGGGTTTCTGGGA


Gene Sequence:
>Vu_00327(+)
ATGTATCTTTCAAAGGGTTGCAGGTGTGAAGTTGTTCTCTTTTTGTGGTTTTCCTGCTATTTTCTATTGGCTGCTAGTCAGGTCACTGACCCCACAGAAGGTATATTCCTTCCCTTTTGTCTTTTGTTTGCATTTATGATTCTGAAAGTGGTAGTAGGAATCAGTTGTTCTGTCCGGAAGAACTTTCTGTTAAATCCAATTGCATATATCACCAAATCTTTCCCCCTCTGTGTGGATCAAATGGGTTTTTATCAATATATTCTTTGTTATAATGTAAAATATTATCCATGAATCCATTATCAGAAAATGGAAATATTTTATCTGTGTATTGTAAAATGATAATCCCTCCATCTCATTTTATTTGTTGTGCTTGGAATATTTCTCTCAAATTATTTTCCACTTAGAATATAAGGAAAATAATGATAAATTTTTCCCAATTATGCCCTCTAGAAATGAGCTAGTAGATGACAGTTGCAACTGTTAAGAGCAATTGATCCTTTATGTAAATATGGGTGTTTTAGTCAAATAATATTATGTTATCACAGAAATGGGTATAAGTAAAAGTTTCTTATGATTTTGTGGATTATCTTAATTGACAAAATGAGATCGAGGAAGTAATATTTAGAATCAATAGAAATATTCATTTATTGTTTTCTGCAAAAAACATAAACGGTGCTGCTATAGTTTCTTTTCACATATTTAAAAAAATAATATGTTTATAATGTCATGTTTGTTTTCATTTGCCTCTCTTGATAGTATGATTGTTTCATTTACTTTAACATGCAGTTGAGGCATTGAGAACCATAAAGAGAAGTTTGATTGATATTAATGGAAATTTGAGCAACTGGGATCGTGGAGATCCATGTACATCGAACTGGACAGGGGTTATGTGCTCCAATACAACATTAGCCGATGGCAATCTACATGTTCTACAATTGTATGACTTTGATCTTCCACTAAACCTTTGTTTTTGTAATAGCCATGTCAACATATGTATAACCTTCCTTGTTTTATTAACTTTTCTCCCTTTTGATCTGCTCAGTTTCGTATAGAGTCACAATAGTTGTTGAGTCCAAACTTTATTAATCAGAAACTGTTTAGATTAAAAAATTTGAACTTACCACAACAATGGGTATTGGCTGTAAGTTCACAATGCTGTACGATGATATTTTCTGTATTTTGACAAATTCATATATCTTGAAGCCAAAGAAAAATTTCTGTTTAACTACCTTTCTATCTTTTCATTACTTATCTTTTACTTCTAGAAGCAATACTAATAATTTAATGCTCTGCATAATAGTACAGTGTCAAGTAGTATACACATGTAAGCTTCAGAATTCAGATTATATTTTCTTGATTAACTTTTGACAAATCACTTGGAACAACTTTTGCTACTACTATTGACACATGCGTTTGAGGACTGTTTATTTTTGTGTGTAGGCAACTGCTGAATTTGAACCTGTCTGGAACTTTGGCACCAGAGATCGGCAACTTGTCTTATTTGGAAATAGTGTAAGTCAGTAGCTGCATTGATGTTTCTAATGCAAACCAATCACACATCTTCAATTTTGAAATTTCTAGCTTCAACTTTTGTAAAATATATAGATTCATTTGAATATTTCCATTCTGTAGCAGCTTGCAATTACTTCCTCTAGTAATGGTTTGAATTTTCATTCTTGAAAGGGACTTTATGTGGAATGACATAACTGGGAGTATACCAAAGGAGATTGGCAATATCAAAACTCTGAAACTCTTGTAAGTGCAGTCATCTATCTTGGCCAGCATGCAGGACCATGGTTCAATAATTTAGCAGTCTTGATTTGATTTCCTAGTTATCAATACATATTAGTGCATGACGAAACACATCTTTGAATAAAATGAGAGTGGTGTTTCATAGGAATTTGAAGTCAAACACCTGTTTCTATAGAACTGAAATTGAATTCAATTGGTTTCATAAGTAAATGGCTGGTATTTTGACACAGAGTTAGAATATTTCTTTCCTTTCTTATCAAATAAAGTTTTTGCAGACTCCTGAGTGGAAATAAACTAACAAATAATCTGCCTGAAGAGCTTGGCCATCTTCCAGTGCTGGAGAGAATGCAAATTGATGAGAACAATATTACAGGACCCATACCACTATCATTTGCAAACCTGAACAGCACACAACACTTGTAACATTCTTTACTTATTACTAAAGTTTTAAAAACTATCACTCTTGCTACTTTCTTAGCAAGAAAACTGAAAGGAAATAATGCCTTCTTCTTTTCCCAATGGAGCAGCCACATGAACAACAATTCACTTAGTGGACAAATCCCATTACAGCTTTCAAAATTAGGAAGCCTCATTCACCTGTAAGTTATTGGTGACATGATAGCCACTGACATTTTTCTCTGGCTTTTATTTAATCCTTCATTTTGACGTTCATATTAACAAGATGTATCTTTTGGACATGCAGTCTTCTTGACAACAATAAATTGACAGGAAATCTCCCATCCGAGCTCTCTGAGATGCCAAGCTTGACGATACTGTATGATATATTATTGTTTTGGACAGGCTTGTGTGCATGTCTTTGAGTTCATTTGGTTATGAGTTTGTTTTGGATGAATAGAGTGCATATTCTTTATGTATGTTCAGGCACATCTTGCTTCTCTTCCTCTGGTTTTTATTCTCTTGTTAGATACTTTTATTCTTTGTGACAAAATGTCTGATTTTGACCGAGTTAAGCTTTTTATTTCAATTTTACATGGTAAGATGTGAATGGAATGTTGGGTACAAACAAAGTCCCACATTGGATAAAATAAGAGATGACCATGGATTTATATACACATAAGATACCTCCTTTGGTAAGAGGTCTTTTTGAGTGGTACCAAAAGCAAATATGTGAGGGCTTAAAATGAGTTTGAATGATAATGTAACCCTTGTGTTATAGTACTTAAACCCAAATTTCTAATATGTACCATTCAAACTCATTTTATTTTTAAATTTTTCTTTAGATATGCTTGCATTTGGAAAAATTTCAACAAATATATGCTATGATACTCCCCTGCCATCTTCAAACTGTTTAGCCTTTGGTTATTTCACAGAACTGTGCATTATAACTCAGGAAGAACTGTTTTACTGAGTCTTTGTTAAATAAATGAGATGGAGTAGCATGCTCATACACTGTGAAGTGATGCCAACCTATCATTACAAATTGGAAATGCAAGAAGTGAAATTCTAAAGTTGAATATTAAAAACCTAAGAACATTATGTTGGAAAGTTAACATTTCTGTCATTGTACTGTTAGACCCTCTGGTTTTTTTGAAGTTTTTGTTTCTATAATGTTAGCTGAACTTGAATCAATAAATACGTCTTACAAATAAATAAATATTTGAAGTAACATTTTAGATCTTCTTGTTATTGCAGTCAACTCGATAACAATAACTTCGATGGAAGTAGCATACCAGAATCTTATGCCAACATGCCAAAATTGTTGAAATTGTAAGTGCATTTTGTGATTTTGTGTTTACAAGGAGTGAAGCTGCGGAAGCCTTTATTTTAATGTATTCTGAATACTGATTTAAGATTCTAAACCTTTGTGATTTCTAGTTTATGAAACTTTTAATTAGAGGTGCTTAAACTATTAATATATATATATTGTTTCATGATATTTAGACAGTTTGGCACTTTGCAAAGCATATATGAAAAAGAATTCCATAACATGGTCTCATTCCCTCTCTTTTCAAATGAGTATTTACATATTGTTATTAGTCTGATACTGTTGCATTAGCCTAATGTCCAAATTGTTTTGGAAAAATATTATGGTTTTCTCTATTTCCTTTTTCTTTATTTGGAAGATACTGCACTAACATTGAATGATCAAAGTTATGCTTAACAAATTTTCATGTCTCAAATAAAAATATTTAGTTCTATGAGGAGAAATGATCAAAGTGTAAGGTTGATGGTCCATATGTTCTTACTGGTGTTTTCTTGGCTTTATCAGAAGCCTTAGGAACTGCAACTTGACAGGATCAATTCCTGATTTCAGCAGGATACCACACCTGGCTTACCTGTAAGTTTAGTTATTTCATTTTCTTTCAAATTAGTTTATGCATTGACTTTATTGGCTTTTTATCAAAAGAAGTGGCTGCACCTGACAAAATATTGAGTTAGACAATGCACATGTTTGAAAATCCGTCCAAGAATTGGTAACTGTTTCAACTGATTTCTACTTCTGTATGTTCCAGTGACCTCAGTTTCAATCAGTTGAATGAATCAATTCCTACCAATAAGCTATCAGACAATATGACAACTATGTAAGAACTTCTATTGCTTACAAATCTATTAGTCATGCATTAGTTGATTTGGATTTCTCCTTACGGATATTTTCCTCATGTTAAGTGGTTGGAGAAAATAGTCTAAATATAATTACATGGATTGCATATGATATATTATTGTCTTACTACGAGGACTTGTGCAGTGACTTATCAAACAACAAGCTCAATGGAACAATTCCATCCTACTTTTCTGGTCTTCCACGTCTTCAGAAATTGTAAGTTTGTCTTTTGTTTCACCCTTTCTTCTTCTACATCAAACCGTAATGTATTTGAACACATACATATATGGAACACTGCTATAAAATCAACGATTTTTCAAGACGTATCTTTCCCTATGACAGGTCAATTGCCAACAATGCAATCAGTGGCACTGTTCCTTCTACCATTTGGCAGAACAGGACTTTGAATGCAACAGAGCAACTTATCTTGTAAGACATGAAATGATAATTGCGCAATTTTGCTCTTGTAGGTTGATATCGTGGAGCATGAATTTATGTGTCCTTCATTTTTCTTCTTCATTGGGTGATACCATTTGTGAGAACATGCAGATGTCTGTATATTCCCAAGGCATCCTGTATCCATACAAGTGTTTTGTTAGCTTTTATTTTGATTTTTCTGTTTTTGATTTGCTCTGTTGCAGGAACATGAAGCATAATCAACTTACAAGCATATCAGGCACTACAAATCTTCCTTCAAATGTCACACTCATGTAAGAGTGGTGGAGAGCTTATCCTCTTTCTTTGTCATGATCGTTCATAATAATAACTTGCCACATTATTATTGAAATTACTGTTTTTCAGGCTTGAGGGAAATCCTTTATGTTCGAATGACAGCTCCTTATCTCAGTTTTGTAGACGTGAAAGTGACAATAACATGGACGGAAGCTCAAGTGTTCTCTGTCAAAGTCAAGGGTGTCCCCCTTCTTATGAATACAATGTGGAGTGTATCTGTGTTGCCCCATTGATTGTTCATTATCGGTTGAAAAGTCCAGGTTTTTCAGATTTCCGTGCATATGTTATAGAATTTGAGAGCTTCCTGTCAGATGGTCTTAGGGTGCATACTAATCAGCTGTTCATTGAGCGTTATACGTGGGAAGAAGGGCGATTGAGAATGAACCTGAAGCTTTTTCCAGAATATATTGACAATTCAAGTTCTCGTCAGTTCAATACAAATGAGGTTGTTCGAATTAGAGACATGTTCAGAGAATGGGATATTCCGGACAGTGACCTGTTTGGTCCTTATGAACTCTTGGACTTCGTTCTACTGGATATTTACAGGGAAGGTGAGTTACAGAAACTTATGATGACATGATAGAGTGTTTAGAAGTACTTGGACAATGTTAACAAGAAAAATGAAGTTGAACCTCAGTCAGGTGGTTGAACAGTGATCATGAAAACTTAGTTTATGGACAAGTTAAATTTTTTTAGAGAGATCTACATATTAGCTAGATGAGTGAGTTTTTATATATTAGCTTATGCATAAGCTAATTTTAGTTGATTGAGAAACCCAATTCATTTTTCCTTCATATTTTTTCTCTACTAAAGTTGCTTATAAAGAAGCTTTTCCAAACAGCCCTAGTGGTTCTCTTGATTCTATTAATAGATCAGCCTTTTTATAGTATAGTTCATACTTCACGTGTCAAATGAGTACTTTGAAATTATGTTCAAGGTTGATACCACATATGGAATATGATATTGAAAACTGTTTTATGGTTGATCACTTGAACTCATATACTCCTTATTATGCAGCGACTACTCCGTCTTCAAGTTCAGGGATAAGCACAGGTGCACTGGTTGGAATAATCTTAGGTGCAATTGCCTGTGCAGTTACATTATCTGCAATTGTTTCCATTCTTATTCTGAGAGTACGCATGAGAGATTATCGTGCACTTTCCAGACGGCGTAACGGTGAGTATCTTATAGTGAGTTAGCCTATTATTTCTTCCTCTTAGAAATGTCTTGAACGCTTTGGCTCTTGTATAATCTGATGTCTAGATGTTCTTGCATGTTTTATTTTGGAATAACTCTATTATAAAGCTAATTTTCTCTTATCATGAAGAATGAGTTGATTGTATATATCTTAAACAAAGGCTTCAAAAATTTTGACAGCATCAAGGATCTCGATAAGAGTTGAAGGTGTAAGATCGTTTGATTACAAAGAAATGGCATTGGCCACAAACAATTTTAACGAGTCTGCTCAAATTGGAGAAGGAGGCTATGGGAAGGTTTATAAAGGTCGTCTTCCTGATGGCACAGTTGTTGCCATAAAACGTGCACAGGAGGGTTCACTGCAAGGTGAGAGGGAGTTCTCTACAGAAATAGAATTGCTGTCAAGGCTACACCATCGAAACCTTGTGTCTCTCATTGGCTACTGTGACGAAGAGGGTGAACAGGTAACTTTTGTTTCACAGTTCAAAAATGTAAACTCAAAAATAATTTTTATACAAGTTTTATTTTTGACGAGTCTTGTTATACTGTCTCATGTTTATTGATTTGATTCCACTAGAATGTGGTTTGTACTAAAATAAGATGTGGACTAAAACTAATATTAAAATTACAAGGAGTTCTACTAACGCACTGACATACTGGTTACAATGTATTTGAAAGTAGAAAAATCATCATCAAGTGCTAAGTAGAATTTACAAAATCCGATAATTTTCAATAAATTTCAGTCAATGTGATGAAATTTGAATTAGTCTTATCTCTAATGAATTTAAGGTCTCCAACACACCTCTTTTCATATCAATGCATGTATATACCATGCATGAACTAAATATTTGTAAATGGGTTAAAAGTAACAACAAACTTTATTAGAATAGACTCTAAGACATTTTAGTAAGTGAATTTTAACCAACTCATCCTTACAAAACCAACTTGTAACATAAGGATTATCTTCACTTATGTACTATAAATTAATCTTATCTCTAATCAATTTGGAATCTCCAATAGAAAGTATTGATGAATTATAGGTAGGGAACTTAAGTAATCCAAATTCATATTCTTTTGCTTAGTATCCTTTCAAAACATTTTGGTTCTGTTTCTCCGTTAATTCTTATTTCCTTTTCTGATTAGTTCATTTGTTCTGTTTGTTTATTTTATTTGTGCTTGCAGATGTTGGTTTATGAATATATGCCAAATGGAACTCTAAGGGATCACCTTTCTGGTATATTCAAATTTTTATCATCTAGTTTTCTGTATTCCTCGTATAAGTTTTCCTTGTTCTTTCTGGTTCCAATTTGGTTTCAAGTACAAAGAGACTAAAGTTATAACAATACTTTTAATTTAATAAAAAAAAAATGCCTTTCTATGTCTTAACTATGTAGCTTACGTTTTATGGCAGCTCATTCAAAAGATGTTTTTAGTTTTTCTCGGAGGTTAAAGATTGCTCTAGGATCAGCAAAAGGTCTTCTATATCTGCACACAGAAGCTAATCCTCCTATATTCCACCGAGACGTGAAGGCCAGCAATATATTATTGGACTCTAGGTACACGGCAAAAGTTGCTGATTTTGGACTTTCACGTCTTGCCCCAGTTCCAGATATTGAAGGAAATGTACCTGCTCATGTATCCACAGTAGTAAAGGGGACCCCGGTATGGCTTTCATAACTGTCTTTGCCTTCACTGTAATTGAGCATGTGTTTTAGGAACTATCAGGACAATTATGTGTATAAAATAACTGCTGGCAGTCAGGTTTGTGTTTTGTATATTGTAATTTGCAGTGTACATTCCAAATCCAAAACACAAAGATGTGTCTTGTTAAGAAATGGACCCAACTTATATATTATAAATTACTCTTATCTTTGTTTGACGTGAGATTTCCAGTATTCCTCATGCCGAGTTATACTTTGATACCTTGTTCATTAAAATTGGACTTTAAATTTAATTCAATTTTACAAAATCAACTTTTAAGGTGAAGTTTACACCCACTTATGTAATGTGAATTGTGAATTGACTTTATCTATAATCGATATGGAATTTCTAACATGTCTAACTAATTCATTGGAAATTATTTTTATATATTGGTTTAGGTTGAATTTATCCGTTAATCTTCTGTTTGTACATTGTTCTGACCGTGCAGGGTTATCTTGATCCAGAGTACTTCTTAACTCGTAATTTGACCGATAAAAGTGATGTTTATAGTTTGGGTGTTGTATTTCTGGAACTTTTGACTGCGAGGCCACCAATCTTTCATGGTGAAAATATTATTAGACAGGTAGGTTATGGTTTCACTTGTTGACAATTGGAAAAAAATAAATTGAGTCAACCTGTTTTAACTTCAGCACAAGATAACTATAACTAAAAAGAGAATATCATTTCGTTTCACCTTCTTATTTTCTTCTTCATGTAAGTGCTTATTGAGAAGTTTATCTTAGTATGACCTAAATCTTTTTGTTTTTTCCTTTTTTATTTCAGGTTAATATGACATACCAGTCTGGTGGAATATCTCGGGTGGTTGATAAACGTATTGAGTCTTACCCATCTGAATATGCAGAGAGATTTTTGACTTTAGCCTTAAAGTGTTGCAAAGATTCACCAGATGATAGACCTAAAATGGCAGAAGTGGCTAGAGAGCTTGAATACATCTGTTCTATGTTACCCGATTCCGATACCAAGGGAGCTGAATATGTTAAAAGTGATTCTTCTGGTACAATATTCAGTTCAGAACCTTCATCATCTATTATAAGGACTCCTTTTATTTCAGGAGATGTCTCAGGTAGTGACCTTGTCAGTGGAAGCATACCAACCATCAAACCAAGATAG