Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_11514 LG3 1984610 1992958 hypothetical protein LR48
 Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   response to fungus, defense response to bacterium, cellular response to hormone stimulus, regulation of immune system process, cellular response to hormone stimulus, regulation of defense response, cellular response to hormone stimulus, response to fungus, toxin metabolic process, cellular component biogenesis, glucosinolate metabolic process, protein phosphorylation, defense response to fungus, indole-containing compound metabolic process, response to osmotic stress, defense response to other organism, immune system process, glucosinolate metabolic process, cellular response to oxygen-containing compound, toxin metabolic process, response to osmotic stress, response to oxidative stress, protein phosphorylation, indole-containing compound metabolic process, cellular response to oxygen-containing compound, response to abscisic acid, defense response to fungus, protein phosphorylation, cellular response to organic substance, defense response to fungus, protein phosphorylation, response to organic cyclic compound, growth, response to light stimulus, cellular response to organic substance, defense response to bacterium, toxin metabolic process, response to abscisic acid, protein phosphorylation, glucosinolate metabolic process, defense response to other organism, signal transduction, defense response to bacterium, defense response to other organism, protein phosphorylation
Cellular Component   is active in   plasma membrane
Cellular Component   located in   plasma membrane, plasma membrane, plasma membrane, plasma membrane, nucleus, plasma membrane
Molecular Function   enables   kinase activity, protein binding, protein serine/threonine kinase activity, protein serine/threonine kinase activity, ATP binding, protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein binding, ATP binding, protein serine/threonine kinase activity
SNP Position Effect Amino acid change
A/T 1985062 downstream_gene_variant
T/A 1985307 downstream_gene_variant
A/G 1985308 downstream_gene_variant
T/C 1985603 downstream_gene_variant
T/A 1985694 downstream_gene_variant
A/C 1985697 downstream_gene_variant
C/T 1985703 downstream_gene_variant
T/C 1985733 downstream_gene_variant
C/G 1985736 downstream_gene_variant
A/G 1985778 downstream_gene_variant
G/A 1985781 downstream_gene_variant
T/C 1985783 downstream_gene_variant
A/G 1985793 downstream_gene_variant
G/A 1986266 downstream_gene_variant
T/G 1986269 downstream_gene_variant
C/T 1986334 downstream_gene_variant
G/T 1986422 downstream_gene_variant
G/A 1986574 downstream_gene_variant
T/C 1986590 downstream_gene_variant
C/T 1986613 downstream_gene_variant
G/A 1986623 downstream_gene_variant
A/T 1986670 downstream_gene_variant
A/T 1986671 downstream_gene_variant
A/T 1986739 downstream_gene_variant
T/A 1986740 downstream_gene_variant
G/A 1986810 downstream_gene_variant
C/G 1986864 downstream_gene_variant
C/G 1987303 missense_variant p.Lys551Asn
A/G 1987309 synonymous_variant p.Val549Val
C/T 1987494 downstream_gene_variant
T/A 1988250 missense_variant p.Gln390Leu
G/A 1988547 synonymous_variant p.Tyr354Tyr
A/T 1988653 intron_variant
C/T 1989004 upstream_gene_variant
A/G 1989265 upstream_gene_variant
T/C 1989351 missense_variant p.Glu307Gly
A/T 1989360 missense_variant p.Val304Asp
A/T 1989386 synonymous_variant p.Ile295Ile
T/C 1989408 upstream_gene_variant
G/T 1989471 upstream_gene_variant
T/C 1989472 upstream_gene_variant
T/A 1989499 missense_variant p.Ile286Phe
A/G 1990217 upstream_gene_variant
A/T 1990228 upstream_gene_variant
G/T 1990288 missense_variant p.Pro183His
A/C 1990444 missense_variant p.Phe158Val
A/G 1990448 synonymous_variant p.Val156Val
G/A 1990496 upstream_gene_variant
T/A 1990497 upstream_gene_variant
A/C 1990847 upstream_gene_variant
G/A 1990907 upstream_gene_variant
C/T 1990923 upstream_gene_variant
A/T 1991662 splice_region_variant&intron_variant
C/T 1991667 missense_variant&splice_region_variant p.Arg99His
C/A 1991866 upstream_gene_variant
T/C 1992398 upstream_gene_variant
A/G 1992420 upstream_gene_variant
G/A 1992449 upstream_gene_variant
A/T 1992596 upstream_gene_variant
T/A 1992613 upstream_gene_variant
T/C 1992922 splice_region_variant&intron_variant
G/T 1992952 missense_variant p.His3Asn

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_11514.1
MNHEVEIAMEPPHLTQSNSARKDSIVLKLLRPLTMRVEIKILQTISDKVENLNWRVTQGSCQEGRGFDNRKISRDEDQIIRNVTCNCSFNNDTVCHVTSVALKGIDLSGPLPDEFGNLTRLKTLDLTRNYFNGSIPKSLGRLSSVEILSLLGNRFTGSIPSEISDMTSLQELNLEDNQLEGHLPPSLGKMSNLQKLLLSANNFTGTIPEAYGKLKNLTQFRIDGSTLSGKIPSFIGNWTKLDRLDLQGTSLEGPIPSVISELIYLTELRISDLKGPTMTFPNLTNLNLLQRLELRNCLITGQIPSYIGEKQNLKTLDLSSNMLTGPIPDSFQDLEKINYLFLTNNSLSGRIPDWIQTLKQKIDLSLNNFSESFSHFCQVLDVNLASSLSPSANTSSSCLKKGQPCSGKPRFHSLFINCGGPEIEFEGNEYEADLNLRGISNYVVSDDGKWAYSSTGVYLGRDKADYVANNQFNLKINGSEYYHTARMAPLYLHYYGLCMLNGNYKVKLHFAEITFSDDNSFTSLGKRVFDVSIQGFKYLKDFNIVEEAGGVGKGITKEFNVNVTHNTLEIHLSWAGKGTNAIPERGIYGPLISAITVTPNFKVPSHGLSTGAIAGIVVGICVFIILILFALWKMGFLCGKDETDQEYAMRGYLTDKADVYSFGIVALEIVSGKSNTNYRPKEEFVYLLDWAYVLQEQGNLLDLVDPSLGSKYSSEEAMRMLQLALLCTNPSPTLRPPMSSVVSMLEGKTPIQAPPIIKGSDNAQDARFKALEFLSQDSQTHVSSAFSQDSIEQRSKSMGGPWVDSTI*


CDS Sequence:
>Vu_11514.1
ATGAATCATGAAGTTGAGATAGCTATGGAGCCACCTCATTTGACTCAGTCAAATTCTGCACGAAAAGACAGCATCGTGCTCAAATTGTTGAGGCCATTGACTATGAGAGTTGAAATTAAAATACTACAAACAATATCAGACAAGGTAGAGAACTTGAATTGGAGAGTTACACAAGGTTCCTGCCAAGAGGGTAGAGGGTTTGATAACAGGAAGATTTCAAGGGATGAGGATCAAATCATAAGGAATGTAACATGCAATTGTTCTTTCAACAATGACACTGTTTGCCATGTGACATCCGTTGCACTCAAGGGTATCGATTTATCTGGACCTTTACCGGATGAATTTGGAAATCTAACTCGACTGAAAACACTTGATCTCACTCGGAATTATTTCAATGGCTCAATTCCAAAAAGCCTTGGACGCCTCTCATCAGTTGAAATTCTGTCACTTCTGGGAAATCGCTTTACTGGTTCAATTCCTTCAGAAATTAGTGATATGACTAGTCTGCAAGAACTGAACTTGGAAGATAATCAACTTGAAGGACATCTTCCCCCGAGCCTTGGAAAAATGAGCAACTTACAGAAATTACTTCTCTCTGCAAATAATTTCACAGGGACAATACCAGAAGCATATGGAAAACTCAAGAATCTCACTCAATTTAGGATAGATGGGAGCACTTTGTCCGGGAAGATACCCAGTTTTATAGGGAACTGGACCAAACTTGATAGATTGGATTTGCAGGGCACATCCTTGGAAGGTCCAATTCCTTCTGTCATATCTGAATTGATCTATTTGACAGAATTGAGAATATCTGATTTGAAGGGACCAACAATGACATTTCCTAATCTGACGAATTTGAATCTCTTGCAAAGACTAGAATTGAGGAATTGCTTAATCACTGGTCAAATTCCTAGTTACATTGGAGAAAAGCAAAATTTAAAAACTCTAGATCTGAGCTCCAACATGCTGACTGGTCCAATTCCAGATTCATTTCAGGACCTGGAAAAAATAAATTACTTGTTCCTGACTAACAATTCTCTAAGTGGACGAATTCCTGATTGGATACAAACCTTAAAACAGAAGATTGATTTATCATTGAACAATTTTAGTGAGAGTTTTTCACATTTTTGCCAGGTCTTGGATGTGAACTTAGCTTCCAGCCTCTCTCCCTCAGCAAACACTTCATCGTCTTGTTTAAAGAAAGGCCAACCTTGTTCTGGGAAACCCCGGTTTCATTCACTGTTCATAAACTGTGGAGGACCTGAAATAGAATTTGAGGGCAATGAATATGAAGCCGACCTCAATCTACGAGGCATATCAAACTATGTTGTTAGTGACGATGGCAAATGGGCATATAGCAGCACTGGAGTATATCTAGGAAGGGATAAGGCTGATTATGTTGCAAACAATCAGTTTAATCTGAAAATTAATGGCTCTGAATACTACCATACAGCCCGCATGGCCCCACTATATCTTCATTATTATGGTCTTTGTATGCTGAATGGAAATTATAAAGTGAAACTTCATTTTGCTGAGATAACATTCTCTGATGACAATTCATTTACCAGCCTTGGAAAGCGTGTGTTTGATGTTTCAATCCAAGGTTTTAAATATTTGAAAGATTTTAACATTGTGGAAGAAGCTGGTGGAGTTGGTAAGGGAATCACTAAGGAGTTTAATGTGAATGTTACCCACAACACCTTGGAAATCCACTTATCCTGGGCAGGGAAAGGAACTAATGCTATTCCTGAAAGAGGTATATATGGACCTCTTATATCTGCTATCACTGTGACCCCAAACTTTAAAGTTCCTTCACATGGACTGTCTACTGGAGCAATTGCTGGAATTGTGGTTGGGATATGTGTGTTCATCATATTGATACTCTTTGCACTTTGGAAGATGGGTTTTCTATGTGGGAAAGATGAAACAGACCAAGAGTATGCTATGCGGGGTTACTTGACTGATAAAGCAGATGTCTATAGCTTTGGTATTGTAGCTTTAGAGATTGTTAGTGGAAAGAGCAACACAAATTACAGGCCAAAGGAGGAGTTTGTGTATCTTTTGGATTGGGCCTATGTTCTCCAAGAGCAAGGAAACCTTCTGGATTTGGTGGATCCAAGTCTTGGTTCAAAGTACTCCTCAGAAGAGGCCATGAGAATGCTACAGTTAGCACTCCTTTGTACCAATCCTTCTCCCACTCTTAGACCACCTATGTCATCGGTAGTGAGCATGCTTGAGGGAAAAACTCCAATTCAAGCACCACCAATAATCAAAGGTAGTGACAATGCACAAGATGCAAGGTTTAAAGCCCTTGAGTTCTTATCACAAGACAGCCAAACTCATGTCTCTTCTGCTTTCTCACAAGATAGTATAGAGCAAAGAAGCAAGTCAATGGGGGGACCATGGGTTGATTCCACCATATGA


Promoter Sequence:
>Vu_11514::LG3:1992958-1994958(-)
ATATTTAAGTTCCGATTAAATATAAGTAGTCATGTTAACATAAATTTTAAAATTTAAATACGTGTCATTCTTATAATAGTTTGGTCCTAAAACAGACAAAGTCCAAGGCACTTTGATAAATCCTGGAGTAGACCGACACCCACTTAATTAATCATATTTCATAAATAATAATTAATTGTTGTATTTAATTTTTTTTTTCACTTTTCTATACCTATATATACATATTTTTTTTAATTGTTTCCAAATTTGTTTTCTAATTTTATTTTTTAAAATTATTTTATTAAATTTAATTATATTTTAAATTATAAAACTATTTACAAAATAAATACAGTTATAAAATTATTTTAATTTTATAATTAAAACAATTTTTTATTATCTTAAAAAAAATAACACACATGCATGCACATGTTTTCCCTAGTAATTGATAAATAAGTTAAAAGTAATTATCTCAATTTAATTTTACAATGGCAGAGTAAATAGAGTTTGTTTATTGTACAATCATAATGTAAAAAAATTACGTCCAAAAATTAATTCTTAAAATGATTTCAAAATAGTTGTAATTAAAAGTCAAATTTATTATGCACAACTGTCTATATAAAGAATTCAAATAAATTATTGGAAAATAAATTGAAAAAAAAATGTCAAAACTGTAAGGCAAAAATCCATTTGTTTAGAAAAAAAAAAAGTATTTTCTTTCTTTGTTTTTCGATGTGATACTTTTATTTTGACTTTCTGACTGTATTATGAATGTTGAAGGAAAAAATATCCCTTCAAAAGTTTGTCATAGGTCAGACACCCTTTCCCTCCAACAAATACTTCTTCTTTCTCTTTTCTTCTTCTTCTTGTCATTTTTCCTTTATTTTCTGGAACTCTGGTTCAAAACAGAAACAACAGATTAAGGTAGTGGTCCTGATCCTGATACAAGACATGACCAAGATGCGGTTTGTGATGTCTTCAAGCTCCAAGCATGTCTCCATCTTCTTCACTTTTTGCTTTCTGGCTTTGGATCACTTCCAACACTTTGGATCTAATGCTCAACTCATACCAAAAGATGAAGGTGCTTACTTAATTTCCATTTTGCTATGTTTTTTAATGTGTTGGGAATTATAACTTCCAAAACTAAAGATAAACTGTCTTTTACTTCAACACCATCCTCGCAAAGTTGGGATCTTTCTCACATGTAGTGCAAACCCAACATTCAGAATTTAGTTCATCAACTTGCATTGCTTTTTCTCTCATCAGATCCATAGGGGTATCACCTTTTTATTTTCTTTTCTCTTTCTATTTCTCTTTCATTAACATTTAAGTAGTTTTTGTAAGGAAGTTCAGCGTCTAACTTGCTCAAAATAAATTAAAATATATGTTTGGTTTCTGTAATCTCTGTAGTCATTGAATAATCACTGCCTTGGCCTTTTTAATTTTCTGGGATTGTTTGGTTCTGATTGATTGGAAGGAAAGAAAATGGGAAGAGGTAGAAATTTTAGAAATTTAAATTGAAATTTAAAGAGAAAACAAAAGGAAAGAATATTTTGTTTTTCTTTTGTCCTTCATAAATTTCCATTTATTTGTTCAATAAATAAAAGAAATATATCCTCACTCGAGTTTCTTTTCTGTTTATGTTACTTCCATCATTGAAGCAAAGAGCTTGTATCTTCTATCATCATTGAAACAAGGGATTTGTATGATTTATTTTATTTGTATGATTTATTTATTTCTTGTTTATGACATTATCAAATTTTGGAGTGTTTTGAAGATCCAATGAAATCACAACAATTGTTCTTCACTGTTCCATGTGAAATCCTCTGTAAACGACAATGAGGCCATATTTTTTGTTATATTATTGGGGACCCACTTTTTGAAATTGCATTTTTATTTGACTGGTCGCATAATAAGAATTCTGAATGAATATTTTCTGCCAGGTATATTTTAGTTTTATTCTTTAATCACTCTCACAACATTGATTAGCATTATAATATCCGTGATTGTAGCTATCTCAAGCC


Gene Sequence:
>Vu_11514(-)
ATGAATCATGAAGTTGAGATAGCTATGGAGTAAGCTAAAAGGTTGAAAATTGTTAAATAAACGAGGGTAGGTTGGTAATAAAAGGGGCATGTGATTATGTCTAAACAGTGATAGTGACAGACTGTGTGTCAGATTATGTTCATCCTTTTTTAGATGTTTGCCCTTTTGGTGTAAGCACTAAATAGTTTTGAAATTTATTTTTAGCACCTTTTTCAGCAGTGAGAGAGGTTTCACGGGTGAACCTATGTAAATGCATCACCAATAGAGAAAAATCAATAAAATCTGAAGAAAGTTATATTTTCATACTGTAAGTATAATATATGTGATGAAAAGGTCACATCAGTTACCCTTTAAAGCATTTCTCACTGTGATGAGGATTATTCTCATGAATTTTCTTTTTTTCTTTCTTCTGTCACCAGCTGCATTAGTAGCCACCTTTTTTTCGCAATTCTGTTCATTTTTCACATGCAGAAAGAGAAAAAAAGCACTACTATTTTGATTTAAAAAGTCAAGGGACAAAAAAGAAAGTTCAAATTAATTGTGATGAAAGGATTTTGATAAATGAGTCAAATTACGTGTCAACATGCTCTAATAGTACTTTATTCCTTATGATAAACACGACATGAATGTATAAAATAATGTCATGTTTTGTGTTCCTTAAACCATACAATTTCATTTGGTTATCATTATTCAATAATCATTATTTTTCTCGTTTTATTGACTATTGCTATAATAATAATAATAATAATAATATTAATATTATTATTATTATTATGAGAAGGGTTGACCATATGAAATTTGGAAACTTATTATCTTTGCATGCATGCAAAGTTCAACTTCTTATATTTATAGGCCACCTCATTTGACTCAGTCAAATTCTGCACGAAAAGACAGCATCGTGCTCAAATTGTTGAGGCCATTGACTATGAGAGTTGAAAGTGAGTGTTGCTAAATCTTTCTGACAAATGTGAAGCACTTTCACATTAAGAGATTGATTAAATTAATTAGTAGCATAACATGTTTTTGCATGTGATGTGAAAGGTTTTTCAGACTTTATTTCAGAATTTGACCAACCTAAAATGACTTCTTTTTGCTTTGTATACTTGCAGTTAAAATACTACAAACAATATCAGACAAGGTAGAGAACTTGAATTGGAGAGTTACACAAGGTTCCTGCCAAGAGGGTAGAGGGTTTGATAACAGGAAGATTTCAAGGGATGAGGATCAAATCATAAGGAATGTAACATGCAATTGTTCTTTCAACAATGACACTGTTTGCCATGTGACATCCGTGTATGGCTTTTTTTCTCAGACCTTTTCCTATTACTATTTTATAATACAGTTTAACTTTGTGCAATTTATGACAGTTATTTACACCAGTAAACAGCAGTGTGAGTTTGAGAAAACTAAATAAAAAATAATTGTGCTGTATTTTAAAAAGCAATGCACTAAATTAGTCCTTGGAATTACAGATATTGATCATTTGAAATGGTATCATTTTAGTCCTCCCATTAGGATTTGATATTTTGATCAACGATCTATTAATTTAATTTTGAAGTGTATTAGTCAACATGGTTCCTGATATTAGTACCAAATTGATTGATACTGAAATGTTAGAAACTAGCTTGACTAGTAATGCAATTTGAAGGACCAAATCAATTATAATTATTAATTTCAAGAAATATAATTTCTCATTCATACTTTGTTTCTAGTTTTAAGTTCAAACCTCACTGCCTATTGTACATGTTTTTTACTCTAATTTCAAGAACTAATTTGGTAAGTAAACAGAAGTTTAGAGACTAATTTAGTGCTAATAGAGACCTAGATCACCTTTGGTTACTTTACATTCATTCTTGTTTATTAAAGTAAAAAGAAAATTCATTTGAGAATTCTATTTGGACACATTGGTTATGACAGTGCACTCAAGGGTATCGATTTATCTGGACCTTTACCGGATGAATTTGGAAATCTAACTCGACTGAAAACACTGTAAGTGGTTATAAATTCTTCATCCCTCTTACTTTTCTAGTTGTATGTTCACAAAATTTGTCCGTGTTAGAAGAACATATTGAATATGAATGAATCAAGTACATAATTATTGCATCACGAGTTTTATTTATTTAAACATTAGAAGTATTCATTCCAGTTCCTTCATTTGAAAATGAAGCATTATTAATTTCATCAAATGCAAAGAAATCTACTTAGAAAAAACTAACTGAAACTCTTACAGTGATCTCACTCGGAATTATTTCAATGGCTCAATTCCAAAAAGCCTTGGACGCCTCTCATCAGTTGAAATTCTGTAAGTCATCATTACCTCTGTATCTGTGTTCTTTTGTCTTGCATGTGGATAAACAGTGCACAAAACTTTTACATATATTCTAATTAAACTATTTTCTTTTTTTATTCAAAACTGGTTTGTATGATTTACCATGTTCACAGAAATTCAATTACTCAATGTACAATTGTTACCATGATTCAGGTCACTTCTGGGAAATCGCTTTACTGGTTCAATTCCTTCAGAAATTAGTGATATGACTAGTCTGCAAGAACTGTAAGCGTTTGAGAAAAACATGATGTCATAGTGATTAACATTGGAAGTGGAATAAATAAATTTGTAATACATATATACAGGAACTTGGAAGATAATCAACTTGAAGGACATCTTCCCCCGAGCCTTGGAAAAATGAGCAACTTACAGAAATTGTGAGATTGTTTGTTTTATTTCAGTAATTTTCATTTGATGTACATAATCAAATTCAATCATTAGTTTGTCTTCATTGATGCATAAATATCTACAATTTCTACTGTTTTTCCCCACAGCCTAACTCCTTTTTCTATTTTTGATTTCCTATATATGAACATGCAGACTTCTCTCTGCAAATAATTTCACAGGGACAATACCAGAAGCATATGGAAAACTCAAGAATCTCACTCAATTGTGAGTGATACGATATGATGTCATAAAATTTGTCCCTATATTTTTATTTTGTCTTTGTTAAATTATGAAACCACCCCATATTTTCTGCAGTAGGATAGATGGGAGCACTTTGTCCGGGAAGATACCCAGTTTTATAGGGAACTGGACCAAACTTGATAGATTGTGAGTCTAAATTTTAGCTTATTCTGACCTTTTCTCTTTTGAAGAACCAAATAATCCTATATTTGAATTGTATTAGTGAGAAAACATTGTTTTAAAGGGATTTGCAGGGCACATCCTTGGAAGGTCCAATTCCTTCTGTCATATCTGAATTGATCTATTTGACAGAATTGTTAGTACTTTCTTTCCCCTTTTTAGAATATCCAAATTTTTACATTTTGTCTGCATTTTAAATGGCTATAGAAGGCAATCTCCAATAGAGAAACATTTTCTTTTCATTGATGAAACATTTATATATATCAGGAGAATATCTGATTTGAAGGGACCAACAATGACATTTCCTAATCTGACGAATTTGAATCTCTTGCAAAGACTGTGAGTTGAAAACATCATTGCTCTTACGTGAAGAGCTATATAATTCATTTAGACTTTTAATGTTTGGTTTTTTCTATTACTCAGAGAATTGAGGAATTGCTTAATCACTGGTCAAATTCCTAGTTACATTGGAGAAAAGCAAAATTTAAAAACTCTGTAAGTTGCATCTAGAGTATGTTACTGGCTATAGTTGTACCTATCACTATATATGCTTTAAGTCTCTTTGTATAGACCTGTTTACCACTATTGGACCATCCATTAATGTCTAGTCTCACACTCGAGATGTATATACCTCAGCATGAGGGAGTGTGTTGGAAATTCCACATTGACATATAAGTAGGAGCAAACTTCATTTACAAGCCGGTTTAGTGGGAGTTGAGTTAGACTTAAAGTCCACTCCTTAACAATCTTCAATTCTATTGTCTTTTCGAAGACTTACTTTTAGACACTCTTCAGCTGTTTGTGTAGTCTTTTGAAAAGCTATTTTTTCAAATTATTGAACCAATTTATCTGTAATATTGTGTTTCAATTTCAAAAGGCCTGAAAAATGAGAAAAATTAAAAATTATTGGAATCTTGAAATTTCCTCTCATATTCTGCTGCTACAGTTTGGCTGTGGCATGTGCCATTACTTCATTTTAGTAATTTTCTCTTTTTTCTTTTGTTCAGAGATCTGAGCTCCAACATGCTGACTGGTCCAATTCCAGATTCATTTCAGGACCTGGAAAAAATAAATTACTTGTAAGACCATATTTTCCTCTTCCGACAAGAAGATTAACTGAAAGGATGTGTTGATGTTCCTACAAATAATTTGGTCTCAAGAATGTTTTTTGCTTTTTCTCGATTGAATTTTCTCTGATATAATGAAGCATGTGTTCATGATGGGTGCAGGTTCCTGACTAACAATTCTCTAAGTGGACGAATTCCTGATTGGATACAAACCTTAAAACAGAAGATGTAAGCATGTTTTCTTGAATTTTTACCAGCCTCTTAGTTTCATACTTTAGAATTAGAATTCTCTGAATTATGAAATTTAATCTCGCTTTATGTTCTCTTGCAGTGATTTATCATTGAACAATTTTAGTGAGAGTTTTTCACATTTTTGCCAGGTCTTGGATGTGTAAGCTTCTTTTTGTCTAAAAATTATTTAAAGCATTTCTTCACTTATGTCAATTCTAAGCATGGTATTGTTATTATTACTGAGCAGGAACTTAGCTTCCAGCCTCTCTCCCTCAGCAAACACTTCGTATGTTCTTTCTTATGATCTAGTTTTAATTCAATATCCGCTTTGAATCATCTGTTGAACTAACTTTACATCTTGCAGATCGTCTTGTTTAAAGAAAGGCCAACCTTGTTCTGGGAAACCCCGGTGTAAGTGTCTAGACTTGGAAAGTAATCATGATTTTATAAACTACAATGGTTTTGTTTTGTCGATGAAATTATGATAGTTCCATTTTGAAATCCGAACTAAAATGCATTAGAGATCAAGTTTTGTTTTGTTTGTTTTCTATCCCTGCTTTTTCATTAAGCTTAGTCATTTTTCTTAATGAACTATTCACTTTCACTGTGTTTCTGCAGTTCATTCACTGTTCATAAACTGTGGAGGACCTGAAATAGAATTTGAGGGCAATGAATATGAAGCCGACCTCAATCTACGAGGCATATCAAACTATGTTGTTAGTGACGATGGCAAATGGGCATATAGCAGCACTGGAGTATATCTAGGAAGGGATAAGGCTGATTATGTTGCAAACAATCAGTTTAATCTGAAAATTAATGGCTCTGAATACTACCATACAGCCCGCATGGCCCCACTATATCTTCATTATTATGGTCTTTGTATGCTGAATGGAAATTATAAAGTGAAACTTCATTTTGCTGAGATAACATTCTCTGATGACAATTCATTTACCAGCCTTGGAAAGCGTGTGTTTGATGTTTCAATCCAAGTGAGTAATGAAGCAAACAATTGGTTTCATATATTATGTTAGGACTTAAATGAGTCTCAAGACACATCAAGTGGCTCATCCTAGTGATTCTTTACATGTTAGACTCGTTTTCTATCTGGTTTTCCAATTAAGCAAGAGTTCTGAAGGTAGATATTTTCATCACTGTACATTGACAGGGTTTTAAATATTTGAAAGATTTTAACATTGTGGAAGAAGCTGGTGGAGTTGGTAAGGGAATCACTAAGGAGTTTAATGTGAATGTTACCCACAACACCTTGGAAATCCACTTATCCTGGGCAGGGAAAGGAACTAATGCTATTCCTGAAAGAGGTATATATGGACCTCTTATATCTGCTATCACTGTGACCCCAAGTAAGTAGCTTTGATAACAACGGTTTGATCTCTATGAAATCAAGAAATACCTTGTCTTTTCATGTCAAGTAAACATTTCCACTTTGATGTAGACTTTAAAGTTCCTTCACATGGACTGTCTACTGGAGCAATTGCTGGAATTGTGGTTGGGATATGTGTGTTCATCATATTGATACTCTTTGCACTTTGGAAGATGGGTTTTCTATGTGGGAAAGATGAAACAGACCAAGGTAAGATTATATTCCAAAGGAAGTTGGTGCCCTTATGACTTGGTTTTTGGTCATACTAGGTTCAGATTGGTTTGAAGTCAATCATGACGAATATGCATTTGTTATAGTCTTATAATATTGTAACAGACATACTTCTGTAGATATTAATAGGTTTAATCCTATACTACATCCCTATTTATGTACGAATGTCTCAATTGGGTCCTCGTTTTTTAAAGTGTATCAAAATGGTCCTTAATTTTGAAAATTGATATCAATTGAGTCCTTCCCGTTAAGTTGGCTGGACGGCGTTAAAAAAATTGATGAGTGGATGCTGAGATGACGAACGAACGCTCGTCCACCAGCGAACGAACGCTCGTCCACCAGCGAACGAACGCTCGTCGACCTCTTACTGCTGGACGACCGTTCGTTCCACACTGGAATACCGTTCGTTCGGTGGTCGACGAGCGTTCGTTCGCTGATGGACGAGCGTTCGTTCGCTGGTGGACGAGCGTTCGTTCGTCATCTCAACATCCACTCATCAATTTTTTTAACGCCGTCCAGCCAACTTAACGGAAAGGACTCAATTGATATCAATTTTCAAAATTAAGGACCATTTTGATGCACTTTAAAAAAACGAGGACCCAATTGAGACATTCGTACATAAATAGGGATGTAGTATAGGATTAAACCATATTAATATCAGATTATATTACAACAAAAAGTTTTACTGCAAAGATCTGAATTATGGTGATTTTAAGTTCAGAAAAAATGTACACTTGGGTTCTCATGAAAACAGTTCTGTAATTTCTCTCTTTTTACTTGATACTTTTCATTGAGTAGCTACATCTACCTTGTTGCAGAACTTCTAGGTTTGAAGACAGGTTATTTCAGTTTAAGACAGATTAAAGCTGCTACTGATAACTTCGATCCTGCAAATAAAATAGGTGAAGGAGGCTTTGGACCAGTATACAAGGTAACTTTGGATAGATTACAATCATCTCAAGCTGTATGAAGTTTTGAAAACATTGGGGTTGACTCTTTTATCCCCAATATTTTACAAATAAAAACATGTACTGATGACATTGTTTATTCACAGGGTGTGCTGTCAGACGGTGCTGTGATAGCTGTTAAGCAGCTTTCCTCTAAATCAAAGCAAGGGAATCGCGAATTCATCAATGAAATAGGCATGATATCTGCTTTGCAGCATCCAAATCTTGTGAAACTTTATGGCTGTTGCATTGAAGGAAACCAGTTGCTTCTAGTATATGAATACATGGAGAACAATAGTCTTGCTCGTGCACTGTTTGGTAAATGCTTCATGAACATCTTTGGTTGTGTATGCCGCTACCAAATTAAATCCAACTGAAAAAGCTTTTCTCTTTTAGGTAAAGAGCATGAGAGGATGCAATTGGACTGGCCCAGAAGAATGAAGATTTGTGTGGGGATTGCAAAGGGATTAGCTTATCTCCATGAGGAGTCAAGGTTGAAAATAGTACACAGGGATATTAAAGCAACCAATGTCTTACTTGATAAGCATCTGAATGCCAAGATCTCTGACTTTGGTTTAGCCAAACTTGACGAAGAAGAGAATACCCATATCAGTACAAGAATAGCTGGGACAATGTTAGTACTATGCCAAACCATTGTAGACTTTGTTACTTATGTCATTGTTTTTTGAAATAACTGACACGGGTACTAAATGTTTCTTACCAGTGGTTACATGGCTCCAGAGTATGCTATGCGGGGTTACTTGACTGATAAAGCAGATGTCTATAGCTTTGGTATTGTAGCTTTAGAGATTGTTAGTGGAAAGAGCAACACAAATTACAGGCCAAAGGAGGAGTTTGTGTATCTTTTGGATTGGGTAAGTTACACTTTAAATGTAGACATTATTAATGTTTCTCTTTTCTGATATTGTGGTTTACTTTCTTGATTCATAGTTTATGATTTGGTTGAAGTGTTGTAATACTATTTGTTGCATTTCATTCAAGGCCTATGTTCTCCAAGAGCAAGGAAACCTTCTGGATTTGGTGGATCCAAGTCTTGGTTCAAAGTACTCCTCAGAAGAGGCCATGAGAATGCTACAGTTAGCACTCCTTTGTACCAATCCTTCTCCCACTCTTAGACCACCTATGTCATCGGTAGTGAGCATGCTTGAGGGAAAAACTCCAATTCAAGCACCACCAATAATCAAAGGTAGTGACAATGCACAAGATGCAAGGTTTAAAGCCCTTGAGTTCTTATCACAAGACAGCCAAACTCATGTCTCTTCTGCTTTCTCACAAGATAGTATAGAGCAAAGAAGCAAGTCAATGGGGGGACCATGGGTTGATTCCACCATATGA