Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_03001 LG1 42731619 42737822 PREDICTED: calcium-dependent protein kinase 3-like
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   protein autophosphorylation, N-terminal protein myristoylation, N-terminal protein myristoylation, protein autophosphorylation, N-terminal protein myristoylation, abscisic acid-activated signaling pathway, N-terminal protein myristoylation, peptidyl-serine phosphorylation, regulation of stomatal movement, N-terminal protein myristoylation, N-terminal protein myristoylation, protein autophosphorylation, abscisic acid-activated signaling pathway, peptidyl-serine phosphorylation, protein autophosphorylation, intracellular signal transduction, peptidyl-serine phosphorylation, response to salt stress, response to salt stress, protein autophosphorylation, abscisic acid-activated signaling pathway, N-terminal protein myristoylation, regulation of anion channel activity, regulation of anion channel activity, N-terminal protein myristoylation, regulation of anion channel activity, protein autophosphorylation, N-terminal protein myristoylation, abscisic acid-activated signaling pathway, N-terminal protein myristoylation
Cellular Component   is active in   cytoplasm, nucleus
Cellular Component   located in   plasma membrane, plant-type vacuole, membrane, plasma membrane, chloroplast, cytosol
Molecular Function   enables   protein binding, calcium ion binding, calcium-dependent protein serine/threonine kinase activity, protein serine/threonine kinase activity, calcium-dependent protein serine/threonine kinase activity, calmodulin-dependent protein kinase activity, protein kinase activity, protein serine/threonine kinase activity, protein binding, protein kinase activity, calcium-dependent protein serine/threonine kinase activity, calmodulin-dependent protein kinase activity, calmodulin binding, protein kinase activity, protein binding, calmodulin-dependent protein kinase activity, protein serine/threonine kinase activity
Pathway   B 09159 Environmental adaptation   C 04626 Plant-pathogen interaction [PATH:ko04626]
SNP Position Effect Amino acid change
G/A 42731988 synonymous_variant p.Leu83Leu
T/C 42732288 synonymous_variant p.His183His
G/C 42732408 splice_region_variant&intron_variant
C/T 42732461 downstream_gene_variant
T/G 42732475 downstream_gene_variant
G/A 42732499 downstream_gene_variant
A/T 42732546 downstream_gene_variant
A/T 42732685 downstream_gene_variant
A/T 42732807 downstream_gene_variant
T/C 42733053 downstream_gene_variant
A/G 42733080 downstream_gene_variant
A/T 42733090 downstream_gene_variant
A/G 42733194 downstream_gene_variant
C/G 42733246 downstream_gene_variant
A/T 42733253 downstream_gene_variant
T/A 42733382 missense_variant p.Leu301Gln
A/T 42733388 missense_variant p.Lys303Met
A/C 42733588 downstream_gene_variant
C/T 42733934 downstream_gene_variant
T/C 42734012 downstream_gene_variant
C/T 42734016 downstream_gene_variant
G/A 42734033 downstream_gene_variant
G/T 42734044 downstream_gene_variant
G/A 42734047 downstream_gene_variant
A/C 42734048 downstream_gene_variant
G/A 42734056 downstream_gene_variant
C/G 42734094 downstream_gene_variant
G/T 42734105 downstream_gene_variant
T/G 42734117 downstream_gene_variant
T/C 42734122 downstream_gene_variant
A/G 42734163 downstream_gene_variant
G/A 42734176 downstream_gene_variant
C/A 42734209 downstream_gene_variant
C/T 42734219 downstream_gene_variant
A/G 42734243 downstream_gene_variant
A/C 42734250 downstream_gene_variant
A/T 42734267 downstream_gene_variant
T/A 42734348 downstream_gene_variant
G/C 42734368 downstream_gene_variant
G/T 42734461 downstream_gene_variant
C/T,* 42734532 downstream_gene_variant
A/T,* 42734537 downstream_gene_variant
T/G,* 42734618 downstream_gene_variant
C/G 42734733 intron_variant
C/T 42734796 intron_variant
G/T 42734829 intron_variant
T/C 42734864 intron_variant
G/T 42734869 intron_variant
C/T 42735259 intron_variant
A/T 42735266 intron_variant
C/T 42735280 intron_variant
C/T 42735747 intron_variant
C/T 42735799 intron_variant
G/A 42735817 intron_variant
A/G 42736051 intron_variant
C/T 42736239 intron_variant
C/T 42736476 intron_variant
A/G 42736704 intron_variant
A/T 42736995 synonymous_variant p.Thr461Thr
G/A 42737174 intron_variant
A/C 42737414 synonymous_variant p.Ala502Ala
C/A 42737592 3_prime_UTR_variant
G/A 42737594 3_prime_UTR_variant
T/G 42737667 3_prime_UTR_variant
C/G 42737737 3_prime_UTR_variant
C/T 42737749 3_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_03001.1
MGNCSSSSNGGGAASSTTTYYDDLPQRNGITVLPPNTNPSPPPPKPQASSSLGRVLGRPMEDVRSIYIFGRELGRGQFGVTYLVTHKTTKEQFACKSIATRKLVNRDDIDDIRREVQIMHHLTGHRNIVELKGAYEDRHSVNLIMELCAGGELFDRIITKGHYSERAAANSCRQIVTVVHNCHSMGVMHRDLKPENFLLLNKDDDSPLKATDFGLSVFFKPGDVFRDLVGSAYYVAPEVLKRSYGPEADIWSAGVILYILLSGVPPYWAENEQGIFDAILRGHIDFASDPWPSISTSAKDLVKKMLRADPKERLSAVEVLNHPWMRVDGDASDKPLDIAVLSRMKQFRAMNKLKKVALKVIAENLSEEEIIGLKEMFKSMDTDNSGTITFEELKAGLPKLGSKLSESEVRQLMEAADVDGNGTIDYIEFITATMHMNRMEREDHLYKAFEYFDDDKSGYITMEELESALKKYNMGDEKTIKEIIAEVDTDNDGRINYDEFVAMMRKGNPDINHITQRRRK*


CDS Sequence:
>Vu_03001.1
ATGGGTAACTGCAGCAGCAGCAGCAACGGCGGCGGTGCCGCCTCCTCAACCACCACTTACTACGACGACCTTCCCCAGCGCAACGGCATCACCGTCCTACCTCCGAACACGAACCCTTCACCCCCACCCCCGAAGCCACAAGCGTCGTCCTCGCTGGGCCGGGTGCTGGGCCGTCCCATGGAGGATGTCCGGTCAATTTACATCTTCGGGCGCGAGCTGGGCCGCGGGCAGTTCGGCGTGACGTACCTGGTGACCCACAAGACCACGAAGGAGCAGTTCGCGTGCAAGTCGATCGCAACGCGCAAGCTCGTGAACCGCGACGACATCGACGACATCCGGCGCGAGGTCCAGATCATGCACCACCTCACCGGCCACCGCAACATCGTGGAGCTCAAGGGCGCCTACGAGGACCGCCACTCCGTCAATCTCATCATGGAGCTCTGCGCTGGCGGCGAGCTCTTCGACCGGATTATCACCAAGGGCCACTACTCCGAGCGCGCCGCCGCCAACTCCTGCCGCCAGATCGTGACGGTGGTGCATAATTGCCATTCCATGGGCGTGATGCACAGGGACTTGAAGCCCGAGAATTTCTTGCTGCTCAACAAGGACGATGATTCCCCTCTCAAGGCCACGGATTTTGGTCTCTCCGTCTTCTTCAAGCCAGGAGATGTGTTTAGAGACCTTGTTGGAAGTGCTTACTATGTTGCTCCTGAGGTGTTGAAAAGAAGTTATGGGCCTGAGGCTGATATTTGGAGTGCTGGGGTTATACTGTACATTCTGCTTTCTGGTGTTCCACCTTACTGGGCAGAAAATGAACAGGGTATCTTTGATGCTATTCTTCGTGGACATATTGATTTCGCATCGGATCCTTGGCCTTCCATATCAACTAGTGCTAAAGATCTGGTCAAGAAGATGCTACGTGCTGACCCTAAAGAACGACTTTCAGCAGTTGAAGTGCTAAATCATCCCTGGATGAGAGTGGATGGAGATGCATCTGATAAGCCTCTTGATATTGCTGTTTTATCCAGAATGAAACAATTCCGAGCAATGAACAAACTAAAAAAAGTAGCCCTGAAGGTTATTGCTGAAAATCTTTCTGAAGAAGAAATTATCGGCTTGAAGGAAATGTTCAAATCCATGGATACAGATAACAGTGGAACAATCACATTTGAGGAGTTGAAAGCTGGTCTCCCAAAACTGGGTAGTAAACTTTCTGAGTCCGAAGTAAGGCAGTTGATGGAAGCGGCTGATGTAGATGGAAATGGAACCATTGATTACATTGAATTTATAACTGCTACCATGCACATGAATAGAATGGAAAGAGAGGATCATCTATATAAAGCCTTTGAATATTTTGACGATGATAAGAGCGGTTACATCACAATGGAAGAGTTGGAATCTGCCCTCAAGAAGTACAACATGGGTGATGAGAAAACAATAAAGGAGATCATTGCTGAAGTTGATACTGACAATGATGGAAGAATTAACTATGATGAGTTTGTAGCAATGATGAGGAAAGGCAACCCAGACATAAACCACATAACCCAAAGACGTCGCAAATAA


Promoter Sequence:
>Vu_03001::LG1:42729619-42731619(+)
GAGATTGTATTTGTTATAATAGTACTTATTTTTCAACACACGGTGATCCTCGAGTTTGACACCCATTTTACAGGATTAAGGGGCCTTATGAGGTTGCATTCACTTGCTAATTTGTGCTGATATCTTGTACCGTCTCAATATTTGCTGATAATTGTGTTCTGTTTTTCACCTTTAATCTATCAAGGTTGATTAATGGTCTTTAAGGTCTGTATTATTAGGTTCAGATATTAAATATAAATAAGGTGTACAACGAGCCATGTTAAAAATAACGTAGGTATTCAAATACTAAGAATATGTCAATATAAACGATGCAAGAGGCGTGATTTTTAACATCTAACACAAATGGTTTGCATTAACTGTATTATTTTTTTAATGCATCAAATTTGTTATCTTTAATTTAAAAATTCTATTTTCTTAGAGATAAACTATATTAATTTTTTTTTTCTCTAATGCCAACGGTTCTTTTAACGCGATGTAAATAAAAAAAGTTACAAATTTATACTACGGATATGAAACTGTGCTTTGGATACTTTTATTTATGAACGTCAAAACTATATTCGAATTATTCATTTTCATCTTTTAATTTTTTTTAAATATTATGAATTAATTGTTGAAGATATGGAGACTTTAAATATTTAAAGTATTCTTGATAAAGTTGTTTACCTTCAAATACATTAAAATAGAGCGCATGTTATTATTTTATCAAAAGTAATCATAACTTTAAGAACAATACAATTTAAGAATTTACTGCTAAACGTTATTATATTTATATCTTAATTCATTTAAAAACATCAATAAAAACGACACTAAATAAGAATAACTTAATGTTAAAAGTCTAACTTTACTAAATTGTATCTTTTACAGGATTCTAATTAAAAGTATTATAAATTTTATTAAAGTAAAATTGTTAAACAACAAAAGTTACAACTACAAATCCGCGGTAACACTTTAGGACGGCATTGATGGATTTAAGTGCCTTACAGACAAAAGGTGCGGCATTACTGCCCTTTTATTTCTTTGTTTGCATAAAATAATTTTGATGTTTAAAATGCAGCATTAAAAACAGTTGTATCTTGTTGTACCGGGTGACTGATTTCGAGATTGAATGACTTGCTAGAAGCTATTTTGGACTCGTATGAGCAAAATGAGGAGTTTCATCAAACAATGTTCATGTATGAGTTCACTTCATTGAAGCTAGAATTTTGGCTGAAATACAATGAAAAATTACTGTTCAACTGAAGGTGGATGTACATGGGCCAAGCAAGATTTAAAACACAACAAGTGAAGGATGTATAATACAATTTTCTCACTTAGAATACATATTTTTTTAACCTTTAAGCAAATACATCTTTTTAAAAGCAATTTTTAATTAATATATATAAATCATGTTTCTATTTAATTTTTATTTTACAATTTAAAATTGTTATGCAGTAGTGGTGAGATAGGTTAATGTGGGTTGAGACCTAAACATAGAACTTGTATCCAACTCTTTTGTATGGTATGAAATTTAAATTTTATTTTATTTTCAGCTTAAGTAAATCTTATTATTTTTGAAATATTATTATGATGGCTATATTATATTAGAGTAAACTAATGATATCTTATATATTAATATTAATTTAAAATATAATAAAACTATTTTAAAGTTTATATAAAATACTCATTCCGAGTAAGGAAAACAAAATAAAAACTAACATAAAATTATTTGTGCATTTCTTTTACTGGTCTTTAAAATTTATTTTTATTAGATTATAACTGACATTATAGTTATAGTTATTTATTACAACCTGCAATACAACCTACCAAAATAACTATCTTTGATCCAATTATGACATTTTAAAGCGGATTAAGAATGGTTATGATTAATATTCATACTATTCTAGAGGAAGTATGTCACAAAACCTAATTTTTACTAGTGTGTGTGTGCGTTTTTTTTTTCTTTCAAGTATTAATTAACACAAGATGTTCATTAATTAATATCAATTAGTAATTAACAACCA


Gene Sequence:
>Vu_03001(+)
ACGCACAGCAAAGTCCATCTTAGTCTTTGTGCCGGCCACCTAGTTTTAAACACTTAGTCTTCTTCTGACCAACCAAACATCGAACTCCGACCACCATAGTTCTCTTCATTGACCCTAGACCATGGGTAACTGCAGCAGCAGCAGCAACGGCGGCGGTGCCGCCTCCTCAACCACCACTTACTACGACGACCTTCCCCAGCGCAACGGCATCACCGTCCTACCTCCGAACACGAACCCTTCACCCCCACCCCCGAAGCCACAAGCGTCGTCCTCGCTGGGCCGGGTGCTGGGCCGTCCCATGGAGGATGTCCGGTCAATTTACATCTTCGGGCGCGAGCTGGGCCGCGGGCAGTTCGGCGTGACGTACCTGGTGACCCACAAGACCACGAAGGAGCAGTTCGCGTGCAAGTCGATCGCAACGCGCAAGCTCGTGAACCGCGACGACATCGACGACATCCGGCGCGAGGTCCAGATCATGCACCACCTCACCGGCCACCGCAACATCGTGGAGCTCAAGGGCGCCTACGAGGACCGCCACTCCGTCAATCTCATCATGGAGCTCTGCGCTGGCGGCGAGCTCTTCGACCGGATTATCACCAAGGGCCACTACTCCGAGCGCGCCGCCGCCAACTCCTGCCGCCAGATCGTGACGGTGGTGCATAATTGCCATTCCATGGGCGTGATGCACAGGGACTTGAAGCCCGAGAATTTCTTGCTGCTCAACAAGGACGATGATTCCCCTCTCAAGGCCACGGATTTTGGTCTCTCCGTCTTCTTCAAGCCAGGTTAGTTAGTTACTCTAATCTTCTGGTCACTGCTCATTGATTCTGCTTGTGTTGGGTCGTGTTTGGATAATTAGTCGGAGGAGGAGAAGAAGAAGGTAAGATGTTTTAATTCTTGAATTAAGTTTTTTCTCAATTTAAAATTAATTTATTTACCCATTAGAATAAGTTTTTTGAAAATGCCAAACAAGAAAACTCATAAATTAGGTAATGAATAAGCTAATCATAATTTATCATTGAAGCTGAGTTCATTTTAGTTTATTTATATAACCAGTTTCATTAACATTTATAGAAAAAAGAAGAAGAACTTTTCATGAGTAAAAATTAATCTATTCACTTAATTCTAGAAGCGTTCGCATTTAACTTTTTCAAAAGTTTACATGCTTGCGTTGATTTATTTTAAGAAACTTAATTTATTTTATATTCTTATTTTCTTTTTATCTCTTGCAAGTGTTTATTGTGAAATTTATTAGATTGTTGGGTTTTGAGAACAGGAGATGTGTTTAGAGACCTTGTTGGAAGTGCTTACTATGTTGCTCCTGAGGTGTTGAAAAGAAGTTATGGGCCTGAGGCTGATATTTGGAGTGCTGGGGTTATACTGTACATTCTGCTTTCTGGTGTTCCACCTTACTGGGCAGGTAGAACTCCTTCCTTTTTAACTCCCTCACTTTTATTTTTTAATGTCGAATAAAAACCATACCCCAAGGTTTCATGTTAAAGTTGTTGTTGTAATCTGTGATCCCTCAAAAGAACCTATGATTGTTTTGTTGAGCTCCGAAACGATTATGTTGGCACTTTACTGTGGAAGTTTTCTTTTCTCGTACCCTGATATTCTCAGTTTAGACCCTTCCAATGGTTTTCACTTTGTTTTTAATCTTTTATGTGAAGAAAATGAACAGGGTATCTTTGATGCTATTCTTCGTGGACATATTGATTTCGCATCGGATCCTTGGCCTTCCATATCAACTAGTGCTAAAGATCTGGTCAAGAAGATGCTACGTGCTGACCCTAAAGAACGACTTTCAGCAGTTGAAGTGCTAAGTAAGTTAAACTCTACTCATGAACATAACATTTTAGTTTTAATGCCAAATGTGCTTTATATTTTATTTTAATCTCACTGACACAGAAGAAGAGAGTCATTGTTTACCTTCATAGTGAGGTTCTGAACCTGTAGGATGGATTATGCCATGATTCAGTGAGGCCGAGATAGCTGCCGAGAAATAGGACATAAGGATATCCAAAACAGTTGTTATTTGATATATAGATCTGTGATATTGATAAGGACACTGGACTATTGGAAAGTGTGATTCGTTAAATAAAAAGAAAGAGAATGAGAATTAATTGTCACATCCAAAATACTTCAACCCCCCCTAAATAAAGTTATAAAGAATAAAAGTGTAGGTTAGGACCCATTGATTCTTTCTACTAATTCCTGGATTTACATTTTCTTCTTTTCTGGTTTATACTGTGCTCTTGTTTTGTCCCTCATTAGGATAAATTATTTGGTAGTTATGAACCAATGCTTGTCCTTGCCTGACCAATCTTCGTGACATGTATAATTACTTATTTAAGTATTTTATTTTAAATTTAATAACTTAAGTACACGTCACTTAAGCCTTGTTCTTTTGAGTGGATTTGAGGGAGTGGATTTGAGGGGATTTGAGAGGATTTATTTGAAGATAAATTTTTTTGTCGTTTATTTGAGTGAATTTGGAGTTAAATGAGACTGAATTTGGAAATAAAATTTGTGAGAATTAGTATAAAATTGTATTGACGTGACAAATTAAAAAAATTTATTTCCAAATTCACTCTCATTTACCTCCAAATTTACTCAAATAAACGACTAAAAAATTTATCTTCAAATCCACTCCCTCAAATCCATTCAAAAGAACAAGGCCTTAATGATTGATAGGAACCATAGAACAGCTGGTGGTCCAAACCACTTTATAACTTCCCCCTACTTACACGTGTTTGATATAAGGATAGAGTTATTAGTGGGAGTTTATTCTGATTAATATTTTGCTTGAAAGTCAGATTGCCTCTTTTTCTCAAGCACTAACGCATCATAATCACATTCAAACTAAAACTCTCTTGGTAGTTTACTTATTTGAATGAATCCATCATAACATATCATATATAGATAGTTCAATTTGTGTCACATATCTATATTTGACATGTATCGGTATATGATACTTTGGGATATTTTATCGACATTTATCAATGAAGTATTTAATTTATAAAGTACTAATACTTTTATGATAATAATAATTTAAATTTTTTTTGTTTTGACAATATTTAGTACATATTATTTTAATTTGGATTCACATAATAACAATCATATATTTATCATATTATTTTAAAAAATTGTATATTTTTCAATATGTATATATCACGCCTTGAATCCTTTTATTTTCAAATTAAACATATTGCCGTTGTATCTAATACACATATAGTATCCATGCATCATAGATCTTAACATAATATGTTATATATGGTGCAGATCATCCCTGGATGAGAGTGGATGGAGATGCATCTGATAAGCCTCTTGATATTGCTGTTTTATCCAGAATGAAACAATTCCGAGCAATGAACAAACTAAAAAAAGTAGCCCTGAAGGTAAATCATCTTTTATCGTCATTTTTTTTGGTTCTCATCATGAACATCATCAAGTTTTTTGTAAAATATCTGCAAACTCCACTATATTAAAATCCTTTTGGATTAAGATAGTATGCGTTAATGGAAAATCCATAATATAAACAAATAAATATGTAGAGAAGGTCTTCATAGCTGACTTGATCAAAGGATAGATGCTTTTGTTTCTTTCAGTTAAGCTAATACTTTGGCTGCTAGTGAATCCGCCTCCTCATATGCCAATGTAACGATTCTAGTACTTTGGAAGCAGTATATTATTTAGTTAGCAATAAGATAGATCCGTCTTAAAGGAATTCGTTTCACACACACCTTCAAGACTTGGTTTCACACACACCCTCAGTGTCCACTATTCGGATTAAATGGCTAATGAAATGAATTTTATTAATTTATGAACTATTTGATTGCAGGTTATTGCTGAAAATCTTTCTGAAGAAGAAATTATCGGCTTGAAGGAAATGTTCAAATCCATGGATACAGATAACAGTGGAACAATCACATTTGAGGAGTTGAAAGCTGGTCTCCCAAAACTGGGTAGTAAACTTTCTGAGTCCGAAGTAAGGCAGTTGATGGAAGCGGTAAGATCAGTGTCCTCTTCTTTTTCGGTTGTAAGTTTTCTTATTGGTTCTTCCAAAAGATTTGCACTCCTTTGTTGATTACCTAATGAGAATGTTTGAAGTTTACACGATATCTCATCCTATCTCTAAATGTGACCTTAAATACTACCCAAAGTTTTGTCACCCAGCATGCTGTAAGAAATTGCTATTGTAACATGAACTGGCAGATACCCATTGTGGTTTGCTTCAATTTTTACTATTCAGACTCTTGTATCTCTGGTTCATTTCATCGCAGGTTAAAAGTAAATTGAGTAACCTAAACTTGGGTTGTTTGATGAACTTACCCTTCTTCTATAGTATCTCAAGTTAAATTTAGCAGATCATGGTGAACAGTTATATATTCTTTCATAAATGAAAGGTACTAGGAAGCAAGAAAGACTAAAAAGAAGAAATTAAGTATGAAAATATTTCTTCTGCAGTAACAGGTCTGAAAAAAGGGTGTTCAGATCCTGGTATGTTCTGTGTACACGGTTATGATAGTGTCTAGTCTCTCCCAGCCCAGGCCTAATTTAACCTACCTTATACATATCTTTCTTTACATACTCTCTCTCTCTCTCTCTCTGTACAACAAACTCAGGTGCATTTCACCTTTTCCCAATCGTTTCATACTCCTTAAGCATCTTGGGCCATGGGGCCACATCACTTAACTACTGGAGCTTGGCTCCCCATAGCTAAGTTAGTTTGTGTGTGAAATACCGTTAAACTCATTCTGTGCAAGCTCATCCTGTTTTGTTTATATCTGTATCAAAAACCTAGGTTTGCATTTGTGATGCACTTATGCTAAACACATGGAGATATTCTCCCCATATCTAAGTATCTCTCCTAGCCCATGTACATACCTTATATACAGTTAGCTCTTTGTTTGCACTATTATTTCCTGTCCTGTAGATAATCATAAGCATGTAATCCTTTTTTGCACGTATAAAGAACTTGGTGCTTGATGCATCTATGTGCTGTGTGTAATAATCACCGAGACTGGAGATGCCAAGATGGATAATATTTTCATGGTTGCATGATATTGTAATCACTAGTCTGACACTTCTCTTGATTTTACTGATGTTTCTACATGATCGTAATTATTTGGTTCTCAGGCTGATGTAGATGGAAATGGAACCATTGATTACATTGAATTTATAACTGCTACCATGCACATGAATAGAATGGAAAGAGAGGATCATCTATATAAAGCCTTTGAATATTTTGACGATGATAAGAGCGGGTAATTTAATTTATTTTTCATTCATAATTTATACTATAGCAACATTATCACCTTAAATGTTGATTTTTGTGGTGGTTTTCTTCTTGTTGCTTCTGTTTAGTTACATCACAATGGAAGAGTTGGAATCTGCCCTCAAGAAGTACAACATGGGTGATGAGAAAACAATAAAGGAGATCATTGCTGAAGTTGATACTGACAATGTAGTTACTTTCCTTTTACTCTTTTTTGCTCCTTTATATATGTTTTTTTAGCATAATCACAATCACATGCAACAATAATGTCATTCTGGAAAATGCTGTAATTATATTGTTGGGTAATACTGCTTTCTTCTTTCTTTATAGAACAGGTCTAGAATTTTTCCTGTCTGTTGTTATCTAGAAAAGCTGTATTATCTCACAGGGAACAACATTGACGGTTGTCCTAGTTCCAAATTGTATAAGTTTATGCAGTGTTGTTTAATTATCCTTTGCAATATTAACTCTCAAATTTCTTGCAGGATGGAAGAATTAACTATGATGAGTTTGTAGCAATGATGAGGAAAGGCAACCCAGACATAAACCACATAACCCAAAGACGTCGCAAATAAGTTCTGCATTACTTTGTTGAGATCAGAGTCTTTACTCGTTTTAGTATTGCGGCCTGCTATTTGACTGGGCACTTACATGATATTTGTGGGTCTAGTTGCACCAGTTTTTTTCCCTACTGCCCGAGCAGACATGAATGTGTTTTCTATTTTGTACAAATCCAAGAAAAAACAGATCCAACTTTTTTCTGTAGTGAGTTTAAGAATGTGCGATTTAGTTTCTCTTGGTTTACGCTGAGTGCTAACTTTGTATACCAGATAGATCCTACGGAGACCTATTCGTCTTATGAATAAAGTAATCTCAGAATGTGGATATGTCCCAAGGGCAGATCAGGTATACTTTGTAATTGAGTT