Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_03507 LG1 48098373 48105955 PREDICTED: protein LSD1
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   systemic acquired resistance, salicylic acid mediated signaling pathway, regulation of programmed cell death, regulation of programmed cell death, plant-type hypersensitive response, response to hypoxia, systemic acquired resistance, salicylic acid mediated signaling pathway, regulation of ethylene-activated signaling pathway, regulation of hydrogen peroxide metabolic process, systemic acquired resistance, salicylic acid mediated signaling pathway, systemic acquired resistance, salicylic acid mediated signaling pathway, plant-type hypersensitive response, response to molecule of oomycetes origin, response to hypoxia, regulation of ethylene-activated signaling pathway, response to molecule of oomycetes origin, response to superoxide, plant-type hypersensitive response, response to superoxide, systemic acquired resistance, salicylic acid mediated signaling pathway, negative regulation of programmed cell death, regulation of ethylene-activated signaling pathway, regulation of ethylene-activated signaling pathway, response to molecule of oomycetes origin, regulation of ethylene-activated signaling pathway, plant-type hypersensitive response, regulation of 1-aminocyclopropane-1-carboxylate metabolic process, plant-type hypersensitive response, aerenchyma formation, systemic acquired resistance, salicylic acid mediated signaling pathway, cell death, regulation of 1-aminocyclopropane-1-carboxylate metabolic process, response to cold, regulation of hydrogen peroxide metabolic process, negative regulation of programmed cell death, response to cold
Cellular Component   located in   extracellular region, extracellular region, extracellular region, extracellular region, extracellular region, extracellular region, extracellular region, extracellular region
Molecular Function   enables   protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, DNA-binding transcription factor activity, protein binding
SNP Position Effect Amino acid change
G/C 48098375 splice_region_variant
C/T 48098942 splice_region_variant&intron_variant
T/C 48098993 intron_variant
T/*,C 48099019 intron_variant
C/A 48099082 missense_variant p.Ala127Ser
C/T 48099426 intron_variant
G/T 48099449 intron_variant
C/A 48099483 intron_variant
G/C 48100069 intron_variant
A/G 48100188 intron_variant
A/G 48100203 intron_variant
C/A 48100218 intron_variant
T/A 48100223 intron_variant
C/T 48100226 intron_variant
C/T 48100228 intron_variant
C/T 48100273 intron_variant
G/C 48100278 intron_variant
C/A 48100343 intron_variant
G/A 48100357 intron_variant
C/A 48100386 intron_variant
C/A 48100390 intron_variant
C/T 48100393 intron_variant
C/T 48100407 intron_variant
T/C 48100487 intron_variant
C/T 48100488 intron_variant
T/C 48100511 intron_variant
G/A 48100569 intron_variant
C/T 48100687 intron_variant
C/T 48100707 intron_variant
T/A 48100708 intron_variant
C/A 48100746 intron_variant
G/A 48100758 intron_variant
G/C 48100797 intron_variant
T/G 48100968 intron_variant
C/T 48100986 intron_variant
C/G 48101023 intron_variant
T/A 48101039 intron_variant
T/C 48101101 intron_variant
A/T 48101134 intron_variant
T/A 48101153 intron_variant
T/A 48101195 intron_variant
G/C 48101326 intron_variant
A/T 48101343 intron_variant
C/T 48101348 intron_variant
T/C 48101351 intron_variant
C/T 48101398 intron_variant
A/G 48101429 intron_variant
G/C 48101457 intron_variant
T/C 48101491 intron_variant
C/T 48101503 intron_variant
G/A 48101527 intron_variant
G/A 48101547 intron_variant
A/G 48101567 intron_variant
C/T 48101574 intron_variant
C/T 48101582 intron_variant
G/A 48101589 intron_variant
G/A 48101592 intron_variant
C/T 48101599 intron_variant
C/A 48101617 intron_variant
C/A 48101628 intron_variant
A/G 48101655 intron_variant
C/T 48101662 intron_variant
A/C 48101680 intron_variant
G/A 48101704 intron_variant
G/A 48101707 intron_variant
C/A 48101729 intron_variant
G/A 48101731 intron_variant
T/C 48101732 intron_variant
C/T 48101770 intron_variant
T/A 48101804 intron_variant
A/G 48101874 intron_variant
T/C 48101880 intron_variant
G/T 48101881 intron_variant
A/G 48101891 intron_variant
G/A 48101893 intron_variant
G/A 48101897 intron_variant
C/T 48101944 intron_variant
A/G 48101958 intron_variant
G/A 48101972 intron_variant
G/A 48101983 intron_variant
G/A 48102009 intron_variant
A/G 48102015 intron_variant
C/A 48102059 intron_variant
G/A 48102064 intron_variant
T/C 48102071 intron_variant
G/A 48102079 intron_variant
T/C 48102080 intron_variant
C/T 48102090 intron_variant
C/T 48102110 intron_variant
T/G 48102126 intron_variant
A/C 48102138 intron_variant
G/A 48102164 intron_variant
T/A 48102175 intron_variant
A/C 48102246 intron_variant
C/A 48102276 intron_variant
G/A 48102277 intron_variant
A/G 48102337 intron_variant
G/A 48102375 intron_variant
C/T 48102474 intron_variant
C/T 48102800 upstream_gene_variant
T/G 48102817 upstream_gene_variant
C/T 48103327 upstream_gene_variant
T/C 48103674 upstream_gene_variant
G/C 48103814 upstream_gene_variant
G/A 48103824 upstream_gene_variant
G/A 48103837 upstream_gene_variant
A/G 48103847 upstream_gene_variant
C/T 48103868 upstream_gene_variant
G/A 48103892 upstream_gene_variant
C/T 48104173 upstream_gene_variant
A/T 48104202 upstream_gene_variant
G/C 48104315 upstream_gene_variant
T/G 48104380 upstream_gene_variant
C/A 48104520 upstream_gene_variant
A/T 48104620 upstream_gene_variant
T/A 48104621 upstream_gene_variant
C/T 48104707 upstream_gene_variant
G/A 48104732 upstream_gene_variant
A/T 48105549 upstream_gene_variant
A/G 48105667 5_prime_UTR_premature_start_codon_gain_variant
T/C 48105707 5_prime_UTR_variant
G/C 48105822 5_prime_UTR_premature_start_codon_gain_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_03507.1
MQSQLVCNGCRSLLLYPRGATNVCCALCNTITSVPPPGMEMSQLYCGGCRTLLMYTRGATSVRCSCCHTVNLVPATNQVAHVHCGNCRTALMYPYGAPSVKCAICHYVTNTNNGRLPIPVHRPNGTANTGTLPSTSTSMPQSQSQTVVVENPMSVDSSGKLVSNVVVGVTTDKK*


CDS Sequence:
>Vu_03507.1
ATGCAGAGCCAACTTGTGTGCAATGGTTGTAGGAGCCTTCTGCTTTACCCGAGAGGGGCAACCAATGTTTGTTGTGCATTGTGCAACACGATTACCTCTGTTCCTCCACCTGGGATGGAAATGTCTCAACTTTACTGTGGAGGCTGTAGGACGTTGTTAATGTATACTCGTGGAGCTACAAGTGTGAGATGTTCCTGCTGTCATACTGTAAACCTTGTTCCAGCAACTAATCAGGTAGCTCATGTCCATTGTGGGAACTGCCGGACAGCCCTCATGTATCCTTACGGAGCTCCCTCAGTCAAATGTGCTATTTGCCACTATGTTACTAATACGAACAATGGACGGCTTCCAATCCCTGTCCATAGACCCAATGGGACAGCCAATACTGGAACATTACCTTCTACTTCAACATCAATGCCTCAGTCTCAAAGTCAAACAGTAGTAGTAGAAAATCCAATGTCTGTGGATTCGAGTGGGAAATTGGTGAGCAATGTTGTGGTCGGCGTCACAACAGATAAGAAATAG


Promoter Sequence:
>Vu_03507::LG1:48105955-48107955(-)
ACTGCTATCACCACCAAATTATAGAGACTGACGATTCCATTCACCATCACGAAGAATCTGCAGCACAATAAGGAAGACATAGTACCTATGTCAAGAAAATTATAAACGGATAGAGGAAAATTGAAACGATGATTTGTAGAACTAATTACACGAATGCTGGAGTGTGGAGAAACTTAGCAGTGAGAGTGATTGTTAGTGGGTTTGTGCCAATGGTGGCCACTACCAAGCTTTTGGTTTGTTTGTTGAGTGCCATAATGAATGTAGCAGATGCTGTGGCAAAGAATGAGAGAGCCCTAAGGGACAAATTGATCCATTCCTTCTTCTGTTGTTTGGTATCAGACGCAGTGTTGAAACTGATGTCTAGTTTTTCTGCATTTTCTGAGGCCATTCTGCAAGTTTTTGGCTGTTATTGGAGTGAGAAAAATGATTTCAGATGATGCAAAATGGTGTGAGGGATGAGTTATTATAGTTAGGAAGAAAGCAAAATTGATGAACTATAAGATTGTTAAGTCTAAGAAGTTAAATGTGGATTCTATGTGTGAATTCTTAAGGTTGTCGAACCAACTAAATTTAGTTGTTGTTAATTGGTGAGAATCCTTCGTTTTAATCTTATATTCTTTTAATACGACTCTATATGAATAGGATAACTTTGTTTCAGGTCGTGAAGTGTGATTTATTGCTCTCAAGAGTGTGTTAAGTCTTTGGTTGGCAAGGTGGACTTGATTAATGCTTGTTTAAGAGTCATTTAAAAGGGCGCTTCTTTCTGCACCCCACCGTTTCAATTTGCACCTTGTAAATTTTAAAATTCCAAATTTATTCTTGTTTAGGATTTTTAGCTTTATTACTGAATTATCTTATTATATTATGACCTCTTTACATTATTTTTCTTAGAATTGTCAAAAGGATTATCTGATCCGGCCAATTATCACGTAGATTAAATGGATTGACTTCCTCAATCATTTCTTTTTTTTTTCAATTTTAAAAAAATTATTTTTTTCAAATTAAAATTTAAATAAAGTTTAATCTAAATATAATGAAATATAATTTAAAATAATATTAAATTTTAAATACAATCTAAAAATCACAAAAAATACAGTATAATCCAAAATCTTATAGAAATTAAAAAACATGTAAAACTTTTATTTTTTTTTAATAATTATCGTAGATTCAATTCGGTTAAGTTGAATTTTTAATGAGTCTGATTTTTTTTTTAATTCATACTATTTTTTTTTAGCTCAGCCAGGCTCAAATATATGATAGATTGTATTGACTCATGACTTTTTAGCCAATTTTGACAATGCTAACTCATTTAATTTAACATTGAGTAAAAGAGGGACGCGGAGTGAGTGTTATTATAATCACAACAACTCTAAGCTATTTGCTTGGTTTGCATTAAAGGTATCTTCCAGCAGTGGAAGACTAAGAAATCATTTAATTAAGTTTCACTTCTCTTTAAGAAGTTTAATTATTACCAAATAATTAAAAAATAAACATTTCGGTAAGAGATATTTAAAATATGTGTTTCCGACCAATCAGTCTCTATCGTCTTGAGTATTGGTAGCTTATTTTAGTGGAATGTTTTCTTCTTATATAAAAACTAAAATAAATAAATATAAATATTAACTAGGATTGTGAATTGCGATAAGGTTAAAAATAGGTGACTTTGAATTGCTGTCAAGAGAAAAATTGCGTACGCGTTAAGAACAAGAGTAATATATTTCTGTATCTCTCTCACACACATTTGTTGATAAAGACATATAAAATATATTTACATGGATTTTATAATATATACTTTGCATAATTTTGTAAGCATTTGTCGTGGAAAAAAAATAATAGCACCTTATAAGGTAGGTTAATTTTCATTAATGGAATGAAAAATAAGAGGTTATCGACTAAATGAATTTATTTTATTATATAGAAATAAGAATAATAATGAATTTAAGCGTTTTTTTTATCATTAATTAATAAAATAAATAAAGGTGGGAATGTTATATACATTT


Gene Sequence:
>Vu_03507(-)
GTGATGATTTAGAAAAAGGGAGACTAATAGTCGCTGAAGAAATTTCCGAAAGTGTGTTGTGTGGGGTGAGAAGACGATGAGGAAATATTGGTAGCAGAAATTGAAGAGAGAGAGAGAGGGTTGGATTGATTTTCTTCTTCCTTTTCTCCAAAGAGAATCTAATCTCAATCCTCAACCTCCTTATTGCGCCCATATCTTCAGATTTCTTCATTCCTATTTCAATCTTTTCTCTTCCCGTTCACATCCTCATTTTCTCCGAAACATAAAAGTAAAAAAATAATATTGGTTTTGTTTTCTTGTTTCTTGTTATTTGACTTGGTTGTCTGAATCGGCTGTCGCAGCAGGGTCGGGAGACACAGGTATTGCCAGATCCTTTGTTATTCCTATTACTTTTTTTTTTGGGTGTTTTGTTTGGATATTGGGACCGGGGCATAATTTGTTTTTTATTTTTTGGTGTTTAATGTATTCAAAGTTTGAACATCTTGATTCCTGGTGTTGAATCTTTTGATTTGGATCAGGCATTCGGGGTCTGGTTTCCTGTTTTACTTGCAAAACAAATCAGTGGGGATTTTGGTTGAATTGTCTGTGACTCGTAGGGGTTGCATGGTTTCAATTTTGTTGATTTTACTGATGAATGGTCTTTAACTTTGCAGCTATGCAGAGCCAACTTGTGTGCAATGGTTGTAGGAGCCTTCTGCTTTACCCGAGAGGGGCAACCAATGTTTGTTGTGCATTGTGCAACACGATTACCTCTGTTCCTCCACCTGGTAAGCTCATTGATGTTTCTGTTACTGGAATTTTAAGATTGGAGAACTTACGAGTTATATTTCGTTGTGTTTCTGGCCTTTATTATCTATTGGTATGAGCTAATTATTCAATTTGGAACAAATGAGGGAGATTAGGCTAAAACAAACCATATTACCTACTGGATTTAGTACCTGCATGTAATCAGATTCCATTCACGCTTATTCTGCGTATCTTTACCATAATAATGCTTTTGCAGGGATGGAAATGTCTCAACTTTACTGTGGAGGCTGTAGGACGTTGTTAATGTATACTCGTGGAGCTACAAGTGTGAGATGTTCCTGCTGTCATACTGTAAACCTTGTTCCAGGTACTGCTTTTAATATTTTTCCAGACATTTGATTGAGGGTTGGTGGTTTACTATTTATTTTGGTGGATTTCAAATTGCTTGTTAATATGAATATTCTATTTTATAATTGCGGTGATAATTTGTTGGATTACTTGGTGGTTGAATATGGCTAGTCATGAATGTTGTTACCAAATTCTGGTGAAGGGGTCAGCGAGGGGTACATTAAGGTGACCCTTTGTTTATTTCCTGTATATTCTGTGTGTATATTTTATCTTTATGTTGATTAAAGGCAGTGAATGGGGACTTAATGAAACGTTTCACTGTTGGACTTGAGGGCAAGGAGGTTTTCCAACTTGATTATTTGAAAGAAGATTTCTCTTTTTGAGGGAGATCATGCGACCTCAATTCAGTCCTCCTCATCTAGTATTGCTATTACCTACCTCTCTTTGTTCTAAATTCGTTTGGGATGGAATATGAGATTGAAAAAACTATGTGAGATTCCTTTCACACGACACAGGGTTGCAGGCTGTAATAGGTGGTCTGGTTACTTGAGTTTGTTGTAATGCTAACAGAGGACAAGGGCTTAGTATTGGTGGTTCTTGGGGCAAAATGGTTATGGTGATTTCCCTTGGAACTTATCTATCTATGGTACTGGAAGATTTGTAGCAGCCACTTCATTCACAGAAGTAGCTGCCGTTGGCTGGGGTTTGGCCAAAGGTTATGGTAGTTTCCCTTGGAACTCATTCGTGCGTGTTCAAGTATTATTCTTTCACCAAAGGCATGTTGATGATTTGGGCAAAAGGAAGTTAAAGTCCAGCGCATAATTTTTTCACATACTCTCAAATATTAAAATGACAACTTCTTTACTCTGTTTTGACATTTGTTTTCACCCAAACTAAAACCTAATTTTGCCTTTCACAATTTCTTTAGTACTTCATTTAACTATTTTGGTTCCTTCAAAATATGTAGCCAAGATCCACCATTGGTTTTACTTGAGTTTATGTTATTTCATCTATTCTGAATTCCTATGTATTTGTCCTCTTATTTACTGCTTGTTTTTGGGGTTTATATTTGTCATTTTCCACTTGTTTCTGTGACTTCTTTTGATTAAATTTTATCATATAATAGTTGTTATCGCCATTTTAATGTTATTGGGCCTTGTCTCATTTTACACGTACACGTGTGTGTATATATATATATATATTCTTGAATATAGTTTTAGATGATAGTAGGATCTAACATCTCATGGTACTTGTCCTGCCTTATACAACGTAGGATCTATGGTATTGTCAACCTTGATTGTTTCTAGGAGCTTTTGACTCTCACCGTGCTTGGTATAACTTTAGTGTTTAGGGTTTGAACTTGAAGTATCAATTCCTCAGCCTTTTTCGCAAGGCTAAAATGAAGCTGAACAACCAGATTTGGTGTAAACAAAACCCAATATATCTAAGGCATTGTGATTAAGACCTTGAACTCATTGGGTTTATTGACTCAAATGAGGTTTAGTTTTGCTAAAATGCTTTCCAAAAAAGGTGGCAATCAGGCTCCTAAGCTGATGAATGGATGTTGGACAATGGATAGCATGGGGGAGGAGCACAAATGAAATAAAAATGGATAACAGGATGGGAATAGTGCATGGATTTGAAGCCTGAAACAACTTTTTTGCGAATGTTGAACATTTTCTTTTAGTGAACTCATTTTCCAACATATCATATAGAAAATAGATTTCCGTGTCAGAATCCCATCCCCCCTCCCCCTTCACCAAAACAAGAAGCAGCTGCCACATTCATCAATTCTTCCTTCATGATCAATCAATGAATATGTTGATTCTTTACATTTACCCTCGCCCCCTTTCTATTGCTTACGCTCTATAGAAGAACAATCTTAATCACAATGATCTAAAACCTGGCTGTATAAATAAATGACAAGCATATATATTTATAGCCAGCTATTTGTTAATCCAGCATTGAGTTTTGTTTCTTTGCTTAAAAAATATATACTTTCATAATAATTTTCTCATCCTATTTTAAATTCCAATATTAATAATTCTGAACTGCACGATGGTTACTTTCCTTTAGTTCAAGTTTAGTGTCATTTTCATTCTGTCCATTTTCTTTGCAACTGTTTGTATTACTTGAGATTGAAAAGAAATAATTCTTGAGGGCTTGATTGATCCCTCTCAATCTTCTATTTATAAAAATAAATTGATACAAGAGTACATGATAATTAGGGTAACCTTAAACACCATATAATCATGATAGGGTAACCTAGACACAAATAATCATGATAAATAGGGTAACCCTAGACATAATATAATCATGATAAATAGGGTAAATATTCTAACACTCCCCTCAAGCTAGAGCATACAAATTGTATGTGCCAAGCTTGGAATAAATAAACTCAGTCCAACAAAATCAACTTGTCTAAAATGTCGAGGCAATAGACGTGGTAACTCTGACTTCGAATAAGATGTACATATGTTTTAGACCATCAAGAGAGAATGTCTATAAACCAAATTGGACTCATAAACCAGCGTAACCAAAGAGACTCCTCATAAGCTTATGGAGAATAATATTGAACAACCACGGAACTTCATCTAGCACCATGAACCTTCAATTAGGATGACTTTGACAAAGTTGAATTCCATCAAAAGTGAATGATGAGTGGTAGACAACGACAAATTGCAGAGACTGGATTGCCATCAAGTAAGGATGGGGCCTGCATTGCTAAAAGCGAAAAAAATGCAGGGACTGCTATCTCTGACTAGTTGGGGCCTGTAGTGACTGAAAGCAACAAAACTGCAGGGAGTGCCATCTCTGACTAATTGGGGCCTGCAGTGGCTGAAAGTAGGGACTGTCATCTCTGACTAGTTGGGGCCTCTGACTAGTGGCTGGAAACATACTCTCCCTCATTGCAGGGACTAAATTGCCATTACTGACTGATGGGGCCTGCAGGGACTAAATTGCCATCATTGACTGATGCAGCCTGTAGGGACTAAATTGCCATCACTGACTGAGGGGGCCTGTAGAGCTGGAAACATACTCCCCTCACTGTAGGGACTAAATTGCCATTACTGACTGATGAGGCCTGCAGGGACTAAATTGCCATCACTGACTGACTGATGGAGCCTACAGGGACTAAATTGCCATCACTGACTGCTGGGGCCTGTAGTGGCTGGAAGCTACAAAACTACAAGCACTGACATCATTGACATCACTAACTGACAAGGTGATGGGGCCTGTAGTGGCTGAAAGGAAAAAACTGCAGGGACTGCCATCCTGACTGATGGGGCATGTAGTGGCTGGAAACATATTGCAGTGGTTGGAAACATACTCCCCCTCACGACAAACGACGGAAATGACGACGTCGCCAATGACAAATGTGAAGGTGGAAGATCATAATAGTCTACTTTATTCATCAAAGCATCCAAAAATAGATCTAACAAGGGACTGGTGAAATTGTTTGACTAAGATTCTGAATCTTGCCAGAAATAGACTCCCCCTCATGTCATAAGGAATGTTCAACCCATGACTTTACTGTTGAAATTCCTTGGTGTTAACCAATTGATAACACTGACTCTCCTTAGAGACTTTTAAATAAATAAGACAAGTCATCAAGAACATCACAACTGCTACAATATGCAAAGCTAAACAAATATTATGAAGGGAGGCTAATGAACAATGCTGAAACAGAGGTAAAATGTTGAAACAGAGAGTTTTTTTTTTTTTTATTTGGTCGAGCGAGACGAACGACAGTGGCACATGTGATTCCGACACCAGGAAGGTGGCATGTGACAGACACGCGCCGGAAGCTTATCGGAGAGAAGTCGTGCGTGACAGGACATGTGGATGAGAATGAGGCAACGACTAGGGATGGGTCACGGTCCTCGAGGCGAACAAAACCCTAACTTCACCAGAGAAAATGTGACGACGGCAGAGGTGGACGTCGGACAGATGTGGCACGCGTGGCAGTGCCTGGATGAGAACTAACCCTCTCGCTCAAGGAGGGGATCCAGATCCACTAGTCGTCAGACTAAACTGTGGCAGCAGATGGCAACAGACGACACTAGACGATGGTCGGCAGTGGATAGCGGCGAACGGTGGGCGGCAGCGGACAGCGGCGGACGTTGGTAAACAACAAACAGTGGCACAAACAGTGGCAGACAGTGGCGAACGGCGTCGGGAACCGTGGTTGATGGTGACAAACCTATGTGGACAGCTCCTCATGGTGGAAAAACAGTGTTAGATGGACAACGACAAATGGCACCAGACAACGACAAACGTCGTCAGACAGCTGCAAACAACGCCGGACAGCGACAAATAGTGTCAGGCAGTTGCGGACAACAACTAAGATTTGGAGACTAGACACAAATCAGAATGAGACTGCTCATTGAGGTATTTCAGAAAAAATGAAATTTTTAAGGCCGTCGGTGGCGGCAGCCACGAGCCACCGGCGGCAACAAAGACAGAGTAGGAAGAGACTTAAACAACCTGCTCTGATACCAACTTGAGATTGAAAAGAAATAATTCTTGAGGGCTTGATTGATCCCTCTCATAATCTTCTATCTATAAAAATAAATTGATACAAGAGTACATGATAATTAGGATAACCTTAGACACAATATAATCATGATAGGGTAACCTAGAAACAATATAATCATGATAAATAGGGTAATCTAGACACAATATAATCATGATAAATAGGGTAACCCTATACATAATATAATCATGATAAATAGGGTAAATATTGTAACAGTATTGATGAGTGCAATTCATTTTACTACACTTTTACAGCTACCACAAGGACCTCATATTCATAAGATGTTATTTGTCATGCTACAAGATGATGGATGCCTATGCTATGCTGCTTTATCTTTTTATGTTTTCTTATTCTAATGCCAGTCCAATGATAAATTCCTTGTTATATTTTAATAACGTATGCTTCTTGTTCAATTAGTTGTTTACTGACTATCCGTTGATGGGATTTGTATCTGGCATTATAAAGCAACTAATCAGGTAGCTCATGTCCATTGTGGGAACTGCCGGACAGCCCTCATGTATCCTTACGGAGCTCCCTCAGTCAAATGTGCTATTTGCCACTATGTTACTAATGTAAGTTTCTATTGATAGAATTATGTTAATCTGAGCATCAACTTTTTAGTATAAAATTTGTTATGGGGCATTGTATATTGCTTGTAGACATTTGTTAGGACTTAAACACAAGAGTAGAGCCTTACCCAAAAGACTAGTCCATTAGGTGGGAGGGAGAATCTCAAGGCTCAAGTACCACATCAAGTAGCTCATCTTACTTGATGTGGTGGTACTCCTAACAATATTCATGTATGACCTATGTTTTCTAACAGGAAAGGCTTAATATTTAGATCATTTGAAGATATTTGGCTATTCTTTTATTTCGTACTGTTACCATCCGCGTCCAGTAGCTATTCTTTTATTTTCTTCATTGATTGGGATCCAGCCTAAAAGATGGGAGGCCATTGGATGTTAAAACCTCACTTATGCGTCCTACCTCTACGCTAACTTTCTGGAATTTCAATCAATGTTTGATGCTTATGAAAAGGGTTGATATACTGAATATATAATGATGAGATTGTCATTCTCCTTCATACTTCTCAACTTTTGTTTCATGTGAATATGATATATATTTGTTTAGCTTTTTGTAGGTATTTTTTATACTGTTTCATCACTTTTGCTCCTCTTTACTGTCTTTTGTAGACGAACAATGGACGGCTTCCAATCCCTGTCCATAGACCCAATGGGACAGCCAATACTGGAACATTACCTTCTACTTCAACAGTACGCTATTATTCTTATATATATATATATATGTGTGTGTGTGTGTGTGAGATTGTATTTTTTATTTTTTGTGATTATTTGTTCTGATTATGCCATTAATTGTCAACGTGCAGTCAATGCCTCAGTCTCAAAGTCAAACAGTAGTAGTAGAAAATCCAATGTCTGTGGATTCGAGTGGGAAATTGGTAAAATTTATTATTGCTTTTAATTTTGAATCTGGATATATGATTCCACCTGTGATTTTTAGAATATCGAGTTTTGCCTAAAAGAAGTGGCGTGTCACAGGTGAGCAATGTTGTGGTCGGCGTCACAACAGATAAGAAATAGCACCATCACACATACAAGGTACAGTACATGTCACGAGGCATCACCACAGCTACTGTCACATGAAGATATTGTTTGTGTATATGAATATATATATATATGATATTGCAGCCTGCAGTGGTTTAATTGAAATGAATATTTTTCCATTCCAAGAGTGGGATGGATATGTATGTATGAATGTATATGAGGCGGACAGGTTGTGAAAAGGGCATAAAAACCTATTTTGTGTGATTGCCAGAGCCTGCTTTTGTTGTTTCCTTGGTACTCAATATCCAAATCAATTGGTTCATTCAGATTATGCTGACCTTCAAATCCTATACTAGTAAATGCTACATTTTCTTTTATGGCTTCTG