Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_15650 LG4 10472038 10481557 PREDICTED: SNF1-related protein kinase catalytic subunit alpha KIN10-like
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   plant organ development, positive regulation of autophagy, positive regulation of abscisic acid-activated signaling pathway, response to hypoxia, response to hypoxia, regulation of leaf senescence, vegetative to reproductive phase transition of meristem, positive regulation of abscisic acid-activated signaling pathway, abscisic acid-activated signaling pathway, abscisic acid-activated signaling pathway, positive regulation of autophagy, developmental process involved in reproduction, vegetative to reproductive phase transition of meristem, sugar mediated signaling pathway, positive regulation of autophagy, detection of nutrient, vegetative to reproductive phase transition of meristem, intracellular signal transduction, positive regulation of abscisic acid-activated signaling pathway, starch metabolic process, protein phosphorylation, response to glucose, response to herbicide, regulation of leaf senescence, protein phosphorylation, sugar mediated signaling pathway, response to salt, primary root development, leaf senescence, response to herbicide, protein phosphorylation, response to oxidative stress, positive regulation of autophagy, vegetative to reproductive phase transition of meristem, positive regulation of autophagy, abscisic acid-activated signaling pathway, sugar mediated signaling pathway, starch metabolic process, vegetative phase change, positive regulation of autophagy, plant organ development, abscisic acid-activated signaling pathway, detection of nutrient, positive regulation of abscisic acid-activated signaling pathway, primary root development, positive regulation of abscisic acid-activated signaling pathway, leaf senescence, starch metabolic process
Cellular Component   is active in   nuclear ubiquitin ligase complex
Cellular Component   located in   cytoplasm, nucleus, nucleus, cytoplasm, nucleus, Golgi apparatus, nucleus, nucleus, cytoplasm, nucleus, nucleus, nucleus, nucleus, cytoplasm, chloroplast, cytosol, cytoplasm, nucleus, cytoplasm
Molecular Function   enables   protein serine/threonine kinase activity, protein binding, protein binding, kinase binding, protein serine/threonine kinase activity, protein binding, protein binding, protein binding, protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein binding, protein binding, protein binding, protein binding, kinase activity, protein kinase activity, protein binding, protein binding, protein kinase activity, protein binding, protein binding, protein binding, protein serine/threonine kinase activity, protein binding, protein binding, protein binding, protein kinase activity, protein binding, protein serine/threonine kinase activity, protein binding, protein kinase activity, protein binding, protein binding, protein serine/threonine kinase activity, protein binding, protein binding, protein binding, protein binding, kinase activity, protein binding, protein binding, protein kinase activity, protein binding, protein binding, phosphatase binding, protein binding, protein binding, protein binding, protein kinase activity, protein binding, phosphatase binding, protein serine/threonine kinase activity, kinase binding, protein serine/threonine kinase activity, protein binding, protein binding, protein binding, phosphatase binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, kinase binding
Pathway   B 09132 Signal transduction   C 04371 Apelin signaling pathway [PATH:ko04371]
SNP Position Effect Amino acid change
C/A 10472082 3_prime_UTR_variant
C/A,T 10472183 3_prime_UTR_variant
A/T 10472184 3_prime_UTR_variant
T/A 10472199 3_prime_UTR_variant
T/C 10472583 3_prime_UTR_variant
A/T 10472973 downstream_gene_variant
C/T 10473111 missense_variant p.Ser446Asn
C/A 10474244 downstream_gene_variant
T/G 10474245 downstream_gene_variant
T/C 10474324 missense_variant p.Gln347Arg
T/C 10474567 downstream_gene_variant
G/C 10474568 downstream_gene_variant
C/G 10474573 downstream_gene_variant
A/T 10474583 downstream_gene_variant
T/G 10474723 downstream_gene_variant
A/T 10474737 downstream_gene_variant
G/T 10474846 synonymous_variant p.Ala280Ala
T/A,* 10474942 synonymous_variant p.Ile248Ile
G/A 10475208 downstream_gene_variant
G/C 10475229 downstream_gene_variant
A/G 10475589 downstream_gene_variant
T/A 10475768 missense_variant p.Met167Leu
C/G 10475776 missense_variant p.Ser164Thr
G/C 10476442 downstream_gene_variant
T/C 10476444 downstream_gene_variant
T/G 10476473 missense_variant p.Glu59Ala
C/T 10476479 missense_variant p.Ser57Asn
G/A 10476492 missense_variant p.Arg53Cys
T/C 10476505 synonymous_variant p.Lys48Lys
C/G 10476571 synonymous_variant p.Gly26Gly
T/C 10476582 missense_variant p.Lys23Glu
C/A 10476584 missense_variant p.Gly22Val
T/A 10476589 missense_variant p.Lys20Asn
T/A 10476596 missense_variant p.Asn18Ile
C/T 10476612 missense_variant p.Asp13Asn
C/A 10476621 missense_variant p.Ala10Ser
C/A 10476641 missense_variant p.Gly3Val
C/G 10476646 start_lost p.Met1?
G/T 10476677 downstream_gene_variant
C/A 10476679 downstream_gene_variant
G/A 10476682 downstream_gene_variant
C/A 10476698 downstream_gene_variant
C/G 10476699 downstream_gene_variant
T/C 10476711 downstream_gene_variant
G/T 10476729 downstream_gene_variant
T/G 10476730 downstream_gene_variant
T/C 10476746 downstream_gene_variant
G/A 10476752 downstream_gene_variant
C/A 10476753 downstream_gene_variant
A/C 10476760 downstream_gene_variant
G/A 10476778 downstream_gene_variant
G/A 10476782 downstream_gene_variant
G/T 10476808 downstream_gene_variant
T/C 10476813 downstream_gene_variant
T/A 10476845 5_prime_UTR_variant
C/G 10476883 5_prime_UTR_variant
C/A 10476886 5_prime_UTR_variant
A/T 10476909 splice_region_variant&intron_variant
A/G 10476917 downstream_gene_variant
C/A 10476925 downstream_gene_variant
A/G 10476935 downstream_gene_variant
T/A 10476946 downstream_gene_variant
A/C 10476957 downstream_gene_variant
C/G 10476972 downstream_gene_variant
T/A 10477189 downstream_gene_variant
A/T 10477190 downstream_gene_variant
T/C 10477192 downstream_gene_variant
A/G 10477236 downstream_gene_variant
C/T 10477245 downstream_gene_variant
G/A 10477350 5_prime_UTR_variant
A/T 10477377 5_prime_UTR_variant
G/C 10477446 5_prime_UTR_variant
C/T 10477472 splice_acceptor_variant&intron_variant
G/A,T 10477474 splice_region_variant&intron_variant
A/G 10477487 downstream_gene_variant
A/T 10477523 downstream_gene_variant
T/C 10477553 downstream_gene_variant
C/G 10477608 downstream_gene_variant
A/G 10477618 downstream_gene_variant
C/T 10477623 downstream_gene_variant
G/A 10477625 downstream_gene_variant
A/C 10477643 downstream_gene_variant
C/T 10477670 downstream_gene_variant
G/A 10477675 downstream_gene_variant
A/C 10477738 downstream_gene_variant
A/C 10477740 downstream_gene_variant
T/C 10477741 downstream_gene_variant
C/A 10477743 downstream_gene_variant
G/A 10477746 downstream_gene_variant
A/G 10477749 downstream_gene_variant
A/G 10477755 downstream_gene_variant
A/G 10477761 downstream_gene_variant
C/G 10477762 downstream_gene_variant
C/T 10477773 downstream_gene_variant
T/C 10477776 downstream_gene_variant
G/A 10477803 downstream_gene_variant
G/A 10477819 downstream_gene_variant
G/C 10477838 downstream_gene_variant
A/T 10477840 downstream_gene_variant
T/C 10477855 downstream_gene_variant
T/G 10477868 downstream_gene_variant
A/G 10477884 downstream_gene_variant
A/G 10477895 downstream_gene_variant
A/T 10477919 downstream_gene_variant
A/G 10477934 downstream_gene_variant
T/A 10477937 downstream_gene_variant
A/G 10477955 downstream_gene_variant
G/A 10477985 downstream_gene_variant
T/C 10478000 downstream_gene_variant
A/C 10478017 downstream_gene_variant
G/A 10478018 downstream_gene_variant
G/A 10478030 downstream_gene_variant
A/C 10478036 downstream_gene_variant
C/A 10478053 downstream_gene_variant
C/G 10478083 downstream_gene_variant
G/T 10478090 downstream_gene_variant
G/C 10478106 downstream_gene_variant
G/C 10478114 downstream_gene_variant
G/A 10478115 downstream_gene_variant
A/C 10478126 downstream_gene_variant
T/G 10478158 downstream_gene_variant
A/G 10478187 downstream_gene_variant
G/T 10478196 downstream_gene_variant
C/T 10478199 downstream_gene_variant
A/G 10478200 downstream_gene_variant
T/G 10478222 downstream_gene_variant
A/G 10478237 missense_variant p.Phe80Leu
T/A 10478300 missense_variant p.Ile59Leu
C/G 10478301 missense_variant p.Leu58Phe
G/T 10478330 missense_variant p.Gln49Lys
C/T 10478337 synonymous_variant p.Gly46Gly
G/T 10478343 missense_variant&splice_region_variant p.Phe44Leu
T/C 10478360 intron_variant
A/C 10478361 intron_variant
A/C 10478367 intron_variant
T/C 10478379 intron_variant
A/T 10478381 intron_variant
A/T 10478389 intron_variant
C/T 10478402 intron_variant
G/A 10478405 intron_variant
A/C 10478426 intron_variant
T/C 10478431 intron_variant
C/A 10478460 intron_variant
G/C 10478472 intron_variant
G/A 10478486 intron_variant
C/T 10478500 intron_variant
G/C 10478502 intron_variant
T/A 10478520 intron_variant
C/A 10478523 intron_variant
G/A 10478536 intron_variant
C/A 10478547 intron_variant
C/T 10478550 intron_variant
T/A 10478611 intron_variant
A/G 10478655 intron_variant
G/T 10478663 intron_variant
T/C 10478673 intron_variant
G/A 10478674 intron_variant
G/A 10478691 missense_variant&splice_region_variant p.His43Tyr
A/G 10478717 missense_variant p.Val34Ala
C/A 10478718 missense_variant p.Val34Phe
C/T 10478743 synonymous_variant p.Arg25Arg
T/C 10478753 missense_variant p.Glu22Gly
T/C 10478761 synonymous_variant p.Ser19Ser
A/T 10478772 missense_variant p.Trp16Arg
A/C 10478796 splice_acceptor_variant&intron_variant
T/C 10478825 intron_variant
G/C 10478827 intron_variant
T/C 10478833 intron_variant
A/G 10478861 intron_variant
C/T 10478869 intron_variant
G/T 10478878 intron_variant
C/G 10478879 intron_variant
T/C 10478890 intron_variant
G/A 10478891 intron_variant
G/C 10478902 intron_variant
A/C 10478922 intron_variant
A/C 10478933 intron_variant
A/T 10478952 intron_variant
A/C 10478959 intron_variant
A/T 10478961 intron_variant
C/A 10478968 intron_variant
G/A 10478985 intron_variant
A/G 10478988 intron_variant
A/G 10479003 splice_region_variant&intron_variant
G/T 10479025 missense_variant p.Leu2Ile
A/C 10479032 upstream_gene_variant
A/G 10479040 upstream_gene_variant
C/A 10479048 upstream_gene_variant
C/A 10479059 upstream_gene_variant
T/G 10479068 upstream_gene_variant
G/A 10479072 upstream_gene_variant
C/T 10479081 upstream_gene_variant
G/A 10479087 upstream_gene_variant
T/A 10479089 upstream_gene_variant
A/G 10479116 upstream_gene_variant
A/T 10479129 upstream_gene_variant
T/C 10479130 upstream_gene_variant
G/A 10479138 upstream_gene_variant
A/G 10479154 upstream_gene_variant
A/C 10479169 upstream_gene_variant
G/C 10479170 upstream_gene_variant
T/C 10479175 upstream_gene_variant
G/A 10479228 upstream_gene_variant
C/G 10479229 upstream_gene_variant
G/C 10479232 upstream_gene_variant
G/T 10479238 upstream_gene_variant
T/G 10479239 upstream_gene_variant
A/T 10479279 upstream_gene_variant
T/A 10479306 upstream_gene_variant
T/C 10479349 upstream_gene_variant
C/T 10479351 upstream_gene_variant
A/G 10479359 upstream_gene_variant
G/A 10479370 upstream_gene_variant
T/C 10479392 upstream_gene_variant
T/A 10479393 upstream_gene_variant
T/A 10479397 upstream_gene_variant
A/T 10479437 upstream_gene_variant
T/C 10479460 upstream_gene_variant
T/A 10479462 upstream_gene_variant
C/T 10479501 upstream_gene_variant
A/G 10479503 upstream_gene_variant
T/C 10479535 upstream_gene_variant
T/A 10479545 upstream_gene_variant
G/T 10479549 upstream_gene_variant
A/T 10479621 upstream_gene_variant
A/C 10479647 upstream_gene_variant
C/T 10479649 upstream_gene_variant
A/C 10479661 upstream_gene_variant
T/A 10479667 upstream_gene_variant
G/A 10479680 upstream_gene_variant
A/G 10479691 upstream_gene_variant
C/T 10479700 upstream_gene_variant
A/G 10479724 upstream_gene_variant
T/C 10479769 upstream_gene_variant
A/T 10479775 upstream_gene_variant
A/C 10479804 upstream_gene_variant
A/T 10479820 upstream_gene_variant
G/C 10479832 upstream_gene_variant
T/A 10479909 upstream_gene_variant
T/C 10479912 upstream_gene_variant
G/A 10479913 upstream_gene_variant
C/A 10479927 upstream_gene_variant
T/A 10479936 upstream_gene_variant
A/G 10479944 upstream_gene_variant
C/T 10479951 upstream_gene_variant
C/A 10479952 upstream_gene_variant
A/T 10479963 upstream_gene_variant
C/T 10479975 upstream_gene_variant
G/A 10479977 upstream_gene_variant
A/T 10479984 upstream_gene_variant
A/G 10479985 upstream_gene_variant
A/G 10480001 upstream_gene_variant
T/C 10480011 upstream_gene_variant
C/T 10480028 upstream_gene_variant
T/A 10480045 upstream_gene_variant
A/G 10480109 upstream_gene_variant
T/C 10480114 upstream_gene_variant
T/C 10480126 upstream_gene_variant
A/G 10480128 upstream_gene_variant
C/T 10480140 upstream_gene_variant
T/A 10480147 upstream_gene_variant
A/C 10480215 upstream_gene_variant
A/T 10480219 upstream_gene_variant
T/C 10480300 upstream_gene_variant
T/C 10480302 upstream_gene_variant
T/C 10480304 upstream_gene_variant
C/T 10480450 upstream_gene_variant
A/T 10480464 upstream_gene_variant
G/A 10480470 upstream_gene_variant
T/C 10480480 upstream_gene_variant
T/A 10480507 upstream_gene_variant
G/A 10480513 upstream_gene_variant
C/A 10480519 upstream_gene_variant
G/C 10480520 upstream_gene_variant
G/A 10480553 upstream_gene_variant
T/A 10480559 upstream_gene_variant
T/A 10480604 upstream_gene_variant
A/C 10480616 upstream_gene_variant
A/C 10480622 upstream_gene_variant
C/G 10480701 upstream_gene_variant
G/A,T 10480704 upstream_gene_variant
C/A 10480717 upstream_gene_variant
T/C 10480726 upstream_gene_variant
A/C 10480743 upstream_gene_variant
T/G 10480778 upstream_gene_variant
T/C 10480798 upstream_gene_variant
C/T 10480800 upstream_gene_variant
G/A 10480807 upstream_gene_variant
C/T 10480849 upstream_gene_variant
A/T 10480859 upstream_gene_variant
G/A 10480867 upstream_gene_variant
G/A 10480941 upstream_gene_variant
G/T 10480946 upstream_gene_variant
A/T 10480950 upstream_gene_variant
C/A,* 10480967 upstream_gene_variant
T/C 10480974 upstream_gene_variant
T/C 10481021 upstream_gene_variant
A/G 10481022 upstream_gene_variant
T/A 10481023 upstream_gene_variant
T/A 10481024 upstream_gene_variant
A/C 10481025 upstream_gene_variant
T/G 10481026 upstream_gene_variant
T/A 10481029 upstream_gene_variant
T/C 10481030 upstream_gene_variant
G/A,* 10481047 upstream_gene_variant
T/A 10481050 upstream_gene_variant
C/G 10481054 upstream_gene_variant
T/A 10481067 upstream_gene_variant
A/T 10481076 upstream_gene_variant
T/A 10481087 upstream_gene_variant
A/G 10481092 upstream_gene_variant
T/C 10481143 upstream_gene_variant
A/G 10481155 upstream_gene_variant
C/T 10481158 upstream_gene_variant
G/A 10481185 upstream_gene_variant
T/C 10481215 upstream_gene_variant
T/C 10481224 upstream_gene_variant
T/C 10481249 upstream_gene_variant
G/A 10481258 upstream_gene_variant
G/A 10481272 upstream_gene_variant
G/A 10481280 upstream_gene_variant
G/T 10481341 upstream_gene_variant
G/T 10481342 upstream_gene_variant
A/G 10481361 5_prime_UTR_variant
A/G 10481395 5_prime_UTR_variant
A/G 10481419 5_prime_UTR_variant
G/A 10481443 5_prime_UTR_variant
A/T 10481452 5_prime_UTR_variant
A/G 10481460 5_prime_UTR_variant
C/T 10481467 5_prime_UTR_variant
G/A 10481468 5_prime_UTR_premature_start_codon_gain_variant
T/C 10481480 5_prime_UTR_variant
T/A 10481494 5_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_15650.4
MDGPAGRGGAGLDMFLPNYKLGKTLGIGSFGKVKIAEHVLTGHKVAIKILNRRKIKSMEMEEKVRREIKILRLFMHPHIIRLYEVIETPSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIISGVEYCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPSARDLIPGMLVVDPMRRMTIPEIRQHPWFQARLPRYLAVPPPDTLQQAKKIDEEILQEVVKMGFDRNQLIESLRNRIQNEGTVAYYLLLDNRFRVSSGYLGAEFQESMDSSFNQMHSSEVASSVVGQRFPGYMDYPGVGSRPQFPVERKWALGLQSRAHPREIMTEVLKALQELNVCWKKIGHYNMKCRWVAAIPGHQDGMVNSNVHSNNHYFGDDSNIIENDAVSTANVVKFEVQLYKTREEKYLLDLQRVQGPQFLFLDLCAAFLAQLRVL*

>Vu_15650.3
MDGPAGRGGAGLDMFLPNYKLGKTLGIGSFGKVKIAEHVLTGHKVAIKILNRRKIKSMEMEEKVRREIKILRLFMHPHIIRLYEVIETPSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIISGVEYCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPSARDLIPGMLVVDPMRRMTIPEIRQHPWFQARLPRYLAVPPPDTLQQAKKIDEEILQEVVKMGFDRNQLIESLRNRIQNEGTVAYYLLLDNRFRVSSGYLGAEFQESMDSSFNQMHSSEVASSVVGQRFPGYMDYPGVGSRPQFPVERKWALGLQSRAHPREIMTEVLKALQELNVCWKKIGHYNMKCRWVAAIPGHQDGMVNSNVHSNNHYFGDDSNIIENDAVSTANVVKFEVQLYKTREEKYLLDLQRVQGPQFLFLDLCAAFLAQLRVL*

>Vu_15650.1
MDGPAGRGGAGLDMFLPNYKLGKTLGIGSFGKVKIAEHVLTGHKVAIKILNRRKIKSMEMEEKVRREIKILRLFMHPHIIRLYEVIETPSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIISGVEYCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPSARDLIPGMLVVDPMRRMTIPEIRQHPWFQARLPRYLAVPPPDTLQQAKKIDEEILQEVVKMGFDRNQLIESLRNRIQNEGTVAYYLLLDNRFRVSSGYLGAEFQESMDSSFNQMHSSEVASSVVGQRFPGYMDYPGVGSRPQFPVERKWALGLQSRAHPREIMTEVLKALQELNVCWKKIGHYNMKCRWVAAIPGHQDGMVNSNVHSNNHYFGDDSNIIENDAVSTANVVKFEVQLYKTREEKYLLDLQRVQGPQFLFLDLCAAFLAQLRVL*

>Vu_15650.2
MDGPAGRGGAGLDMFLPNYKLGKTLGIGSFGKVKIAEHVLTGHKVAIKILNRRKIKSMEMEEKVRREIKILRLFMHPHIIRLYEVIETPSDIYVVMEYVKSGELFDYIVEKGRLQEDEARNFFQQIISGVEYCHRNMVVHRDLKPENLLLDSKCNVKIADFGLSNIMRDGHFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYALLCGTLPFDDENIPNLFKKIKGGIYTLPSHLSPSARDLIPGMLVVDPMRRMTIPEIRQHPWFQARLPRYLAVPPPDTLQQAKKIDEEILQEVVKMGFDRNQLIESLRNRIQNEGTVAYYLLLDNRFRVSSGYLGAEFQESMDSSFNQMHSSEVASSVVGQRFPGYMDYPGVGSRPQFPVERKWALGLQSRAHPREIMTEVLKALQELNVCWKKIGHYNMKCRWVAAIPGHQDGMVNSNVHSNNHYFGDDSNIIENDAVSTANVVKFEVQLYKTREEKYLLDLQRVQGPQFLFLDLCAAFLAQLRVL*


CDS Sequence:
>Vu_15650.4
ATGGATGGACCAGCTGGCCGAGGTGGTGCTGGCCTCGACATGTTTCTACCAAATTATAAATTGGGAAAAACTCTTGGGATTGGATCTTTTGGCAAGGTGAAAATTGCAGAACATGTATTGACTGGTCATAAGGTTGCAATCAAAATCCTAAATCGGCGCAAGATAAAGAGCATGGAAATGGAAGAAAAAGTGAGGAGAGAAATCAAAATTTTAAGATTATTCATGCATCCTCACATTATACGACTTTATGAAGTCATAGAAACTCCATCTGACATATATGTTGTTATGGAGTATGTGAAATCTGGAGAGCTCTTTGATTACATAGTAGAGAAGGGTAGGTTGCAGGAAGATGAAGCTCGTAATTTTTTTCAACAGATAATCTCTGGTGTGGAGTACTGTCACAGGAATATGGTGGTTCATAGAGATTTGAAGCCTGAGAATTTACTTTTGGACTCCAAATGTAATGTCAAGATTGCTGATTTTGGCTTGAGCAACATCATGCGTGATGGTCACTTTCTCAAAACCAGTTGTGGAAGCCCTAACTATGCAGCTCCTGAGGTTATCTCCGGGAAATTGTATGCTGGACCTGAAGTGGATGTCTGGAGCTGTGGTGTAATTTTATATGCTCTTCTTTGTGGCACTCTTCCTTTTGATGATGAAAACATTCCAAATCTCTTCAAGAAAATAAAGGGTGGGATATACACCCTTCCCAGTCATCTATCACCTAGTGCTAGGGATTTGATACCAGGGATGCTTGTGGTTGATCCTATGAGGAGAATGACCATACCTGAGATACGTCAACACCCATGGTTCCAAGCTCGTCTTCCACGTTATTTGGCCGTGCCCCCACCAGATACACTGCAACAGGCCAAAAAGATTGATGAGGAGATTCTTCAGGAAGTGGTGAAGATGGGATTTGACAGGAATCAATTGATTGAATCCCTTCGGAACAGGATACAAAATGAGGGTACTGTAGCATACTATTTGTTATTGGACAATCGATTCCGTGTTTCCAGTGGTTATCTTGGAGCTGAGTTTCAGGAGTCCATGGATTCCAGTTTTAACCAAATGCATTCCAGTGAAGTTGCTTCTTCAGTTGTTGGACAACGCTTTCCAGGCTATATGGATTATCCAGGAGTAGGATCGAGGCCACAGTTCCCTGTTGAAAGGAAATGGGCCCTTGGTCTTCAGTCTCGCGCCCATCCTCGAGAAATAATGACAGAGGTCCTTAAAGCTTTGCAAGAGTTAAATGTTTGTTGGAAGAAAATTGGACACTACAACATGAAGTGCAGGTGGGTTGCTGCCATTCCTGGTCATCAAGATGGAATGGTTAACAGTAATGTGCACAGTAACAACCATTACTTTGGAGATGATTCCAACATTATTGAGAACGATGCTGTTTCTACCGCAAACGTGGTCAAATTTGAAGTTCAGCTTTACAAAACTCGGGAAGAAAAGTATCTGCTTGATCTTCAAAGGGTGCAGGGTCCACAGTTTCTTTTCTTGGATCTGTGTGCTGCCTTCCTTGCACAGCTTCGCGTCCTCTAG

>Vu_15650.3
ATGGATGGACCAGCTGGCCGAGGTGGTGCTGGCCTCGACATGTTTCTACCAAATTATAAATTGGGAAAAACTCTTGGGATTGGATCTTTTGGCAAGGTGAAAATTGCAGAACATGTATTGACTGGTCATAAGGTTGCAATCAAAATCCTAAATCGGCGCAAGATAAAGAGCATGGAAATGGAAGAAAAAGTGAGGAGAGAAATCAAAATTTTAAGATTATTCATGCATCCTCACATTATACGACTTTATGAAGTCATAGAAACTCCATCTGACATATATGTTGTTATGGAGTATGTGAAATCTGGAGAGCTCTTTGATTACATAGTAGAGAAGGGTAGGTTGCAGGAAGATGAAGCTCGTAATTTTTTTCAACAGATAATCTCTGGTGTGGAGTACTGTCACAGGAATATGGTGGTTCATAGAGATTTGAAGCCTGAGAATTTACTTTTGGACTCCAAATGTAATGTCAAGATTGCTGATTTTGGCTTGAGCAACATCATGCGTGATGGTCACTTTCTCAAAACCAGTTGTGGAAGCCCTAACTATGCAGCTCCTGAGGTTATCTCCGGGAAATTGTATGCTGGACCTGAAGTGGATGTCTGGAGCTGTGGTGTAATTTTATATGCTCTTCTTTGTGGCACTCTTCCTTTTGATGATGAAAACATTCCAAATCTCTTCAAGAAAATAAAGGGTGGGATATACACCCTTCCCAGTCATCTATCACCTAGTGCTAGGGATTTGATACCAGGGATGCTTGTGGTTGATCCTATGAGGAGAATGACCATACCTGAGATACGTCAACACCCATGGTTCCAAGCTCGTCTTCCACGTTATTTGGCCGTGCCCCCACCAGATACACTGCAACAGGCCAAAAAGATTGATGAGGAGATTCTTCAGGAAGTGGTGAAGATGGGATTTGACAGGAATCAATTGATTGAATCCCTTCGGAACAGGATACAAAATGAGGGTACTGTAGCATACTATTTGTTATTGGACAATCGATTCCGTGTTTCCAGTGGTTATCTTGGAGCTGAGTTTCAGGAGTCCATGGATTCCAGTTTTAACCAAATGCATTCCAGTGAAGTTGCTTCTTCAGTTGTTGGACAACGCTTTCCAGGCTATATGGATTATCCAGGAGTAGGATCGAGGCCACAGTTCCCTGTTGAAAGGAAATGGGCCCTTGGTCTTCAGTCTCGCGCCCATCCTCGAGAAATAATGACAGAGGTCCTTAAAGCTTTGCAAGAGTTAAATGTTTGTTGGAAGAAAATTGGACACTACAACATGAAGTGCAGGTGGGTTGCTGCCATTCCTGGTCATCAAGATGGAATGGTTAACAGTAATGTGCACAGTAACAACCATTACTTTGGAGATGATTCCAACATTATTGAGAACGATGCTGTTTCTACCGCAAACGTGGTCAAATTTGAAGTTCAGCTTTACAAAACTCGGGAAGAAAAGTATCTGCTTGATCTTCAAAGGGTGCAGGGTCCACAGTTTCTTTTCTTGGATCTGTGTGCTGCCTTCCTTGCACAGCTTCGCGTCCTCTAG

>Vu_15650.1
ATGGATGGACCAGCTGGCCGAGGTGGTGCTGGCCTCGACATGTTTCTACCAAATTATAAATTGGGAAAAACTCTTGGGATTGGATCTTTTGGCAAGGTGAAAATTGCAGAACATGTATTGACTGGTCATAAGGTTGCAATCAAAATCCTAAATCGGCGCAAGATAAAGAGCATGGAAATGGAAGAAAAAGTGAGGAGAGAAATCAAAATTTTAAGATTATTCATGCATCCTCACATTATACGACTTTATGAAGTCATAGAAACTCCATCTGACATATATGTTGTTATGGAGTATGTGAAATCTGGAGAGCTCTTTGATTACATAGTAGAGAAGGGTAGGTTGCAGGAAGATGAAGCTCGTAATTTTTTTCAACAGATAATCTCTGGTGTGGAGTACTGTCACAGGAATATGGTGGTTCATAGAGATTTGAAGCCTGAGAATTTACTTTTGGACTCCAAATGTAATGTCAAGATTGCTGATTTTGGCTTGAGCAACATCATGCGTGATGGTCACTTTCTCAAAACCAGTTGTGGAAGCCCTAACTATGCAGCTCCTGAGGTTATCTCCGGGAAATTGTATGCTGGACCTGAAGTGGATGTCTGGAGCTGTGGTGTAATTTTATATGCTCTTCTTTGTGGCACTCTTCCTTTTGATGATGAAAACATTCCAAATCTCTTCAAGAAAATAAAGGGTGGGATATACACCCTTCCCAGTCATCTATCACCTAGTGCTAGGGATTTGATACCAGGGATGCTTGTGGTTGATCCTATGAGGAGAATGACCATACCTGAGATACGTCAACACCCATGGTTCCAAGCTCGTCTTCCACGTTATTTGGCCGTGCCCCCACCAGATACACTGCAACAGGCCAAAAAGATTGATGAGGAGATTCTTCAGGAAGTGGTGAAGATGGGATTTGACAGGAATCAATTGATTGAATCCCTTCGGAACAGGATACAAAATGAGGGTACTGTAGCATACTATTTGTTATTGGACAATCGATTCCGTGTTTCCAGTGGTTATCTTGGAGCTGAGTTTCAGGAGTCCATGGATTCCAGTTTTAACCAAATGCATTCCAGTGAAGTTGCTTCTTCAGTTGTTGGACAACGCTTTCCAGGCTATATGGATTATCCAGGAGTAGGATCGAGGCCACAGTTCCCTGTTGAAAGGAAATGGGCCCTTGGTCTTCAGTCTCGCGCCCATCCTCGAGAAATAATGACAGAGGTCCTTAAAGCTTTGCAAGAGTTAAATGTTTGTTGGAAGAAAATTGGACACTACAACATGAAGTGCAGGTGGGTTGCTGCCATTCCTGGTCATCAAGATGGAATGGTTAACAGTAATGTGCACAGTAACAACCATTACTTTGGAGATGATTCCAACATTATTGAGAACGATGCTGTTTCTACCGCAAACGTGGTCAAATTTGAAGTTCAGCTTTACAAAACTCGGGAAGAAAAGTATCTGCTTGATCTTCAAAGGGTGCAGGGTCCACAGTTTCTTTTCTTGGATCTGTGTGCTGCCTTCCTTGCACAGCTTCGCGTCCTCTAG

>Vu_15650.2
ATGGATGGACCAGCTGGCCGAGGTGGTGCTGGCCTCGACATGTTTCTACCAAATTATAAATTGGGAAAAACTCTTGGGATTGGATCTTTTGGCAAGGTGAAAATTGCAGAACATGTATTGACTGGTCATAAGGTTGCAATCAAAATCCTAAATCGGCGCAAGATAAAGAGCATGGAAATGGAAGAAAAAGTGAGGAGAGAAATCAAAATTTTAAGATTATTCATGCATCCTCACATTATACGACTTTATGAAGTCATAGAAACTCCATCTGACATATATGTTGTTATGGAGTATGTGAAATCTGGAGAGCTCTTTGATTACATAGTAGAGAAGGGTAGGTTGCAGGAAGATGAAGCTCGTAATTTTTTTCAACAGATAATCTCTGGTGTGGAGTACTGTCACAGGAATATGGTGGTTCATAGAGATTTGAAGCCTGAGAATTTACTTTTGGACTCCAAATGTAATGTCAAGATTGCTGATTTTGGCTTGAGCAACATCATGCGTGATGGTCACTTTCTCAAAACCAGTTGTGGAAGCCCTAACTATGCAGCTCCTGAGGTTATCTCCGGGAAATTGTATGCTGGACCTGAAGTGGATGTCTGGAGCTGTGGTGTAATTTTATATGCTCTTCTTTGTGGCACTCTTCCTTTTGATGATGAAAACATTCCAAATCTCTTCAAGAAAATAAAGGGTGGGATATACACCCTTCCCAGTCATCTATCACCTAGTGCTAGGGATTTGATACCAGGGATGCTTGTGGTTGATCCTATGAGGAGAATGACCATACCTGAGATACGTCAACACCCATGGTTCCAAGCTCGTCTTCCACGTTATTTGGCCGTGCCCCCACCAGATACACTGCAACAGGCCAAAAAGATTGATGAGGAGATTCTTCAGGAAGTGGTGAAGATGGGATTTGACAGGAATCAATTGATTGAATCCCTTCGGAACAGGATACAAAATGAGGGTACTGTAGCATACTATTTGTTATTGGACAATCGATTCCGTGTTTCCAGTGGTTATCTTGGAGCTGAGTTTCAGGAGTCCATGGATTCCAGTTTTAACCAAATGCATTCCAGTGAAGTTGCTTCTTCAGTTGTTGGACAACGCTTTCCAGGCTATATGGATTATCCAGGAGTAGGATCGAGGCCACAGTTCCCTGTTGAAAGGAAATGGGCCCTTGGTCTTCAGTCTCGCGCCCATCCTCGAGAAATAATGACAGAGGTCCTTAAAGCTTTGCAAGAGTTAAATGTTTGTTGGAAGAAAATTGGACACTACAACATGAAGTGCAGGTGGGTTGCTGCCATTCCTGGTCATCAAGATGGAATGGTTAACAGTAATGTGCACAGTAACAACCATTACTTTGGAGATGATTCCAACATTATTGAGAACGATGCTGTTTCTACCGCAAACGTGGTCAAATTTGAAGTTCAGCTTTACAAAACTCGGGAAGAAAAGTATCTGCTTGATCTTCAAAGGGTGCAGGGTCCACAGTTTCTTTTCTTGGATCTGTGTGCTGCCTTCCTTGCACAGCTTCGCGTCCTCTAG


Promoter Sequence:
>Vu_15650::LG4:10481557-10483557(-)
TTAAGATGAATTTAGTAAATAATAGGCTGTGCTATTTATTGGTTAATTGTTGTTGGTTGAAATTTCACAGGTTATATATGGAAAATTATATGTTGGACCAGAAGTTGATGTATGGAGTTGTGGTTTAGTTCTGCCTTTTGATGACGATGAAAACATTTCAAATCTCTTCAACAAAATGAAGGTATCTCTAATTTTATGGTTATTGATTGATATAAACTTTTAAATAAACACTAATTTTGAAGATTAAATATGATTTTGATATCTTGATTTTGAATGAAAATGAAAATTATCTTTTTTAATTTTAATTCAATTTAATTCTTTAATTTTAAAAATGTATGAAATTTCATTTTCTTAATTAAATTTTATTAATTTTATTAAACATAAGATAAGTTTTTTATAATATTTGACATATTTTTTTAATATTAATTCAGAAACATATTTAAAACCTAAAATGAAATCAATAAAATTTGATTAAAACACATTTTAAAAATAAAGAATGAAATTAGTTTAAATTTTAAAAAAATCTAATTTTTATTAAAAATTAAATATATAAAAGTATATTTAACTCTGATTTGAATTATGTTAGTTTAAAGAAGATTTAATAATTAACTCTTCTTATACACAGGAAGTGCTTTTCACTCTTCCATGTTACCTATCTCCTGAAGCTAGAGATTTGATATCAAAGATGCTTAATGAACCTATGAAAAGGATAACAATATCTCAGATCCAACAACACCCATGGTTGCAACTTCATCTTTAACCTGACACAATAGATACAATGTAATATTGTAGCCCTTTTCTACAAAGGGTAGATTATGTTAAGTAAATTGGTTTAAGTGGGTTCTTTTATGCTAATAAATCTTGATCTGGATGTGGACAAAAATCATGCATTTATATTTATGTAAGATTCTAGTAGGTGTCATGTTTATTAACAGTTTAAGAATACAAAGTTATACCATAGTAATTACTACTATACATTTTGTCCTATGTTTAAAGTTCTTAGATGAATTTAAAATGTAATCATAATAATATATACTTTTTTTTTCTGTAGTGAGTACATTTTCTTTTGTTTTTTTCATTCCACAGGTAAATAGGTACTCAACTTATCTCGTAAACTTAGTATTTCCAAATACTCCAACAAGAAATCATAAACAACTTAGCCTCCTAATCTTCACATTATTTGAATCATAGTGGTGGTTCTAAGAAACTCTAGTTATGTAATGCATAGTTTAATAAAGGTTATTGGTAGAACATCCTAACAAGTAATTATATTTACAATGATACTCAGAAATTTTATTGAAATTCCAAAAGAGTCAGTCAGCTAGTTGAACGATCGAGTTAAACTAATACTAATAAAATTAAGCAATATTATTACAAGTTAGGTTAAGTCATAATTAAGGTAATGTTAACCTGAAATCTATTACAAAATCTATAGATAAAAATTTAGGAATTGTGATTGTTTTGTTATATTTAATACATATTTTTGTAGGCATCTTTCTAATTTAGTCAAACATCAGAAAACACATAATAGAAGAGATATTGACTTAAGTTTGGAGTTACAAAAACATATCAAAGAAAAAGAGTTGATCTTGACTCACCAATGGAAACAATACTGAATAATAATTTTCTTTTTATAAATTTATTATTTTAAAGTTTTAGATAAAATATAATATTTGTAAATAAATTAAATTGATATTTTATTTATATGGTGATTTTTCTTAAAAAAGAAAAAAATACATTTTTAACTACAAAAACTTTACATATTTAAGGTTTTGACAACACATCCCATCAAAATTATATCAACAGGTTAATATTGAAAAAAATTTATATTTGAAAATTTTTGTAGTTGTTATAATTCAATCAGCATGCAGTATAAAAGAGATAACTTTAATTGTAAAAGATTCTCTTGTTAGAAAAAATCAACTTGCTCACTTATTTCTTCGTTAGCATGGGTAATATGGTAATAACGCTTAAAAATAGATGTTTTAGAATTAGAATCC


Gene Sequence:
>Vu_15650(-)
AACGATTAACCAAAGCATCTGAGATTGAAACGCACCGTCTTTTGTCGCGTAATAGCATCGCTGACGCAGATGCAAACATCGAAGGAGAACGCGATGCTTTGTTCCTCTTTTGTTCTTCCTCTTTCCAATCTTCAACTTTAGGGTTCCTTTAATCTCAACGTTTCTCCTCAATCTCAAGCTCCGTTCACTCCAACACTACTAGGGTGAGCCTTTTCCCTTCTCAATCCTCAAACAATTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTGCTCTCTCCGTTAATCTCGCTTTTCTTTTCGTGCTAAGATTATTCTTCTCTTTACTGTTGGGAACATAAACAAGCGCTTTCGATCGGAAGTTTGCCAATTTCCAGATTTGAGATTCTGGATTGCGTTGCGTGTGGATAACAAATAGCTACCATTGCTTAGATTTTTTCTCTCGTTGAATTGTTCAGAGATTATTATATAAATTAAAATTTTTGTTTTAATATTATGTTGATTTGCTTATTCTTTTTATATTTGAATGAATTATAATATTGTTTTCTTCATGATGTATTATTGTTATTGTTGTAACGTCTATCAATTTTCAGCTTCCGTTTTCTGTGATTACCGTTACTATTATGATATGTACATCCATTACTTTTGGAGCAGTAGATGCCTTGTACACTTCCAACAAAGTGGAACATTAGCTGGTGTTTAGTGGTGATGTCAACGTTTGAAAAAATCTGTTGTTGTTAAGCTTGTAGTAGCTTATTCGTAGTTGGAAAGATTGAAAAACAGTCAAGTTAAAGGTGCACCTAAGGTAAGGCAGCATAATGGGTCAATGAGGCACATAGGGTGCCTTTTATGCTTCGTGTCTGTTGCTACTTTTGGTAATTGTAGAATACCATAGGAGGCCGCTGATACAAGTTGCTAACTGTGATACTTAAACACGTTAAAATTGTATGAATGGAAGAAAATAATTCCTCAGTTTCAAAATATTTGTCAGTTCAGAAGTATAGTTCGTTTCTAATTGTTTGTCTCCGTAAAAAATCAGCGTAGCGCTATTTATTGTTAATCTGGATTTTATTATTATCAATTTGTATCCCCAATTAGTGGAACGAGAGGTTTTTATCAAAGAAAAAGTTAGTTTAGAGAATTTAGGAATGATCCCTCAAATTAAGGATAATTAATGACACTATTACTTCTATAGTTTGACCCCGGTGGAGTATCTTGATTGTCGACTTAAGTATTTCATAATGATATTCAATGTATATATATATATATATATATATATATATTGTTGTGTCCTTCCTTTTGGAGATTAGAAGTGTGACAGTTTCCATGTCTATGTCAGGTGCTTCATATCTGATCTACAATACATTAATGATAGTATACGATTCTAGGCCTTGGCCATAATAATTGTGTTGAGATTTTGTTCTTGAAATGTTAATGAATCACACAAATCTTACATGAATTGTGCCATCCAGGCAGAACTGGTTGTGCCCCTAGTAATGTCTTTTTTGTTGAAAAATTGGGTAAAATGAGAGGGAACAGACTGAATTTAATCCCCAATTCGAACCAGGGTGGTCTTCTGTAACTGTTCGTGTTTTCTCTCATTCTTGGGGTCTCTTCTTCATTACTTCACCTGTTGTTTGTTACTCCAGAAGAAACAGAGTAAACCACTCTTTTTTTCCACCATTTCTTTGTATTTTATTGTGGTGCCTCAGCTCTTCTGCTTTGTACCAGCAGCCACTTTTTTTCTGCCATGCTTTTATGATTTGGATCTTTGTTTGTTTTGGTGCTTTATATGTTGTTTTGTTAGCTATTTGAGTTTGAAATGCCAATAGATGTGTGGGCATGTTTTGATGTTTTATGCATTTCTTTATTTAAATTGCTACTAGTGTTATATTTTTTGGTATGAATTTGTTTTTTAAATGTGTTAGTTTTACACACTATGTTTTATTATTGTTCATGAATCTTACTGTTTATGATATGGGTTGATATTTATTTCAGAAAATAGACCTCCCAAATCATGATTTAAATCCCAACTCTACTACCATGTTAATCCCTGTTGTGCAAAACCTTAGATGCCAATTATTTGAAATGGTGGAAATAACTAGTTATCCACCTTTGGACTTCTACCAGTGAAAGTATTTGACAGGTTTTAGAAATTGAACAATTAATATTTCCTTTTCAGTTTGTACCACAAATTGTGTTGTTTGAGTAGTTGATTTGAGTGAAAATTAATGCAAAATACAAAACAGTCAAATCTTTTATTGGTTTCTTTCTTTTCTATTGTTAATGTTTGCCTTTAAGGTCAATATTGGAGCTTGAGACCCTCACTAGCTGGGTGTGGGACATGAAGCTCCTATTTAAAATTGATGCTCTATTCCCTTAACATCCTCTCTTTTGAAACTGGATCTTCCTCTACAATAACTGATATCATAGCCAGTTTTTCTATTCCCGGAATGTGGATGGTTTGTTAAACGCAGGGGAGTGGGTCATGAATTGATTTGGTTCTAGACAGGGAACCCTATTTGAGTTGGATGCTCTGCTTCATTCAGCAAGGTGTCTGTATTTTGTCACTTGCTGACTCAAGGAGTTTTGATCCCCTATCACCTTTAGGATACCTTTCACCTTTTGGGAAAAAAGTGAAATCTTTCCTGAGCTGTCCATCAAACACCAGATTAATTTTGCATTAATCTGTGGATTCTCACAAATTATAACTTATCTGACTGCCTACACTGCTACATTATCTCTCAAATCTGACATAACAGATAAGCGTTCACATCCTAGTTCATCTGGCTTCCATCATTGGTGGAGTCTGACAGGTTTGATGTATGCAATGCAGCCATCGTCGTGTGAGCTTAGAGGAACCGTTTTCATGTTACTTGAAATAACAATTATGAATCACCTGTCTGTAACCTTTGCCTTTGAGCCATGTGCCACCTCTTTTGACTGCAATAACAATAAAAGAACATGAAAGATGATGTGGTGCTACTATATTGTTATATATATTTTTTAGTTGTTTCTGTTCACTCCTGCTAAATTGTTAAGTAGCTCATTCTTTTCCTGTATAAAAATTTTACTTTATAATTAATGCTTATTAATACTGCACAACAGTGCTGTTGCTGCCTTCTTAAATATTTCAGCTATTGTGCTGAGATTCCTAGAAACCCTCTTTATTCGGATGTCAAGGCTATTTGTTGTGGATAGGGGTATTATAGGGTTCTCAGGGAAAAAGCAGTTAAAAGGGTGACACCTACTGCCATTGATAAATCTTCTCTCTCAACTCTCTTCTCTCTGGCAACAAGACCTGTAGTCTGTTTCTCCACTCTTCAGTGACCTGCTAACTTGTCTTGTATCATATCTGGTGATCTTCTGCCATTGACTTTCTATTGTTGATTATTAATGTCATGAATTGAGTAATTTATCATTTTCTGACAGTTATGTGTATATCCTATACATCTTATAAACCTGCATACAGAATAGTGGCCATCCTATTATCACACCGTGTCGAGGTCAGCTGGTTTGTGCCTCAATCCGGAATTGATAACTGTGTTTGTGACTAGATATGTCCACTTGAATCCGGTCTCTGTTTTCTTTTTTATTTACAGCATATTGTGTTGAGTTTCTCAGTTATTGTTTTTTTTGTTCTGTTTTATGTTCAAAGTATCAGTGATGCCTGAATTCAAGTGTTCTGTACACTTCAAAGTTCTAATTCTGATTCCCATTTCTTGCTAGACTTTTATTGTCAACTTGTGTGTTTAACTTAAAATTATGACTTTATTGGTTATAAGTGTGCTCAATGTGTGGTACTTTTTTTGGCATGTATGTGTGGATTTAAGGGATTCACCTCTCCTCGTGGGATGAGGATTTTGTTGTTTGTTTTGTTTATACACATGAAAGATAAATTATTTAGCATTGTATTTATAATCTTCAAAAGTATCAGTCATTCTGCTTTCCGCTATCCTGCCACAGCAGTTTTGGGGATAGTTGCTCCATGCTGCTATATGGGATCATTAACTATGTTATAATATAAAACTGTCAATTTTTTCATATAATACAATTAATCAGGATCTCATTTTTTTTTATTGCAACAGTTATTGAGGCAATTGTTCTCAATTACAATGATCTGGATCCTTTTTTCCCAAGCAATGTTGCCTTCATGTGAAGTATATCAGTCTTGGTGTACCCTTTTGCTGGTATTTTAGTTAACAGTACCTAAAAGTTTTAGCTGCTGCTGAGACTTTATATTCCGGAGTTGTTGATTTTTTGATAGGTACCCAGATTTATTTAAAACTGTAAAGACTTCCAAGACAGGTTTTTGGATGTTCATCCAGAAAAAAACCAGACAGCTTTATTAACAATGAAACAAGCACAGTAATCTAAACTGTTACACTAGCCCTGGTCTTTCGAGAGGACCAGACTCTCCCTAGTCTTCCCTTTACAAAACTTCCTAAAAAACTGCTAAAAACAACTGCCCACACAAAGTTTATAAAAGTACGAGACAACAAAACCTACCCATAAACTGTTACCTGTCTGTGCCTTTTATTTATCCTAATATAAACATTTCCCTTGAACCTATCATTTTTCTTCAGTGTTTTAGTGTAGGTTTTCACAATGGGAGCCATCCCTGTTTATTCTCTGAACCCCTTCTTCATTTTAAAGGTTGGTTTGGATTGGATGATGAATCCCTTGCCCTCAGAAAAGTGCAGCTGGGGTGACAATTGGATTTGTACTTGAGCTGTAAACCCTTGTAACTGCTCATGGATGATTTTGCTTGTTCCTCCCTTCATTCTACTATTCTTTTTTATGTTTGCATCTGAAGTAGATTTCAATATACTTTCCATTTTATGCTTGAATATACTTTTAGGGGCTGATTTTTATGTCGTGTCTTCCACAAATTTGCCTATAGATTTAGAAATGGATGGACCAGCTGGCCGAGGTGGTGCTGGCCTCGACATGTTTCTACCAAATTATAAATTGGGAAAAACTCTTGGGATTGGATCTTTTGGCAAGGTGAAAATTGCAGAACATGTATTGACTGGTCATAAGGTTGCAATCAAAATCCTAAATCGGCGCAAGATAAAGAGCATGGAAATGGAAGAAAAAGGTTTGTTATTTCTTATCAATAAATTTCAATCATCATCTAATTGTGATTTTGGTGTTAGATTTTCCAATATTTGCAGCATTTTGCTTTGTTTTGTGAGTATTGAGCGGTAAGATTCAAGGAATTTTGCATTTTCTAATCCTGTTACCCTTATATTCTTACGGTGTGGAGTTTGAGGACAAATATTACTGTTTTCCTGATGCTTGTGTATACAAAATTTATGCTTTCTACTTCTCAGTCATTTATTAATCAAATATACTTATCATTTCTTTTCCCCTTTTCTTTTCCCAAAACTTGTTGCAGTGAGGAGAGAAATCAAAATTTTAAGATTATTCATGCATCCTCACATTATACGACTTTATGAAGTCATAGAAACTCCATCTGACATATATGTTGTTATGGAGTATGTGAAATCTGGAGAGCTCTTTGATTACATAGTAGAGAAGGGTAGGTTGCAGGAAGATGAAGCTCGTAATTTTTTTCAACAGGTAGGATTGTTTACTATTTTGTGCAGTTGAGAAGACAACTTTGTCACACATTATTCAAGCTAATTTCTGATTTTGGAAGCAGATAATCTCTGGTGTGGAGTACTGTCACAGGAATATGGTGGTTCATAGAGATTTGAAGCCTGAGAATTTACTTTTGGACTCCAAATGTAATGTCAAGATTGCTGATTTTGGCTTGAGCAACATCATGCGTGATGGTCACTTTCTCAAAACCAGTTGTGGAAGCCCTAACTATGCAGCTCCTGAGGTTTGAAATTCTTTTTGTAATGAAATACACAATGATGATGATTATTGTTTTTATTGTTGTTGAGGAATGTGTGCATGTGTGGTGTGTTTATATTGTATCTTGTGATTTGTATTTCTTGGTTGCTAACTTGGTGATTTTTCATAGGTTATCTCCGGGAAATTGTATGCTGGACCTGAAGTGGATGTCTGGAGCTGTGGTGTAATTTTATATGCTCTTCTTTGTGGCACTCTTCCTTTTGATGATGAAAACATTCCAAATCTCTTCAAGAAAATAAAGGTATTATTGATATTAATTTTATTTAGTTAATCAATATTATTGATTAATATTAAATAAATAGGTGTTTCCTGCTTTCTCTTCCTTATTTTTGTTTTTAGTGTGAAAACTACCCAGGCCTTGGATATGTGGCTAACATTCTATGTGTTCAGTTCCTGCTTCTTTTCATGTTTATTTCTGCTATGTGCATTTTCTTTGTCCTTTGCCCATTTTTTAATCATTTTAATCTTCTGAAACTTTGCAAATGCAAAGGTTGTATTTTTGAGTTATTTATGTTAATGCAACCGTAGGAGTGTTTGAATTAAACATTGGTTGTTTTTAATTCATATTAGTATAATTTATATAGTAATTGATCTTTTAGAATCAGATAATCCAAAGCAAATTTATTCTTTAAAAGATATCATAACCCGAGATTTTTGACCTCATATTGTTTCATGTAGGGTGGGATATACACCCTTCCCAGTCATCTATCACCTAGTGCTAGGGATTTGATACCAGGGATGCTTGTGGTTGATCCTATGAGGAGAATGACCATACCTGAGATACGTCAACACCCATGGTTCCAAGCTCGTCTTCCACGTTATTTGGCCGTGCCCCCACCAGATACACTGCAACAGGCCAAAAAGGTTTATTTTTATATCTTTATTTGTCATTCTCTTTCCATCTCCATTCTCTTTATATAGTTGAGAATACTACTTTTGAAGTGAAAATGACTGGTTGGAAACCTTGAGTGACTTCACAAGTCTTAAGGGTTTTGGTATCTTTTCAGCTACTTTCTGTTTTCAAACTTTTGCACTTCACATTCATACACATTGGAAATTCTCGTGTGTGTATTAGTTGATGTATTATAATTGGTCCAAATGATATCATGGTTTTGTAGATTGATGAGGAGATTCTTCAGGAAGTGGTGAAGATGGGATTTGACAGGAATCAATTGATTGAATCCCTTCGGAACAGGATACAAAATGAGGTTTGTGCCCATGTCTTTCTCCTTCTACGTTTGCCAGATTATCTCTTACTACCATCCATATATTTCAGGGTACTGTAGCATACTATTTGTTATTGGACAATCGATTCCGTGTTTCCAGTGGTTATCTTGGAGCTGAGTTTCAGGAGTCCATGGTGGGTTTCTTTAAGCTCCCGCCCTCTTTTTAATATTTCATAAGTAGTTGGTCTCTATTTTCTGATTAAGTCATTTAGCTTGATAATGATTCAGAAACAAGATATTATCCCTATGCAAACTGGGCTATATGCTTGCTTGTGATATGTATTAGTATATGTTTGGCACCTGTGTTATGTTGGTGCAAGCCAAGATGAAGGGAATGGACAGCAGAAAATTGGGTAATTGGATACTCCAACCGAAGGTTGCATTGGAAATGTGAGGAAAGGGGTGAAGTGAAGGGGGAGAGCTTTGTAAAGAGCTTTTTAACAAGGTGGGAAAGGGGGAGGGAAGAGTTGGGATTTTATAAAATGTAAAGGGTGTAGCGGAAGGGGAGGGGCAGGGTGAACTTAGGGTGGGAAACCAGCTCCTCAGTGAGCTACTCTGGTCCTGGGTTTGGTTCCTGTAATACGATTTTCATGACACTGATCTCAGCGTTTTCTGTAATTTAAGTGAGGTTTCTATCATTTTAACCTTGACATTAACTATGTCTTTCTAGCCTGAGTTTGGTTCTTTGTGGATTTATAATAATGGAACCGTACGTTACTTGATATTATATTTTTTAGTTGTTTCCATTTAAAAGTGAATCCTATGCAAAGCTCATTAGTTTTGGGTTTATATTGTTTTTTGCTAGGATTCCAGTTTTAACCAAATGCATTCCAGTGAAGTTGCTTCTTCAGTTGTTGGACAACGCTTTCCAGGCTATATGGATTATCCAGGAGTAGGATCGAGGCCACAGTTCCCTGTTGAAAGGAAATGGGCCCTTGGTCTTCAGGTACGACAGTATCACCCATGGTGATGTTGCTGTTTGAGAGGAATTTGTTGGATGTCACTGTTTAACTTGTCTGTGTTGTATTTTATACAATTTATTTCCTCTCTGGATATATTGCAGTTGTGAAGAACTAACAAGTGTTTATAATTTATATCTAACGGTGTCTGATTTTTTGTAGTAGTTGCCATCTTAAAAAATGTAGTTTGATGTCGTGTTGGTAGTTACTTTTGTTCATTATCTTGTGACAGTCTCGCGCCCATCCTCGAGAAATAATGACAGAGGTCCTTAAAGCTTTGCAAGAGTTAAATGTTTGTTGGAAGAAAATTGGACACTACAACATGAAGTGCAGGTGGGTTGCTGCCATTCCTGGTCATCAAGATGGAATGGTTAACAGTAATGTGCACAGTAACAACCATTACTTTGGAGATGATTCCAACATTATTGAGAACGATGCTGTTTCTACCGCAAACGTGGTCAAATTTGAAGTTCAGGTAATTTAGCTTAGAACCATAATGTTTCACATAATGTGATTTAAAAAAAAAATCTTCTATGGCATCTGTAATGACGGATTTGCTCTGATAGTCGGATGATTAGTCTCCCTTGCTAAATTAAGGCCAAAGATGAACCGCAAAAATAGAAAAACCGAAAGAGTCATCTTTTTATTTTCCTTCCCTCGATGTTTAAATCATTGCTGTTTTTTGGCAGTGTTATACTCATTGGGGACGGAGATTGTCTTTTTAATTACAACTAATTCATCTCTTGTATTATTCCAGAGTATTCTCTAATTCTTACGTTCACTTTCACAGCTTTACAAAACTCGGGAAGAAAAGTATCTGCTTGATCTTCAAAGGGTGCAGGGTCCACAGTTTCTTTTCTTGGATCTGTGTGCTGCCTTCCTTGCACAGCTTCGCGTCCTCTAGAACAAAGAGCTTAGGATCACAAGAGACTTAAATAAGCCTTGTGTTTTATGTGAATAAGCTTTCATTGTACATATAAGTATCTTTTCTGTCCGAGCGTATCCTCTGATACCCGTTTTTCTATGGGTAAACATTATAAGGAGTCAATCCTAAATATGGGATTTGCTTCGTTAACAATGGTGTTCGACTAGTTGTTCCTATCTCTTGGTCATTTAATTTCATGGGAAAAGCTAAATAGCCCCTGACTGACACTATGTGTATGGTTTTCAACCAAGTGCTGTAAATGACTGTTGCTATCTGGAAGGGATGCCTAGGCTGCCTATAACTTTTGCAGATTAGCCTTGTTTTCTTATAAATCTAATTTCACATTACACCCTTGTATGAATGCAACCTCCTATCAGACTGGTACTGAGAATTTAAATTTTCCATTATCACTGTGCGCTAGCATTTTGAAGGATTTTACTTGTCCGAGATCTTTTGGATTGATTGATTCATAATATTTTCAGATTTTATAATTTTGGATAATATTGTGGATCACGATATCTGAAGT