Genomic Resources - Ricebean Portal

Integrated genomic strategy for accelerating domestication of
ricebean (Vigna umbellata) under genetic enhancement of minor pulse

Gene Details:

Gene ID	Chr. No.	Start Position	End Position	Function	View on
Vu_16992	LG4	31104155	31115964	PREDICTED: LEAF RUST 10 DISEASE-RESISTANCE LOCUS RECEPTOR-LIKE PROTEIN KINASE-like 2.3	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	response to osmotic stress, response to water deprivation, cellular response to oxygen-containing compound, protein phosphorylation, phosphorylation, response to osmotic stress, phosphorylation, response to water deprivation, signal transduction, protein phosphorylation, response to abscisic acid, response to water deprivation, protein phosphorylation, cellular response to oxygen-containing compound, response to abscisic acid
Cellular Component	located in	plasma membrane, plasma membrane, extracellular region
Molecular Function	enables	protein serine/threonine kinase activity, protein kinase activity, protein serine/threonine kinase activity, protein kinase activity, polysaccharide binding, protein kinase activity, protein serine/threonine kinase activity

SNP	Position	Effect	Amino acid change
A/T	31104213	missense_variant	p.His1020Gln
T/G	31104375	upstream_gene_variant
A/G	31104417	upstream_gene_variant
T/A	31104430	upstream_gene_variant
C/T	31104446	upstream_gene_variant
T/A	31104558	upstream_gene_variant
A/T	31104564	upstream_gene_variant
A/G	31104567	upstream_gene_variant
A/G	31104655	upstream_gene_variant
A/G	31104695	upstream_gene_variant
A/G	31104744	upstream_gene_variant
T/C	31104822	upstream_gene_variant
C/T	31104912	missense_variant	p.Val985Ile
G/A	31104975	missense_variant	p.Arg964Cys
A/G	31105120	synonymous_variant	p.Ser915Ser
A/G	31105232	missense_variant	p.Val878Ala
G/T	31105277	missense_variant	p.Ser863Tyr
G/A	31105295	missense_variant	p.Ala857Val
G/C	31105378	upstream_gene_variant
G/A,*	31105432	upstream_gene_variant
G/A	31105540	upstream_gene_variant
C/G	31105911	upstream_gene_variant
G/A	31105988	upstream_gene_variant
A/G	31106049	upstream_gene_variant
A/T	31106121	upstream_gene_variant
G/C	31106126	upstream_gene_variant
T/C	31106148	upstream_gene_variant
G/A	31106222	upstream_gene_variant
C/T	31106259	upstream_gene_variant
A/T	31106292	upstream_gene_variant
A/T	31106336	upstream_gene_variant
A/C	31106350	upstream_gene_variant
G/C	31106371	upstream_gene_variant
T/A	31106387	upstream_gene_variant
C/T	31106424	upstream_gene_variant
C/T	31106461	upstream_gene_variant
C/T	31106487	upstream_gene_variant
A/C	31106516	upstream_gene_variant
G/A	31106559	upstream_gene_variant
C/T	31106590	upstream_gene_variant
T/A	31106623	upstream_gene_variant
C/T	31106625	upstream_gene_variant
A/T	31106652	upstream_gene_variant
A/G	31106653	upstream_gene_variant
C/T	31106654	upstream_gene_variant
T/C	31106698	upstream_gene_variant
A/G	31106720	upstream_gene_variant
C/T	31106726	upstream_gene_variant
G/A	31106731	upstream_gene_variant
T/G	31106739	upstream_gene_variant
C/T	31106749	upstream_gene_variant
T/A	31106760	upstream_gene_variant
T/A	31106858	splice_region_variant&intron_variant
G/T	31106889	missense_variant	p.His825Asn
A/T	31107060	missense_variant	p.Ser768Thr
C/A	31107092	splice_acceptor_variant&intron_variant
T/A	31107093	splice_acceptor_variant&intron_variant
A/G	31107094	splice_region_variant&intron_variant
T/A	31107095	splice_region_variant&intron_variant
C/T	31107349	upstream_gene_variant
C/T	31107384	upstream_gene_variant
G/A	31107404	upstream_gene_variant
T/A	31107465	upstream_gene_variant
A/T	31107548	upstream_gene_variant
T/A	31107652	upstream_gene_variant
T/C	31107693	upstream_gene_variant
G/T	31107762	upstream_gene_variant
G/T	31107819	upstream_gene_variant
G/C	31107835	upstream_gene_variant
A/G	31107878	upstream_gene_variant
G/T	31107949	upstream_gene_variant
A/C	31108158	intron_variant
G/T	31108176	intron_variant
T/C	31108370	missense_variant	p.Ser698Gly
A/T	31108377	synonymous_variant	p.Ser695Ser
A/G	31108500	synonymous_variant	p.Phe654Phe
C/G	31108503	missense_variant	p.Trp653Cys
C/A	31108523	stop_gained	p.Glu647*
G/C	31108560	synonymous_variant	p.Leu634Leu
A/G	31108612	missense_variant	p.Leu617Pro
A/T	31108614	missense_variant	p.Ser616Arg
T/G	31108616	missense_variant	p.Ser616Arg
C/T	31108666	missense_variant	p.Arg599His
T/A	31108703	missense_variant	p.Ile587Phe
C/T	31108737	stop_gained	p.Trp575*
C/T	31108784	missense_variant	p.Glu560Lys
A/G	31108915	missense_variant	p.Ile516Thr
T/C	31108945	missense_variant	p.Tyr506Cys
T/G	31108951	missense_variant	p.His504Pro
G/T	31108960	missense_variant	p.Thr501Asn
A/G	31108973	missense_variant	p.Ser497Pro
C/A	31109008	stop_lost	p.Ter485Leuext*?
T/A	31109034	synonymous_variant	p.Ile476Ile
G/A	31109076	intron_variant
G/T	31109165	intron_variant
T/C	31109174	intron_variant
G/A	31109181	intron_variant
C/G,*	31109212	intron_variant
T/C	31109283	intron_variant
C/T	31109354	intron_variant
T/A	31109359	intron_variant
A/G	31109490	intron_variant
G/C	31109491	intron_variant
T/G	31109505	intron_variant
T/C	31109547	intron_variant
A/G,*	31109573	intron_variant
A/G	31109708	intron_variant
A/G	31109740	intron_variant
T/A	31109785	intron_variant
C/T,*	31109868	intron_variant
A/G	31109903	intron_variant
C/T	31109915	intron_variant
A/G	31109929	intron_variant
A/G	31109964	intron_variant
T/A	31110008	intron_variant
A/G	31110009	intron_variant
A/G	31110018	intron_variant
A/G	31110032	intron_variant
C/A	31110073	intron_variant
A/G	31110094	intron_variant
C/T	31110096	intron_variant
A/T	31110127	intron_variant
T/A	31110142	intron_variant
G/A	31110168	intron_variant
A/T	31110178	intron_variant
T/C	31110186	intron_variant
A/G	31110199	intron_variant
T/A	31110254	intron_variant
T/G	31110281	intron_variant
A/C	31110300	intron_variant
A/G	31110341	intron_variant
A/G	31110356	intron_variant
T/C	31110388	intron_variant
G/A	31110401	intron_variant
G/T	31110472	intron_variant
T/A	31110516	intron_variant
A/G	31110545	intron_variant
G/C	31110590	intron_variant
T/A	31110595	intron_variant
G/T	31110596	intron_variant
G/A	31110644	intron_variant
C/G	31110685	intron_variant
A/T	31110693	intron_variant
T/C	31110762	intron_variant
T/C	31110799	intron_variant
T/G	31111549	missense_variant	p.Ser393Arg
G/C	31111566	stop_gained	p.Ser387*
T/C	31111616	synonymous_variant	p.Gln370Gln
T/A	31111617	missense_variant	p.Gln370Leu
T/A	31111786	splice_region_variant&intron_variant
T/A	31111889	intron_variant
T/A	31111890	intron_variant
C/T	31111899	intron_variant
C/T	31112005	intron_variant
G/T	31112135	missense_variant	p.Gln303Lys
C/T	31112523	intron_variant
G/A	31112642	intron_variant
G/C	31112645	intron_variant
A/G	31112695	intron_variant
T/G	31112767	intron_variant
T/C	31112770	intron_variant
T/C	31112781	intron_variant
C/T	31112793	intron_variant
C/G	31112818	intron_variant
A/G	31112841	intron_variant
A/G	31112845	intron_variant
T/A	31112852	intron_variant
G/C	31113103	intron_variant
G/C	31113112	intron_variant
G/T	31113137	intron_variant
A/T	31113155	intron_variant
A/G	31113167	intron_variant
G/C	31113192	intron_variant
A/C	31113222	intron_variant
T/A	31113235	intron_variant
C/A	31113394	intron_variant
T/C	31113454	intron_variant
G/C	31113489	intron_variant
A/G	31113492	intron_variant
C/T	31113502	intron_variant
C/T	31113723	intron_variant
A/C	31113748	intron_variant
A/C	31113841	intron_variant
G/A	31113868	intron_variant
A/G	31113943	intron_variant
C/G	31114098	intron_variant
G/A	31114102	intron_variant
A/G	31114209	intron_variant
T/C	31114273	intron_variant
A/T	31114298	intron_variant
T/A	31114356	intron_variant
A/C	31114471	intron_variant
T/G	31114511	intron_variant
G/A	31114566	intron_variant
A/T	31114570	intron_variant
A/G	31114589	intron_variant
T/C	31114658	intron_variant
T/A	31114663	intron_variant
C/A	31114703	intron_variant
T/A	31114713	intron_variant
G/T	31114739	intron_variant
T/A	31114749	intron_variant
A/G	31114767	intron_variant
A/T	31114829	intron_variant
A/T	31114861	intron_variant
T/C	31114863	intron_variant
T/C	31114869	intron_variant
A/G	31114890	intron_variant
G/C	31114911	intron_variant
G/A	31114933	intron_variant
T/C	31114970	intron_variant
C/G	31115124	missense_variant	p.Glu281Gln
A/T	31115127	missense_variant	p.Phe280Ile
G/T	31115154	missense_variant	p.Leu271Ile
G/T	31115412	missense_variant	p.Arg185Ser
G/C	31115571	missense_variant	p.His132Asp
C/G	31115583	missense_variant	p.Gly128Arg
G/T	31115616	missense_variant	p.Pro117Thr
G/T	31115841	missense_variant	p.Gln42Lys
G/A	31115867	missense_variant	p.Thr33Ile
A/G	31115938	synonymous_variant	p.Arg9Arg
C/T	31115939	missense_variant	p.Arg9His
C/T	31115955	missense_variant	p.Asp4Asn

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_16992.1

MEEDHDHMRIHIYMMCWLSLITLPHSYCESNTTFDYSVCKKQSYNCGNLSNIFYPFWGHNRSSECGSGDPFKLTCNHDHNTSSIRIASENFTVKEINNTAHTMKLVPADTVANLCSPQSENGNESHTGLFQHSPSVQKIIIFYYCPRIRTFSYGHFKCGDDIAYYVLEYDRLFVDYPQLVSCKRRLHTWSDAQMNFSVALEKVLNEGFVVNYNVSRVCERCLGSEGRCWRDDIEKHVVNSCYYCQNGSHGLHCSPSPVKTTTSSMSLLFSLSLFHQLSTFECSAHFLAMLASSFTVGTVAVAGKKGNKKMKFIIIGVTGVAIATVMICIAIFCLRYKSPILQGHFGLTSKANRDIEAFLKNHGAQTLKRYKFSEVKKMTNSFKVKLGQGSFGAVYKGEILNGCPVAIKKLSASKGNGEDFINEVASISRTSHVNVVQLLGFCLEGSNKALIYEYMSNGSLDKFIYNKGVKAIPSLIYVQLLKASDDITNINSLSMDHHVLSLLTISIFFFLTSSPQSHCQEEGTKFSLCSRPYTCGKVSNIYYPFWGQNRPSYCASTEQLKLNCEEPNQQTNFQLGSQNFTVLKIDALYETMRLVRTDIVYDDCSSDLTNTSLSSTVFKYPETVHNITVFYGCPSGFSFGERNFTCKNDRTQFGFYAEMTDELSAEFPELEQCELRIHVPIFREFSLVSDGGIDSLKEAASRGFDVYYSAADGKKCRTCEESKGFCGSMEISKNQFACHCSDGSEDLECYGYSANHSTLSPTPTPTLAPTPTPMPLPTPTPTLAPTPTPKPMPTPTPTAAPTPAPTPAPTPAAPTPASAPTPTSNTQDQSHYATRNKRNKKRKLIIIGATSAAIVVLLICLAILCLRYKSSLWQEHFGLTTKSNQNIEAFLKNHAALTIQRYSLSEVKKMTSNFKVKLGQGGFGAVYQGKLSNGSHVAIKMLNETKKNGEEFINEVASISRTSHVNIVTLLGFCLEGRKRALVYEFMSNGSLDKFIYREPENIALLNQCQNLALDETNLCIFWGYFGVLKDDGALFAIL*

CDS Sequence:
>Vu_16992.1

Promoter Sequence:
>Vu_16992::LG4:31115964-31117964(-)

TATTTCACATTAGTTTACCCACATTTGTTTACCCACATTTGTTTACCCTTTTTATTGTGTTTTGTTTTGTCTGCGTGTTCTCATTGTTTGCGATACTAGAATGATGTGAGTAGATGATGATATTACAATTGATCTAGTATATGATGAGGGTGACACAAAAGTATAATTTTAGGATGATCTTGTTTTGTGGAATTTCTTTCCTTTTTACAAACTATAATTATGTCAGTTTAGTTGTATGACCATAAGTATGCAGTACATACTTGTATGTGGAATTTAATATCATATCTATAATGTTTTGTTTGATAGTTTTACACAATTAAATGAGATGTTACATATTGAAATTAATTTTGATTTTTTTTCTATTAACATTAATTTTTATTAATAACTTTAAAATAATTTTAAATAAAATTCAATGTAAAATATAAATTTATATAAATTTAATCTGGTTAAAACTATTTATAAAAATATCAATTTTAATAAAAATATTTGTGTAACATTTATATAAAAATGAAATTTGATTTCAATTTGAGGAAGAACAAAATTATTTAATTTTAAAAAAAAAAGACTAAATTGGGAAAAAAAATAAAAATACATGGATCAAATTGAAACTAAATTAATAATACCTGGTATGATAATGACATGTGACATTGTTGCTGACACATCACACTATCATGTGACACAAATTAACTTAACACAGGACAAATTTATATTTAAAAAGAAAATAAAAATAAACACAAAAAACTATAAACTAACACATCATGTGACACTTCTTTAAGTTAATACATTATTAATTAAAGTACCTATGCATCAAAATTTTCAAAATAGAAATTAAAATAAATAAAAGAAAAATTCAATTTAAAATTTTTCTAAAAAATATAAATGAATGACATAATTTAACTTAAAATAAACTTAAAAGCGGTGAATGACTCTAACAATACTAATTAATATTAAAAAGACTCGAGGTTATAATAATTATTATATATATATTCAGTACAAATATATATTAATTTTTTATTCATTATAGATACATCATAATTTGGAACCAGAAGTTGAACTGTGAAGAAGCTAAACCAAGATTATTCACTTCAATTACACTCAAAATTTGGCCGGGCTATGAATTTACAGGTTGTCTAAAATCATGAGGTTGGTTTCAATAAAAGGCTTTTATTTTCCTGCAGTCCTATAATTTTTAACTGCAGCGACATAGTTTTTAAATAATTATTTTGTCCTTTCTAAAAGTAACTTCAAAATGACCTATTTTTATAATCTTTCATAAACAAGTTAATTGGAATTTACATAACAGGATTTTGCAAACAAATTTTTTAAAATAAACTTTCAAGAGTGACAAATGGATTTTCCAAAACAAACTTTCTAGAGAAGTGCAAAAAAGTCTAAAAAATGTTGCCAAAAAGCTATTTAGACTTGACAAACACGCCTTTGAGTCCCACCATTTTATTGATACAAGTAAAAATTCTAATAAGAACTGATAAATGGGCCTTCACTTTCGTCCTAATGGTCCACTTAAAATCTATCTGATTCTTTTAAATAAATTAAAATCTTTAGTATATGTTCCATCTATCTATGTCAAACTAGGACTATTTTGATCCATTTAAATAAATACAAAATTTAAAATCAAATAAAATTAAAATAAAATGTGTTTTTATAATTTAAATCATATTAATAAAATTAATATAAATGATAGGTATACGATTTTAATATATATAAACAAAATGGATAACATAAAAATAGTAACTAAATTCAATTTTTGTCATAATTATTTTCACTTAACTTACTTTGACCCTAACATCCAGTGAGTGGTCATCATTTTTCGAGGATTGTTCTTGCTTCTAAAAGGACAATATAAAATGTGTATTTGTTTTCATGTTTCAACATCCATTTCTTATTTCCAGCAAAAGCCAAAACTAAGGGAGAATTTGTTGGATTCACTGTCAAAGAAAGTTCAACAGTTTGGCAAACAAACATATATAAGAGTACCTAGA

Gene Sequence:

>Vu_16992(-)

ATGGAAGAAGATCATGATCATATGCGTATACATATTTACATGATGTGTTGGTTATCGTTAATCACTTTGCCACACTCGTACTGTGAATCAAATACCACTTTTGATTATTCAGTTTGCAAGAAGCAGTCTTACAACTGTGGAAATTTATCCAACATCTTCTACCCTTTCTGGGGACACAATCGATCTTCTGAATGTGGCAGTGGCGACCCTTTCAAGCTCACCTGCAATCATGATCATAATACTTCTTCAATTCGAATTGCCTCCGAAAACTTCACAGTGAAGGAGATCAACAACACTGCTCACACCATGAAACTGGTGCCAGCAGACACTGTTGCGAATCTCTGCTCTCCGCAATCTGAGAATGGAAATGAGAGTCACACTGGTTTGTTCCAGCATTCTCCTTCAGTGCAAAAGATTATCATATTCTACTATTGTCCCCGCATCAGAACTTTCTCTTATGGACACTTTAAATGTGGAGATGATATCGCTTATTATGTACTGGAATATGATAGGCTTTTCGTTGATTATCCACAACTTGTAAGTTGCAAGCGACGTTTACACACGTGGAGTGATGCTCAGATGAATTTTTCTGTTGCTTTGGAGAAAGTTCTCAATGAAGGGTTTGTGGTGAACTATAATGTTTCTCGAGTTTGCGAAAGATGTTTGGGAAGTGAAGGGCGTTGCTGGAGAGATGATATTGAAAAACATGTAGTGAATTCTTGCTACTATTGCCAAAATGGTTCTCATGGCCTACACTGTTCTCCTAGTCCTGTCAAAACCACCACAAGCAGTATGTCTCTTCTATTCTCTCTCTCTCTCTTTCATCAACTCTCAACTTTTGAATGTTCTGCTCATTTTCTAGCCATGCTTGCTAGCTCTTTTACCGTAGGTTTAAGCTATAGATTTTGATGCAAGAAATGAAGATGAACCACAGGCAAAAAAGTAAAACATGCAGGAAACCTAGTTAAACTTTTAGTAACTTATTATGGTTTAAATTATTTAGGATTATGTTAAAAACTTTTTTTTAACAACTTTTTCACAATAAATATATATCAATCACAAGCTACACGTAAATTATTATAAAAAAATTATTAAAAAAAAATTGTTAAAAAAATATTTTTCAATTATTTATTCCTACCATGTAGTGTCTGAAACCTATAGTTTTCTCTGGTTTTTTCCTGCAGCTCCTATAAAACATAAGACTAGACTCTTGGTAGTGTTTAAACAATTCTTCATAAGAAGAGATATATGAAGAAAAAAAGAGTAACATAGGAGGAAAATGAAAGTGTGATATTGAAGAGAGATGAAAGAAAAATGAAGAGAAAAAAATACTTTAACATACATAAATTTTTTACATTCATTTAAGATTATTTTTTTATTAAAAAATACAAAAATTTACTTTTATGATTATTTTATTTTTATATTTTATATCAAATAAATATAAAAATATATCATTTTATCATTATTAAAAAAATGAAAGGAAGATGGGATGTTAGGAAAAAAAAGTGTATGGTAATAGAAACATCCAATTGTTGTGTCATTGGGACACATACAACAGAACACTTGTCTCATCCCAAAAAACAATAAAAAAAAAAGAGAAACAGTAGCAGGAACGCGACTTAATTCTTAGGTTTGGCAAACTCAATTACTGTATTTGAAAACATAATTAAAGAAAAACACTAAAATTCAATAAAAAATTATGGACTTTCATTTTTAATTTTATATATATATATATATATATATATATATATATTATTGTAAAATATGTCTTGCCAAATACAAACGTATGATGGAGAAGTAATCCTAAAATAATTTTTTCACAACTTAAAATTAGTTTTTACATAAATTAAACACTTTTTTCCCTTAGAATCAATCAATACATTTTCATCTCTTAAATTAACCTCGTTACACATAATGCTTGAATAATTAGGTTATAATATCGCCTAATAAAATAAAATGGATTTTGTTTAAAATTAAAATTATTTTTAACGTAAGTTTATAGTTTAGTTATCACATATATTTAGATAAACATATCATCTAAGTATTTCTACAAATTTAAAATAAAATAGTTCAATTATTAGTTTGGTAAGTTAAAACTATACGGAAAACTTTATTGAATAGTTTTTTTAAGTTTTTATGTTTAACTTATAAAAATATTAACTTTTTCTTCATACTTTTTTCTTTTAAAAGTTATTGAAGAAAATTTTCATCGAAATTAATAGACTTATAACTTCTTCAAAAGCTTATTTTTTACCTTTTATATCAAGTAATTTTAGTTTATAATTTTTCTCTTATTTTCCTCCCTAATTTATAACCTTTCTGCAACCTTAAAATGCTCGACACGTCCAATTTAATAAGGTAGGTGGGTCAAGGGTTTATATGGGACCAACGGCAGCTGATTGTTTTGACCGTAGTTGCACTTGCTACAGAGCACGTCCACCACATTTTTGTTTTGTTTATATGACACATTAATGACGAACTGTTATATGGAGACAATAATTTTCAATTAAATCTCTGCTTTCACTGTAGGAACACTGCATATATTTGTCGGTGTTTCTACGTGTTTCACTGCAGCAATTCATAATTAGTCATCATTAGTTTTGTGAAGTTACATGAAATATAATGTGACAAGGCTAAGAATAAGAAGAGAAGATGTCCCTTCTGGATGAAGAATGATAACCAAAGAACTAAGATTGATTAAGTTAAATATTGCACTAACACACAATACCACATCCCTTATTATATTTGTCTCTACCCATTTATGTTCTAATACTCGTCATTGTTTATGTATATTAGATGAGGATAGTTATTCAAATTCATACCTTCTCATCCAAGTTTCATCCCTCATCCCACTTTCATCTCTGTCACCTTCCATCATAATACTTATAAATATCTAATTAATTTCACCTATCAGATACAAACAAAGTCCTATATTAAATAAAATAAAAAATAATATAAATTTATATACACATAAGATATTTTATTAGTAAAAAATCTTTTTAAGTGATACTAAAAATAAATATAAGAGGACTTACCTAAAATATACTTTTAACACTTTCAGAAGCTAAACTTTGAAAAGAAAACTACAATGAAATTTCCTTATAAAAAGATTAAGTAAATAACTGTTTCCTCACTTTTTAAGTAATGTCGCACAACGAAAATAAAATAACGGAAATAATTGTTATTTTACAGAAAAAACGTATTACAAAGAAGAGTGTAATGAATATGTATTTTAAAAACATAGAGTATAATAATGTTTACTAAAAACATAACGGGGATAAATATTTATTTTAAAAATGCTTGAAATATAAATCAACAACTTCTCACTGTAGCAAAACTAATACAATGACCATAATAAAAATAATTATTAACAATTTTATATTTCTACACATTTACTCAACAAAAATCTCTTTGGGTGACTACGTTTACATGACTTTGAGAGAAGATAGGGTTGTTGACTGCATATTTTTCCAAGTCTTTCTGCTTTCGAGTCTCTAATGGTCCCTACAAGTATGTCATTAGGCAAATTAACACGTTCCCTGAATTTCATTCCAGCTATTCATGATATTCTAAGTCTGGATTCGTACTGTTTGTGATATAGATTCATGCAGCTGGTTAAAAATGGTGTTAATGTGTTGTGAAATGGTGTTATCATATTTAGTAGCATTTCCAGAAAACTTCATAACCCTTGATATTATCATATTTGTTCTATGAAATGGTGTTAATGTGTTGTGAATGTGAGATTTGGAAGTATATTTAAACTGAATAACATGATTTGAGTCTAACGTAATTACTCTTTGTTCTCACTAGGTACTGTCGCAGTTGCAGGCAAAAAAGGGAACAAAAAGATGAAATTCATTATTATAGGTAATAAATTCTTCTTATATTTCTACTGGTTCTTTTAATACTCATGACGAAATGTATCTTTAGGATCTGATCGTGTTGAAGGATTCATTGCTGCTCATTCTGCAGTACTCGGAGTTACACTCTAACACTCATTTTGATTTCCTAATTACTAATTATAAAATGCTAATAACAGACACATTATTAGTTTAAATTTATTGGGAAACAAAAAATTTTGCTAAGTTCTCAATCAGAATTTTGTAGTTTACAATCAATTGACAACAATCCTAGCATAGCAAATGTTCAGTGTTGTTCCTACTATACTGTATTCTGCTAACAGGTGTTACAGGTGTAGCAATTGCAACTGTGATGATATGTATAGCAATTTTCTGTCTAAGATACAAGTCACCAATCTTGCAAGGACATTTTGGGTTGACTTCAAAAGCTAATAGAGATATTGAAGCATTCCTTAAAAATCATGGAGCTCAAACTCTAAAAAGATACAAATTTTCAGAAGTGAAGAAAATGACCAACTCCTTCAAAGTAAAACTAGGTCAAGGTAGTTTTGGTGCAGTATACAAGGGAGAGATACTCAATGGTTGTCCTGTGGCCATAAAGAAACTGAGTGCATCCAAAGGAAATGGTGAAGACTTTATCAACGAAGTTGCCAGTATCAGTAGAACTTCTCATGTTAATGTTGTTCAGCTTCTTGGATTCTGTTTGGAAGGCAGCAATAAAGCTCTCATTTATGAATATATGTCTAATGGTTCTCTTGACAAGTTTATTTACAATAAGGGAGTCAAAGCCATTCCATCGTTGAGTTGGGATAATTTGTGGCAAATTGCCAAAGGGATAGCTCAAGGACTAGAATACTTGCACAAGGGATGCAACACTCGCATTTTACATTTTGACATAAAACCACACAACATACTTCTGGATGAAAGTTTTTGTCCCAAGATATCAGATTTTGGACTGGCAAAGCTTTGTCCCATGAAAGAGAGCACTATTTTCATGTCAGATCAAAGAGGAACAATAGGGTATAAAGCTCCAGAAGTGTGGAACAGACATCTTGGTGGAGTTTCACACAAATCTGATGTTTACAGTTATGGAATGATGCTGCTAGAAATGGTGGGAGGGAGAAGAAACATTAATGCAGATGCCAATCACCGAAGTGAGATATACTTCCCACACTGGGCATACAACAGGCTAAAGCAGGGTAGAGAATTGAGAGCTGATTGGGTGATAACCACAGAAGAACAGGAAATAGCGAGGAGAATGACCATAGTGGGATTATGGTGTGTTCAAACGATTCCACATGATAGACCTACAATGAGTAGAGTAATAGATATGCTGGAAGCCAACATGAATTCCTTGCAAATGCCTCCAAAACCTGATCATTCTTCTCCCATCAGTTGAAGTAATTTTCTTTACATTTTGGGTTGATATTCTATACTTCTGTAAAATGAATAGTTCAACACAGTTATTCTATGCTTTTGAAACCGAGCTGGTTTCATACTTGTATCAACATATTCAATGCAAATGCTTGTGTCAGAACAAACTGTGTTATGCATATAGCTAAGAGTCATGGTCAGATAAAGTTGTCATAGTAGTAAGATCAAAGTAGTTTACTGTGATCATATCAGTTACACCTTGCACTTATAGAAAAGTGGCAAATGTGGCTCCCTCTTTAAACTCTTTCTCTTAAACTTTTTCTCCTTCCCCTCAAGTTATTTATATTTTTGGTAATAAGATATCCAAAAATGTTTGATAAATTAAAATTTTTCATATATTTCATTTTTTAAATCATAATTTCATTAACAATTTGTCATCTAATCAAACCACCACATTTTCCATGTTCAACTCGCTTAAAAAGGGTTGGAAAGTTTACCAACTTAATGTTAAGTCAGCATTCTTAAATGGTTTATTGGAAGAGGAAATTTATGTTGAACAACCCGAAGGTTTCACTGTGAAAGGGCAAGAAGATGATGTGTATTTGCTTAAAAAGGCTTTATATGGCCTAAAACAGGTCCCTAGAGCATGGTACAACAGAATTGATGAGTACTTGATGAAATTGGGATTCAAGAGAAGTTTTAATGAAGCTACTCTCTACATTAAAGGTGATGAAATACATTTCATTTTTATCTCATTATATGTGGATGATTTGCTGGTTACAAGAAGCAATGAAGAACTCGTGAGAAAATTCAAAGAAGATATGAAGTAAATTTTTGAGATGACAGAGATTTGGGGGAAATGGCTTATTTTCTAGGAATGGAAATAAATCAGAAAAATGGAGAAGTATTCATCTGTCAAAAGAAGTATATTAAAGAAATTCTAAAAAAGTTTAAAATTGGATGAATGCAAGACGTAGATACTCCAATGTGTCAGAAGGAAAAGTTGAGCAAAAAGGATGAAGTCGAACCAGTTGATGAAACTTTTTATAGAAGTCTAGTTGGTTGCTTAATGTACTTAACAACTACTAGACCTGATATCTTACATTCTGTAAGTCTATTATCTAGATTTATAAATTGTGCAACTGAGACACATCTTATTGCTGCAAAAAGAGTTTTGAGGTATATGAAAGGAACATTAAATTTTGGAATCAAATTTTTTGCAAGTAAGGATGATACACTCTAAGGATATTTTGATAATGACTGGGGAGGCTTGCTGGATGACCTGAAAAGCACTTCAGGCTACTGTTTCTTGTTTGGATCATGTGTGTTCTCATGGTGCTGTAAAAAACAAAACACTGTAGCACAATGCTGAATTTGTTGCAGCCAACGTTGCTGTAAATCAAGCCTTGTGGTTAAGAAAGATTCTAATCGATTTAAATATGAAGCAAGAAAAATGCACTAAAATATTTATTGACAATCAAGCTGCTATTTCTATTTCAAGCAATCCTGTTTTTCGTGGAAAAACCAAACATTTCAATATCAAATTATTCTTTCTCAGAGAAGTGCAAAAAGAAGGTACAGTTAGCTTGACATAATCATCCAACATAATCAAACCCCCACATTTTCCATGTTCAACTCGCTTTTGAAGGAAATTCGGGTGCCAAATTTCCTTAATTTGCGCATGGAAATATAGTATATGTTCAACTTCTGAAGGCAAGTGATGACATAACAAACATAAACTCCTTATCAATGGATCATCATGTCCTTTCACTCCTCACCATCTCTATCTTCTTCTTCTTAACTTCCTCTCCACAATCCCACTGCCAAGAAGAAGGAACCAAATTCTCACTGTGTAGCAGACCATACACCTGCGGAAAAGTGTCCAACATTTACTACCCTTTCTGGGGTCAGAACCGACCCAGTTACTGTGCCAGCACCGAGCAGTTGAAACTCAACTGTGAAGAACCTAACCAACAAACTAATTTTCAACTTGGCTCGCAGAATTTCACAGTGCTAAAGATTGATGCATTGTATGAAACCATGAGGTTGGTTCGAACAGACATCGTCTATGATGATTGTTCCTCGGACTTAACTAACACCTCTTTGAGCTCCACAGTCTTTAAATACCCCGAAACCGTGCACAACATAACCGTATTCTATGGCTGTCCCTCTGGGTTTTCCTTTGGGGAGAGAAACTTCACGTGCAAGAATGACAGAACTCAGTTTGGTTTCTATGCTGAGATGACAGATGAGTTGTCGGCCGAGTTTCCTGAGCTTGAGCAATGCGAGCTTCGTATCCATGTGCCGATTTTCAGAGAATTTTCGCTGGTGTCTGATGGTGGAATAGACTCTCTGAAAGAAGCTGCTTCACGTGGGTTTGACGTTTACTATAGCGCTGCTGATGGTAAAAAGTGCAGGACTTGCGAAGAAAGTAAAGGATTTTGCGGATCTATGGAGATTTCTAAGAATCAGTTTGCGTGTCATTGTTCAGATGGATCAGAAGATCTGGAATGCTACGGTTACAGTGCTAATCACAGCAGTATGTTTTCTTTCCCCTGTTATATATTTTGTCTAGTTCGTGAAAACACCTTGCGACCCATATAATTCTTGATTGTTCTTTCGTTTCGTGTTTTTTCTATATATCTCTTGTATCTTACTCTATTGTACGTGCATGGTTTTCAGATTATTCGAAAAGGGTTCTGTCAGACCAAACACGTGGAACACAAAGCACTAGTTTACTTGAGTTCTCTCTGCTCTGTACTCTCTTTTCTCTAACCTTTTCTTGCTTCATTTTCGTGTGGGTTTGATTATACATAAACTAAATTAGTTTGAGAAATTTATTTTAATTTTTCTGTGTTTACATAATTATCACAAGTCGTGTCCCTGCATCACTTTCAATCTGGGTCAACACCAGATTGACTCGGTGTTTCCTCTGTCATGACAAAGTTATCCACCAATTTTTCCGTAACTAAAGCACAAAAATCAACATAGGAATTTAACGTAATTCAGCCTACAATATGAGACTAAATTAAACTTCATAATACTAACACTTAATTCATCCAATTGAGACAATTAAACAGTCTTTACTCCATACTCTTCTAATTAGATAAGAAAGTTAGTATTGGGAATAGATGCAACGGTGTAACGTGGATTCCACCGTCAATGACAAGGTATTTATACTTTAGTTGTTGAAATTTTGGTAGATAACTTGGTCATGAGTGAGAAAACATTGGGATCAATTTGGTGTTGACCTAGATTAGAAAGAAGTCAATGGCTTTTTGGTGGTCTAAAAAAATTTCAAAGACTAATTAAATAGTAAAATAATTCTAAATCCTCCAATAACATTGTTAGGATTGTTTTGTGTAAATATTAAATACTTCTGCATTTGCATGATTAAACATAAAGTACTACTATATATTATGTAATGTATAGGAAAATATAATATAATTTATAATGTTAATTAGTCATAAGAAGGGTTATTCAACCACTAATTTATTGAATGGGTTAATATTTTTAGTTTTTCAGTCCGTTTCTTTAGTTGGGATTAAGTTGTGTATTATATGTGTAACAATAGTTCAATAATTTGTTTGTTATTCATTTTATGCATTCTAAATGGTGGGATTTGTGGTAATGACATAGCACTATCGCCAACACCAACGCCAACATTAGCTCCAACTCCAACGCCAATGCCATTGCCAACACCAACACCAACACTAGCACCAACTCCAACGCCAAAGCCAATGCCAACACCAACACCAACAGCAGCACCAACACCAGCACCAACACCAGCACCAACACCAGCAGCACCAACACCAGCATCAGCTCCTACTCCTACATCAAACACTCAAGATCAATCTCATTATGCTACTAGTACGTATTCATCCTTCATGTGATTTAATTTAGGTTCATTAAAGTCTTACTCATCTCATTGCATTTTCATTGAGAAGCAAAGAATTTTTTTATAGAATGAATTTTTTTAATGAAATTCATTATATGAACCATTCGGACTTTGAATTTAAGATTGTGTTCTTTAATAAGAAATGATTTGAGGGAGATGAAATGATGGATTTGGACGAGTTTGAAGGTAAATTTTGTTTCTTTTAAGGGATTTGGAGGTGATGAAGTGAATTTGAAAGTAAAGTTTTGAGAGAAATTTGACTTATGTGACACACTTTTTTAATAAATTAGAAAAGTAAAATTATTAAATTGCCCTTTATGTTAAAACTAATATAAAATGATATTTGTGAGTTAGAATTATTTAATTTTTTTGATTAATAAAATTTAAAAATAGTATTAATTGAAATAAGTAAAGATATAAAAGAGATCAATTCTCACACCTGGAAACAGTTCCAACCATCACAGAACAAATTTCAAGCACAATGAAACTGATTTCCTCACCCTTGGAATCAGTTCCAACTATCACAAAACAAGTTTTATTTCTTTCTTCAAGCACATGGAATCAGTGCCAATTGTGACAGATCCGATTCCCCGCTAGCCTCCATGTATGCCATTCCAACTGTGATAGGAAGGATATTCATGTAAAAACACTTGTTTCACTCTCAAATCTTTTCATTGAAGTGGGATGACACATTAACATGAATCTCCCAATTCCACCATCACCTCTTAATCTCTACAAAAGAACACAAATCGTCTCTTATATCACCACTTCCTATTTTCTTGTTAGGGAATCCTATGATACATGTCTTAACACATTTCAACTTTAACAATATAAAAATGTAGGACAAATTACACTTTTTTTTCGTTCTCTTTTAACTTCTTATTGGCCAAGATGATTTTCTTATGTAGTAAAACACAAGGAGACTGAAATATGATCATGCACATTCTGTTTTTCTATCTGAATAACATTTTAAGACGATTGTTAACAATGTTCTAATGTCCTCCTCTTTGCTCTCACTATTCTGTTGCAGGAAATAAAAGGAACAAAAAGAGGAAACTCATTATTATAGGTAATAAATGTCACATCTTTTTACTTCTGCTTTTACTGGTTCTTTAATATCCAAAACATGTTTAATATCTCTTATCTATTGCCCTTCATATTAGATGATGCTTATTGCTTTTTTCTTATGAATTTGAAATGGATACTTACAGTTTGTCACATCTAATTAGGACACTATAATTAGGACACTATAATTTACACACCCACAAAACAGAGGCCTAGTACATATATCACTAAAGCACATATAACTGTCTAATATAATACCTGCTTAATAAAGTAATTTCCATACATAAAAAACACATATCTGACAAAATAATTTTCTTAGTTACTCCTTTTTTTTTCTTTCTGACAAATTTTCCAAGGTATGGTTTTCTTGTACTGTCCTATCAGAAATACTGTATATAAATCAAATGTTCATTGATGCTCCTACTGCATCAATTTGCCAACAGGTGCTACAAGTGCAGCGATTGTTGTATTGCTGATATGTTTGGCCATTCTGTGTTTGAGATACAAGTCATCGTTGTGGCAAGAACATTTTGGGTTGACTACAAAAAGTAACCAAAATATTGAAGCATTCCTTAAAAATCATGCTGCTCTAACTATACAAAGGTATAGCTTATCAGAGGTCAAGAAAATGACAAGCAACTTCAAAGTTAAACTAGGACAAGGAGGTTTTGGTGCAGTGTACCAAGGAAAGCTATCCAATGGTAGTCACGTAGCTATAAAGATGTTAAACGAAACAAAAAAGAATGGTGAAGAATTCATCAACGAGGTTGCAAGCATCAGTAGAACTTCTCACGTTAATATTGTCACTCTTCTTGGATTCTGTCTGGAAGGCCGCAAGAGGGCTCTCGTTTATGAGTTTATGTCAAACGGTTCCCTTGACAAATTCATTTATAGAGAACCTGAAAACATTGCACTCTTGAGTTGGGATATTATATATCAAATCTCAATGGGTATAGCTCAGGGGTTAGAATACTTGCACAGAGGATGCAAAACTCGAATTTTACATTTTGACATAAAGCCTCATAACATCCTTTTGGATGAGAAGTTTTGTCCTAAGATATCTGATTTTGGGTTGGCAAAACTTTGTCCTAGAAATGAAAGCATCATTTCTATGTCTGATGTCAGAGGAACTATGGGGTATGTAGCTCCAGAAGTGTTGAACAGACATTTCGCAGGAGTTTCACACAAGTCTGATGTTTATAGTTATGGAATGATGTTGCTAGAAATGGTAGGAGGAAGGAAAAACATTAATGGTGAAGCTAGCCACACTAGTGAGATATATTTTCCGAATTGGATACATAAGAGACTTCAGTTGTTCAATGATTTCAGATTCGATGAAGTGATGACCCCTGAAGAGAATGAAGTAGCAAAGAGATTGACCATTGTGGGTCTATGGTGTATTCAAACCTTTCCAAATGACAGACCAACGATGAGTAGAGTAATTGACATGTTGGAAAACAGCATGAATTCCTTGGAAATGCCACCAAAACCTTTGCTTTCATCTCCTAACAGATCAGTGTCAGAATCTTGCTCTTGATGAAACTAACTTATGCATTTTTTGGGGTTATTTTGGAGTTTTAAAGGACGATGGTGCCTTGTTTGCAATTTTGTGA