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_24436	LG6	7683115	7708473	PREDICTED: serine/threonine-protein kinase EDR1-like	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	signal transduction, phosphorylation, protein phosphorylation, protein phosphorylation, protein phosphorylation, protein phosphorylation, protein phosphorylation, phosphorylation, protein phosphorylation
Cellular Component	located in	cytoplasm, cytoplasm
Molecular Function	enables	protein kinase activity, protein kinase activity, protein kinase activity

SNP	Position	Effect	Amino acid change
G/T	7683232	missense_variant	p.Ala40Ser
G/A	7683237	synonymous_variant	p.Leu41Leu
A/G	7683408	downstream_gene_variant
C/T	7683559	downstream_gene_variant
G/A	7683591	downstream_gene_variant
A/G	7683600	downstream_gene_variant
T/A	7683615	downstream_gene_variant
C/T	7683630	downstream_gene_variant
G/A	7683675	downstream_gene_variant
G/A	7683688	downstream_gene_variant
A/T	7683771	downstream_gene_variant
C/T	7683778	downstream_gene_variant
T/C	7683780	downstream_gene_variant
A/C	7683792	downstream_gene_variant
A/C	7683825	downstream_gene_variant
A/G	7683832	downstream_gene_variant
T/A	7683837	downstream_gene_variant
G/A	7683865	downstream_gene_variant
C/T	7684158	downstream_gene_variant
C/T	7684191	downstream_gene_variant
G/C	7684310	downstream_gene_variant
T/A	7684322	downstream_gene_variant
C/T	7684598	downstream_gene_variant
T/A	7684623	downstream_gene_variant
A/T	7684624	downstream_gene_variant
A/C	7684731	downstream_gene_variant
C/T	7684785	downstream_gene_variant
A/T	7684793	downstream_gene_variant
T/A	7684907	downstream_gene_variant
A/G	7684908	downstream_gene_variant
A/G	7685013	downstream_gene_variant
G/T	7685015	downstream_gene_variant
T/G	7685314	downstream_gene_variant
C/T,*	7685316	downstream_gene_variant
G/A	7685320	downstream_gene_variant
A/G	7685353	downstream_gene_variant
T/C	7685508	splice_region_variant&synonymous_variant	p.Gly215Gly
G/A	7685634	synonymous_variant	p.Ser257Ser
A/T	7685747	missense_variant	p.Glu295Val
T/A	7685762	downstream_gene_variant
A/G	7685838	downstream_gene_variant
T/C	7685929	downstream_gene_variant
G/A	7685964	downstream_gene_variant
G/T	7686015	downstream_gene_variant
G/A	7686086	downstream_gene_variant
C/T	7686101	downstream_gene_variant
A/T	7686144	downstream_gene_variant
C/T	7686145	downstream_gene_variant
A/T	7686280	intron_variant
A/C	7686281	intron_variant
T/C	7686282	intron_variant
G/A	7686287	intron_variant
A/G	7686288	intron_variant
A/C	7686402	intron_variant
T/C	7686458	intron_variant
G/A	7686516	intron_variant
G/C	7686542	intron_variant
C/A	7686633	intron_variant
G/T	7686748	intron_variant
A/C	7686754	intron_variant
T/A	7686768	intron_variant
A/C	7686836	intron_variant
G/A	7686883	intron_variant
C/T	7686911	intron_variant
G/T	7686977	intron_variant
A/G	7686980	intron_variant
A/C	7687022	intron_variant
A/T	7687029	intron_variant
T/C	7687037	intron_variant
A/T	7687097	intron_variant
C/A	7687191	intron_variant
A/T	7687303	intron_variant
C/G	7687325	intron_variant
T/A	7687353	intron_variant
G/A	7687357	intron_variant
T/A	7687367	intron_variant
C/T	7687425	intron_variant
A/G	7687558	intron_variant
T/G	7687586	intron_variant
T/C	7687600	intron_variant
T/G	7687686	intron_variant
G/C	7687688	intron_variant
C/A	7687690	intron_variant
G/C,T	7687736	intron_variant
G/A	7687738	intron_variant
A/C	7687784	intron_variant
T/A	7687984	intron_variant
A/G	7688001	intron_variant
C/T	7688058	intron_variant
T/A	7688059	intron_variant
T/C	7688074	intron_variant
C/G	7688143	intron_variant
C/T	7688369	intron_variant
C/G	7688410	intron_variant
A/C	7688420	intron_variant
G/T	7688427	intron_variant
A/T	7688493	intron_variant
A/G	7688516	intron_variant
C/G	7688520	intron_variant
G/A	7688523	intron_variant
G/A	7688576	intron_variant
T/C	7688732	intron_variant
C/A	7688843	intron_variant
C/A	7688900	intron_variant
T/C	7688906	intron_variant
T/C	7688936	intron_variant
T/G,*	7688951	intron_variant
T/C	7688998	intron_variant
A/G	7688999	intron_variant
G/A	7689013	intron_variant
T/C	7689019	intron_variant
T/C	7689055	intron_variant
T/C	7689061	intron_variant
T/G	7689080	intron_variant
A/T	7689099	intron_variant
C/T	7689134	intron_variant
G/T	7689152	intron_variant
C/T	7689168	intron_variant
C/T	7689172	intron_variant
T/C	7689228	intron_variant
G/A	7689234	intron_variant
G/A	7689259	intron_variant
G/C	7689269	intron_variant
A/G	7689271	intron_variant
G/A	7689276	intron_variant
C/T	7689292	intron_variant
G/T	7689378	intron_variant
C/G	7689401	intron_variant
G/A	7689424	intron_variant
G/T	7689458	intron_variant
T/A	7689464	intron_variant
G/T	7689569	intron_variant
T/G	7689647	intron_variant
G/C	7689752	intron_variant
T/C	7689778	intron_variant
T/A	7689838	intron_variant
A/G	7689919	intron_variant
C/G	7690015	missense_variant	p.Ser305Cys
C/G,T	7690135	intron_variant
C/T	7690147	intron_variant
T/A	7690214	intron_variant
C/T	7690255	intron_variant
T/C	7690330	missense_variant	p.Leu340Ser
C/T	7690465	intron_variant
G/A	7690474	intron_variant
A/T	7690574	intron_variant
T/C	7690590	intron_variant
G/A	7690608	intron_variant
T/C	7690629	intron_variant
T/A	7690640	intron_variant
A/C	7690691	intron_variant
G/A	7690759	intron_variant
T/C	7690808	intron_variant
C/T	7690825	intron_variant
G/T	7690850	intron_variant
C/A	7690892	intron_variant
T/C	7690899	intron_variant
A/G	7690921	intron_variant
T/A	7690923	intron_variant
C/A	7690982	intron_variant
T/C	7691090	intron_variant
C/A	7691112	intron_variant
A/G	7691116	intron_variant
T/G	7691117	intron_variant
T/A	7691198	intron_variant
T/G	7691214	intron_variant
G/A	7691253	intron_variant
T/C	7691274	intron_variant
G/A	7691285	intron_variant
T/A	7691286	intron_variant
G/T	7691306	intron_variant
C/A	7691343	intron_variant
A/G	7691405	intron_variant
A/G	7691481	intron_variant
G/T	7691542	intron_variant
C/T	7691555	intron_variant
T/C	7691605	intron_variant
G/A	7691671	intron_variant
A/C	7691733	intron_variant
T/C	7691772	intron_variant
A/T	7691800	intron_variant
C/T	7691890	intron_variant
A/T	7691914	intron_variant
G/A	7691966	intron_variant
C/G	7692060	intron_variant
T/G,*	7692063	intron_variant
C/T	7692112	synonymous_variant	p.Phe368Phe
C/A	7692179	missense_variant	p.Leu391Ile
A/G	7692212	intron_variant
T/A	7692215	intron_variant
T/A	7692240	intron_variant
G/A	7692241	intron_variant
T/A	7692266	intron_variant
T/A	7692292	intron_variant
T/A	7692301	intron_variant
T/G	7692302	intron_variant
T/C	7692304	intron_variant
T/A	7692306	intron_variant
A/G	7692333	intron_variant
C/G	7692342	intron_variant
T/A	7692450	intron_variant
A/C,*	7692454	intron_variant
T/G	7692519	intron_variant
G/T	7692543	intron_variant
C/T	7692550	intron_variant
C/G	7692554	intron_variant
T/C	7692576	intron_variant
G/A	7692605	intron_variant
G/A	7692608	intron_variant
G/T,*	7692640	intron_variant
T/G	7692711	intron_variant
A/G	7692803	intron_variant
T/A	7692874	missense_variant	p.Val409Glu
G/A	7692951	intron_variant
T/C	7692975	intron_variant
G/A	7693003	intron_variant
G/A	7693038	intron_variant
T/C	7693122	intron_variant
G/C	7693229	intron_variant
T/A	7693233	intron_variant
A/G	7693235	intron_variant
T/G	7693251	intron_variant
A/T	7693376	intron_variant
G/T	7693379	intron_variant
C/T	7693422	intron_variant
T/G	7693426	intron_variant
G/A	7693470	intron_variant
T/G	7693491	intron_variant
T/C	7693510	intron_variant
T/A,G	7693576	intron_variant
G/A	7693579	intron_variant
A/G	7693692	intron_variant
G/T	7693701	intron_variant
A/T	7693709	intron_variant
G/T	7693715	intron_variant
A/G	7693989	intron_variant
T/G	7694076	intron_variant
A/C,*	7694090	intron_variant
A/T	7694113	intron_variant
A/G	7694270	intron_variant
T/C	7694286	intron_variant
T/A	7694335	intron_variant
C/A	7694353	intron_variant
C/T	7694435	intron_variant
A/G	7694437	intron_variant
G/T	7694460	intron_variant
T/C	7694509	intron_variant
A/G	7694525	intron_variant
A/T	7694547	intron_variant
G/A	7694600	intron_variant
A/G	7694623	intron_variant
A/G	7694677	intron_variant
A/C	7694803	intron_variant
C/G	7694806	intron_variant
G/A	7694827	intron_variant
C/T	7694859	intron_variant
A/G	7694941	intron_variant
G/C	7694989	intron_variant
C/T	7695041	intron_variant
C/A	7695119	intron_variant
G/T	7695170	intron_variant
T/G	7695181	intron_variant
T/A	7695271	intron_variant
A/T	7695272	intron_variant
A/C	7695277	intron_variant
C/T	7695332	intron_variant
G/A	7695412	intron_variant
A/T	7695425	intron_variant
T/C	7695614	intron_variant
T/A	7695626	intron_variant
A/G	7695671	intron_variant
T/A	7695679	intron_variant
G/A	7695691	intron_variant
G/A	7695743	intron_variant
C/T	7695749	intron_variant
C/T	7695752	intron_variant
C/G	7695819	intron_variant
A/G	7695823	intron_variant
C/T	7695843	intron_variant
C/A	7695984	intron_variant
T/A	7695988	intron_variant
G/A	7695995	intron_variant
A/G	7695999	intron_variant
G/C	7696001	intron_variant
G/A	7696002	intron_variant
C/T	7696016	intron_variant
A/T	7696020	intron_variant
A/T	7696026	intron_variant
C/T	7696098	intron_variant
T/C	7696107	intron_variant
G/A	7696120	intron_variant
A/G	7696180	intron_variant
C/G	7696182	intron_variant
T/C	7696201	intron_variant
T/C	7696269	intron_variant
C/T	7696310	intron_variant
C/T	7696326	intron_variant
A/G	7696331	intron_variant
A/T	7696367	intron_variant
T/C	7696377	intron_variant
A/G	7696396	intron_variant
C/T	7696411	intron_variant
T/G	7696414	intron_variant
A/T	7696427	intron_variant
G/C	7696431	intron_variant
C/T	7696445	intron_variant
G/A	7696446	intron_variant
G/C	7696452	intron_variant
C/A	7696462	intron_variant
A/G	7696464	intron_variant
C/A	7696468	intron_variant
G/T	7696474	intron_variant
A/C	7696477	intron_variant
T/C	7696495	intron_variant
T/A	7696499	intron_variant
T/A	7696531	intron_variant
G/A	7696544	intron_variant
T/G	7696568	intron_variant
G/T	7696593	intron_variant
A/G	7696649	intron_variant
A/T	7696659	intron_variant
C/A	7696733	intron_variant
C/T	7696743	intron_variant
C/T	7696793	intron_variant
G/T	7696804	intron_variant
A/G	7696812	intron_variant
G/C	7696835	intron_variant
A/G	7696865	intron_variant
T/A	7696882	intron_variant
C/G	7696896	intron_variant
T/C	7697040	intron_variant
A/G	7697129	intron_variant
A/T	7697171	intron_variant
T/C	7697260	intron_variant
C/T	7697433	intron_variant
C/T	7697455	intron_variant
T/G	7697502	intron_variant
T/G	7697548	intron_variant
G/A	7697552	intron_variant
G/T	7697565	intron_variant
A/T	7697702	intron_variant
C/G	7697733	intron_variant
A/T	7697741	intron_variant
G/A	7697799	intron_variant
T/C	7697827	intron_variant
A/G	7697836	intron_variant
T/A	7697857	intron_variant
G/T	7697858	intron_variant
T/A	7697877	intron_variant
T/A	7697881	intron_variant
A/G	7697885	intron_variant
A/C	7697930	intron_variant
C/T	7697967	intron_variant
G/A	7697990	intron_variant
T/C,*	7698002	intron_variant
T/G,*	7698008	intron_variant
C/T	7698017	intron_variant
G/A	7698062	intron_variant
T/C	7698173	intron_variant
A/T	7698244	intron_variant
A/G	7698316	intron_variant
T/C,*	7698320	intron_variant
G/A,*	7698350	intron_variant
T/C	7698385	intron_variant
T/A	7698404	intron_variant
G/A	7698425	intron_variant
C/A	7698432	intron_variant
G/A	7698497	intron_variant
G/A	7698501	intron_variant
A/C	7698536	intron_variant
T/A	7698611	intron_variant
T/A	7698622	intron_variant
A/G	7698646	intron_variant
C/T	7698651	intron_variant
A/C	7698677	intron_variant
A/G	7698710	intron_variant
A/G	7698758	intron_variant
T/A	7698795	intron_variant
C/T	7698851	intron_variant
C/T	7698854	intron_variant
T/C	7698875	intron_variant
T/C	7698884	intron_variant
G/A	7698897	intron_variant
G/A	7698902	intron_variant
A/G	7698907	intron_variant
C/T	7698935	intron_variant
G/T	7698937	intron_variant
A/G	7698943	intron_variant
A/G	7698960	intron_variant
C/T	7698991	intron_variant
A/G	7699032	intron_variant
G/A	7699080	intron_variant
G/A	7699100	intron_variant
G/T	7699112	intron_variant
G/A	7699128	intron_variant
C/T	7699143	intron_variant
C/T	7699166	intron_variant
T/A	7699182	intron_variant
G/T	7699186	intron_variant
T/A	7699267	intron_variant
A/G	7699283	intron_variant
T/A	7699306	intron_variant
G/A	7699406	intron_variant
A/G	7699419	intron_variant
C/T	7699423	intron_variant
G/T	7699468	intron_variant
T/G	7699513	intron_variant
T/G	7699588	intron_variant
G/A,*	7699638	intron_variant
C/A	7699647	intron_variant
C/T	7699649	intron_variant
C/T	7699667	intron_variant
T/A	7699688	intron_variant
C/A	7699689	intron_variant
A/G	7699730	intron_variant
A/G	7699767	intron_variant
G/A	7699820	intron_variant
T/C	7699830	intron_variant
C/G	7699898	intron_variant
C/A	7699922	intron_variant
A/C	7699930	intron_variant
C/T	7699962	intron_variant
A/G	7700018	intron_variant
A/G	7700118	intron_variant
G/A	7700132	intron_variant
T/C	7700197	intron_variant
A/T	7700233	intron_variant
A/G	7700251	intron_variant
C/T	7700359	intron_variant
G/C	7700456	intron_variant
C/T	7700459	intron_variant
C/A	7700477	intron_variant
C/G	7700478	intron_variant
C/T	7700480	intron_variant
G/A	7700481	intron_variant
T/C	7700516	intron_variant
T/G	7700531	intron_variant
T/C	7700575	intron_variant
T/C	7700616	intron_variant
C/T	7700651	intron_variant
T/A	7700657	intron_variant
T/G	7700660	intron_variant
T/A	7700667	intron_variant
G/A	7700698	intron_variant
G/C	7700733	intron_variant
A/T	7700755	intron_variant
T/A	7700838	intron_variant
T/G	7700851	intron_variant
T/A	7700853	intron_variant
T/A	7700855	intron_variant
A/G	7700899	intron_variant
G/A	7700923	intron_variant
G/A	7700943	intron_variant
G/A	7700961	intron_variant
T/C	7701052	intron_variant
A/T	7701076	intron_variant
T/C	7701112	intron_variant
G/C	7701159	intron_variant
G/C	7701165	intron_variant
A/G	7701184	intron_variant
T/C	7701213	intron_variant
G/A	7701218	intron_variant
A/T	7701238	intron_variant
G/C	7701293	intron_variant
T/A	7701315	intron_variant
C/T	7701325	intron_variant
A/G	7701353	intron_variant
T/C	7701368	intron_variant
C/T	7701447	intron_variant
C/A	7701499	intron_variant
A/T	7701530	intron_variant
G/T	7701533	intron_variant
G/A	7701568	intron_variant
A/G	7701586	intron_variant
G/A	7701601	intron_variant
A/G	7701613	intron_variant
T/C,A	7701656	intron_variant
T/G	7701661	intron_variant
C/A	7701677	intron_variant
G/C	7701729	intron_variant
G/C	7701854	missense_variant	p.Glu446Gln
A/T	7701855	missense_variant	p.Glu446Val
G/A	7701884	missense_variant	p.Val456Ile
G/A	7701903	missense_variant	p.Arg462Lys
G/A	7701928	intron_variant
G/T	7702055	intron_variant
G/A	7702088	intron_variant
C/T	7702157	intron_variant
G/T	7702158	intron_variant
G/A	7702166	intron_variant
G/T	7702179	intron_variant
C/T	7702182	intron_variant
C/T	7702183	intron_variant
T/C	7702218	intron_variant
C/T,*	7702295	intron_variant
C/A,*	7702310	intron_variant
G/C,*	7702338	intron_variant
G/A,*	7702343	intron_variant
A/G,*	7702346	intron_variant
C/A,*	7702347	intron_variant
G/T,*	7702350	intron_variant
C/T,*	7702358	intron_variant
A/G	7702382	intron_variant
A/T	7702386	intron_variant
T/C	7702393	intron_variant
C/G	7702418	intron_variant
T/C	7702425	intron_variant
T/G	7702459	intron_variant
T/G,A	7702474	intron_variant
T/C	7702483	intron_variant
T/C	7702521	intron_variant
A/G	7702543	intron_variant
G/T	7702548	intron_variant
C/T	7702556	intron_variant
G/A	7702557	intron_variant
A/G	7702570	intron_variant
A/T	7702584	intron_variant
C/T	7702590	intron_variant
A/G	7702592	intron_variant
A/T	7702735	intron_variant
G/C	7702758	intron_variant
T/G	7702782	intron_variant
T/A	7702785	intron_variant
G/A	7702803	intron_variant
G/T	7702818	intron_variant
T/C	7702971	intron_variant
G/A	7702978	intron_variant
C/A	7702986	intron_variant
C/A	7703093	intron_variant
C/A	7703096	intron_variant
G/C,*	7703119	intron_variant
A/T,*	7703125	intron_variant
A/C	7703127	intron_variant
C/T	7703133	intron_variant
C/T	7703144	intron_variant
G/A	7703146	intron_variant
T/A	7703214	intron_variant
C/T	7703218	intron_variant
T/C	7703295	intron_variant
C/T	7703297	intron_variant
T/A	7703307	intron_variant
C/T	7703308	intron_variant
C/T	7703361	intron_variant
C/A	7703405	intron_variant
C/T	7703437	intron_variant
C/T	7703518	intron_variant
G/A	7703524	intron_variant
C/T	7703527	intron_variant
G/A	7703549	intron_variant
C/G	7703555	intron_variant
T/C	7703564	intron_variant
T/C	7703576	intron_variant
C/T	7703582	intron_variant
C/T	7703589	intron_variant
T/C,*	7703603	intron_variant
T/C,*	7703604	intron_variant
G/A,*	7703605	intron_variant
G/A,*	7703618	intron_variant
C/A	7703630	intron_variant
C/T	7703638	intron_variant
G/A	7703639	intron_variant
C/T	7703641	intron_variant
G/A	7703642	intron_variant
C/T	7703677	intron_variant
T/A	7703683	intron_variant
G/T	7703695	intron_variant
G/T	7703699	intron_variant
A/C	7703712	intron_variant
C/T	7703772	intron_variant
C/T	7703800	intron_variant
C/T	7703929	intron_variant
G/A	7704068	intron_variant
T/C	7704090	intron_variant
T/C	7704186	intron_variant
G/A	7704324	intron_variant
G/T	7704556	intron_variant
C/T	7704595	intron_variant
C/T	7704616	intron_variant
G/A	7704689	intron_variant
A/G	7704755	downstream_gene_variant
T/A	7704897	downstream_gene_variant
T/C	7704939	downstream_gene_variant
A/T	7704986	downstream_gene_variant
T/C	7705086	downstream_gene_variant
T/C	7705228	synonymous_variant	p.Asp497Asp
G/T	7705235	missense_variant	p.Gly500Cys
A/G	7705250	missense_variant	p.Arg505Gly
G/C	7705268	missense_variant	p.Glu511Gln
A/T	7705286	missense_variant	p.Met517Leu
G/T	7705288	missense_variant	p.Met517Ile
T/C	7705432	downstream_gene_variant
T/G	7705503	downstream_gene_variant
G/T	7705522	downstream_gene_variant
T/C	7705536	downstream_gene_variant
T/G	7705586	downstream_gene_variant
G/A	7705653	downstream_gene_variant
G/T	7705669	downstream_gene_variant
T/C	7705693	downstream_gene_variant
A/C	7705701	downstream_gene_variant
A/C	7705702	downstream_gene_variant
T/A	7705759	downstream_gene_variant
C/A	7705760	downstream_gene_variant
G/T	7705867	downstream_gene_variant
C/T,G	7705871	downstream_gene_variant
A/G	7705892	downstream_gene_variant
G/T	7705899	downstream_gene_variant
G/C	7705915	downstream_gene_variant
T/G	7705917	downstream_gene_variant
G/T	7705921	downstream_gene_variant
G/T	7706004	downstream_gene_variant
A/G	7706023	downstream_gene_variant
T/A	7706025	downstream_gene_variant
G/C	7706045	downstream_gene_variant
T/A	7706068	downstream_gene_variant
A/G	7706151	downstream_gene_variant
G/T	7706162	downstream_gene_variant
T/C	7706243	downstream_gene_variant
C/T	7706244	downstream_gene_variant
G/T	7706284	downstream_gene_variant
G/T	7706388	downstream_gene_variant
G/C	7706510	downstream_gene_variant
T/A	7706561	downstream_gene_variant
A/G	7706721	downstream_gene_variant
C/T	7706906	downstream_gene_variant
C/T	7706980	splice_region_variant&intron_variant
T/G	7706998	downstream_gene_variant
T/C	7707007	downstream_gene_variant
A/T	7707150	downstream_gene_variant
G/A	7707411	downstream_gene_variant
T/C	7707423	downstream_gene_variant
G/T	7707478	downstream_gene_variant
A/G	7707548	downstream_gene_variant
T/C	7707553	downstream_gene_variant
G/T	7707555	downstream_gene_variant
T/C	7707606	downstream_gene_variant
T/C	7708030	missense_variant	p.Met718Thr
A/G	7708117	missense_variant	p.Tyr747Cys
T/A	7708212	downstream_gene_variant
G/T	7708431	missense_variant	p.Asp788Tyr
T/C	7708470	synonymous_variant	p.Leu801Leu

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_24436.1

MEETREDAGPTEQGPSNVSWWPSDFVENFGSVSLDSHDEALSNKESPGHVVKDVLSSQKASQTLWRTGMLSEPIPNGFYSVVPETRLKELFDNIPSLDELNALSGEGFKTDVILVDSEKDKKLSMLKQLIVALVKGLNSNPAAIIKKIAGLVSDFYKRPNVESPAKAVLDETSHMLENRGVQMLGQIKHGSCRPRAILFKVLADTVGLESRLVLGLPNDGVTECQDSYKHMSLIVVLNSVEMLVDLMRFPGQLLPRSTKAVFMTHISGAGESDSAENDSCDSPLEPNSPLFGVSESVEKEESLQFHRKFEPSSNALGLSLRNVMLRSNTSLSLSHSEPNIGTTLGRRSRRKIIAEQRTASSSPEHPSFRARGRSMLSGDRTAFRDFTDDQATSRSSYRSDGASSSSEARRIRRRSVSITPEIGDDIVRAVRAMNETLKQNRLLRERGDDNSTNNNSSDANLQKNVSNFHLDGHDALYSRQHDQGNSQKAMSLPSSPHDYRGHSSERIGLSREGVNDEMESTWNKVLESQMFNNKPLLPYEKWNIDFSELTVGTRVGIGFFGEVFRGIWNGTDVAIKVFLEQDLTAENMEDFCNEISILSRLRHPNVILFLGACTKPPRLSMVTEYMELGSLYYLIHLSGQKKKLNWRRRLRMLRDICKGLMCIHRMKVVHRDLKSANCLVNKHWTVKICDFGLSRLMTESPMRDSSSAGTPEWMAPELIRNEPFTEKCDIFSLGVIMWELCTLSRPWEGIPPERVVYSVANEASRLEIPEGPLGRLISDCWAESHERPSCEEILSRLVDIEYSLC*

CDS Sequence:
>Vu_24436.1

Promoter Sequence:
>Vu_24436::LG6:7681115-7683115(+)

TCTGGCATTGGTGGTTTCGTATGGATTTGTTTAAGGCGTTTACTTATTTCATTTTTTTGATTTACTGTGAATGGAGTTGAGTCTGTGCATGATGTAAGTAGGTTCTCTGTGTGATCTAATGTGCGTTGGTATTGCGGAACTATTTGTTTTTGAAAATTTGAATTGGAATCGATGATTTCGCTGAACTATTTTGCCCTGTTAGGGTTGAAATTTGAATTGAACTGTGCACGCATTCCTTTAGCGAGGTTATAGTGTTTTTTACGTGCAGACTATTAGTGCTGTTGTGGTTTTTCTTCGGGATTTATGAGAGTAATACTCTATATTAGGCAGTTTGTGGATGTCTTTTCGTTTTCTGCCTTTGCGGCATACTGTATTGTTATTGACTTATTGTTATTTTTTTTTTCTCTGTACTACTTGTCAAAATATGGAAATACATAAATAAACTAATACAGGAAAATGATTTAAAACAATACAAAATATTCCTGACCTCTCCCTTTGTTTGTTTAAAACAAATGTAGAAAACATAGAAAGGGACAAGAATAAATGGAAAAGTGAAAACAAAGTTTATTACGGAAGGAGAATAGACTTGTCATCGAGTTGAGATGATCAGTTTAGCTGGAAACTAATAGTACGTTTGAAATAAAAAGTCTTGAAAGAAGCAAGAATCGGAGAGATTCTTTAGTATGCAAATTATAGGGTAATTAGAAATACTTTTGCGACTTTATTTGGTTTTGTGCTAGGAGTTTTCCTTTGGATGTGCAATGAATGGTTACGGTAACCGATTGTGAAAGTGGCAGTGGTATTAATGACATGTCTTATGTATATGTCCTGATCTTTATCGACGAAGTGAAAGATTCTTTCTTGCTTCAGTGGGGCTGATCTTGATGATTAACCTTTATCATTTCGTATAAAGACCAATTTTATTATGAGCTATTGAACAACAACACAACATCAAAAAGCTTCACCACGCTAGCTGAGGATATTATGAATTAGTAAACAGTAAGAATATTTAAAACTAGTTGATATTACAATTTCAGTGTTGATGCAATAGCATTTGGAGTTACATTTGTAAGTAATGAATATATGGAAGTGGGCATTTCTGTCGTCAGCACATTATACAGTTGTGAATGGATGGTATTTGTCTTTCACAAGAATGGTTTGGTTATATGAATATTCTGCAGTAGCGCAGTATACTTTGTCTACATATCCAATATTTAAGATATAAGATATGTTTGCACTTTAATCTAGATATTTGATATTTCTCACGTGTTTTTGTCATTATCTGCTTCAATAATTTAGGGAAATGTGTAGTGTTAAATACTTTGTATTAATTTTTTAATAACGGGAAAGTGCTGAATCGGAAATGGTCAGGAGATCTTAGTATGTCAACTTCTAGTCATGCATGATGCATTTTTTGTTTCCTTTGGAGAGTCGATATAGGTTACATTATTACAGGTCCAATATATGATGTTTATGGGTCTCACATGACTGATGATTTGTTGGAATAGTTGTAACTTGCACAAATAGGCTTACTCTTGTATTTTGAATTATTTGGACTTTAGATAATCATTACTTCCTGGCGTCCTAAGCTCACCAGTGATAATATCAGTTCTGAAAGTTTAACTTCTACGGTTCATTTGGGAATCATGTAATTACTGTCACGGGATTTATGAGTGGTGGAGTTTGGTCAATGCTAACAATTTTTCTATCTTTTTTTTTTTTGCAAAGATTTGTTTTTTGGCTCATGGTTGTAATGCTTCAGTTTCATGTGTAATGATTTTGAAAATTCGTTCCTTTCTATTATCAGATATTTATTTTTTTAATATGCCATATCCTTGTTATTTGGTTCCTGCAGGTTACATGATCTCCCGCGTGAAGCAATTGGGTCACTAAAATATTTATATCAATGATTTTGTATAATCAGAACTACCTTTAGCCTATCTCTCTTATGGGTTAATGATTGTGGCGACATGGTTTTTCATTCCAAATATATAAGAACA

Gene Sequence:

>Vu_24436(+)

ATGGAGGAGACACGAGAAGATGCAGGGCCGACAGAGCAAGGGCCATCTAATGTGTCGTGGTGGCCTTCAGATTTTGTTGAAAATTTTGGATCTGTTTCTTTGGATTCTCATGATGAGGCACTGAGTAATAAAGAATCTCCTGGACATGTTGTCAAAGATGTTTTGTCTTCTCAGAAAGCATCACAAACTCTCTGGCGCACTGGGATGCTTTCAGAACCCATACCAAATGGTTTTTACTCTGTTGTTCCGGTGAGGATTGATTTCTATGTTACTTCTTAGGGCGGCAGATGTCTATTTAGAGTTGCGTTTTTTTTGTTGCATACTCCAAAAGCTGCATCCCAATTTTGATTTATTCCCTAAAGGGGGTAACCGTATTAGGAGTTCTACATTGAGTAGAATAAACTACTTGATGTGGTATTTAAGCATTGAGACTCTCCCATCTAACGGACTAGTATTTTGGGTGAGACTCTTCTCGTGTTAAGTCTAACAATTGCCTGCACTCTTCTTTCTAGTTTCTAATCTCTTAAAATTTCTGGTCAAGGATCTCTCTTGAAAGCTTAGCCTATTAGATAGGGTGCAGGTTTGAATATTGATTTTATATACCAATTTTTTTAATCCAAAATTGAATGAAGGTTTGTGTGTTGAGAGAGAGAGAGAGAGGGTCGTGCAGAACTGTTAATTTATTTTTCGTACAAGTGCTCAGGCTATATAGATTGTAGGAATAGCATTAACAATCTGCTGCTGCTACTTGTTAAGGATTGTGTGTTGCATTATACAGATGTAGGTGGTGCTTGACACAATCTGCATATTATTGTTTAACTGAACATTTACATGTGGTGCTTTCAGAGAACCAACGGTGTCTCTTTAGCTTGTGTAAACTGCAAAATTGTTTTTTTATACTATCATTAATGACGAGCGGAAATATTTCGGAGCACCATATATTTAGTTTTGCATGGAAAGGGGAATTCAGTACAATCTGGAATTTGACATTGGTGACAATAAATATACGTTATTTTATTTGCAAGTGTTATTCTTTAAGTCTTCAGAACGTGGACCCAAGTAGATGAAATTTCTTGCAGGGAGCTGATCCTGCTTAGCTGTACCAGATAATTTTTACTTAGTGATAGAGCTTTTACGTGTTTCAATAACCTCTTCTCATTATGGATCATGACATTGTTCTTTGAGTTTGTTGATGGTACCCTGGTTCTTGGTGTGTGACTAAAATGGTTTTTGTCACTATTTTTTATAACATGCAGGAAACAAGACTAAAGGAACTTTTTGATAATATTCCTTCCTTGGACGAGCTTAATGCTTTGAGTGGAGAGGGTTTTAAGACTGATGTCATTCTCGTGGATTCAGAGAAAGATAAAAAGTTATCCATGTTGAAGCAATTGATTGTGGCATTAGTTAAAGGATTAAACTCAAATCCGGCTGCCATAATTAAGAAGATAGCTGGATTGGTATGTATTTGGTCACATCTTATCGTGTCACCCTTTTATTGTGCATAATAATATCCTAGCATATTATTGTTGCTTTAATGTCATTATTGTAACTTGGAATTGATTTTTTTCCTTCTATATAAATGTGCTTTACAATTTTGATTCATATTGTTTCAAATAATGCATATGATTATATTCCCAAACAATTTAGAAAATAGAAATTTCCAACATCGAATGGTATTAACTTTTCAAGAAACATATTTATTTTAAACTCAATTTGGCTGGGCTGTGTTAATTTTTTTCCGGATATTAGTCATGACCGTTACAACTTTGTTTGGTAGAAATAATTTCACTACAATTGTTATTTACAAGGCTATTGATGGGTATTACAGGGATTAGATCGATTATGTAAGGGAGCATTTTTTTCTTACTGTTATTTAATTTATTTTTCTAAGCACAATGAAAAATTTTGTATGCTTATTTTGACCTCTATTTCTAAACAGGTTTCTGATTTTTATAAGCGTCCCAATGTTGAAAGTCCAGCAAAAGCTGTGCTAGATGAAACATCTCACATGTTAGAGAATCGAGGAGTCCAGATGCTGGGGCAAATAAAGCATGGTTCTTGCCGTCCTCGAGCTATCTTATTTAAAGTATTAGCTGATACTGTTGGTCTTGAAAGTAGGCTTGTGCTGGTAAGTTCTGTTGGTGGGCTCAATGGCTGTTATGTACACTGTCTGCACTTGATTGCCAGTTTACTTATTTCAAAGATACACACAAATTTACAATGCATTTAGCGGAAAAATTAACAATGGAAACTCAATGTTGTATATTAGTTTTGCCACCATGTTCTTGCCTATTGGGATAAGGGTTTGGTTTGCTTTTGTTTTCATTTCGTTCTTTGTTATATCCTATTTTATAAAGATATATCTTGTACTACCATTTTCTTTATCAGGGTTTGCCAAATGATGGAGTTACTGAATGTCAAGACTCGTACAAGCATATGTCTCTGATAGTTGTATTAAATTCTGTGGAAATGCTGGTTGATCTTATGCGTTTTCCAGGCCAATTGTTACCACGATCGACCAAGGCAGTTTTTATGACTCACATTTCTGGTGCAGGAGAGAGTGATTCAGCAGAAAATGATTCTTGTGATTCACCATTAGAACCGAACAGCCCTTTATTTGGGGTTTCAGAGAGGTTAGATCCTATCAAGCTTAAGAACTGTTATTATAGCTTGGGCTTGATTGCACTTTTGTCCCTTTAAATATGATTATGTTCCCCCTAATTTTAGTTACAACAATATTACGCTGTAGTTATATATTGCTGCAATATTGTTGCAACACTTTTTCCCTTATGTAGTATTATTATTGCATGTTATCTCCAAGTCAGCAAATTCTATAACTAAAAAGAGTATTGTCTTACTTGATTTAGGGATGAGTAAAATCAATGAGTGTATGAAAAGATGAGAAGACTAAAGAACAAGGAATCTACAGCCTATGACACTTGATCCCTAAATTAGGTACACCAAAAAAGCAGCTTTATAAAAGCTGTAGAACAAAATAATGATTTACGATTTTAACACTTCCTCTCACGTTGGAACATATAAATTGTACTTACTAAGCTTGGAACATATAAATTGTACTTACTAAGCTTGGAACATATAAATTGTACTTACTAAGCTTGGAACATATAAATTGTACTTACTAAGCTTGGAACATATAAATTGAATTCTAGACTTGATTAGAATGTTTGCAAGCTGATAACTATAGCTAAGAAATGTAGTAGCAACAATATAGATTTCTTTAGTGAAGAAATCAATCTCATGCGAAACTCAGCCCCACACACACAAAAACTGGAAAACGACTGTATATTATTCTGGTAATCAAGAATACACTGTATACGTCTAAAACTATCAAGGGAACACTTTCCCTCCACAGGATACAAGGTCCTGTCTGCACAAAAGGAATTAACAAAAGCTAACCCTGTTAGAAGGCCCCTTTGCCTTCTTATAAAGGCAACCCAACCAACTAACCAATTGCTAACAGCACATACATCCCCTAACTGCCTAACCCCCTAATTCATTTCTTTTCCTCCTCTCATATACTTTTAAAACCCTATCAACAATCGATGTCTCTGTGTTTGATTTTCCACTAGAGGTAACTTGATTTCTTGGAAGAGCAAGAAACAAAGTATTGTGGCAAGATTTTTTGATTTTAGATAGTAAAGACTTTTTGATTCATGTCTTTTTCCAATCAGACAACTTGTACCTTCTTGTATGACAAAGGAATTAGAATCAAAGGATAAAATAATTTAAACAGCAAGTCAATTGGCTTAGAGAGTTTAAGCTATAAGGACAACGAGGAATGTACAAGACAAAATTATTAATCATAGGAGATAAAGTAAGTTGAACAATTCCTTGATATGCAACATTGAATCCATTGGCTACAATAACAAGGCAAGGAGTTTTCAAAGCAGAGATAAATTTGAATGAGGAGCTGTTATGTATCCTCATATTGAAACACAAGAAACAAGGAAAAAAAGTAATGTTTTCTATACTCAGTAATTCTGAGTTCATACAAATGAGAATAAAGAACCAAAATCAGAGAGAATGTATGTCCCTCTGCCCTCCAAAAGTTCCCAGGTTCCTCCTTCTTTCCCCCTCCCCCTCACACTTTATTCTCCTCTCACTCACTTCATTCCCTCTCTCCTCTAACGAAAGATACTCAAATGATTTCACACCTGCCGCACCAGCCATTATGTTATTAAAAGATCAAGGACGTGTGCTTGTGGGCCCCCAAGTGATGGGTTTCCACTTCTTCCTCTCATAAACTTGGTGAATTTTCACACTCTTCCCTTGCACTCCTTCTCCTTCATTCATATTAGGAACTATTATTAGAAATGTGATAAGAGGCACTTAAATCAAGTATCTAAGGACCTTGTCCTGCCATACATTGAGAAATACATGTAAAGATTGAACTTTATTTTTGAAATTTGAAGATTTAAGACTAAAATATTCTTGGTACTCTTCATTATAAAATTTGGTTTCTTCTTTTCAGATTTAAACACATGGACTGTGTTTTGTTGAAAATTGTGCAAGAAATAACAACTTTCTTGGGCATTATTAGATATTGTTAGTCACAATATCTTATATTTACCATATTTATGTGTATTTCCATATTTCCGTGTATTATTCTTCATTATAAATATATTACCCTATGTGTATTTTACACAAAGGGAGATTAACCTATACCTTGTTTTCACTATATTCAACAGGCATATGTGCATTGAGTATGTCCACTCTGGCTACCACATCATTCTTGGTTGCTATGACCTCCTCTTGCACAAGGTGCTACCTTTGTTGAAGTTTCAATAACTTTAGTTGAATTTTCATCTTTAACCAAATTAGGTAGTTGAAGAAGTCTCGTGACTATGTTGTCCATTGAAGGGATCTTATGAACAACCAGAAGTTGATCACTTGCATGATCAAAATCTGAATTTGGACTTCTCAAAATCAAGGCTATATATAGCTTATCAAGTTTTTTGTTGATATCCTCCAAAGAGTTAGTTACAAGGAATCTCTTTAGTTCTTCTACTTCTACCAAAACATTTGTTGTATGTGAGATCATATCATGGTTGGTCTGTTTGAGGGAGACTACTTTGAGTTGCTTCAAAGAGTCATTAGCAAAAATGTCTTGGGCCTTCTTCCAAAAAACATGTCTTGAATGTCTTGTTCAACTAACTATCATACAACAACACATGGTTGGAAGTCAAGCTTTTTCTACTTTTTCAACGGGAATAGCACAACCTTCCTTCTTCGAGTGGTTATGGTATCCTTGACCAAGGAACCACAACTCCACTAAAACAGAATGTGCAGGTATTTGTTCCAATTGAGTTTTCTAGTTGCAATGGTGGGAGTACCAAAGAAAGGAAGGATGACACATGTGGTGGACATTTCAGGCATAAAGACCCGTTGGTATAGGGAGGATCGTGAAGAAGATAAAAAGACTGTTACTTATAAGTGTGATCCACACTTCAAGTTGGTTGAAACCGAGAACCAAGGGCTACATATAGCTTATCAAGTTTTTTGTTGATATCCTCCAAAGAGTTAGTTACAAGGAATCTCTTTAGTTCTTCTACTGCTACCAAAACATTTGTTGTATGTGAGATCATATCATGGTTGGTCTGTTTGAGGGAGACTACTTTGAGTTGCTTCAAAGAGTCATTAGCAAAAATGTCTTGGGCCTTCTTCCAAAAAAACATGTCTTGAATGTCTTGTTCAACTAATTATCCTAAAACAACACATGGTTGGAAGTCAAGCTTTTTCTACTTTTTCAACGGGAATAGCACAACCTTCCTTCTCTGAATGGTTATGGTATCCTTGATCAAGGAACCACAACTCTCCACTAAAACAGACTGTGCAAGTATTTGTTCCAATTGAGTTTTCTAGTTGCAATGGTGGGAGTACTAAAGAAAGGAAGGATGACACTTGTGGTGGACATTTTAGGCATAGAGACCCGTTGGTATAGTGAGGATCGTGAAGAAGATAAAAAGACTGTTACTTATAAGTGTGATCCACACTTCAAGTTGGTTGAAACCGAGAACCAAGGGCAGAGTCGTTCCCAAAAGAAGTGGACGAGTTTAATGGAGTTGGTTTGGCAAGATTCTAATAGGCGATAGAGTGGTGTGTGCACACAATAGGTTGTTTGCGCATGAGAGCAAGTGGTTGTGGTTCAGGCCACACAACTTCTTAAGTTGAGTTGCCTTCATTGAGGCGTACCAGACACTAAGATTGCTGGTGGACAGCAGTCAAATAGGCAACTAAGAGGACAGAGCAAGATTTTATTGCTCTGATACCAACCTGAATTTAGGCGTGAGTAAAATCAGTGAATGTTTCTCTTAACTGAGTTATTTTGTTATATATGTGAAAAGATGAGAAGAGTACAAAACAAGGAATAGCTAGAGCCTACCAATCTTAATCCCTAGACAATTTACACCCAAAAAGCAGCTTTATAAAAGCTGTACATCAAAATAATAATTAACCATTTTAAATGTCTTTAAGTTTTTTGGAAAAGGGAGAACTATCAACCTAGGATTACATGTTGCAATTCAAAATTTTGGGGACCAAATAGGATGTCATTTTGCAATTCAAAATATAAGGGACCAAATAGGATGACATGTTGCAATTATGAACTGTCACAGCCGTCAACTTTTATTTTTTTCCTTTTGATTATGCATTTGCCAAAATTGTAAAGTTGATCTTGCCTTGAACAATTGGTCAAATACATCTTACAACTTCTCAATATTGGGTCAATAATAAATGAATTGTGACGTTATAGGCACAAAACCTTTGGAGCTTCATCTATATAGTTTATATATTTTCTTCCAGTTACAAGGAGTTGCCAATTGATTGGTTTTTGTTTGTCCCCTCTTTCAGTGTTGAGAAGGAGGAAAGCCTCCAGTTCCATAGAAAATTTGAACCATCTTCAAATGCATTGGGCCTTTCCTTGAGAAATGTGATGTTAAGATCAAATACCAGTTTGAGGTAACACGTTCCATTCCTTTTCAACTGTTTTTCATGGTGCCGTTGTTTTCACTTAGGATGCAGATGGTCCACTTTTTCCTTGCTCTGGATTTTGTTATATTTTAGTTTTTTGGTGTATTCCTAGGGAATTTATTTTACTAGAACCTGTAATAATGCACACTACTATGTACCAACTGTTTCTTGTTTGAACTGTCTTGTCAATTATCTCAGCTTGTCTCATAGTGAACCCAACATTGGCACTACATTAGGTCGGCGTAGTCGGAGAAAGATCATTGCTGAACAGAGGACAGCTAGTTCAAGGTTATTCATTATTCGTTTTTGTTTTGAAATGATGTGGGTATACATAAGTTTGGTTTAGGTTCAAAACATCAGGTTCAAGACACAAGATCTATATTATTAATGATATTTGTTTTACTTTGTTGATCATGGTGCTTCAAAACTTTTCTCTCTTCGATTAAGTCGATAAAGCTGTTAACTTATCTTTAATGGCATTATAAGTGTTTTTTTTTTTTGCTCTGGTTACTCCCTCTTATTTTGGTCTGTCTGTATGAGAAGGTTTAGAGTTTTGATGGCTAGAGCATGGAGTGTGATACTAAAACGTATAGCTGTTGATATTGTTCTCAAGATAAGAAGGGAATGCCGTACTTATCCTGAACCCTATCCGATAGGATAGACTGGCCGCTCTTTCCAAATATGGAATATCATGTATATTTTCACAAAAGTAATGGTCGTGGTCTTTGTGAAATTCATCATTGCTCTATCATAGTTTTCATCTTTACCTTTATTTTGGAATTGACACTGGTTGCATTTTTACACTACACAATGATTCTTCAAAGCAGTATAGGTAAATTTACCTGACATTTAATTACCGATTACCCAGGGCACCCTTTGGCTGGTTTCAGACTGTAAAACTCTGTATTATGGTGGATAGGAAGAAGATTAAGAAAAGAATCATATAAGGAGAAATTGGTGATGATAAATTGCACATGGTTATTTGTGATGAAACATTTTATTGTCATCATTATTGGCAGTTTAGAGGTTGGGGCTTACTACTCTTTTAGAAATTTCATGGCTTCTGAAGGTTGATGTGGTCACTAGAGTCTTCATCAAGTATTTTTTACTTACAAAAGCTATGCATTTATGACTAAGGCATTGATGGTTAAATGGTTTAGATGTGGTACAGGTTGATGTCTTCTATTATATGCATACAGTAGCACTGCATGATGATGATTGGAGCAAACACACGTCAAAATTGCAGTGATGACACTGAATGAAATTTCACTTTGCTGGTTCTTTTGTGGTGCGAAGTATTTAAAAATAATGCAATGAAGACCTAAGTTCTGTGAAAAGTGGAAACCAATTTTATTTTCAAATTTAAATCAATCATAGGAGAACATCTTAATTATGTCATGGAGTATTGGATTTGCTTTTCTTGCATATCATTTTGCTTTTTGTCTTTCATATTCGGATCCCTTGTAATATGCCGACTCCTTTTGGTCTTGTACAACATGTCGGAATGAGACTTGTAGGGTTATTGTACTATCATTCAATATTCAAATATTTGAACTTTGTACCGTCATTTTGATTTATTGATGCCTAATTTTTCTAAAATTCAGCTTCTATAATATAATCCACGTAATCTGTCATTTGTGTTAGTATATTATTAAGTTGTTCTTTCTGGTGTTTGTGCACAGGCTTCTTTATATCTCTGTACTTATTTTTTGTTTCTTGCATTGAAATTCTTGTGAATTTATTAGTAACTTATTTAAAGTCCAATACACCCTTACCTGGTTACTTTAGGGGAGATTTTTCATTAAAATTTTTTATTAGGACTTGTGACATGCCAAGTTTGCCTTTCATTTTGCATTTAGTGGCATTTTTTAATGTTATTATTATGTATTCAGTGGAAAGGGTGTCTAGACAACATTCAAATTCTTTATGCTAATTTTATTGACGTATTCTCACTATTTGGGTTTGAAATATTTCTGGTTTTGCAGTCCAGAACATCCCTCATTTCGAGCACGTGGGCGGTCCATGCTTAGCGGTGATAGGACAGCATTTAGAGATTTTACTGATGATCAGGCTACATCAAGGTTCTCATCTTTTTTATCCTTACATATCTTCTTTTGCACTGTTAAGTTTATTGCCCCTCTTGTTTTTGTAAGTATACTGCATCATTAGTTGTTACTAACTTTATTTATTTATTTGTTTAGGGTTTTCCTTACATCAGTATGGTAATTATTTGCCTTTTTACTAGATTCCACACAGAATTGTTATGTTATGCAAAACTTTCAATGGGCATGCGTTTTAATCTTTAATATCTTACTATCTTAGCATTCTGTCTGTCATTTAACTTTGAAATGTTGCCAAAACCTAAATAAGAAAAAAATTTAATCACCTTAATTACCATCAGTCTAGATGCATGATTTGACTAGGACTGTAGAAATGATTTGCCCTTCTGCTCAATAATTTGTTGTGGTTTGTTGCTTTTGAAGTACTGTTTTCTTACGATGCCCATCATGAAAATATATCTTTCCTCTACTTGTTTAGGTTTGTTGAATTGAGAGGGATTAAGTAAAATGAGATTGTGTGGGCCAGCATTTACTTTTCTAATCTCTTGCAATAGTTATGTATGGAATAATGCAGAAATTTGATTATTTGTCCTTGTTCTTGTTAATCTCATGATTTCTTCTTATAGATATGGTTTATAAGAGAAGTTTGTCCATTTCTCAGATCTAGCTATAGGTCAGATGGTGCATCCTCCTCGTCAGAAGCCCGTAGGATAAGAAGAAGAAGCGTCAGCATTACACCTGAGATTGGAGATGATATCGTAAGGTTGATTGTTGTTCTAAGATGCTTCTGGGTTTATACTTGCTTCATTGTGAAGTGTGTTTTCCTTGGCATTTTGTTTAATCTGTTTGAAATGTTTGACTGAAAAGCTGGAATTCCATTTTGTAGTATTTTTTTCTTCTTTATGATTCATTCCTGTTAGACATATGCATACCCGCATCTATTCTTGGATTTGTTAAAGATGATAGCTTCCCTGGATCATTCTGTTCATGGAACACATTTGTTTTTGGTAGGTGTCTAGTTGATACACTTTTTTTATCTTAAATTTTTTGTCAAAGGTTTTGCTTTCATGTTACCTTCTGCATTTGTTTTGGTGTAGAGAGTTTGATTTTTGTTTTTCTCTTTAGTTATTTGGCTTTTCTGTTGTGCTAACGGACCATTAGTTGAAAGTAGAAAATGGTGTTACCATGACAACCAAACTGATCAAGTAAGGGTCCTTTTTATTTTATTTAAAATCTCCTGAAGGATTACAGATGCCCATTGCACAGCTGGTAATTTGTATTTATTGAGGTTCATAAAACTAGGTCCAGTTGGGGCAAACATAATATACTTTGGCTTTTGAAGTTGGAAGTGATTTATTTGTGGATCAAATATAACATCTTTTGCTATTGGATGTTGTTCTCTTGATTTTTGGCTTTGTTAGGTCATTTTTCTGTACTTGATATTACTCAATTCAAGGTAAATGAAGTGTGTGATTTATCTTGAAAATGATTTAGCTAGATGAGAGAAAAGATCTTTATTGAATTAAATAATCTGAGACAGTACGTTAGGATATACATAGAGAACTTTATCCCTAAAGTAATGATTGCAAAAGATCTCTATATTTGTGATGGTTGCAATATCTTCTTGTAATTTGACAAAATATTTTCTCCTAACTCAACACTCCCTGTCAAGTTGGTTATTGAATATCTATCATTACCAGCTTCCTAGTGAAATTATGAAATCGTTGTGGGAAAACTTTTTGTAAAAAGGATTTGTTAGCTGATGCCTATATGGGACATAAGAAGTAGTGAGAAGGCCACTAACTAGTTTTTCTTTAATGAAGTGTTGATCTATCTCTACATGTTTGGTCCTACCATGCTAAACCTGATTGTGAGCAATGCTAATAGCTAATTTATCATCACAACATATAGAGTAGGCACTTAAAATTTCACTTTAAGATCATTCAAAATAATTCTCAACCATAACAATTCACACAATGTGCCATAGTTCGAAATTTAGCTTCTACTCTAGACCTTGCAACAACATTTTTATTTTTCCTTCTCCAAATAATAAAATTTTCACTTAAGAACATGCAGTATCTTGAGGTGAACCTTCTATATGTAACAGACCCTACATAATTTGCATCAATATACACTTCCATATTTAATTTTTCATTTTTTGAACAATTATCCCCTTCCATATTTACTTTTTCATGTTTTGAACAATAATCCCCTTCCTAGTGTGTTGTCTTTGAATATTGAAGGACTTTCTGAATAGCTTGAAAATGCCATTATCTTGGATGATGCATGAACGGACCGACTATATTCACAACACAAGCTGTCAAGTGTAGTGTGGGTTAAGTAAATGAGCTTCCCCAAAAGTCTCTGATATTGGCCCTTATTCATTGTGGAACTACCTCCATCACTCTCAGTTATGTGGTTCTGTTTTATAGGAACTCCAATGGTCTTGTAATTAATATTAACTTATTTCTTTGAGATCATCAAGAACATACTTTCTTTGGGACATAAAATCCCTTTCTTTGTAAGCAACTTTTGTCCAATGAAGTACTTTAAGTTTCTTAGATCCTTCATCTTGATATGAGCAACAAGCTTTTTTTTTCATGATTTGTTTCTCATGTTAATCATCACCTGCAAAAATCATATCATCCACGTAGACCAAGAGTAGAATAAGTTTCCGTTCTAAGGAATGCTCGATGAACAAGTGATAATGTTGTCCACTTCAATAGGGTATAACCTTGACTCTATTGATACCCATGGATATCATAAGCTAAGCAAGTTTACCAAACCAAACAAATGGTGATGATGATATGAGTCCATACAAGGTTTTTCTCAACTTGCACACACTATTCCTTTTCCTAATAGACCTAAAGTCTCGAGGAATCTTCTTGTAGACTTCTTTCTTCAGATGTTCATGCAAAAAAGAATTTTTGACATCAAATTGTTCCAACTCCCTACCAAAATAAGCTACCAATGAGAGAATGATTTTAACTGTATTCATCTTTGTCATAGGAGTTATTGTTTCCTTATAATCGACACTGTAGATCTAAGTAAAGCCTTTAGTTACTAACCTCCTTTGTACTGATCTAATGTGCCATCATATCCTTATTCTATGGGTCTTTACTAATATACTCATCTCTTCACTCATGGCTTGAACCCAATTGTTACCCTTCAATGCCTCTTGAATTGGTGTAGGGATTCTAATTGCATCAATTGTAGAGAGGAAACTGTGATTTTGTCTTGCATAGAAAGGTGTGTTTAGTGGACACAAAATAAGAAATAGGATTGGTACTAGACTTTGCTCCTTTTCTCAAAGCATTATTAGGAAGGTCAACAATGTTAGGTTCACAACATTTAAGGTATTTGCTAAAGGTTATCGTGTGTCAGAAAAATAAACACTTACCCCTTGTTGAGACAATTGGAACTTGTTTGTGGATCAATTTGGGTTGTTTCTATCTTCTTTGATATTGTATATGGAAGGATCCATTTAAGCGTTAATTTTGGGAATTGATCTTGATTCAGGAACGAAGTTACCTTTGTTAGGAGTAGCTTTAGAAGCATCCATGAGAGATGTGCTAGGAGTACTGCGAGTAGTATTAAGATGAGATTGTTCTTGTATCTAAAGGACAAAGGATGACTCAAGAGACTAAAAAACTCAACTTCTATAGAGTCCTCACCCTGGGACACATGTAATAGTAATTGAAAAATGACATTCATTGAGGTAAAAGAACTTTTTACTTAGAGATGGTTATTATGATGTCTCTTTTTATCATAGGCATAATCAATGAACATACTTTTAACAACTCTAGGACCTAACTTCCCATGAAGTTGACTATGGACATGGACAAACACGACACATCCAAAAACCTGACTTTGAAGGCTAGAGGGTAATTGCTTGATAAGATAAGCAACTATTAGAAAGTGGGTTTAAGCCTAACTCAATCCTAGAAAAACGGCTTGTAAGGTGAGGTTTGCACCTCACTTATATATTATAAATTGGCCCTATTTCTAATTGATCTGAGACTTCCAACACACCTCCTTCACGCCGAGGTATACACATCCTGTGCGTGATAGTAGAAATTGGGTGGTCCGCTAGCGGCCCGATAACGGGTAGAATAGAAATGCCCAAGAAACAAGAAATATCACTAGGATAGGCTCTAACCATGACTCTGATACCATATTAGAAAGTGGTTTTTAAGCCTAACTCAACCCTACAAAATCGGCTTATAAGATGAGGTTTGCACCTCACTTATATATTATAAATTGGCCTTATCTCTAGTCGATGTGGGACTTCCAACAACAACAATGAGGAAAACTTCATAAGGTTCAATTTATGTTTTAGCGTGAATTAGAACTTGTTTTGGACTTTGATTTAGTTTGTATAACAAACAACAATGAATAAATAAACTCAAGGAAGCTTACCACTAAGGCAAATTTAGTCCAAGAGGATTGTTTAAGTGTGAACGTTTGCTTTCAAGAGATAAACAAAGATTGAATCAACAACATAAAATATTATTGAAGACAAATAGTTGGCAAAAATGAATAGAGATATAAACTATACAACTACACAAAAGTAAACAAGATACAAAAAGAAAAGAATGGAAAGACTTATTGGAATGGAATAAGAGCTGTGCTAGAAGGTGGGGGAAACTTGATCTTCTTGATAAGCTGCATGAAGTTTTGTCACTTGACTCATAAGAATTCAAGGTAAGACTCCTAGTTCTCACAAGACTTTTCTCTCAAATCTCAATTCTCATAAATTCCAAAGTAAAGGTTCAATTAGAAGTGATGGCTATTTATAGCCAAACCAACCCAAAATGCCTACTTAAATACAATGTTTAATGAATGAAATGCAAATGTGGCTTCTAAAGCACATGTCGTGGCAAATACAAGTAGAATTCAGAATTCAATTTTCAAATTTCAAAAAATAAAATCAAAGAATATCTTTAATTGGCTAGATTTAGAGGGTGTGGGAACCATGCCTTGGTCATTATTTTCATGCCTCTAGTGCACTTGCTTCTCGTGCTTTTTGTTGATTCCTTGGTTGGCTGAAGTTCACTCTTGAGTATGGCATTTAGGCTTGTATTCTTTTGTTTTGCTCACTTTTCCCTTGAGTGTTGGAAAGCTATTTGGGCTTGAAAAGACCCATCTAAACCTAATTACTACTTACACTTCAAAAGAAATAAAACCCTATGAATTATTACTTCAAGAAATACAAAATAAGGAAGAAAGAGAAATATTTTGTTGAGTAAGAACCATTTGTCTTGGCATGCTTCTTGTAAATCTTCTACGTATGATGTGTTATTCATTTTCTTCTGATGTGTTATTCATTTTCTTTTATCATTCATGCACTGATCACGACTTCTATGCAATAAGATTTAGGTACAGACATTTGAAAGAGAAGAGTTTGTTTTTTCTTTCAGCAATGTCTTTTTGTTGTGTATTCACACATATAATGAATGTAGACATGTCATGAATTACAAATTTCCTCTCATTATCATAGTGCAAACATTTATTTGACTTTCATATGGAAGAACATGACAAAAAAAGTAAAAACTTCAAAATTTTCTTTGATGAGGAAAATCCATGTGACATGGGTACAATCATAAATAGAAGTGACAAACCATTCAGTATGAGATATACTAGAATTTTATGCATGCTCTCAAACATCACAATGAACCAAATAAAAAAATGAATACTTTTTATTTTACTTGGTTGATACTTGTCTTGATGGTGCTTTGCAAATTGACACACTTAACACTTGAATGGCGTGACAAACCTTTTAGAAAATAAATATTGAAACATAGACTTCAAGACATAAAGGCGGATGTCCTAGATGATGATGGGGAAACCAAATTTGAGAGAACTCATAAGTAGTGTAAGAATTGAGTCAGGTGGTTGTTGTTTGTCTTCTGATAATATCTTTTGTTCTTAAGTTTTCAATGCAATACAACCCTTCTTGTTTCAAAATAGTTTCAATCATCCTCCTTGTGACAAGAAGTAGACAATGAGAGAGAAAGGTTACAACAAAATAGTTTAGGTTGAGTAAGTTTTTTTTTTTTTTAACTAAAATAAGGTTATTAGGAAGTTTCAAAACATAAAGGACATCTCTATGGTTGACGGATGGCTAAAGAGAAATATTGCCATGTTTAGTTTAGTTTAGTTTTTGGGACATAGTTCCCATTGACTAGAGTAATGTGGTTACTAGAAATATATGATGTTAAAAGAGGTGAATGAGGTGTCACATGGTTTATTTTACCGGAGTCTCGTACCTAAGAGTCCTCACATGGTTTTATAAACATTAAAAGAGGATTGGAGTTCTTACTACTCCTGGTTGGAGAGCAAGTACTAAGAAGTGACTTACTAATAAAATCCATGAGAGTTTAGACATTCAACTTTAATACTTAGAGCAAACATTCCTTTTTCAATCAAAGAGGATAAAGGAGTCTTGCCAAAATTTTTAGAAAAATAAATTACTTCAAAAGCCTTCCTTGAGGATTGACCTTTTAGCTATGCTAGGCGAATGAAAGCCTCCCTCTTTTTGTATAACTTGAAGGACTTCCCCTTGGTGTGGCTAGATGATGATGAGATTCATATAGTCTAACTTGTCTAGAACCAGTAGACCATCCCTTTGAAGTATTTTAGTGATAACAAATATTGAATGTGATTTATACATGTTGGAAGTCCCACATAAGTGGGTGCAAACCTCATCTTACAAGTTGATTTTGTAAGGTTGAGTTAGACTTAAAATCCATTTCTTAACAAGGTATCAGAATCAAGTTAAAGCCTATCCTAACGAAGTTTGTTGTTTCTTGAGTCTATTGCTCCACCTATTATTGGACTGCTATTGGACCATCATTAATTTCTAGTCTCATGCTTGGGATGTATATGTCTCGACGTGAATGAGGTGTGTTGGAAGTCCCATATCAACTATAGATAAGGTCAATGTATAGTTTATATAGTGGGTATCTTTCAAGCCGGTTTTGTAAAGTTGAGTTAGACTTAAAGTATATTTCTTAACGCATGTTTTATTCTATGAACTTTCTAATGTGTGTTCTGTGCAAATTGTAGCTCTCTAGATTGGCTAGTATTCATCCATAGTTGTTAGATGTCTCATCAATATTTGTCTAAAGCTATAATTTCCTATATGTAATCAATTGCATAATTAATAAGTTTACATGTTCAAAATTAGCTTTAATTGATTAAGTGCACAAAGCACAACCTACATGGAAACATGTTTTGCAATATTCTCATATTACCTTTGAAAGGAAACTGAAGCAGTGTGCATCCAATAAATTGATTTGATCTTATTACGTTTTTATTGCTTGTATTTGAATTGTTTCCATGATAAGCTTTGCAAATATTAGAATATGTATTAAATATAGGTAGTTGTTACGAATGTAGGTAGTTAGTAGTTGTATTTTAAGACTGCAATATCCTACTGTCCACCATCGGCCATGCTAGCCTACCGTCGCGGTACCGCCCTTTTGTCACCATAACATCTCCACAAGGCCCTTGGGACCTCCTTGTCCCTGTTTCAACTTTTGTTTCTTCATTTTGGCTTTAGTTGAGAGGCTCCTCTCTCTCTCATACTCTTATTGCACCACCATTTGCCATCTCTTATAGTTGGCATTGGTTGTGGAGTGTATATTGTTGAAATTCTGATTGTTGATGAATTTTTCCTTCAACTTGTCTTTCTTTTCTGAAAGTGGATACATACGTCCTCAAACGTTCCTTTTGTTAGAGAATTGACCGCACCAAAAATAAATGTTTCTCCTTACATGGTTTTCCTAGCAACACAACAAACACCTTCCATTTTAGTAAGGTTGAACCACATTTTTCTAAAAAAGAATATGAAGAATATTTCAGTTTGAAGTCTGGCAGCCAAGCACAACCTTTCACTAGTTTGTCTAAAGCTTGCATCTCTCAAACCTTAGAAGGTCAAAGTCCATGAATAACTAACTCAGGTGCTTCCAATAACATTTATGATAATGCTTCCTTATTTTCTTTCATTTTTTATCGTAAAATTCCTTATGCTATTACTTTAGGCAATGGATCCAAAGTCACTATTCAAGAAGTTGGTCAAATCTGTCTTTCTTCGTCTTTGAACCTAAAACATGTTTTTTTGTCCCTAATTACCCTTTTAATATAATATCCTTAAGTTAATTTACTAAATCTTTAAATTGTTCTATAACCTTTGGTGCAAATTTTTTTATTATACAAGAGTGTAATACAGGTCCTGATTGGTGAAGGACATGAATATAAGGGACTCCAATATCTAAGCACTAGATGGTCAATGTGTTGTTTAGCATCCCCGTCTCCCAAGCTTTTGCATGACCGCTTGAGTCATCTACATTTATGAAAATTAAAAGGGATGATTCCTGAACTTAGCAAACTCCAAGTCTTAGAATGTGAGTCATTTCAAACTCCAATTTTGTTTTCTCTATAATTTATTTTGATATTTGAGATCCAAGTTGGGTCTCATCCTTCGTTTTTTTTTTCTCACTTCTATCATTGAAAATTATTGTTGTTCGGGTTTACTTAATGAAAGATGGATCCAAACTTTTTGAATACGTTCGTCTCATTCCTTAATGAAATCAAGAACCAATTTGGTCAAGTGATCAATATCTTAATGAGTGACAGTGCAAAATAATATTTTTCTCCTGGTTTTTGTACTGTTTTAAACTCTCTTGGCATTTTACACTAGTTTATGTGTTTTCATATACCTTAGCAAAATGGTATAGCAAAGACAAAACATGTACACTTATTCTGTCAGATGTTGAGCCTTGTGCGGGTGGACCTTACAACTGTGGCAGTTTCTTTATGCTGGGAGCTTTTGGCCCTTGCGCTTCCCTTTTCTGGTAGTGTTTGGCAATTAAAAGGAGAATCGGGGTAAAAACAAAGTTGTAAAAATAGAGCTTCTAGTGAAGCTAATCGGTGGGGCTTCTACTTTCAAGGCTGGACCAAACACTGCCTTTCTCTGTTGCATATGGTGTTTTTGCTGTAGTGTGGTGGATTCAACTTGAATGTAATGCAAAATTTTAGTTGTAGATGCCTAGTTCCTCTTTTATGGAACAGACTTTGTTCTAGTACATTGGAGGTGTGCGGACTCTAACAGGCACAGGGGAGGGAGATATCAGAGGTTGAATCTTTGTCATTACATACGAGCAAGCCAGTGCTGATTTAGCAAAGCTTATCAAAAATGGTTTTCTTTAACTAATGCGAAAGGGGTGCTGGATTAGCTTTTTCATTTATTTTTCTTAATTTGTTCTTTCCTTACCCCTCCCCTGTTTTAAGAGGGTTCCTTATCCTCTGAGCTATGTATATCTCTCTGCATTCTTTATAGATGTTGTGTGTAAAATATAAAAGCATTAAATCTGAATTGCTTGATCAATTAATCTTTGTTTTAAATATAACTTCAAAGTTGATTAATCTGGTTCCTGCTTTAAGATAAATAACTAAATCAAATAATGCATGATTGTGATATGTACTTGTGTTGAGTACAATTAATGCTACTTCTTTCCAAATATCCAAACTTCTTAGTTATTTGTTATTTTATATGTTGAATGTTTTGTATGTGTGTTGGTAAGAAAGTAGTTTGAAATACTGTGATAACCCAGGTTCGATTCAATGTAGGGCTGTACGTGCTATGAATGAAACTCTGAAGCAAAATCGTCTCTTGAGAGAACGAGGGGATGATAACTCTACGAACAATAACAGTAGTGATGCAAATCTTCAGAAAAATGTATGTCTGCATTATTTTGGTAACAGTGGAATATGCTATTATTTAAACCTTCTAAACCTATATATCTAGTCAATTGTTTACGTAGTCATGATAATCCCATCATTTTGTTAACTGATTTCCATATATGTTACGTATCCGAGTCGGAGACGTAATTAATCACGATCTGTTAGGGGCTGGCGAGTATACGAAAGAAAGAGATATAGGAGAGAAAAAGAGGGAAACCGAACGGTAGAGGATATGGGCCGAACGGTAGAAGGAAGAGAGAAAGAGGACCGAACGGTAGAGGATATGGGCCGAACGATTAACGATAGGGAACGAGCGATCCAGATGATAGAAGGGGGAGAGAGACTTAACCGAGCGGTAGAAGGAAGAGGGAGCATGATGGCCGAACGGTTAGTGACAGGGAACGAGGAGCACGATGGCCGAACGGTTAGTGACAGGGAACGAGCGGTCCAGATGATAGAAGGGGGAGAAAGACTTAACTGAGCGGTAGAAGGAAGAGGGAGCACGATGGCTGAACGGTTAGTGACAGGGAACGAGGAGCACGATTGCCGAATGGTTAATTACAGGGAATGAGCAGTCCAGATGATAGAAGGGGGAGAGATACTTAATCGAGCGGTAGAAGGAAGAGGGAAAGAGGGTCAAACGGTGGGGAGCAGCAAGGAGCATCCTAAATGACACAACAGTTAGGATGGGCGGGAAATTTATTAGAATTTAAGGGCGTATCTCAGGATATTATTAAATATAAATTAAATATAGTAAATAAGGGTGAAGATATTCTTACCCGATAATCTTAATAAATAGGCATAATTACTATGATTCTTTACCTTTTCGGGAGAGAGTGATTAGTATAAATAAAGTTAGAGTCTAGGTTTTAAAACATGTTTTTATGTGTGAGATTTGTAAGAGAGGTTATGCTCTCAGGTAACTGACGAAGATCCTGCTCCCAGTTATTGGTTGTTATCTTTGGTGCATTATTTTCTATTCAATAATTCAGTAAATTTCTAGTGTTCCTTATCTGTGCGAGTGTGTGAGTGAGCCTACTGGTTACGGCCCAAACTTAGGTACGTAACACGCTCACAGTAGGTAGAAAAGACAATGAACGAATGATAATGGACGAATGAATCTCTTTTATTGATGGTAATATTTGGATAAAAAAAGTAAACAATAATTGGAAGCATAACCTCCTTCAATTACTTGGGAGCATAAGCTCCCATACAGGACGCATAGCCACCTGTCAACAAAACTCAGTAATCAAAAGCATACCCTTAACCCTAGACTCTAGCTTTATTTATACTAATTGTTTCCCGCTCATCTCATACTAAATATCTCCCTAGAATATATCTATATTTAATATAAATATCCCTATATTTAATGTAAATATTTCCCCGTATATTTCCCTAGCATATATCATTAATTATAAATATCTTATATTGTTTATTTCCCTGGAACATATATTTATTTACTCTAATTATCTTATACTGAATATTCTCCTCAAATATAGCCCCCTTTACTGTAATTAGTTCCCGCCCATCCTTAACAGTTGTGACAGTTAGGATGGTAGCTCTTCAACCGTTCGGCTCAAGTCCTTCGTTGCTTCCCACTGTTCGGTCTGGTCGCTCTCCCTTGTCCACCGTTCGGCCTGCTCGCTCCTTGCCTTCCACCGTTCGGCCTGCTCGCTATTTGCCTTCCATTGTTTGGCCTGATCGCTCCCTGCCTTCCACCGTTCGGCGTGGTCGCTCCTCGCCTTCCACCGTTCGGCCTGGTCGCTCCTCGCCCTCCTCCGTTCGGCTTGCTTCCCCATGTCTTCCTACCGTTCGGCTCCAGCTCTTCACCACCTTCCACCATTCGGCTAGACCTTTCCACGCCTTCCACCGTTCGGCTACCATTCGGCCTTTACGGTCAATACCGTTCAGCCTCACTTTCCTCCTACCTTCCTTCTCTTTCTCATATACTTTCCAAACCTTATTATTACCCCCTACCTTATACCGTAACAATATATCTTGTGATTTGGTTTCTCAAATCCTCTTATGTTATTTAAATTACTTTAGTGTTGTCTTGTCTGGGAAATCTCAGCTTAAGAAATTATCTTCTCTGTTCTAACATTTCTATTTGGTTCTGCCTTGTCTTCTTTGCTAATTCTAATATTTGTGTGTCAGTTTTGATTTATTGATTTTGGTTCGTAGCCAAAAATATTTTACTTGCAAGGCCATTTGTTAGGAAAGATCATGTGAGGTATCCCAAACTGGTGCATTGTTGCAGTAAAACAGTTTATGTAGTATGTGTAAGACATGAAAATTTACCAGACATTTATGCTGTAATAAAATCAGTAAGGTCTTGATGATGGATGAAAAGGGGTCAATGATCTTTAGAATGAAGTTTAAGGGTCAAAACCGTGCCTGTATTGGTGGTTTGAACAGTACTTGCCACTGCCAGATAGATTTGGGTCTGAATTCTGAGGGCTTCCATGGACAAATTGAATGTATTTGTGGACCTGGTTATTATTAATATCTACCAAGAAAATTAGGATCCGGTATAAATAAGATAGAAAAGATAAGTGAAACAGTAAGAATTTAGATCCTAGAGTTCGATTACATCACACATCACAAGAGCTAGTTATGCTGTCATAATTAGTATTCTTTTTGTGAAAAAAATGTATTTCAAATTTACGAATATTTAAATGGACGTGTAATTTCTTCCACAAGACTTATGATAGTCCTTTTTCTATAAGAATTGGAACTCTGTATGTACTTCGAAGGGAAGAGATTAAACTCAATACGCCTAAATAACAAAACAAGGTCCATATAGAACACATGACCAGAAATAGAACCACCACCAAAACTGAACTATGACTGAAAATATAAAGTGAAATAAAAATTTGTGTAGATAATTCATAATGCTGATATAAGGTAGAATATTGAGACAATTTGATATTAAAAATAAGCCCTGCAAGTTTGCACATGGTTTCCAACCTCGCATGTTAAAAATTTATTATTGTATGGAAGTTAGTGTCTCTTGAATTATGTATATATTTTTCTATTCATGGTTTTAGTTTCACCATGTGTTGGTTTGGTCCAAAAAATAATTGGATTTGCTTTTGTTCAAAACGAGAATCTTGTCTTTTTACTCGTTTTTAGGAGAGGGAGAGAGGGGTTTGCTTATTCAGTTAAGTTTAATATATTCTATGCTCTACATGTGATTCTTATTCTGCTGACAGGTGTCAAATTTTCATCTTGATGGTCATGATGCACTATATTCTCGTCAACATGACCAAGGAAACTCACAAAAGGCAATGTCATTACCATCTTCACCTCATGATTATAGAGGTCATTCTTCGGAGAGAATTGGACTGTCGAGAGAAGGAGTGAATGATGAAATGGAGTCAACTTGGAATAAAGTACTGGAATCTCAAATGTTCAATAATAAACCTCTTTTACCATACGAAAAATGGAATATTGACTTCTCTGAATTGACTGTTGGAACTCGGGTAGGAATTGGTAAGTGTTACTTCTCATTTAATAATACATGAGTTGTTATCTGCCCTCTAAATGATTTGAAAACATTCATATGGGCATGTTAAAGAGAGTCGTGATTTAATTGCAAGGATGTTTTGTAGTCAATCTGTCTGGCTAAATCACAGACCAACATTTTTTGGGCTGGATTTCTACATTTCTGGTTTGGGTTTTGGTAGATTTAATCAGACCTGTCCATTATGTTTCTGTGTTGGATTTGTGAAAGATCTGGTCCAAATCTCTTACAGCCAATGGTAAAAAAGTTGGTGCCTAGAGCCTAAAAAAAACGTCAGTACTAAATATTCTTCTCCCACGTAAATCAATGGATGACTTCTTTTCTTCCTATATTAAATTTCAGTTTCATCAATTTCAAAGGTTGGGTTTTGTCTTAGAAATAGAATTCTTGGGAATAGGATTCCTGGGAAATTTTAATAAATATTTATGGGTATCATTCAATTTTCCTTGGAATTATATGTAGACAGTCAGTTATCATGGTAAAGATTAGTAACCTTATTGTCATTACCAGAGTTTTATTCCCACTTGTGAAGATGGGAAGTTTTGTTCTCACTTATCCACAAATTAGCATTTTCAAGAATATTTTATTCAAAAGAAATATTTTCATTGTATTTATTATGTATGGGAAACTTTAATTCCCAAGTCACTTTCTTAGGAATTTCTTAACATTCCTGAAACCAAATGTCACCTTAAAGGTTAAATTGTAAAAGGAAAAAAGTAAAGAAGAAGAAAATGAAGTGCCGTTAGGTTTCAGTGAAAGTAGTAGTGTCATTAATCTAAACATGTTTCTCTCCTTAAGCTGTTTTTCTTTTGTCTTCTGCTATTTCTGGATAATACAACTATGGTGGTTGTTTTCCTTTTGTTTTACATGTTCGGTGTGTTATTTCTTGAGAACTACTAGCAGCACTTGGATTGCATTTCTACTGTTGATTTTCCCCTTGTTTCTTTGTGGCTGGCAAGTTTACAAAAGTAGTGTAACTAGAAGAGTATTGGTTAAGAATGATAGCTTCAGACATTTGATTGTCTTGGGCTACTAAACCTTAGCTTGAAACATTTGATTTGAGGTTTGAGTAGGCACAAGAGGGAAATATCTCAAATTGATTTGTTATTAGAAAGGAGTTATTTTGTTTACTTGGAGCAGATTCATGTCATGCAATTGAGTGGAAGTTTGCTATTCAACTTTAAAAATAAAATTGTCTTTTTGACATGTTTATGGTCACTGCTAAATTACTATTTCGAGGGAGTTCTTGACTAAAGAAGTAGTTGCTTGAGCATTGCTGTATTATTCTTTTTCAGGTTTCTTTGGAGAGGTTTTCCGTGGCATATGGAATGGCACAGATGTTGCAATCAAGGTTTTTCTAGAGCAAGATTTAACTGCTGAAAATATGGAAGATTTTTGCAATGAGATATCTATTCTGAGGTATATTGCCATTCAGAAACTGTTTTTCAGCATTTTTTTTCTGTTATATCTATACATTTCTGACTCTTTTCTCACTGGTGGTGCTTGTTTTCCTCCAGCCGACTCCGACATCCTAATGGTATTCTCCAACATCCTTACTGTTTACTTTTTTCTATAGTTTGACTTTTTGTGTTGTCCTTGAACATTTAGTTGTCTTGATACGGTAATCAATGGAATTAAATCTGAACTGTTATCTTTTATTATTTCAACTGATATTTATAATTATTTTATTAAATATTCTTACTCAAAGAATGACAATAATATTGTACACACTTGGTTATAATAAATCTCATGTAGCTTTTTTCCCTGGAAATCAGCTGTTATTTATTTAGTAATGAAATTATATGCAGTTATATTGTTTCTCGGTGCATGCACAAAGCCTCCACGGTTGTCAATGGTTACAGAATATATGGAATTGGGATCGTTGTATTACTTGATACATTTAAGTGGTCAAAAGAAGAAGCTTAATTGGCGGAGAAGACTAAGGATGTTACGTGACATATGCAAGTAAGTTTGTGGTTATTCTGTTCATACTTCAGAATCTTATCCGTTTCATCGGCATTTATGTTATAAACAGGTGTTGCACATTAATTACTACATTGTTGTCTTTCAATAAACCATAAAATTCCCCTGCCAATTTACTTTCACCTTGAGAAATAGTTGTCAAATTTTTGTTAATTGTGGAGCATAATTTTTTTTTTGTGGTTTTGTCACTATTTAATTAATAAATTATTACTATCATTATATTTAATTTTATTATTTAATACGTTTAAAAAAACTGTTTTTGCCACCTGTTTGATAATGATTTAAAATATGACCTATGAATACCTTGGTTGAATATTCTGTTCAGTTTTGAGTTTTATGAACATTGGTATAAACGTACCCCATTTCTGGAAAGATTACATCTGGTCTAACAATATTGACGAGAATAACTTGCTTGTGTAGGGGTTTGATGTGCATACATCGAATGAAGGTTGTTCACCGTGATCTGAAAAGCGCAAATTGTCTGGTGAATAAGCATTGGACTGTGAAAATATGTGATTTTGGGCTTTCAAGATTAATGACAGAGTCTCCTATGAGAGATTCTTCCTCGGCTGGAACTCCGGAATGGATGGCTCCTGAGCTCATTCGAAATGAACCATTCACAGAAAAATGTGATATCTTTAGCCTTGGGGTGATAATGTGGGAACTATGCACATTGAGCAGACCATGGGAAGGAATACCACCTGAGAGGGTATAATATTCAACACATTATATGTTCATCTTGCGTGATAGTTTCTATTTTTCTGTCATGTGCTTCCTTAAAGAATTTCCATTTTTCTCTGCTGGACTAGGTGGTCTATTCCGTTGCAAATGAGGCTTCCAGATTGGAAATACCAGAAGGCCCTCTAGGAAGGCTTATTTCAGGTCCCTGCAACTTTCCTTTGTTACGTGTTGATGGAAGAATTCAGAATCGTCTGCTTTAACTAATTTTTACGCGTTTTTTTGTCTGCAGATTGTTGGGCAGAATCCCATGAGCGGCCAAGTTGTGAGGAGATTCTTTCTCGTTTGGTGGACATCGAGTACTCCTTGTGTTGA