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_14965	LG3	55269350	55314015	PREDICTED: probable receptor-like protein kinase At5g15080	Map

Annotations

category		relationship type		keyword

SNP	Position	Effect	Amino acid change
A/T,*	55269391	3_prime_UTR_variant
G/C	55269485	3_prime_UTR_variant
C/A	55269519	3_prime_UTR_variant
A/T	55269520	3_prime_UTR_variant
G/T	55269748	3_prime_UTR_variant
G/A	55271408	upstream_gene_variant
A/G	55271500	upstream_gene_variant
G/C	55271501	upstream_gene_variant
C/T	55271658	upstream_gene_variant
T/C	55271800	upstream_gene_variant
A/G	55271801	upstream_gene_variant
G/C	55272093	intron_variant
A/T	55272193	intron_variant
G/A	55272268	intron_variant
G/T	55272286	intron_variant
C/T	55272419	intron_variant
A/C	55272422	intron_variant
A/G	55272486	intron_variant
C/T	55272767	intron_variant
T/C	55273161	intron_variant
C/A	55273248	intron_variant
A/C	55273405	intron_variant
G/A	55273407	intron_variant
T/A	55273529	intron_variant
C/T	55273705	intron_variant
T/A	55273799	intron_variant
A/T	55273800	intron_variant
G/C	55273883	intron_variant
A/G	55273889	intron_variant
A/G	55274040	intron_variant
A/T	55274046	intron_variant
A/C	55274050	intron_variant
T/C	55274080	intron_variant
G/A	55274147	intron_variant
T/A	55274213	intron_variant
T/C	55274286	intron_variant
T/C	55274341	intron_variant
G/A	55274367	intron_variant
T/A	55274602	intron_variant
A/T	55274605	intron_variant
A/G	55274662	intron_variant
T/C	55274686	intron_variant
T/C	55274811	intron_variant
G/C	55274963	intron_variant
A/T	55275123	intron_variant
A/C	55275153	intron_variant
G/T,*	55275191	intron_variant
C/A,*	55275192	intron_variant
T/*,C	55275194	intron_variant
T/*,C	55275212	intron_variant
C/A,*	55275242	intron_variant
A/*,G	55275278	intron_variant
A/*,T	55275279	intron_variant
A/C,*	55275284	intron_variant
T/G,*	55275296	intron_variant
C/T,*	55275301	intron_variant
G/A,*	55275325	intron_variant
G/A,*	55275326	intron_variant
A/*,G	55275335	intron_variant
C/T,*	55275353	intron_variant
A/G	55275378	intron_variant
G/C,*	55275399	intron_variant
T/C	55275400	intron_variant
T/C	55275401	intron_variant
G/A	55275465	intron_variant
C/T	55275640	intron_variant
C/T	55275776	intron_variant
C/T	55275845	intron_variant
G/A	55275854	intron_variant
A/T	55275898	intron_variant
A/G	55276217	intron_variant
A/G	55276221	intron_variant
T/A	55276235	intron_variant
C/A	55276237	intron_variant
G/T	55276238	intron_variant
G/A	55276241	intron_variant
G/A	55276758	intron_variant
T/C	55277497	intron_variant
G/A	55277715	intron_variant
C/G	55277722	intron_variant
G/A	55277774	intron_variant
G/T	55277797	intron_variant
G/A	55277808	intron_variant
T/C	55277821	intron_variant
T/C	55277824	intron_variant
T/C	55277826	intron_variant
G/A	55277828	intron_variant
T/C	55277831	intron_variant
A/G	55277837	intron_variant
C/T	55277844	intron_variant
C/T	55277845	intron_variant
G/A	55277846	intron_variant
A/G	55277856	intron_variant
C/T	55277872	intron_variant
C/T	55277895	intron_variant
T/G	55278579	intron_variant
C/A	55278580	intron_variant
T/C	55278583	intron_variant
G/A	55278605	intron_variant
A/T	55278646	intron_variant
C/T	55278941	intron_variant
A/G	55278991	intron_variant
T/C	55279016	intron_variant
T/G	55279060	intron_variant
G/C	55279189	intron_variant
C/T	55279206	intron_variant
T/A	55279211	intron_variant
T/C,*	55279300	intron_variant
C/T	55279379	intron_variant
C/T	55279467	intron_variant
T/G	55279644	intron_variant
A/T	55279756	intron_variant
G/T	55279837	intron_variant
T/A	55279840	intron_variant
C/T	55279841	intron_variant
G/A	55279842	intron_variant
T/C	55279897	intron_variant
G/A	55279910	intron_variant
G/A	55279917	intron_variant
A/G	55279990	intron_variant
T/A	55280038	intron_variant
T/C	55280051	intron_variant
A/C	55280115	intron_variant
C/T	55280139	intron_variant
T/C	55280144	intron_variant
A/G	55280146	intron_variant
A/G	55280175	intron_variant
T/C	55280182	intron_variant
G/A	55280225	intron_variant
A/G	55280226	intron_variant
G/C	55280241	intron_variant
C/T	55280242	intron_variant
T/C	55280266	intron_variant
G/A	55280296	intron_variant
A/T	55280382	intron_variant
C/A	55280454	intron_variant
T/A	55280717	intron_variant
T/A	55280720	intron_variant
A/T	55280730	intron_variant
G/A	55280927	intron_variant
C/T	55280992	intron_variant
T/C	55281185	downstream_gene_variant
C/T	55281211	downstream_gene_variant
T/A	55281419	downstream_gene_variant
A/T	55281427	downstream_gene_variant
T/C	55281476	downstream_gene_variant
A/T	55281564	downstream_gene_variant
T/C	55281779	downstream_gene_variant
A/T	55281879	downstream_gene_variant
A/G	55281966	downstream_gene_variant
C/T	55281986	downstream_gene_variant
T/A	55281987	downstream_gene_variant
A/T,*	55281992	downstream_gene_variant
A/T	55281995	downstream_gene_variant
A/T	55281998	downstream_gene_variant
A/T	55282001	downstream_gene_variant
A/T	55282004	downstream_gene_variant
A/T	55282007	downstream_gene_variant
T/A	55282012	downstream_gene_variant
A/G	55282013	downstream_gene_variant
G/T	55282146	downstream_gene_variant
C/T	55282153	downstream_gene_variant
C/T	55282161	downstream_gene_variant
C/T	55282366	downstream_gene_variant
C/T	55282377	downstream_gene_variant
A/G	55282411	downstream_gene_variant
T/C	55282628	downstream_gene_variant
G/A	55282765	downstream_gene_variant
A/G	55282884	downstream_gene_variant
T/A	55282957	downstream_gene_variant
A/T	55283568	downstream_gene_variant
T/G	55283593	downstream_gene_variant
G/T	55283629	downstream_gene_variant
C/A	55283649	downstream_gene_variant
C/T	55283656	downstream_gene_variant
T/A	55283689	downstream_gene_variant
A/G	55283695	downstream_gene_variant
C/T	55283700	downstream_gene_variant
T/A	55283706	downstream_gene_variant
G/A	55283883	downstream_gene_variant
A/C	55283971	downstream_gene_variant
A/T	55283975	downstream_gene_variant
G/A	55284259	downstream_gene_variant
C/T	55284299	downstream_gene_variant
A/G	55284324	downstream_gene_variant
A/T	55284325	downstream_gene_variant
G/T	55284389	downstream_gene_variant
G/A	55284432	downstream_gene_variant
C/G	55284446	downstream_gene_variant
G/A	55284456	downstream_gene_variant
A/G	55284497	downstream_gene_variant
C/T	55284684	downstream_gene_variant
A/G	55284733	downstream_gene_variant
G/A	55284736	downstream_gene_variant
C/T	55284834	downstream_gene_variant
T/A	55285034	downstream_gene_variant
T/C	55285165	downstream_gene_variant
G/A	55285361	downstream_gene_variant
T/A	55285438	downstream_gene_variant
T/C	55285447	downstream_gene_variant
C/A	55285799	downstream_gene_variant
C/A	55285881	downstream_gene_variant
A/T	55285882	downstream_gene_variant
C/T	55285943	downstream_gene_variant
T/A	55286051	downstream_gene_variant
T/C	55286312	missense_variant	p.Ile217Val
A/G	55286333	stop_lost	p.Ter210Argext*?
G/A	55286432	stop_gained	p.Arg177*
T/C	55286534	intron_variant
A/T	55286569	intron_variant
G/A	55286576	intron_variant
A/G	55286630	synonymous_variant	p.His155His
G/A	55286861	intron_variant
C/G	55286911	intron_variant
G/A	55286946	synonymous_variant	p.Ile97Ile
T/C	55287171	intron_variant
C/T	55287218	intron_variant
G/A	55287292	synonymous_variant	p.Thr60Thr
T/G	55287511	upstream_gene_variant
T/A	55287532	upstream_gene_variant
A/G	55287587	upstream_gene_variant
A/G	55287634	upstream_gene_variant
T/A	55287884	upstream_gene_variant
C/T	55288156	upstream_gene_variant
T/C	55288237	upstream_gene_variant
A/G	55288264	upstream_gene_variant
T/C	55288310	upstream_gene_variant
G/T	55288502	upstream_gene_variant
A/T	55288620	upstream_gene_variant
G/T	55288746	upstream_gene_variant
G/T	55288753	upstream_gene_variant
A/T	55288760	upstream_gene_variant
A/T	55288766	upstream_gene_variant
A/C	55288774	upstream_gene_variant
G/T	55288816	upstream_gene_variant
C/A	55288884	upstream_gene_variant
T/G	55288898	upstream_gene_variant
A/G	55288904	upstream_gene_variant
G/T	55289017	upstream_gene_variant
T/A	55289063	upstream_gene_variant
C/T	55289122	upstream_gene_variant
G/A	55289138	upstream_gene_variant
T/C	55289144	upstream_gene_variant
A/T	55289202	upstream_gene_variant
G/A	55289275	upstream_gene_variant
C/T	55289300	upstream_gene_variant
A/G	55289301	upstream_gene_variant
T/A	55289305	upstream_gene_variant
G/A	55289364	upstream_gene_variant
A/G	55289388	upstream_gene_variant
T/C	55289419	upstream_gene_variant
C/T	55289423	upstream_gene_variant
C/G	55289434	upstream_gene_variant
C/T	55289438	upstream_gene_variant
T/C	55289488	upstream_gene_variant
T/C	55289539	upstream_gene_variant
T/A	55289546	upstream_gene_variant
G/T	55289567	upstream_gene_variant
T/G	55289578	upstream_gene_variant
G/C	55289593	upstream_gene_variant
A/T	55289605	upstream_gene_variant
C/T	55289630	upstream_gene_variant
C/T	55289683	upstream_gene_variant
C/T	55289693	upstream_gene_variant
T/A	55289704	upstream_gene_variant
T/C	55289718	upstream_gene_variant
G/A	55289751	upstream_gene_variant
T/C	55289789	upstream_gene_variant
C/T	55289797	upstream_gene_variant
C/T	55289815	upstream_gene_variant
G/A	55289841	upstream_gene_variant
T/A	55289853	upstream_gene_variant
C/T	55289865	upstream_gene_variant
T/C	55289866	upstream_gene_variant
G/A	55289885	upstream_gene_variant
G/A	55289906	upstream_gene_variant
G/A	55289910	upstream_gene_variant
A/G	55289919	upstream_gene_variant
C/T	55289921	upstream_gene_variant
A/G	55289935	upstream_gene_variant
T/C	55289955	upstream_gene_variant
C/T	55289976	upstream_gene_variant
G/A	55289987	upstream_gene_variant
A/G	55289992	upstream_gene_variant
T/C	55290021	upstream_gene_variant
T/C	55290028	upstream_gene_variant
T/A	55290031	upstream_gene_variant
C/T	55290049	upstream_gene_variant
G/C	55290083	upstream_gene_variant
C/T	55290105	upstream_gene_variant
T/G	55290119	upstream_gene_variant
C/G	55290123	upstream_gene_variant
T/C	55290124	upstream_gene_variant
C/A	55290148	upstream_gene_variant
A/G	55290183	upstream_gene_variant
A/C	55290213	upstream_gene_variant
G/A	55290585	upstream_gene_variant
A/C	55290595	upstream_gene_variant
T/A	55290695	upstream_gene_variant
G/A	55290959	upstream_gene_variant
A/G	55290964	upstream_gene_variant
T/C	55290979	upstream_gene_variant
T/A	55290988	upstream_gene_variant
T/C	55290990	upstream_gene_variant
G/A	55290993	upstream_gene_variant
G/T	55291017	upstream_gene_variant
G/A	55291152	upstream_gene_variant
A/T	55291352	upstream_gene_variant
A/C	55291427	upstream_gene_variant
G/T	55291536	upstream_gene_variant
G/T	55291545	upstream_gene_variant
T/G	55291706	upstream_gene_variant
C/T	55291768	upstream_gene_variant
C/T	55291790	upstream_gene_variant
G/T	55291801	upstream_gene_variant
T/C	55291932	upstream_gene_variant
T/G	55292036	upstream_gene_variant
A/C	55292081	upstream_gene_variant
G/A	55292138	upstream_gene_variant
C/T	55292139	upstream_gene_variant
C/T	55292260	upstream_gene_variant
A/G	55292425	upstream_gene_variant
A/G	55292478	intron_variant
C/T	55292498	intron_variant
C/T	55292537	intron_variant
A/G	55292549	intron_variant
C/T	55292571	intron_variant
G/T	55292719	intron_variant
A/T	55292723	intron_variant
G/A	55292724	intron_variant
G/T	55292726	intron_variant
G/A	55292733	intron_variant
C/T	55292734	intron_variant
A/G	55292744	intron_variant
T/A	55292748	intron_variant
G/A	55292783	intron_variant
A/T	55292788	intron_variant
A/C	55292796	intron_variant
A/G	55292797	intron_variant
A/G	55292811	intron_variant
T/C	55292812	intron_variant
A/T	55292816	intron_variant
T/C	55292864	intron_variant
G/A	55292874	intron_variant
T/A	55292883	intron_variant
C/T	55292884	intron_variant
A/G	55292901	intron_variant
A/T	55292910	intron_variant
A/G	55292916	intron_variant
G/A	55293003	intron_variant
A/G	55293086	intron_variant
G/A	55293088	intron_variant
A/G	55293094	intron_variant
A/G	55293097	intron_variant
C/G	55293101	intron_variant
T/A	55293108	intron_variant
T/G	55293109	intron_variant
A/T	55293121	intron_variant
G/A	55293123	intron_variant
G/A	55293129	intron_variant
C/T	55293130	intron_variant
T/C	55293140	intron_variant
T/C	55293147	intron_variant
G/A	55293150	intron_variant
T/G	55293156	intron_variant
A/T	55293163	intron_variant
G/A	55293171	intron_variant
G/A	55293192	intron_variant
A/C	55293199	intron_variant
G/A	55293215	intron_variant
G/A	55293220	intron_variant
T/C	55293236	intron_variant
T/A	55293244	intron_variant
A/G	55293247	intron_variant
G/A	55293259	intron_variant
G/A	55293260	intron_variant
C/A	55293284	intron_variant
A/T	55293305	intron_variant
A/T	55293306	intron_variant
T/G	55293315	intron_variant
G/A	55293323	intron_variant
T/C	55293327	intron_variant
C/A	55293330	intron_variant
T/A	55293338	intron_variant
C/T	55293340	intron_variant
C/T	55293341	intron_variant
T/A	55293343	intron_variant
G/A	55293344	intron_variant
G/A	55293347	intron_variant
G/A	55293376	intron_variant
A/G	55293379	intron_variant
T/C	55293382	intron_variant
A/T	55293386	intron_variant
A/G	55293390	intron_variant
C/A	55293443	intron_variant
G/T	55293478	intron_variant
T/G	55293503	intron_variant
A/T	55293509	intron_variant
A/T	55293584	intron_variant
A/G	55293609	intron_variant
A/G	55293621	intron_variant
A/T	55293627	intron_variant
C/T,*	55293666	intron_variant
G/C	55293766	intron_variant
C/A	55293792	intron_variant
G/A	55294033	intron_variant
T/C	55294042	intron_variant
C/A	55294049	intron_variant
C/T	55294053	intron_variant
A/G	55294093	intron_variant
C/T	55294095	intron_variant
C/G,A	55294106	intron_variant
C/T	55294113	intron_variant
C/T	55294149	intron_variant
T/C	55294157	intron_variant
C/T	55294170	intron_variant
T/C	55294249	intron_variant
T/C	55294258	intron_variant
A/T	55294290	intron_variant
G/A	55294297	intron_variant
A/T	55294317	intron_variant
A/C	55294329	intron_variant
A/T	55294449	intron_variant
G/A	55294474	intron_variant
A/C	55294475	intron_variant
C/T	55294529	intron_variant
T/A	55294542	intron_variant
C/A	55294662	intron_variant
A/T	55294858	intron_variant
T/G,*	55294901	intron_variant
G/A	55295400	intron_variant
C/T	55295520	intron_variant
T/C	55295616	intron_variant
G/T	55295706	intron_variant
A/T	55295953	intron_variant
T/A	55295963	intron_variant
T/G	55295973	intron_variant
C/A	55296053	intron_variant
A/T	55296174	intron_variant
A/T	55296182	intron_variant
G/A	55296228	intron_variant
A/T	55296257	intron_variant
A/T	55296279	intron_variant
G/T	55296299	intron_variant
A/G	55296309	intron_variant
A/T	55296311	intron_variant
A/T	55296496	intron_variant
A/T	55296502	intron_variant
T/A	55296545	intron_variant
C/A	55296549	intron_variant
C/T	55296601	intron_variant
G/A	55296603	intron_variant
A/G	55296743	intron_variant
A/T	55296780	intron_variant
T/C	55296845	intron_variant
C/T	55296897	intron_variant
C/T	55296899	intron_variant
C/T	55296900	intron_variant
T/C	55296967	intron_variant
A/T	55297010	intron_variant
A/G	55297033	intron_variant
C/T	55297041	intron_variant
A/G	55297060	intron_variant
A/C	55297078	intron_variant
G/A	55297079	intron_variant
A/G	55297081	intron_variant
G/T	55297088	intron_variant
T/C	55297094	intron_variant
A/G	55297104	intron_variant
G/A	55297108	intron_variant
G/A	55297118	intron_variant
C/A	55297119	intron_variant
G/A	55297120	intron_variant
C/G	55297134	intron_variant
A/G	55297141	intron_variant
C/T	55297144	intron_variant
G/T	55297154	intron_variant
T/C	55297162	intron_variant
G/C	55297174	intron_variant
T/C	55297180	intron_variant
G/A	55297184	intron_variant
A/G	55297225	intron_variant
A/G	55297294	intron_variant
G/A	55297375	intron_variant
G/A	55297647	intron_variant
C/T	55297688	intron_variant
A/T	55297754	intron_variant
T/C	55297838	intron_variant
A/G	55298047	intron_variant
A/C	55298138	intron_variant
A/T	55298204	intron_variant
C/T	55298205	intron_variant
C/A	55298237	intron_variant
C/A	55298245	intron_variant
A/G	55298263	intron_variant
A/G	55298271	intron_variant
A/T	55298289	intron_variant
G/T	55298296	intron_variant
C/T	55298417	intron_variant
C/T	55298425	intron_variant
C/T	55298629	intron_variant
C/T	55298630	intron_variant
T/C	55298639	intron_variant
T/G	55298683	intron_variant
A/T	55298684	intron_variant
A/G	55298744	intron_variant
C/G	55298815	intron_variant
C/G	55298893	intron_variant
A/T	55298912	intron_variant
G/A	55298985	intron_variant
G/A	55299014	intron_variant
C/T	55299030	intron_variant
C/T	55299039	intron_variant
T/A	55299076	intron_variant
T/A	55299094	intron_variant
A/G	55299161	intron_variant
G/T	55299172	intron_variant
A/G	55299192	intron_variant
G/T	55299196	intron_variant
G/A	55299209	intron_variant
G/A	55299211	intron_variant
C/A	55299273	intron_variant
C/T	55299276	intron_variant
A/G	55299306	intron_variant
G/A	55299309	intron_variant
A/T	55299313	intron_variant
T/G	55299316	intron_variant
C/A	55299331	intron_variant
C/T	55299493	intron_variant
T/G	55299722	intron_variant
T/C	55299769	intron_variant
G/A	55300009	intron_variant
C/T	55300016	intron_variant
T/A	55300092	upstream_gene_variant
A/T	55300103	upstream_gene_variant
T/A	55300109	upstream_gene_variant
T/C	55300191	upstream_gene_variant
C/A	55300199	upstream_gene_variant
A/T	55300711	upstream_gene_variant
C/T	55300728	upstream_gene_variant
T/G	55300757	upstream_gene_variant
A/G	55300760	upstream_gene_variant
G/C	55300833	upstream_gene_variant
T/A,G	55300878	upstream_gene_variant
C/T,G	55300892	upstream_gene_variant
C/T	55300962	upstream_gene_variant
T/A	55301025	upstream_gene_variant
A/G	55301116	upstream_gene_variant
A/G	55301140	upstream_gene_variant
T/C	55301266	upstream_gene_variant
C/T	55301482	upstream_gene_variant
C/T	55301636	upstream_gene_variant
A/T	55301676	upstream_gene_variant
T/C	55301689	upstream_gene_variant
G/C	55301791	upstream_gene_variant
G/A	55301880	upstream_gene_variant
C/T,*	55301882	upstream_gene_variant
A/T	55302007	upstream_gene_variant
G/A	55302028	upstream_gene_variant
G/A	55302039	upstream_gene_variant
A/G	55302046	upstream_gene_variant
T/C	55302088	upstream_gene_variant
G/C	55302171	upstream_gene_variant
G/A	55302203	upstream_gene_variant
G/T	55302278	upstream_gene_variant
G/A	55302337	upstream_gene_variant
T/C	55302429	upstream_gene_variant
C/A	55302476	upstream_gene_variant
A/T	55302488	upstream_gene_variant
C/T	55302558	upstream_gene_variant
C/T	55302559	upstream_gene_variant
A/G	55302715	upstream_gene_variant
G/T	55302785	upstream_gene_variant
A/G	55302810	upstream_gene_variant
T/C	55302854	upstream_gene_variant
A/T	55302924	upstream_gene_variant
C/T	55302928	upstream_gene_variant
A/T	55302929	upstream_gene_variant
A/G	55302934	upstream_gene_variant
T/C	55302981	upstream_gene_variant
G/T	55302989	upstream_gene_variant
A/C	55302995	upstream_gene_variant
C/T	55303045	upstream_gene_variant
G/A	55303174	upstream_gene_variant
G/A	55303191	upstream_gene_variant
A/G	55303213	upstream_gene_variant
G/A	55303215	upstream_gene_variant
A/G	55303222	upstream_gene_variant
A/T	55303231	upstream_gene_variant
T/A,G	55303232	upstream_gene_variant
T/C	55303235	upstream_gene_variant
T/A	55303252	upstream_gene_variant
A/C	55303276	upstream_gene_variant
T/A	55303284	upstream_gene_variant
T/C	55303289	upstream_gene_variant
G/A	55303305	upstream_gene_variant
C/A	55303350	upstream_gene_variant
A/C	55303657	upstream_gene_variant
C/G	55303660	upstream_gene_variant
T/C	55303681	upstream_gene_variant
G/A	55303749	upstream_gene_variant
A/G	55303872	upstream_gene_variant
T/A	55304064	upstream_gene_variant
T/C	55304071	upstream_gene_variant
C/T	55304211	upstream_gene_variant
T/G	55304239	upstream_gene_variant
T/C	55304272	upstream_gene_variant
T/A	55304275	upstream_gene_variant
T/C	55304405	upstream_gene_variant
T/C	55304526	upstream_gene_variant
T/C	55304650	upstream_gene_variant
G/A	55304671	upstream_gene_variant
T/C	55304809	upstream_gene_variant
T/C	55304975	upstream_gene_variant
G/A	55304976	upstream_gene_variant
T/A	55305106	missense_variant	p.Phe15Ile
T/A	55305219	stop_gained	p.Cys52*
A/C	55305228	synonymous_variant	p.Pro55Pro
T/A	55306052	missense_variant	p.Leu141Ile
T/G	55306053	stop_gained	p.Leu141*
G/T	55306665	intron_variant
T/C	55307015	intron_variant
C/G	55307310	intron_variant
T/A	55307437	intron_variant
T/C	55307461	intron_variant
C/G	55307473	intron_variant
C/A	55307490	intron_variant
C/T	55307674	intron_variant
G/A	55307769	synonymous_variant	p.Glu306Glu
T/C	55307825	missense_variant	p.Val325Ala
A/T	55307826	synonymous_variant	p.Val325Val
T/G	55307892	downstream_gene_variant
C/A	55308029	downstream_gene_variant
G/A	55308071	downstream_gene_variant
G/C	55308095	downstream_gene_variant
C/G	55308096	downstream_gene_variant
G/T	55308115	downstream_gene_variant
A/T	55308139	downstream_gene_variant
A/G	55308210	downstream_gene_variant
T/C	55308310	downstream_gene_variant
G/A,*	55308343	downstream_gene_variant
A/G,*	55308347	downstream_gene_variant
G/A	55308363	downstream_gene_variant
A/G	55308374	downstream_gene_variant
T/A	55308379	downstream_gene_variant
T/C	55308381	downstream_gene_variant
T/A	55308382	downstream_gene_variant
G/A	55308402	downstream_gene_variant
G/C,*	55308408	downstream_gene_variant
G/A	55308412	downstream_gene_variant
G/T	55308422	downstream_gene_variant
A/G	55308431	downstream_gene_variant
T/C	55308453	downstream_gene_variant
T/C	55308461	downstream_gene_variant
C/T	55308471	downstream_gene_variant
A/G	55308474	downstream_gene_variant
T/A,C	55308560	downstream_gene_variant
C/T	55308566	downstream_gene_variant
T/C,*	55308570	downstream_gene_variant
A/T	55308588	downstream_gene_variant
C/G	55308629	downstream_gene_variant
T/G	55308659	downstream_gene_variant
A/T	55308752	downstream_gene_variant
A/G	55308810	downstream_gene_variant
G/A	55308831	downstream_gene_variant
C/G	55308832	downstream_gene_variant
T/A	55308869	downstream_gene_variant
T/C	55308876	downstream_gene_variant
A/T	55308884	downstream_gene_variant
A/T	55308901	downstream_gene_variant
A/G	55308989	downstream_gene_variant
C/T	55309004	downstream_gene_variant
G/A	55309109	downstream_gene_variant
C/T	55309112	downstream_gene_variant
G/T	55309143	downstream_gene_variant
A/T	55309225	downstream_gene_variant
C/T	55309289	downstream_gene_variant
G/T	55309318	downstream_gene_variant
T/C	55309356	downstream_gene_variant
A/C,T	55309476	downstream_gene_variant
C/A	55309530	downstream_gene_variant
C/A	55309592	downstream_gene_variant
G/C	55309672	downstream_gene_variant
G/T	55309697	downstream_gene_variant
G/A	55309807	downstream_gene_variant
A/C	55309849	downstream_gene_variant
A/C	55309850	downstream_gene_variant
A/T	55309866	downstream_gene_variant
A/T	55309868	downstream_gene_variant
A/T	55309869	downstream_gene_variant
G/T	55309951	downstream_gene_variant
C/A	55310101	downstream_gene_variant
T/A	55310801	downstream_gene_variant
T/C	55310908	downstream_gene_variant
A/T	55311010	downstream_gene_variant
A/T	55311019	downstream_gene_variant
T/C	55311708	upstream_gene_variant
G/A	55311968	upstream_gene_variant
A/*,T	55312654	upstream_gene_variant
T/C	55312999	upstream_gene_variant
A/T	55313046	upstream_gene_variant
G/A	55313104	upstream_gene_variant
T/G	55313334	upstream_gene_variant
A/G	55313342	upstream_gene_variant
T/A	55313519	missense_variant	p.Glu29Val
A/T	55313875	5_prime_UTR_variant
C/A	55313985	5_prime_UTR_variant

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_14965.1

MGLGAENGKVVEPWAVCKSKGRKKKKGDEEVEGAGSGCWLRLRFIGSCISSRSKVDTSVSGSGTSTHYAESKSTNDTSRDQPTAPAVSSTTTSNAESNSSTSKLEEELKIASRLRKFSFNDLKLATRNFRPESFLGEGGFGCVFKGWIEENGTAPVKPGTGLTVAVKTLNHDGLQGHKEWLAEVNFLGDLVHPNLVKLVGYCIEDDQRLLVYEFMPRGSLENHLFRRSLPLPWSIRMKIALGAAKGLAFLHEEADRPVIYRDFKTSNILLDAEYNAKLSDFGLAKDGPEGDKTHVSTRVMGTYGYAAPEYVMTGHLTSKSDVYSFGVVLLEMLTGRRSMDKHRPNGEHNLVEWARPHLGERRRFYKLIDPRLEGHFSVKGAQKAAQLAAHCLCRDPKARPLMSEVVEALKPLPNLKDMASSSYYYQTMQADRIGASPNTRNGRTQGALLSRNGQQQRSLSIPNGTYASPYHHQFPQPSPKTNGKA*

CDS Sequence:
>Vu_14965.1

ATGGGTTTGGGTGCTGAGAATGGTAAGGTGGTGGAGCCTTGGGCTGTGTGCAAATCAAAGGGGAGGAAGAAGAAGAAAGGGGATGAGGAAGTAGAAGGGGCTGGGTCTGGTTGTTGGCTTAGGCTCAGGTTTATTGGCAGCTGCATTTCCTCAAGATCCAAGGTCGACACCTCAGTCAGTGGCAGTGGCACCAGTACTCATTATGCGGAAAGTAAATCAACTAATGATACTAGTAGAGACCAACCAACAGCTCCGGCAGTCTCTTCTACAACCACTAGTAACGCAGAAAGTAATTCATCCACTTCCAAACTTGAAGAGGAGCTTAAAATTGCTTCCAGGCTGCGAAAGTTCTCTTTCAATGATCTTAAGTTAGCTACCAGAAATTTTCGGCCTGAAAGTTTTCTTGGTGAAGGTGGGTTTGGTTGTGTTTTCAAGGGTTGGATTGAAGAAAATGGAACTGCTCCCGTGAAACCTGGCACAGGGCTTACTGTTGCTGTAAAAACCCTCAACCATGATGGGCTCCAGGGTCATAAAGAATGGCTGGCTGAAGTAAATTTTCTTGGCGATCTAGTTCATCCGAACCTTGTTAAACTTGTAGGTTACTGCATTGAAGATGATCAAAGGTTGCTGGTGTATGAGTTCATGCCTCGGGGTAGCCTAGAAAATCACTTGTTTAGGAGATCCCTGCCTCTTCCATGGTCCATTAGAATGAAAATTGCCCTTGGAGCTGCTAAGGGTCTTGCTTTTCTTCATGAAGAAGCCGATCGACCAGTAATATATAGGGATTTTAAAACTTCAAATATACTATTAGATGCAGAGTACAACGCCAAGCTCTCGGACTTTGGTCTTGCCAAAGATGGCCCAGAAGGTGATAAAACCCATGTGTCTACTCGAGTGATGGGAACCTATGGCTATGCTGCACCAGAATATGTCATGACAGGTCATCTTACATCAAAAAGTGATGTGTACAGTTTTGGAGTGGTACTACTGGAGATGTTGACTGGGAGAAGATCCATGGACAAACACAGACCCAATGGTGAACATAACCTTGTGGAATGGGCTCGGCCGCATCTGGGAGAGAGGAGAAGGTTCTACAAGTTGATAGACCCTCGTTTGGAAGGGCACTTTTCGGTGAAAGGTGCTCAGAAAGCTGCCCAACTAGCTGCTCATTGCCTTTGTAGAGATCCAAAAGCCAGGCCTCTGATGAGTGAAGTTGTAGAAGCTTTGAAACCTTTGCCAAACCTCAAGGACATGGCAAGCTCTTCATATTATTACCAGACGATGCAAGCCGACCGCATTGGAGCGAGCCCCAACACAAGAAACGGTCGAACACAAGGAGCATTGCTCAGCCGCAACGGACAGCAGCAAAGGAGTCTTTCTATACCAAATGGTACCTATGCATCTCCTTATCACCATCAGTTTCCTCAACCATCTCCAAAGACCAATGGCAAAGCGTAG

Promoter Sequence:
>Vu_14965::LG3:55314015-55316015(-)

ATCCACCTTCGCACCGCTATAGGAAGCCAAACTGCGAGCTAGAAAGCCCTAACCACCATGGACAACCACGTTAGAAAAAATGGACAACGTCATTTACTGATGGCTTACATGAACATTATGTCATTAAAAAAAAGACCACATTGAACAAAAATTACAAAAATTGGAACAACTTTGAATGTCTCAAGAAGTCAATAACCACTTTAAACAAAAAAGACAAAAAGAGGAATCAAAATAGGTATTAAACATTCACTTTAATTATAATTCATAAATTAGTTTAACATGGGTAAGAAAGTTCAAGTACAAGAAATTTATCTTTTAGTCTGAAATATACATCAATATTTAAAATAACCTAATAAATTATATAATAAATAACATTAAATTTATCATAAATAACATTACAAACACCTGTTTTTCAGTTGGTACATTTTAGCAATGTGTACCGGGTTTTAGTAGACAAAACTATCCTTATATATCATGGATTCTAAGTTTTAAGGTTAAGGGTATTTTAATAATTTTCATTCTCAAAACTAAAAAAAAAAAAAGAAACACCTCAAACCCTTACTCACCTCTCTCATTCCTCTCAACCATTTTCTTTCCTCTTTCTCACTCCAATCTTTTCTCTGTCATCCCTACTGTAGCCCCAATTGAAAAAATCAGAAACACTTGTCCTTAGACAATCTTACAAAAAAAGTGATTTTATAATGAATTTTCATCTTATAATTTTTGTCTTATCTAATTTTATCCAATTTTCACAAACATAAAGGAATTGATAATTGACCTGGAAAAAATCAGAAATACTCGTTGTTAAACAATTTCTTACAAAAAAATGATTTTATAATGAGTTTTTATTTTATAATTTTTGTCTTATCTAATTTTATATAATTTTCACAAGCATAATGACATCAAAGGAATTGGTAATTGGCCTGAAAAAAAATCAGAAACACTCGTTGTTAAACAATTTCTTACAAAAAAAAATGACTTTATAATGAGTTTTCATTTTATAATTTTTGTCGTATATAATTTTATCTAATTTTCACAAGCATAATGACATCCGAAAGAATTGGTAATTGGCCTGAAGGGTTTTTTTTAGAGATGATTATTCAACCTATGTAGATGATCAAATTAGAAAGGTTAGTGAAGATGGTGAAATTGAAGAGATCTTGAATGAACCTTTGCCTTAAGGTGAATATGTCAATGACTCAACTCTTTACAAAGGCAAATTTTTTAAAGGCAAGTGTTTCTGATTTTTTCAATTGGGACTACAGTAGGGGGATGACAGAGAAAATGTTAAAGATTGAGAGGGATGAGAGAGGTGAGTAAGGGTTTGAGGGTTTTTTTTTTTTTTAAGTTTTGAGAATGAAAATTATTAAAATACCCTTAACTTTAAAACTTAGAATCCATGGGTTAACAATAAATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATTACATTTTAAAATAACATTTAAACATTATCGTAAGTATTTAATAACTATATTAGAATAATCAATGAATTAAACTAAACTGTCACTACATATTTAAATAATATTTATGTACCATTCCTTTTACAGCAAAGAGGGACTGTTATGAAATATTAAAAACACACATGATAAGTGTTACTTCAGAAATATGGTGGTCTGGCTCTACCTGATGAGGTTCCACTCTTCTTTTACAGTTACAAACTCTCTTATTTAGTTACATAGTCTTTGGTAATAAAAATATCTCTTTTATTATTGTAACAACACATTTAACTAATATTTATCGTTACATTACAATAATAAAATTAATTTAATTAATAAAATCCCAGTCTTATCACATAGCAACAAACCAAGGAGAGAGAACTTGTAACTTGTAACTGCTAGCTCAGTATTATCCAAATATTTAAATTTAGAAAACTGTATTAAATATTATTAGTATGTTTAATTTAAAAGAAAATTCATAAATTTTTGTT

Gene Sequence:

>Vu_14965(-)

GAGCATGGTGTGTGTTGTGGTATTGTTACAGAGGAGGACCCATTTCAGTTATGTATCTTTGAGCGGAGATTACTGAGTTCAGCCCAGGTGCTGTTCACTCTGTTCTTTCTGCCCCCACTCTCCTCACTTCACTTTTCATTTCCCAATTCCCAATCTATCTACCCTTCAAGTTTTCTTTTTTCCTTTTTTTGTTTGGGTATTTTCACTTATTTAATGTGATCTGTTACTTTTCCCCCTTTCGGTCTCTATTTCTGGGTCTTCTGGGTTACTCGTTTCAAGGGTTGTTGGGTTGTAAAGTTGTGATCTTTAGGTTTTATTTGGGAATTTGCCATCTGGGTTAGTGGGAGGGTAGGGGGAGGTGGTATTTGGAATTGATGATATCTGGGTTTGGTTGTCTAGGAACTGGTAGAGATGGGTTTGGGTGCTGAGAATGGTAAGGTGGTGGAGCCTTGGGCTGTGTGCAAATCAAAGGGGAGGAAGAAGAAGAAAGGGGATGAGGAAGTAGAAGGGGCTGGGTCTGGTTGTTGGCTTAGGCTCAGGTTTATTGGCAGCTGCATTTCCTCAAGATCCAAGGTCGACACCTCAGTCAGTGGCAGTGGCACCAGTACTCATTATGGTAATCATTACTGTTTACTTGCAAGAGTTGGTACTGATATTGCTGTTGTTGTTCTTGTTCTTGTGATGATTTGCTTGGAATTTCCATCTATGTGAATGTGCTTGTCATTGATTTTGTTGGTGCATAAGCTTCCCCCATTTTTTGTTTTAGTTGTTAGTTTGCTTGGGGTTTGAGAATTCTATCTCGAGCACCCAATGCACGATTGTTTACCTCTTTGGCTTGCTACCTGGTTGAAACTTACCATGCTATGTGATGTCAAATGATACACAAACGATTAGGAATGACATGGGTGCTGCTTGGGGCTGCAGAAAAACAAAGTTGAAATTGAAATGTGATTTTGGGATTTTTCATTCTTGTTTATACAGAACTGCAGTGAATTACATTTTTAATCCCAAGAGATATGACAGTGCATATGTTAGCTTCATCAATAGAATGTTTTCTTTACCCACCACCATATGTGATTTTCTGGTTCAAAGTGAGAAGCCCGTGTAAAAAATCTAAATTTTAGACTGGCTAGGAAATGTCAGATTTGACATTGGTTGTGGTAGGTAATTACTATCGTATGAACTTGAGATTAGATATACGGAAGGAATTTACTCTATGGGCATAACTGAATTTCACATATATGCTTAGAAGGCAAATTACCGGAGGTTGTGTTTAATTCTGACTTTTCGAATCTATTATAAAACCTATAATGCATGGGGCAATATTTTTTGTTTTTTACTGGTCCTAATACTTTTTTTTTTAAATTCTCTTTTGGTGGCATCCCATTAGCGGAAAGTAAATCAACTAATGATACTAGTAGAGACCAACCAACAGCTCCGGCAGTCTCTTCTACAACCACTAGTAACGCAGAAAGTAATTCATCCACTTCCAAACTTGAAGAGGAGCTTAAAATTGCTTCCAGGCTGCGAAAGTTCTCTTTCAATGATCTTAAGTTAGCTACCAGAAATTTTCGGCCTGAAAGTTTTCTTGGTGAAGGTGGGTTTGGTTGTGTTTTCAAGGGTTGGATTGAAGAAAATGGAACTGCTCCCGTGAAACCTGGCACAGGGCTTACTGTTGCTGTAAAAACCCTCAACCATGATGGGCTCCAGGGTCATAAAGAATGGCTGGTTTGCACATTTTCAAAACTTCTTCTTTTGTTCTATTATTATGTACTGAATTTTACATTTCTAATGATCATTCTCCTTTGGATAACATGACAGGCTGAAGTAAATTTTCTTGGCGATCTAGTTCATCCGAACCTTGTTAAACTTGTAGGTTACTGCATTGAAGATGATCAAAGGTTGCTGGTGTATGAGTTCATGCCTCGGGGTAGCCTAGAAAATCACTTGTTTAGGAGTAAGTTACCCTTTTCTATGCAATTAGTTTCCACTGTTTCTTCTTTGAGAATAATAGTTAGATCACTACTGCACCTTGAAATTTTGATCACATAAAAAAGAACCCTGCTGGATTTCTCTCGTAAAGCATGGTTTCAGATCCACAGAAGTCAGGTTATAAGGTTATAAACTTTTGTTAATTTGGCATGGAGATCTAGACGTACAAGGCAAAAGGGGTTACATAATGTAGTACGTCTATTGTATTACTATTACTGTTGTGCTCTGCCTATTTAGAATAATGCATGAATCTAATCTATACCATTATAATGATTCCATTAATAACTTTGTTTCTTTGAGTATCTCAGTTGTTATATAAGGGATTTAGTAGTTTTCTCTATCAGGGTTAGAACTGTAACTCAATATTGCGGTTATATATTTTATATTTGGATTATGTCTTTTCTTATTTATGTTCTCAAGTTGAAATTATGCCATATGTAGGATCCCTGCCTCTTCCATGGTCCATTAGAATGAAAATTGCCCTTGGAGCTGCTAAGGGTCTTGCTTTTCTTCATGAAGAAGCCGATCGACCAGTAATATATAGGGATTTTAAAACTTCAAATATACTATTAGATGCAGTAAGTGCCAAAAACTACATTATGATTACATGTGTTTCCCTTTTTGTTCATCTAACGTTTTGTACAAATTCAGGAGTACAACGCCAAGCTCTCGGACTTTGGTCTTGCCAAAGATGGCCCAGAAGGTGATAAAACCCATGTGTCTACTCGAGTGATGGGAACCTATGGCTATGCTGCACCAGAATATGTCATGACAGGTAACTTTTGGTTGATACAGCACTTCCAAATCTTAATGTTTTAGTTAATTATTTATCATTTTATCTATAAAGTCTTGAATGCTTAGGCGTTGATGCTATTTCTATCTGACTTCATTTTGTTAGGTATTTTTCATCTGCTAAGTTATTAGTTTTATTTATTGATGATCATTACTTTCAACAAAATTCTAAACAAAAATTGTAAACATAATTCCTTGTGGGACTGTTTTAATGTTTGGAATGTTTTAAGCTTTTATCTCTGATATTATTTGTTTTCCACTCTAGACAAATTATGGTTAAGATAGTAAATTAGTTGATCTGTCTATATTCTCCCTGTCCGATGATCAATTGTATTGATGGGTTTGATATCTTCAGTTGTGTTTTCTTAATGTTTATGACTTACAAAATTGGAGTTTAAGTTTCAGTTATGTTTTTTCCAAATGCATTTAAACACAATCCATCCAATATCTAATTGGTTGAATTCTAATAACATTCACTTGTGTTGCAGGTCATCTTACATCAAAAAGTGATGTGTACAGTTTTGGAGTGGTACTACTGGAGATGTTGACTGGGAGAAGATCCATGGACAAACACAGACCCAATGGTGAACATAACCTTGTGGAATGGGCTCGGCCGCATCTGGGAGAGAGGAGAAGGTTCTACAAGTTGATAGACCCTCGTTTGGAAGGGCACTTTTCGGTGAAAGGTGCTCAGAAAGCTGCCCAACTAGCTGCTCATTGCCTTTGTAGAGATCCAAAAGCCAGGCCTCTGATGAGTGAAGTTGTAGAAGCTTTGAAGCCTTTGCCAAACCTCAAGGACATGGCAAGCTCTTCATATTATTACCAGACGATGCAAGCCGACCGCATTGGAGCGAGCCCCAACACAAGAAACGGTCGAACACAAGGAGCATTGCTCAGCCGCAACGGACAGCAGCAAAGGAGTCTTTCTATACCAAATGGTACCTATGCATCTCCTTATCACCATCAGTTTCCTCAACCATCTCCAAAGACCAATGGTAAAGCGTAGAGCTGGTGAAAATTCTCTTTTTCCCTTTCACCTTTTATGTCATTTCTTAGTTTTTCCGTGTAGATGTACCTTGTGTCAAAGCATCATCCGTTCATGGAGATCTTGAAAGCAAAAGAAGCATGTTGCTTTATGATATTATGTTATGGCTTTCGCTTGAAAGAATATTTGGGTGGGAGCAAGTGAAGCTTATCGAGTTACTGTCTCTTCTGTCAAATTGTTATTCAATATTTTCATCAGGGTGTTTGAAAATATTGAACATTATGAAATCATCATCCTTATTTTATTTTGTTTTCACATTTCTCACCGGAAATTGTTATCTCTTAGGCTTTGCTTGTGATATCAAACCCTGCACCTCTTTATTAATCAGTCTTTTTGTTTATAAAAAGATGAGAAAGAAGCTTTATTGCTTAATTTTTAGCACTTATTTGTTCTTATATGATCCGGATCCGTATCTTGTATAGCTTATAGGCAGCAGGTTATACTTTATAGCACTTTATGGCACCTTCTTGTAGTTAAAAATTCAAATTTCAATGTTTATAGATCGATCGTTTGCCCTGTTCATTCTTATCATTTTTGTCTCTAAAGATTATACTGTGTGGGGTTCAAGTGTAGGATAATATACTTTTTATGTGGGGTCGCATGAGAATGTTCCAAAAGTATTAGTTTATGATTTTTACTTATTAAAATGATTTTTTGAAGAGATATGGTGGAAGTGTATTAATAATGTAATACTTTCCATTCTTTACTTATTGTTCTAAGATTTTCCTTTTCTTACCTTCTGGACAATAATTGAAGGTCCGGAGTGACATGTAATTGTTTAAAATTTTACTAGCAATAGCAAAAGTACGTGTTAATAATGTTTCCAATGTATAATTCTTTCTTAAAATTAAAGTTTTAGGTACATTTCCAATTAGGTTGACACAGTTTAAAAGAGGTGACTAAAATTTGTTTAAATTCGACAATTTGATTAATTGCATTCAACTTATTTCAAGTTTCTATGTATTTTTTAAAAGTTATTACTTTAACTTTATTAGAACATACTCTTACTTTTTCGACTGTTTTTATTTACTTTAATTCTTTCACCCTAATGTGTTTATTTGTATAGTTTTTAACGGTCATACATGGAAAGAGTTATAGAAATGTTCATGTAGTTCTTAATTTCACACTCATACTTGCATAATTTCATATTTAACATTTTATTTCAATAGATCTTAATTGTTCGATTCTTAATATTTTTAGATTTTTCAATTTGGAAAAGAAAGATGGATGTTTATGTAATGTTTTAAAAAAACATCTCATATGTTCCGAAAAACTTGTTCTCGAATAGCTTATGTCGAAAGATTTTTAGAATAAATAAGAAATCCCAAAGTCTCATTGAAATATATCATTAAAGGCAGAGTTGTCATTTTAAAAATTATAGGCATGCAAATAGTAATTATGGGGTGCAGAAAACAAATGGCTAAAAATTGCCCTTTTTAAAACATATCGAGATAGTAAAGGTATTATGGAATACAGAATTTTTTTAGGAATGTTTAATACGAAATTATCCTGGAATGGTTATTTTGAAAAAAATTCAGTTTTTTTGAGTGGATTTGAGAAGATTTTTTTGAGTGAATTTGAGAAGATTTGAAGATAAATTTTTTTGTCGTTTATTTAAGTGAATTTAGAGGTAAATGAGAATGAATTTAGATGTAAATGAGAGTGAATTTAGAGGTAAATGAGAGTGAATTTAGAAATAAAATTTGTGAGAATTAGTATAAAATTATACTGACATGACATTAAAAAAATTTATTTTCAAATTCACTCTCATTTACCTCCAAATTCACTCAAATAAACGACAAAAAAAATTATTTTCAAATCCTCTCAAATCTCCTCAAATTCACTCTCTTAAATCCACTCAAAAGAACATAACCTTAATGCTACTTCATCCATTATGTAATATGAAATCAATTAGTGAATGGCTATAATGAGAATTTTCAATCTGACTTGACTTTCTATTTTATATTTATAAAAGTTATGTAATTTTCTCTCCTCTTAAAATTACAAGATCCGTAATAATAAAACAAAAAACTAAATTAAGAATACATTTCTTAAACATTCTAAATATAAACCTGAAATTTGAAAACACTGCAGGACATATACTTATTTTGTTAACTATCATTTTTGTATATTTACTTATAGTATTATATAGTCTCTGATTATAACTTTTTCTAGAGTGCTGTTATATCAATAACATATCTAAAACATGTCCATTTCCAAAACCAGAATTGAATGACTTATTCATAAAGACATAATCCCAAATTATTTATGCAACATCCACAAGAATGAATATAACTAAATGTAAAATGTAACATGTTTTCTGTTGGATCATGGTGTAGAGAGAGAAAAGGCTCTTAGCCTACTCTGCTTAACTGCTCCTTGGACGTGCTTTCAAATATCTTGTCAGCACTTGCTACCTCAAAACCATCCCTTCTATGGAACTCTTTAACCTGTTTCGTTAGTTAGACGAAGAATTAGCAAATCCACCAGAAAATGCCTTGCAACAAATTTTGTGTTAGCAGGTGGTTCAAAACTTAAGGTAGTTCTTCTCAGTTTCATCTTTAACCAAAAAGATCGGTCACAGAATCAGTATTGGCCAAGAACAACAAAGAAAATAACTGTCACAGAAAGCTAAAACCATATGGTCAAAAGAAAGAATGATAATTACCTCTGTGTCAGGTAAATTTCTATACTGTGGCAGCACCAGACGCTCGGCAAATTCAATATATGAGCAAGGGACTGATTCAATAATATCATCAGAAAATTGGAAAGAGATTGAATCTGCTACAGTTGAGCTTTGCTGGAGAAGACCATCAGGGCTCACTGGAGGTAGAGGAAGTATTCAAATCATTCACATGATCACAAAACTACAACTTGCTATGATTATCTTCAAACAGTCAATTATATCAGCATGTTCACAGTTAGTCTAGGTAATAATTTCCATATTCATCTCAAAATTAGAAGCATGATTCGCACACTGATGATACACACTCACGCAAACAGATTAACAAGCTGCTTTATACCATTCCTTTGTTTTGTCAGTACTCAGAATATTCAAGATTTAGATTTGATGAGTGAGGCCAAATTTTCAGAAGGTGAACAGAAGCAGGAATTGAAGGAATATAGTCATGTTTGCCATTCATTAATATAAGAGGAAGTTATCTGCTCTTCATTCCTAATTTTTTCACTTGAGATAGCAATTGTCTTATCAGAAAGAAACCATGCTGAGATTGTCTGACATTGAACATTAGAAAACCTTGTACTTGCATAATAACAAACAAGGATGCAAACCTTTCAGCAATCCTCCTTCAGAATTCAACCTGAATCCACTCTCTTCAATAAACTGATTTAGTGCTTTTATATCCTTCAAATGAGTGTTCAGCCGATGGGTGGATATAGTAACATGGTTCAGCGCATAACCATTGACTAGGGTCCAGGCAGCATACTCACTTTCACTGTGTATTAGATACCAACAAACAAACCATAACTAAGCTAGATGATAGAAGAGAATATAAACTTTCCTCAAAAAACATTTCTCACCATACAGACAGTAATAAATAATACCTTGCCAATTGTTGAAACTCTGAATATAAGGGCTTTTCCCATGTTAAATGTCCAAGGGAACTTGCAAGTGCTGCATACTTGTTTCCATCCCCGGATGATTCAGTGTATTTTCTAATTATTTCCTTCACAAAAAATTCCAAATTCTTTCAATTCAATTGGGTTTGGGGAAGAAACGAAAGTGTAAACCATTGACTTCATGCAACTATGTGTATCATACAGATATGGATTGCAGTCTTAAGAAATCAATCCGTTATTTGGTTCTCAGATTATTGTAACACTCTTCAACATTTAATACTACAGCAACATCACAGTCTTAGGTAAAAATAAAACAATTTTACATTATTTATAATTCTTTAAGAAGGTTAATATGTGAGGTCTATAGTTTTTTGAATGATAAAATAGATGACCTTTCTGGCAAACACACCTGAGTTTGTGGACTCATTTGATCTACCAGTAGCTCTGAAATAAATATTCTGGGCAGAGGTCCATTAATGCCACTGCCACTGCCAGCCTGTGAATCTGCAGGAGGAGAAAACCACAGTGCCCTCAACTTTTTTGCAGGAAATCTTAACTCCTCTCGCTGAGTATAGCCATAATCCAGAAAAAAGCTAGCCATTGAATCAATTCCATAACCATTTACCTAGTTAAGTTCAACAACACACATGAATGAGCTAATGAGATATAACCAAATCACACAGAAAAGTTACAATTGCAAGGAAGAAAAGCAGAGAAAAGTACCCCAAATGTCCTGAATGCAAGATGATCATAACATATTGAATTGTTCTCAACAGATTGAACAAGTTCCAATACGGCCTTTGCAGTAGGGTTTCTGTTCAAGTAAACGGATTGCATACTTTCCAACACACCCCTGAAAAAACCTTCACCCCCCTGCACGAAGAGAAATCGTCTTGGCTCATAATCTGATAATCAAGACCATTGTTTGGAATTCAAATTTGATATAAGCCACAGCCAATAAGATCTCAAGATTTGATCTTTTATTTCATTGTGAAAACTGTCTTCTAGAAAATATTTCTAACTACGCTACAAACAATTTCTCATTCAAAATCTATCAAGTTTTGAACTTTTTTTCTAAAACAAGAGTTTGGGATCAAAACATACATAAATAAACACCTGGGAGATAGTTTCTCATCTTTTTTCTCTTCAAATACTTTGTTCCAAGTATTTTGTGGAAAAGACAAACAAACCTTTCAGAAAACAGTAAATTGTTTAAAAAATAATACATGATAACAACAAAGAACAAGACATGATATTTTGGGTTCAGTCAGAAGTAGAACATGAAACAAGGAATCCTAACATGATCATTAATAGATAAGTAAATAAAATAAATAAAACGGAACCTGAATTGATAAGGATCTCTGAGAAACATGTTGTGATGGAGAGTTACAAGAGATGTGGAGGGTTCTTGAGGCCAAGTGTCCCGGAGAAGAAGAGTGTTTCATTGGAACCAAATTCCAGAAATTGGATTTGGAAGGGACAGAGATTGTTCTGCTGAAGAAGAAAAAAGGTGACAAAGTGGAGGACTTGGTAGTTGCAAACATGGTGAAGTTTTTGGTGAGTGATAAAAGAGACTACATGCAACCTCAATCTTATTCAAAGCGCCGGAAAGGTAGATCATTTGATGTAAGCAGTAACACATTCCATTTTCGTTTTCTGTCCTTTTTTTTTTCATTCAACTAATCTTTCTGTTACATTGTTGAAGTGAATATCTCTTAGATAGATTTACTTATTCATAAAATTTTAACACTGTTACAAATTTTACAATAATTCTTACCCTAACTTAATTAAATGAGCTAAACTATTTGAGGTGAGATAATTGAACATATATATATATATACACATATAATTTAAAAGAAGTTTTACTAAAATTAGAAAAGATGTACAATTTAAGATGAATAAATAAAGATGGGATTGATAACTGAAAAGAGTTGCACAAAACAAAATATGCAAACATATCAATTTATATAAAAAAGAAATCTAGAAAGTTGTGGTAGAAGATTAACATAAAAGAATCCTGTTAGTTTTAAAAATGAAAAAAAATATATAATTGATTATATTACTCAAAAATAAAATATTTTAACATACTATATAATTTAATTTATTATCAAAATATTCAGAGTCAATTAATAGATCATAATGGACATTCATAATGAGTTTTAGGTATTTTCTATTATAAAAATGATTTACAATATTAATAATAAATAAAATTATTTATTTGACCTAATTAATATTTTTCCTTTATTTTGCATGCAGTCACTTCCTTGTATATAAGCTAAAAAGGAATGAATGAATGAAAAGAAGAATAGATTTAGTGTAGCGAGTGAAAAGGAGAACGCGTGGGCAATCCAAAAGAGGATTGTATGTAAATAGATATCACATGAGTTGCGTGGCGTGTAGCATGTCTTTAACCTCGAAGCTGATGCTATGACACGTCATTTTTATGAGACAACCTGGAATGTGTCACCTCAAAACTCGGTCCTTATCTCTTCTCTTCTTTATCATCCAAAAAAACATTTATATTATTCAATTCAGAACGAATAATATTCGCTCTATTGTTTATTCATTCTATTTATTTAATTAGGCTTCTACATTCTGCTATATGTTAGTAAGAATATTATTTACACTATTTTCTAATAATATTCTAATAATATTGTAAACTTTAAGCAATTTTTCGATTTCAACATGTCAATTTAGCTTTTTAGGAAAAAAATATACTAATTATATTTTAACATTTCACCATATTAAATTAAATCATGAGAATAATCATAACCGGAAAATAAAATTAGTTTGTTTATTTAAATACACATTTTTCCAGGAGCTACTATTAGTGGTTGGTTTTTAGTAGTTAAATAATACAGGATAATGCTTTACTCTTTTTTTATGCACAAATATGTCACTTTTTGTCAATGTATAAAAAATAGCAATTTCTTTTATCATAATCACCGACTATATGTTACATTTTGTTTTTAATTATTCCTTACAAATATGTAACTTTTTATCTTTTAAATATTTTACCTTTTGGAAATATATAACTCTTGTTTATCTTAATATAGTAAAATCATATCATGATATCTTATAAAATGTTATGTTTGTGATTTATTATTTGACATTTAATACAGGGAACGTCTTTTATATTAACTATTTTAGTTTGTTTATATTAGTTCTAGGTTCGTTTTATAGAGTATTTAAATTTATGTATTAAAAAAACATAAAACTCAAATTTGTCAGATTATAACAGACGTGAATGCTTCGATGTATGTCGATATTATCAAATTCGATGAAAAATATAAAGAGTGTTACAGAACATATTCGTGTATTAGAATAATGATATAGATTATTTTACTTTAAAATAATTTTATAATATAAAAAAAAATTTTATAAATATTTCTCATTATTCTAAAAACACTTCATCTCTCTAGAACTATATTCTCCAGAGTTCTCTGACTTCTTTCTACAAACTCTCTTTGTTGAGTTATCTGTTCAACGATCAAGAGGTGCCTAGGCGATCCTGACGTTGAGAGCTTCGTTTTGGACCGATCAATTTTGTGTTCTTCAACTGGTAAATGGTGTCCATTTTTGTCCGTTCTTCGATGGACTGTGGACATGCACTGTTTCCGCTTTGCATGTAGTTACATTTCTTCCTTCCTTTTTTTCTAGCTCAAATTAGGTTTTAAGTGTGGTTCTCTATCACCAATTGGTGAGTTGTAGGTTTCTGTCGAGTTTCCTTGTAGTGCAAGGTACGGTTGGAGCATTTCTGTGTTGGGGCTGTTTATCTCTGAGGTAAGGGGAGCTAGTTACTGTATTGAATTGTTGTATGACCTGTATGTGTGTTGAATTTGATAGTACTTTACTGTTTGGAGTTAAATTATTAGTTTTAGAGTAATATGAATTGAATGTGTTGAAAGGATGAAATTATGAAACTGTAATATGTGGTTTATGAACGGGTTTGGATGAATATATGTGTTGTGATTGTGTAAATTGGAAGTTGTTATTGTATGTAATCTGTTGGGGTGGTAATGAAGTAAAGTGTAAAGTGATTTGAGCTGGTTTAGTGTATTTTAGAGGAAGTGAGGTAGTGAATTTGAGCATTTGTGGTCAAGGGTTGTTAGGGACTGTTGGGGTAGTTTAGATAGGTTATATGTGACTGGGTTGAGTCATCAAAATGGTCAAAAACAAGTTCAAAGAGGTAGAATTGGTTTTGAGTCTCTAAGTTGATGGATTGGAGGTTTTAGAGTAGAGTTTGGTGCATAAACACTTTAGATTGATGCTAGGATTGTTTAGAAACATTTAGTCAAGTCTAATTAAGTATATACATCGTATTAGAATCGTTAGAAGTTGGCAAAGTTGAGTGGAATTGGTAAAGAGGGGTTGAGTTGCATAATTCTGCAAAATTTCGTTCTCCAGATTATGCAGACTCGCTGTGCGAATGGATTCGCATAGCGAGTTACCTTGGCGAGGTGCTCTCTGCCAAGGCACTCGCATAGCGAATTGGCGCGTTGTGCGAGTGAAGTGAGAGAGTTGCTATCTAGTTGTCAATCCGCATAGCGAATCGAATCGCTAGGTGACTGGTTGGGGTCTGGAACCATTATTCATTTTATTCGAACAGCCAGTGGCTCTCGCTCTGCGAGTGTTTAAGAAGTCAAGTCTTTGTCTGGGGTTCTCGCATAGCGAGTTGGGACGCTATGCGAGGGGTTGAGGTCTGATGCATTTCACAGTTTATTCGCCTAGCGAGTTAATCGTTATGCGAGAGGTCAAGAGTAGGTGGTCTCTGTCTAAGGTTTTCGCAAGGCAAGATAGGTCGTTGTGCGAGAAGCTTATAGCCTCGCCATGTGAAGGTGTGCGCTGTGCGAGAAATTCCATTCTAGTTCAAGTTTTTGTGTGATCTTATGTTGTTTTATATGAATCATTGATTGTTATATGAAGTAAGTTGAAGTTATATCATGTAATATCAGTGGTTATGGATGTATGGTGTATTTCAAAGTATAAAGTTCAAGTATGGTTTGGACATAATTCCATGATCCTCAAGGAGAGGAGACATGGTGGTGCCCTTGTTGTGATTCAAAGTGGAATCTCTAGTTGAGATTCAAGTTTAGAATGATCTGCATGGTAGCTCAGTCTTGGGGGTTTTCCTGACGCTCCAATGGTCTTTCATTCTCAAGTAGAGAGGATTGATCCATATCGTGAGGAGTAGCAGGAAATCCTAGTCTTGGGTGCTTCTAGTATGGCCCAAGGTGAGTGATAACAGACTAACATCGTGAGTGTAGTAGGGTGAAACCCATTAGCAACGGCTTTGCAAAGTAGTAGAAGCCACCACGAGTGCACAACACGCCATAGCTCGACAATCATTCTAAGTCCGGACAGTCAGAGTCAATGTGTGTTATGTGTGAAGGGTTTAAGTGATGAGAATGGATAATATGCTTGTATGAATTTAAATAAATTGTTGTATGATTAATCTTTGTTTAAATTAGCTTACCTTGTTGTGTACTTATGTTTTGTATGTTCTGATGTTCTTCTTCTGCGATGATCATCCTTTGGATGTGAGCAGAAGAAGAGGTCTCTTTGGAGCAAGCATTGGATGAAGGTGATGCTACTGCTGAGTAGTTGCTTTGGTTCATTAGAGCCTTGTGTATAGTTTTGGAATAGTTTTTAGTCTGTATATAAAGTTTTAAATTTATAATTGTTTTTGGATGACTGTAAAGATATCACTTTATGGTTTAGATGAATAAATGTATTACTATCATGCATGTTGTTTCTCTTTAATATAGTTTACACTATATATTTTTGGGATGTTACAAAAAAAAGTTTGTCATTAATAAAAAAATATAATAAAATGATATTTTTTAATTTATTTAAATTTAATTTGTTATATATTAAACGAAGAGTTTTAATGAAGTTAAAGAAGAATTGATGAAGATATATATGAAACTTAGTATAGAAGTTGAACCATACAAAAATTGGTTGTAAGTATTTTTTAATACAACTCAATTTTATTTTTGAGTGATATTTAGGACAAGTTTGACTTCTCTTCATAAACTTTTTTTCAATTTAATAAAAATTCTTTTGATATGTAATCTCAAACCAGAAAAAGTTTAAAAATACACTGTAGTTTCTTTTATTGGTGATAAAAATAACTAATGTGAGAATCAATGTTCAATTCTGATTTTATGTTATAAAAGTACAAATCTTTTATCACTATAACATTACAATTGCAAACATGACAAATGTAATGTCTTCTATTTTATATTAACTATATTTAAGTTTCTTATATAGTATGAAATAATTTTATAAGTTCATAAGTAAATTAAAAAAACATGGGTTTTGTAAAAATTAAAGAATGATTTTGAAGATACCAATTAGTTTCTAGTTATTTAAGTAAAATTGTAATCACAATCTCATATATCATTAGATTAGGCAGCAATTTTTATAGAATATTATTGAAATATAATTATCCATTATGATTGGTCAAATTTACAATTGAAGGTTCATGATAAGAGAAATAATTATTATATCTTAGTGTAAAAGTTAGGTCTCCACATAGTATCTAGTTCTGAGTTGTTTTGGTAAAAATTATACTTATCTTTGTTAGTCGTTGGATCAGGATGAAGTTTTCATCAAAAGTTATTAAGATATAGTACTTCATTTTGACCGTCGAGATTTTTATTTAGAGGTTTGTAATTAGAGAAGTACTTTTTGCAGTTGAACAAATGTCACTTATTTTTTGTTTTGAGTTATTTTAGTAATAATTCAATTGCAACTTCGTTAACAGTTGGATCATACTCACAATTTTACACATGTTCTTACGATAATATTTTTCACTCTGACCATTTGGATTAATATTTAGAGGTTTGTAGTAAGAAATATAATTTTTGTATTTAAGATAACATGTGAAGTACTATGAATAAATATTAAAATATTTAAATAGTGAATGGTGGCCTTATTATTACACATTAAAATATTTAAATAATGAATTATGGTTTTATTATTATTACATGGTTGTAAATCTACATAAAAAAAAATAACATTAAAGTAATAATATAATAGTAAAATAAACTTCAATAAAAATATATACTTGAGAGAACCAATAATGGAAAAAACTTTTCATCCTTCTTTTGTGCGTGCATTTTTTTTCCTTTCTCCACTTTCACTTTCATTGTTTTTTTTTCTAAAAAGAAATTTGTTACTGAGTAAGATTTTATAGTACTTTAGAAAAATTATTCAATTAATTGAAAAATAAAGTTCACTTGAACAAGTTATTTTGAGATAAAGGAAACTAGACACTTATCATTTTATATATTCTATTTATTTATATTTATTTATTTTATTTTATTGTTGTTATTTTTATTTTATTTATTTATTGTTATTATTTTTATTAGTGAGATGTTTATTGTAAGAACTCTTCTTTTTCTTCCTCTTCTCTCATCACTTTCATCTCCTCCTTCCTTCTCTCTTCTTGATTCTTCTTTCTTTTCTTTGAAAACCTTAGGGCTATAGGAGGTTGTAGGCGTGAGAGAAAGAGAGTAGCAAGAGGAGACTATTTCCTCTCCGTGACTGGTTGTGCGTGTGGCGATAATGACGTTTTCTTCGTGACAGCGGAGTTGCAGCATCTTCATGGTGAGTTTCCGGTGGCTCTGGCACAATGTTCTTCACAATCGTTTTAAGGTTCAAATTTGGGTACCTATCCTTTTTCTGATTTGTGGTGATTTGGGGTTAGGGTTTCAAAGGAGTTTTTCATCCAGAGTTTTGTGACCTTGGGTGTTGCCATGAAGGAAAGAGTGTTCAGGTAAGGGGAGCTAGTTCTTACGATTTGATGATTTAAATGTTTGAGTATGATTAGAGATTTGGTAGTTTATGAAATTGATGTGTGTTGTTGAATATGTTAAAATGAATGCTATTATTTTTGGAAGGGCTTTGGAGTGTGGATAATGAATTTAATGATGATTGATATGTTTGTTGGTTTACCTTGGAATGAATTCTGGTTTTGAAAGTTGTTATTGAGGTAAAGAATGATGTCCAATAGGTTATGGTATTGATGGGAAGAGTTTGGTTTAATTTATGAGTCATTTTAGGTATAAAATGGGCTTTTGATAAGTGAAACCTTAAAGTAATTATCTAATGGGGAAAATTGTGTTTTTGGGGTTGTTTAATGGTCATTTAAAACTTGTTTAGGTTCTTAATTAAGGAAAAGCTGAGGTGAAATGAATTAGTAGTTGAAATGTTAGGTTTTATGTGGTTTTAGGTTTAATTTTAGGGGTTTTGACTAGTGAGATTTAAAATTAGAAGTTTTAGCCTATGGGTGATAGTATACAATCTGTTTTTGATTCTATTAGGACTTGTTCAAGTGTTAGTTTGTAAAAAATAGGTGTAAACGATGTAAATATGAGTTTAGGTGCCTTTGGAGTGTCAAAAATGGTTTGATACACCTAGTCTTGGGTCTAATGATATGTTTACTTTCACTTATAAATGTGTTTTCCTATCAATTCTAATGTTTAAGGAACCAATTTGATCATTAGAACAAAGCTCAAGTGCATCAATGGCCAGTTTCGAAGTGTTCTGGTCATTGTTATAAGGCCCGAGCGTCCCTTGGGCACCCCATTCTAGAGGCGCCAGTGCTGAGCACCAGTCCTGGGCATTGAGCGCCAGCCCTTGGGCGTTGAGCACCCATTTCCAGTGACCAGGGCGTTGAGCGTTAGCTAGTGGGTGCTTGAGCACCCTTGGTGCAGGTTTTTGGTTTCCTTTTCTGAGTTATTTTGTGATCTTTGATGCACTATTTTGGCTTCTTTGATGAATGTGAAATGATTTCATATGAATATTGATTTGTTCTATGATGATTGATGACGAGTATGTTGTTCTTCAAGTGAATGGTATTGAGGTAAGTAATTTCATGATCCTCATGGAGAGGTTACACGGTGGTGCCCTGTAGTGTTGTCAGTATGAATGGTCGGAGTTAAGTTTGGGTTCGTCCTGACATTCTAATGATCATCCATGCTCAAATAGAGAGATGATTCATGTAGTGAGAATAGCAGGAAGTCCTTGTCTAGGGACCTAGTTTTGGTCAAAGACATTTGTTAAAGGACTATCTTGTATGGTAGCTTACCATTACAAATGCAGGAACCACTATAACTTGACATTTATACTAGATCCGGATGAATCAAGTCTATGATTATGAGATATTCACATAATGTGTGTTTAATTGACTTGGACTTTATGATTTATGTTGGAGTTTTAAATACTACATGAGGTTTTTGTTACCAATGAGGAGCATTGGTGTCTTGACGATATTATGGTTTTGATGATGCTACAAGATGAAGAATGTGAAGACTTTTGTTGTATTATTTAAAATCATTTTGTAGAATTAATTATATAGGAATTACTTTGATGATGTAAGAACTTTTAGAAGTTTTCCTGTTTAAAGAGTCTTTGCGCAAATAATCGATTATTTGGTATAATAATCGATTATCACGAGTCTATTTGGAAAAGAGTTGCTCGCGCAAATAATCGATTATTGCTCAGAATAATCGATTATTACTGTCTGATTTAATATTGCTCAAGTTGCGCAAATAATCGATTATCATTCAAGATAATCGATTGTATCACTTTTTGAAAACCCCATAACGGACACAGATAATATATTATACTTAGTAGTTGGGAGTTGTCTTTTCATTTTCTGAACCTTGGGCTATAAATAGTGTTTTCCACAACTCTTAGGAGGTAACTTTTCATTTGAGAGTATTAGAGCTTTGTGCCTAAGGGAAACTCTCTAAGAGTGAAAAGGAACCTATGTCATTTGAGAATACAATTTGTCTGAGGAAGTTCTCAAGTGATAGTGTGCTCTTGTCAAGTCTTGTGAATAGGAGAAGCTCGTGTTTAGTGTGTCTAAGGTCAGAGCGGTTCTCTTCAAGTTAGCTGAGCAATTTACTTCCGGTTTGTTTATCAAAGGAAGGTTCTTTTGTTTGTTGAAGGAAGGTGTTTTCTACTCTTTGATTATTTCATTATCTTGTAATCTGTACAACTATATTTTTAGTGAAGAAGGTTAATCACTATTCATAGTGATTAACGACTAGACATATAATCTTTTGATTCGAACCAGGATAAAAAAATTATGTGTTGATTTTCTTAAACACTACACTCTCTGCACTTTTAGCATACCAACGGTTTAATAAAAGTTCTCTAAGAAAATCAAGATTTTTAAACAAACTATTTTATCTTGTGTATTGACCGCTATACGATTTTCACTCTTTAAAAGTCGTTTTTACTCCGCTGCGCGACTCCCTGATACCTACAGTTTTCTATTTATATTAGCTTACCCTTTTGTTTGTTTGTCTTTTTGTATGTTCTTGTGCTTGTGATTTTGTCTATGATCATCTGGTGGGTGTGAGCAGAGGATGATGAAATGTCAGTAGAGCTTGTTTTAAATGGCGGGACTATCAATGTTTAGTCAACATGAAATGCTTTTATTTAAAAATAAAATATTTGAATTTTTGGAAAATTATGTTTGTGAATATGTTATATATAGATTTACACTTTTGTACTTAATATTGTTATTTAATAATGGCTTGATTTAGGTCGTTACAACAAATAAAAACAAGGAAATATTAAAGGCATGGTTGATTCTTCAATAAATTGTCAAGATCACAAATGAAAATGTAAAGTTTAATAAACAAACCTCAACTGTGAAGCAAAGTCAATGCCGAGACAAAATGAATCCATAAACCCATTTTGTTAATAGATAACAAACCCTAACGTTCAAGAGTATTTTCAGTCTGCTTTCACGTAGTGAGAAATAATGACATGACTCACGAGTAAATTAGGCATGGAAAACTACAGATTTATTTCTAAATAGTTTGCTTTGTATTATATATAATTCGTAATGATAATTTTTAAAAACAAAAAGGATCGTTCAGTATATTTTTTTAAAAGTTCACATTTATTATGTATTAATAAAAGTAACTCATACTCCTTGTTTTTTATATTTACATTTATAATTATGTAATAATTATATATAAATACAAAAATAAATAAATTTAATCGAATTAACTAAGAATGTTATAATTTTATGATTCAAAATAAATCATGGAAATATTGATGAGTTAAGAATGTTATTTCCATCCAAACTTGTGGGATCAAGTTTAAGAAGAATAATTCTCAATATTGTTTTTAGAAATATTTGTATATTATTGTGTTTCTTTATTTTGTGATATTTATGTCTAGTTAAGGTGTGTAATTTAACTTTGTAATGACCCAAATTAATATATATAACACAACAAATTTGTTCATCATGATTAATGAGTTAATGGTATCATGAAATTATACATTTATTAAATATATTTATAGTCCTATAAGGCTTTGTTCCAAATATTTTTTCAGAAGAAATTTAATTATGACATCTATAAGAGCTATATAAAATATAATAATAATAGTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAGGGTTTGCTAACGCGCGTACGCCTTTTTTTCAGTTGGTACATTTAGCAATGTGTACCGGATAGTAGTAGACAAAAATACTCTTATATATTATGGATTCCAAGTTTTAAGATTAAGGGTATTTTAATAATTTTATTTCTCAAAACTTAAAAAAAAAAAAACCCCGCAAACCCTTACTCACCTCTCTCATTCGTCTCAATCCTTTCTCTTTCATCTCTCTCACTACAACTTTTTCTCTGTCATCCCTACTGTACCCCCAATTGAAAAAAATCAGAAACACATGCCTTTAAAAAATTTTCCTTTGTAAAGAGTTGAGTCATTGACATATTCACCTTCAAGACAAAGGTTCACTCAAGATCTCTTCAATTTCACCATCTTCACTAACCTCTCTAATTTCATGATCTGTATTTGTTGAATCATCATCTCTAAAAAAACCCTCCAGGCTACCAATTCTTTCGGATGTCTATTATGCTTGTGAAAATTAGATAAAATTATATACGACAAAAATTATAAAATGAAAACTCATTATAAAGTCATTTTTTGTAAGAAATTGTTTAACAACTGAGTGTTTCTGATTTTTTTCCAGTCCAATTACCAATTCCTTTGATGTCATTTTGCTTGTGAAAATTAGATAAAATTAGATGTCATTATGCTTGTAAAAATTAGATAAGACAAAAATTATAAAATAAAAACTCATTATAAAATATTTTTTGTAAGAAATTGTTTAACAGCTAGTATTTCTGATTTTTTCCCAGGTCAATTACCAATTCCTTTATGCTTGTGAAAATTGGATAAAATTAGATAAGACAAAAATTATAAGATGAAAATTCATTATAAAATCATTTTTTTGTAAGATTGTTTAACAACAAGTGTTTCTGATTTTTTCAATTGGGGCTACAGTAGGAATGACAGGGAAAAGATTGGAGTGAGAAAGAGGAAAGAGAAAGGGTTGAGAGGAATGAGAGAGGTGAGTAAGGGTTTGGGGTTTGTTTTTTTTTTTAGTTTTGAGAATGAAAATTATTAAAATACCCTTAACCTTAAAACTTAGAATCCATGATATATAAGGATATTTTTGTTTACTAAAACCCGGTACACATTGCTAAAATGTACCAACTGAAAAACAGGCGTACGCGCGTTAGCAAACCCATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATACACTTTACTCTAACGAGTTTTAAGGTTTTTTTTTTCTCCATCACTTGCATCATATTATGCTATAACATAGAATCATTGTGGAAACAATAACTACAAATATAAATAGAAGGATGAGATAGTGAAAATTAACAAATACTACAAATATAAACAGAAGGATAAGATAGTGAAAATTAACAAATACTATGCAAGTCAATTTCATCATTCAATTAAAATCTATATTTTTCATCGAATGTACATAATCATTATTTAAACAAGTTATATGTTCCATCATTTATCACACTCTCCTCATCGTTATCTTAAATATGGTTAATCAATTAAAATTTTATTAGAGATAAAATCCATCATCTAATTTGAAATCAATAATTAATAGTAAGAAATTCATTATCTCTCATAATACAACTTCAAGCTTCAATCATCACAACACAATCCTTACGACTTGACTCTCATGGATAAACCATGACATAATAGACAACAGGGTAAGCTAATGTAATTACAAAAAAAATATATCATTTATGATATATCACTTTAGAATGAATTTTAATCTCATTTAATTCAACCATCCATACTCTTAAAAATAATCAAATGTCTACCAAAAGCATGTCAATATCGACACAAAATTAACCACAACCCTCATGGTCCACAACACTTAAACATTTGACTATACTTCTGAAAGTCAAGTGTATTGAGCAAACTCCTAGACTTTGCACAAGTCATAGTCATTCTTGCCTCTTAAGAGCTATAACTATAGATTTTACATCAAAACACCAATTCTTCTAGAGCATAACTAGGGTAAATTCTTTATATTTGTAAGGTCCGGGCCTTTTTCATATCAATATAGTACTCCCTCCCTAAGAGTCACAACATTCACCATATTCAGACCATACCCACATATAACATTCTTATATATTCTTAAATTATCACATCATGTCATAGATATATATACTTTACTTCAATCCAAACTAATCTCATAGCATCAATCACATATTATTCATTTAAAATTTAATATTAATAATTCATCATTTATTTTCTATTGCATTAGCATTATATTCAATTATAATATTTCCATTAATTATATCAAAACTGCGAAAAACACTTGTCTAACCACAAACCTCAAATCAAAGATCCCAACAATTAAAGTAAATATTCATATATTTAGGATAAGTTGTAAAAATTTCAGTTCAATCTAATGATAACGAAGCAAGAATCATGTTTTTTACCGAGATAACTTAGTAATAAAATTATGTTGGGACCCAACGCCTAAAATTTTTGTCCAATATAAGAAATTTGGCGCCCAACTCCAGAAACCTTGCAACTCACTGTTGATTGAGCAACTAGTAGTCCTAGAGTGGTGCCTGATGCTCTACACCACTGGAACTATTGACTTTTGAGTGTCTAGCGATCCAATGGTAATGTCTGGCGCTATAAAAAATATAAAAGAGTTTTAGTGTGTTTTAAATTGGTTTATTGATATATTTAAGTTATTTCAAGGTTTTTCTTATGTCATGTAGGCTTACTCTTTTTTAAAAAGTGTCTCAATATACCAATACACCAATTTGGAACATGTCAAACATAAACCATTTATTTTAGTCAATCTCATTTTTTATAAAAGCTGCATTACAAATACTCCAATTAACACAAGAAAAAAATAGCTCAATAGAACAACCCAAGAATACTTATGCATTATAAATTAATTTACCTTGATTATGTAGCTCAAAACAATAAAAATCAAACAAAGTACACCACTTCACTAAACTAAATTCATGATCTCATCAATTCTACCATCTCCTCACCATCACCCACAACATATTATCAGTATATATTCAAGTAAAGGGATCAAACATAGTCAATCCATTACACCACAAGTTTCAACATCACAACATTATTACTATCAAAACTTAATAAGTAGTATTTATCAATTTTTTATTAATTTTTCTTACTTTAGGTTGTCTCTTCCTCAAACTCTAACCGCTTAAAGATACTGTTAATCCAAATAAAGCAGAAATTCATCATACGGTCGAATAGGTTGGAATCATTCTCTATCACTAACTGAGAGATAAAAAATTTTATAGAATAAATGAAAACATATATTGTTTTAAAATCCAATCAATTCAAAATGTTTATTAACATTCCAATTACAAAGTGGCTTGATTAATTTCTAAACAGATGAAAAATGAGTGTGAATTTGAATAGAAAACAAATGAAAAATATGATTGTGTGAAGACACAATAAAACACAAAAAGAGAAGAGACGAGGATGAAGGTTAAATAATTACCTCTCTTTCCTCTTTATTTATTACATATTATTATTTACTATCTTACAGTTTTCCTTATCTATAGCATATTTCATATGCATAATAGAAGTTGTATATTCTAATATTTATAGCTATTATTATTTTATACGAAAGTATGGGTTTATAAAAATACTATTTTTTCATAATTTTACTAGATATTAAAGACCGTATAATTGTATGACATTTCTAATACATACTGATATTTTTTATATTTTTTAATTAATATATTTAAAAACATACTAATATTTCTTGTATTTTTTAATTAATATATTTTATTTTATTTTTTAATTTTAATCTTATTTGATATGATATTTTAAAAATATATATAAAAGTCGAGTGTCACCTCTTTAAAAATATAAGAGAAAAGATTATTACTTAAAAATTAAAACAATATGATATAATTTTATTAAGGATTAAATATAATTTTCATCCTCAATTAACTATAAAATAATTATATTTTATTTAAATTATAAAATATTTAATCTTTACACTTTAAAACATTCTTTCAACATATTTAATCTTTTTATTAAAAACATAAATAAAATAAATCTAGGATTATATATAAGTCAATAATTAATTATATCTAAGACTTATTTTAATTATATTTTTAACCTTTCTTGAAGAGCCTATACAAATCTATAAATACGTATCATCCCATATATATACTTATTCCATTCTCATAGTCACTTTTGTCCTCTTACCACTCTCAATCACTTTTTGTACTCATACTCTTTTGTATTTTACTGATTTAAGTGTGGAAAACTTATCTCATTATTAGTATTTGGCTTCTATACACACTCTCCTTCATTTTTATCTTAGAAATAAGAACAAATATAATAGTTATAAAATGATAGCATAATATACTTATATCTTATTTTAAGAAACTTCTATAAATGAATTTAACTAAGCGATCTAAAACTCTATAAATGACTGAAAACTAACATTTTAAAGTATAATAATGTAAAATAATAATGATGTTAATTTTAAGGGAATCTACGTTACTCTCCCAATCCACACTTCACAGGCTTTTTTAAGTGTATACCTCGGAAACACAGATGACGAATTGCTTTTGGTTGATAAAAAATCAATGAAAACTCAAATATAAAACTCGAGTTTTGCAGAGTTAACGAGGAACTTAGATGAGCGAGGTCTATTTTTATTGGATGCATTTTTTTGGCATTTTGTTTTAATGGTTGATTTACTAAGCGAGACATCAACTCGTTGGACAATATCATTTTTAGAGTGACTCGTTAGTGAATGTTCGCTTAGCGGATACGTTTTAATAAGTGAATTTTATCTAAAATACAAATTTATTAAGGTTTATGCTTAAAAATGGGCTTCCATAACTGTGTTTAATGTTGTATGAGATAAATGGATGGAAGAATAGTTTTTTCTTAAAGAGAGAAAACTATCATGTGTATGTTTAGTGTGATATATAGATGACAAGACTAATATTGATATTAGCTTGATTCTGTTAGTTATTAATTAGAATTACATAAATAAAAACAATTAGTTGAAAGAGTCGAGAGAAGTTTATATCTAAAGTATTTGATTTTAGTCAAACTTCAGATAGATATTAAACTTATTTTACTATATAATGTGTGGGTTGGGAGTGACCAACTACAAAAAATACAAGTATTACCGACGATCAAAATTTGTTAGAAACATAAAAAATCCATTGGTAACGATTTTTTTCGATCAATTTCAGATGGACTAAAATTTGTCAATGGAAAGGCAAAAGATAACATTTACAAATAAAAATTTATATATGTCATCAATTATCGAAGGAAAAATCCATGATAATCAAAAAAAAAATCTATCGATAATTACCAAGCTAGTCATCGTATGTTTCGTTAATTGTAACACATTAATTCTCTACTTTGAAGATGAAGAAACGAAGAATTTATTGCTCTTTTTATCGTAAGATTTTGCTCAAAGATTATTCCGTAAATAATACATCATTCATTTATTGATAAAAAAATTCGTTACTAAATAAAATGTGTTATCGACAAATTTTTCACTGATAATAATAAACAGGATTTTTGAGGATTATAAAAAAATGTCACAATGATAAGTATACAATCTCATGATAGTGTCACAATGGTAAATATACAGTCTCATAATACTAGTTTATATATTGATTCTCTGAATTAATATTTGATCATTCTTTCATGTAAAAATATTTTTTTGACGTAATGATAATTTTTAAAAACAAAGAAAAAACATGTGTATTTTCTTTTAAATGTTCACACTTTTTATGTATTAATAAAATAACACTCATACTCCTTATTTTTTATATTTATATAATAATTATATGTAAATAATAAATAAATAAATTTAATCATGTGAATTAATTAAGAATGTTATAATTTTATGATTCAAAAAACACGGATAAATTAAGAATGTTATTTCCATCCAAATTTTTAGGATCATATTAAGAAGAATAATTCTCAATAATTTTTTATATAGAAATATTTCTGTTATTGTGATTCTTTATTTTGTGATATCTCTGTCTAGTTAATGTGTGTAATTTATTTTCCTTATTTATAGCATATTTGATATTCATAATAGAAGTTGTATCCTTTGATATTTATAACCATTCATTTTTTTATACGAAAGTATTGGTTTATAAAAATACTATTGTTTTCATATTTTACAAGATATATCACAATTTAGAGGCAGCATAATTGTATGATATTTTTAATACATACTAACTATATAATTTATTTTTTAATTTTTAATTAATATATTTTGAAACTATTTTAATTGCAATCTTATTTCATATGATATTTTAAAAAAATATAAAAGTCGAGAGTCACCTCTTTAAAAATATAAGAAAAAATATTATTATTTAGAAATTAAAATAATACGATATAATTTTATTAAGGACTAAATATAATTTTCATTCTCACATAACTATAAAAAGAATTATATTTTGTTTAAATTATAAAATATTTAATTTTTACACTTTAAAATTCCTTCAACATATTTAATCTTTTCATTAAAAACATAAACAAAATAAATCTAGGACTATATATAAGTCAATAATTAATTATATTTAAGATATATTTTAATTATCTTTTTTACTTTCCTTGACAAGCCTACAAATCTATAAACACATATCATTACATATATACTCATTTCATTCTCATAGTCATTTTTGTCCTCGTACCATTCTCATAATCACTTTTGTATTCATACTTTTATTTATTTTTTATTTTTTACAGATTTAAATGTGGGAAAGTTATCTCATTATTAGTATTTGGCTTCTGTACACACACTCTCCTTCATTTTTATCTTAGAAATACGAATAATTATAAAAGGATAGAATAATATACTTATATTTTATTTTAAGAAACTTCTATAAATGGATTTAACTAAAATATCTAAAACTTTCCTAAAACTATTTCTCAACACCTTGATTTTTACGGAAAACTACCATTTTAAAATATAATAATGTAAAATAAATAATAATGATGTTAATTTTAAGAGAAACTACGTCACTCTTCTAATCCACACTTCACGCTCTTGTAGGTTTTATTTTACATAAATGATATCTTCACAAACACAAATTTTTTAAATTCATTTTGACACTATTTGTTTTTTTTTTCTTTAAAAATATTAAATTCACTTTTTTTATATAATTATTTTATTTTAAAATATGTGTCAAAAAGTAAACGCCTGTTTTGGTTATCATTATATTTTTCAAGTGTATGACGCGGCAAGACGAGAAAAAGTATATTTGATACGAAAACTCACGCCTGCGAAGTTGCTATGTCACTGCCATTTCTTTACCTTTCTCTTTTCCATTCATTTTCTTGGTCTTTTCCGTCAGTTCTCTGACTCCCTATAAATACTATCTTCTCTCCTTTTCATTCTCACTCTCTCGCTATCAAGGTGAGTGCACTATCTTCGAAAATTAACCAATGGGAAATAATCTTTTTTATTATTTTTCTTATGAACATTGAGGACAACGAATTCATGCATTATATTTATGTTGGTGTTTGGTTAGGTGATTCTGTTGGGGTTTTGTTGTTGTTCTTTGATCTGTGAAGATGGGGCAAGTGTTTGGATGCGTCCAAGTGGAGCAGTCAAGTGTGGCCATCAAGGAAGTTTTCGGGAAGTACGATGATGTTCTTGAACCTGGTTGCCACTGTGTCCCATGGTGTCTTGGCAGTCGTGTGGCTGGTGCCCTTTCTTTGCGTGTCAAACAACTTGATGTTCGTTGTGAAACCAAGACAAAGGTTCTTTCTTTCACTCTCACTTGTTCTCGTCTTGTCATAAAACCAGTAGTTTGGTCTCTTCTCTGATCACAACATTTTACATTTTGATGATCCATGCTGATCATTATAAAAAGATTAGTCTTTTTGTCTTGCCGTCCTGTAATTGTTATCTCGAAATATGATTTGGTTGAATATATATTTATCTGAGTAATGTCTGAAATGATGAATTATCTGATCCTGTGATGCATTCCGCCAGGACAATGTATTTGTTACCGTGGTTGCTTCTATCCAATATCGAGCATTGGCAGAAAAGACAGTGGATGCTTACTACAAACTCAGCAATACCAGAGCACAAATCCAATCCTATGTCTTTGATGGTGATTATTCTAGTTGTTTGGGTTTGTCAGTGGATCCTCAGATTGAAACTTATTTACTAATTTTGCTATTCAGTTATCAGAGCAAGTGTTCCAAAGATGGAACTGGATGCTACTTTTGAACAGAAGAATGAAATTGCGAAAGCAGTGGAGGAAGAACTTGAAAAGGTATCTCTTTTTATTGTAAATTAAGAATGGAATAGAACATCCTTCATCTTCTTTCCTTTTTTCTAGGCTATGTCAGCTTATGGTTACGAGATAGTTCAGACTCTTATTGTGGATATAGAGCCAGACGAGCATGTGAAGAGAGCCATGAATGAGATAAATGCTGGTATGTCACGCGTTGCTTCAGTCAGTGCTTTTCGTATTTCCTTTTCAACCATGCGAAGAAAACAAACTTTATCTTGTTTGAACAAATTGTTTATGCATGTTTCTATGTTTTGTTGTGACCCTTTGGAAATAGCTGCAAGAATGAGGGTGGCTGCAAAGGAGAAAGCCGAAGCAGAGAAGATATTGCAGATAAAGCGAGCAGAAGGGGAGGCAGAAGCAAAGTACCTAGCAGGGCTTGGAATTGCTCGTCAGCGGCAAGCCATAGTTGATGGGCTGAGGGACAGTGTATTAGCTTTCTCTGAGAATGTTCCTGGGACAACATCAAAGGATATCATGGACATGGTTCTCATGACTCAATATTTTGACACAATGAAGGACATCGGTGCTTCCTCCAAATCCAATGCTGTTTTCATTCCACATGGACCTGGTGCTGTTCAAGATGTTGCTTCACAGATCAGAAATGGTCTTCTCCAAGGAAATGCATCAGAGTGTTGAAGACATATCATATCACACCATAGTACCTCACTGTCAATGCTGTTATCAATTCCAAGCACTTCAGTTTTCTATAAAATTTTACAATGCAGAACACAACACAACCCAGATCAGTTGTCCAAATCATGCATCTATTATTCTATGTTCAATAATTTTCCTCTATAGATTATATTTTTGGGGTTTTAGAATGCAACACAACTACAAAACTCAAATAGATATTCAAAATGCAAAAAGAAATTAAAAACAGAGGCTTAACAATCAAAGAATTGGATACGAAGAGTGAATTCATAGATTTAAATTTCATACAAGTGAAGTTTTAACAGTTTTAACCTGTTCAATTAAAAGACATGGTATTGAATTGGTTAATTAAACTAGATATTAGAATCAAATCACATTATTATTCAATCTAATTCGTATTGTATTTCTAAAATATTTAATTTGAATTGTGTGATCTTACTTCTATGAATTAAACTTCAAGAATTAATTTAGATGAAAAAAGAAACACCCGAAAGAAAAGAGAAAATATAAAGATAATCAACTTAGAAATTGAGAGAGCTTCTCCAAGAAAAGACAATTTTAAAATTGAAAAAAAATACATAAATTCAATACATTTTAAACTCGTCAACTGTATGCATGGGCCTCGGCCGAAGCTTGACTACAAATATCAAAAGTTAAAATAAAGGAAATCAAATCCTCATAGGTTTTCATATAAAATATGACAAAATCTGTCATCACTCCCTACAATACAAAAAAATAGAAGATTCTAAATCTAATAAATCATATATTTATTTTGAAACATTTAAAATATAGAATTCAATGAAACTAGAATTAATCTAAAACAATATTTATAAAAAAAGGTTAGGACCCAAGGAGTAAAAAAAGTCATATTAACTGCAAATTATTAAAGTAATAATATACATTGAGTCTAATTTATTACTACTAAAACAAAATACAAAATATATAATTGAGTTTCCCTACATGGATATGGCTAATCCCACACTTATGTAAAGAGTCACTCGTGTATATATTTTGCATCAAAGTTTCCTCCGTAGGATTGTGGTCGAGCCTGCAACAGTGTAGAAGACTTGCTAGTGTAGATTTTTACATTAGAAGTTCTGCGAGTGATAGATGCACAAAGTACATTTCATATTTAGGGATTTTCCATAACTCTTAAGTATTCTTTTTTTTTTTTTACTAAATTAGAAAAAGTTATCAATATTGTAAAGACCCAGAAAAAGACATTTTAGAAGTGGTATTAATTTAAAACAAGTGGGATTTGATTATTTTAATATAAATAGATTTTTTATGAATGAATTTTATTATTTTATAACATATTAACTCTCTAAAAATTATTTTTTTAAAGTTATCTGACTTTTCTCTAGAAGTTCTCATCCTCTATTCGTTTGATTTAAGATCCGAGCCTGTAGGATTATTTAGGCCGCGAACTCTTCATTTGGACTTATCAGTTTTTCTATTTGAGTAAGTTGAGTTTCAAACATTTTTCCTTGGTCTTTTCTTATATCTGTTGCATGTGGGCTCTACTTAGCTTGCATGCGTCTGTTGAGTCATCAGTTTGAGTATATGCTAATGAGTAGTTCCAATGATATGCCTTGATAGTGTTTTTGTTGTTCGTAAGAGCAGATAAATGTTACTGTTCTTTTGGAGCTAGTTTAGACTTTTTAGAACATTTTGATCATCTATTAGGTAAGAGAAGCTAACTGTCTCTTTTTAATGTTGTTGATGCTTTGATGGATTGTGTTGTATGTTTGATTTGGTCTAACATTAGTAGTTTAGCATGCATAGTTTCTGTTGAATATTTCTTGTTTTTGGTTGAAAGTGGTGTTGAGTCGAGAAATTAAAGATATGGTCATTTGAACAAATTGATATTCATTTTGTAACCTAAACCTGTCTTTGAACCAAGTACCAAGTGAGAAATATTAATTTGATCATCTGAATATGTCTTTATTTTTCAAAATTATAATGCTAAAGTTGCTAATTTCTGATATGGTGGTGAGCGACATTGGTGTAGCGTTGAGTGCAAACTTGGTTGTAAATGTGTTTTAAGGATTTTTTATACTCTAAGATTTGGAAATTTTAAAAGAAGAAAAGAAAGAGAATGTATCACAAGAAATTCATTGAGTTCCTAAAAACAATTCGTAATCATAAAAATAAATGAAATTTTAAACTCTAAAACTCCATTTTACTCAATAAGCCTAAACTCCTACATGTAGTTTTTGAGGAATGAAAAAAAAATTACTTACAAGATTTCATAATTAAGGGCTTTAAGTTTTTTTCAATTTAATTTGAGAAATGAAGTATAAAAGGAAAGAGAAAAAAAAAATAGTCATGAACGTAAAGGAAAAAGAAGATAATAAAAAATGATTTTTTTAATAGAAAAGATAATGAAGAGCTTTTCATAATAGTATTTGCACACCTTCTTTATTAAGATCAGGGTGTTGCTCCCTCCACCTCCACAGCCTTCTCCCTCCACCTCCCCAATTATCTTTAATTCCAATTATATCCTTAAAGTTAAAATTTTTTATTTTTATTATTTTATTATTTTAATATTTTAATATTTAAATATAAACTAATATAAATATACATTATTAAAATACATTAAAAAGATATTAAAAAATAATAAATCAAAATATTAAAATATCTAATAAAATAATAACAGAAACATAAAATTAAAACAAAGCTTAAACGGATGACATCCTTCAACGGATGTCAACATCCGTTTAAGGCGAAACGGATGTCGACATCCGTTTTGCCTTAAACGGATGTTGACATCCGTTGAAGGATGTCATCCGTTTAGGCTTCGTTTTCATTTTACGTTTTAGGGTTAAAGGATTATTGGAAAGATTATTGGAAGGATTATTGGAAGGGTTTAGGGTTTAGGGTTTAGGATTATTGGAAGGATTATGACTACGTACCTGGAGAGGAACCACGACAAGCACATTACACCACAAACGCACTGCACCACGTACTGCACCGAAAGCAAGAGGAAGATTGCTTGATAATTTTTTTCACGATCACTGAGCTTTGCAGAAAAATATTTTACTCATACAAGGAACGACGTAGGTTATCAGTGAAATATGTTATAAATGAGTAAAATTAAAAAACAATAATTCTAAAAATAAAATTTTACTGAGGGACAAAATAGTAAAGGAGAGGTGGAGGGAGAAGGCTGTGGTGGTGGAGGGAGCAACACCCTTAAGATCAATGCCAGCTCTATTTGTTCTAAACAACTGAAATCTATTTCGGCCCACTCCTCAAATCCCAAATACCATTCTCAGCATAAAAAAAATGAAGACAGTAGAATTTAGTACTTACATTACATCACTCATTAGAAAACATAACCCATAATATTTAGTACTACTTAGTATTAAAATTATAACAAATATATATAATTTTCAAATTTAAATATGAGAAAGCATTAATATCTAGCATTTAACATTTTATTAAATATAAATATTATTATTACATTAAACTTTATCCAACAACTATTATAAGGTTTGCAAGAATATAGAAAATAGGATATTAGAATTTATAGGTGTTTTAAAATAACGAGGTCGAAAATTTTATTTTAAAATAATTCAATAATATAAATAGGATTTCTTAAACTCGTTTCATTACTTAAAATATAAATCATTCATCTAAACTCATTTCTTGATTTTCTCTACCTTCTCTCTAAGATATCTGACTAATCGATCATCTGTTTGAAAATCAGGAAGTTCATAGGAAATTACGACTAAGTAATCTCAATTTTTATCCGATCAGTTCTTAGTATTGAGCAATTAAGTTTTGACTCTCTTTTTTTTTCGTTTTTCAGTTAAAATTGTGCATGTTGATTCTCTGTCAGATGTGTCTTGTGTTATCTTTTCTTAGTTTCTTGTCAATTTGAAGTCCTAAGGACTCACTCCAATCACAATTTGGTGATTAGTAGGTGTTTCTGGAGTTTCTTGTGTTTAAGCAATGATTGGACATTCTTAGAGTTGTAGTAGTTCTTTGTGAAGTAAGAAAAGCTAGTTTTTGTTCTCTGTTAATTTATAAAGTATGAATTGATAGTATTTAGGATATAAAGTATGAATTAATATTATTATTATTATTATTATTATAAAGTTAATTCATACTATTAAATTTAACTTTATCCTATGGTTGTTATAAAGTTGAGATGTAAGTGGTTAAAAATATTTCAAATTTTACAATTTAAATAAAATAAGATATATTGATACAAAAACATGTAAATAGTTTATTATATATATATATATATATATATATATATATATATATATATATATATATAACATTAATTCAAGTAAACACACATTAATTCATGTAAACACTAAATATTTTTTTATCCTTCTACATTGGTTAAATATACCTTTGGTCTTTATATTTCAAATTGATAAATTTAACCTTTCAATTTTTTAAAATAAATAATTTCAGTCTTTTGTGATTATACAATATTGTCAGCAAATATTAAATTTACATTTAAAGTAAAAATTGAAATAACCTATCCTATAAATTAGTCCTTGGATATTAAATACTCACTGATAATTTTGAATATAAAAATTATTAAAATTGCAACGGCCCGGTTTATATGCTAAATATGTAATTTAACAAGACATAATATATAATATAAATATGTCGAAGAAACGTTTAAATTACCAAATGAAGTAAAAAAAATAAAAATAAAATATAAACAAGATCCATAAGAGGAATATAACTTCTGCACTTATATACATAAATAAAATTATCTATATTATATTAATCTCTCTCAGTTATTCATAGTTGGTGTTATGTAGTAAGGATATTTATGTAATAACATAAATATCTTAGATATTTTAGACAGTTAAAATATCAGTCAAAGCCACTAACCACACTTTTAGGTAAGGTGGTTATTATTATTTTGCTTATAAATACAGTGACAGGACCCAAGTCCAGGTACGTTCTCTTTATGCTCTAGAGATCCTGAATAATATTTCAGAGCAGTATCCAATTGCTCTCTTCTGAGCTTCAGCTCCATAACTCATATCTGACTTGAGCGTCGGAGTATCTTTGCAGGTACCTCCCCCTCCTTTGACGAACATGAAGCACAACAATTGAAGAAATGCAAGCATCCCAGACAGCAGAACACGCGTCACAGATAGCCAGGAGCAACGCAGGAAAATGTACACCGAAACATTTTGGCGCCCACCGTGGGGCCGAATGGCATCCCACTGAAACTGCAAGGAACGAAGACCAGCATTCAATCTTTACATCATTGCTTCGGAGGAACATTAGGAATTTTCAGTAAAGCGAAAAATACATCATATGGTGATCTCTATGTGGAAGTTCATCAACAAGATAAGTATTGTATACTGACGCACTTCTTTTATATTATAATAATATAATATATAATCTCACCCTCCCACGATTCCACAATAATATGATCAGGCAGCACGAAAAGCTCGCTTTGCATTTGTTTTATTCCATTTTATTATAGTTTATCATGCTTAAAAGGTTTAGAAGACATTCCTTTTAGATCAGGTGTGAAAAGCTGCAGCTTAGAAATTCAACATGGCTCACGCCGCGATTTCTGCAATTTAAGAGCTATCTTTCTGAAAGAGGCGGCAGAAGCAGGAACAATTCTCGGTGATTTTCTCCCACAGCAACGATGTTGAATGCGACGCTCATCTTCATCCGAAAGGAGTCTCTCTCCATTTGAAAATGCATCAATCTCTGCCCGTAGTCATCACGAACGAGAATCGGTGGCCCGAATATCGTCAGCGGAGGCTCGGCGTGGCGACATGACTTTCTCCGACGTGTCTCTCAACTCCATCAACCTCCTAGTGCGGAAGCTTCTTCGACACAAATTTAGTGGCCCTCTGGTCACACTTCTCGCCCTCTCTTCCCTACATAAAGACGTCGCTGGCAAACCCTAGAGACATGCGGTCTTCGACCGCGGCTTGACAGCCATCACCCCGTTGCTGGGAGCTAAGCCACTCCTTGAAGGCTCCAACCGGATCCTTCTCATCATGGACTCTTGTTAGGGCTCTGATGAAATCCAGTCAATTATAACCTCGAAGAAGGGACCATCTTGAAATAGTCAAATGCATATTCAACAAACACTTGTTGGAAAAATTTCTGAACGGCCAGGCCCAACCAAAATTCCAGAGGTTCCTCGATCAGAAAAGAGTTTCCAACGCCGGCCACCGTGACGCCATGACAGTCCACACCAGCACCTTCATTGGTGCCACTCCCAGATCCCAAAATGCGCAATCGAGACCAACCCCAACTCGAAAACTTCACAATTACTCGCAAAAACAAAACAAGATCAAAACCACAATTCCAGTCAATGAAAATCCATTTACAACAGAACCCCAAAATCCCCAACGAGAAAAACTCTGACCAGGATTGCACAATCCGCAAATCAAAAACCCTAAATCCCCAAATTGATCTCGGTTACAGCCACATCAGCAGACTCGCCGTTTGCGCAGAAGATTCCCACACGAAAGATCGCATCGCAGACCCATTCTCCACTCTTCCGCAACAATTGCGCCATTCACGCGTGATTCGGTTCGGCCTCCACGTCATTCAATCCAAATTCTATTCCCCAAAATTCAACCGTTCGGCAACTAGGATCCACCAGCGTACGGTTATTCCACCAGACTGATGCTCGGTTACGAAACTTTCATGACGTTCGGCCCTACTCGTGATCAGACATTTGACCTAACGGACGTACGGCTTCACACATCCAGCAATCAGCTTTGCCAAGCGTTCTGCCTTTCGGCTTCAATGACGCTCGACCATCCATGGCCAAGAACGTTCCAGCGTTCGGCCGTTCGGCCACACCGACGTTCAACCAGCTCAGCCACGCGTACGCCATTTACGTTCGTTCTGGAACGTTCCTCATGGCGTTCGTCCTGGAACGCCCCCAAGCTCTGCCACGCGTACGCCAACTACGTTCGTCCTGGAACGTACACCAATTACGTTCGTCCTGGAACGTACGCCAACTACGTTCGTCCTGGAAGGTCCCCCATTACGTTCGTCCTGAAACGTACAACAATTACATTCGTCCTGGAAGGTCCCCCATTACGTTCGTCCTGAAACGTACGCCAACTACGTTCGTCCTGGAACGTACGTCAATTACGTTCGTCTTGGAGCGTACGCCAACTACGTTCGTCATGAAACGTCTTGTACTCAGCCTACGTCACTGACGTTCGTCCACGCACTCGGATTTGAACGCTCGACAACGCCATTGGACGAGCGTTCGAGTAATCAGACGTTCGTCCTCGCCCTTGGATTCGCACGCTCGACACTCAACGTGGACGAGCGTTCCAGTTGTCAGACGTTCGTCCTCGCCCTTGGATTCGCACGCTCGACACTCAACGTGGACGAGCGTTCAAACAGAAGACGTTCGTCCTCAACCTTAGGAGGCCAACGCTCGACATTCAACGTGGACGAGCGTTCAAGCTATCAGACGTTCGTCCTCAACCTTAGGATGCCAACGCTCGACACTCAACGTGGACGAGCGTTCAAACAGAAGACGTTCGTCCTCAACCTTAGGAGGCCAACGCTCGACACTCAACGTGGACAAGCGTTCCAGCTATCAGACGTTCGACCTCGCCTTCTTGAACGAACGCGCGACAATCATTATGTACGAACGTCAAACAGCCGGACGTTCGACCTCGCCTTCTGGAACGAACGCTCGACAATCAAAGAGTACGAGCGTTCACACAGCCGGACGTGCCACCTCGCCTTCTGGACCGAACGCTCCACAATCAATATGGACGTTCGGCCTAGAGCGTTCGTTATTTCGCTGATCATCACCGCTCGGCCTCGCAGTTGGCCTCTACTGCACGAACATACCTCCAAACGAACGCTCTATCATTCGAACACCACGGTCATTCGACCCAACCCATGATCGGCCAGACGATGTCAATGACGTTCGTCCTGAACGTCCATTACTCAGCCCCAGGTTCGTTCCGCAGTCCGTCGCCTCAACAGGTCGGCCATCAGACTCAACAACGTTCGTCCACTCGGATCTGCAAGCGCTCGTCCATTCAACTACAGCTGATGCTCGCTTTGGTCGTCATTAACGTTCGGTCCAGAACGTTCCACCGTTCGCTCGTCATCAACATCCAGCCACTCCACTCCAATGACGTTCGTTATATTGGCATCAACGTTCGGCCATTACATTTCTCGGACGTTCGTCCTCAAGCGTACAGCATTCGGGCTAACGGACGTTCAGCCATCAGGTTTGCAATTTGACCAAACGGTCTCACTTATATACTCAATATTATTTCTTACAGTGCAGATAATCGTCTCTTGTACATAAAAGCGGACACCTGAGAGCCGTCCATACTGAAGCACTTCTCAACCTGGTAGATGTTCGCCCAAGAACACCCAGGTGCATCGAACAAAGGGACACACTCCCGCTGGCCGATGTTCGCCCTAGAACACCCAGGTGCATCGAACAACACGTGCATAAAGGGATACACTCCCGCTGGCCGATGTTCGCCCTAGAACACCCAGGTGCATCGAACAACACATGCATAAAGGGATACACTCCCGCTGGCCGATGTTCGCCCTAGAACACCCAGGTGCATCGAACAACACATGCATAAAGGGATACACTCCCGCTGGCCGATGTTCGCCCTAGAACACCCAGGTGCATCGAACAACACGTGCATAAAGGGATACACTCCCGCTGGCCGATGTTCGCCCTAGAACACCCAGGTGCATCGAACAAAGGGACACACTCCCGTTGGTAGATGTTCGCCCCAGAACACCCAGAACATCAACCGCTCGACAATCCATGGACGAGCGTTCAAGCAGTCGGCCGTTCGGCCTCAAAGGTGTTCGCCCTTTGGTTTCAACCGCTCGACAATCCATGTACGAGCGTTCAAGCAGTCGGCCGTTCGGCCTCCCTTTGGTTTCAACCGCTCGCCAACTCATGTGTATGAGCGTCCATTCAGTCAGTCGTACAGCGTCAACGCTCGACATCAACGCTCTACAATCAAATGTCAACGAGCGTCCACTCAGTCAGCGTTCGACCTCAACGTTCGACAATCAAATGTCAACGAGCGTCCACTCAGTCAGCGTTCGACCTCAACGCTCGACAATCAAATGTCAACGATCGTCCACTCAGTCAATCGGTCAACCTCAACGCTCGACAATCAAATGCACGTCAACGAGCGTCCAAACATCGCTCGACATTCCGTTTCAACGAGCGTTCCATAAGCGCTCGCCAATCCGTATCAGCGAGCGTTCAAACATCGCTCGACATTCATGATTAACAAGCACTCAAGAAGTTGGCCGTTCGGCCTCAAATTTGTTCAACCTTTTGGTTTTTGCCGTTCGTCTTCGCCTCCTTTTTGTCCATCAAATTCCTTACTTGCACACGCTCTCTAATTACAGCGAAGACAGCCTCCATCAAACTCATAAGTCCTAGAGTTACCACGTTCATAAAACGGAACGGTTAACTCGGACTTGGGGGGCATGTTATGTAGTAAGGATATTTATGTAATAACATAAATATCTTAGATATTTTAGACAGTTAAAATATCAGTCAAAGCCACTAACCACACTTTTAGGTAAGGTGGTTATTATTATTTTGCTTATAAATACAGTGACAGGACCCAAGTCCAGGTACGTTCTCTTTATGCTCTAGAGATCCTGAATAATATTTCAGAGCAGTATCCAATTGCTCTCTTCTGAGCTTCAGCTCCATAACTCATATCTGACTTGAGCGTCGGAGTATCTTTGCAGGTACCTCCCCCTCCTTTGACGAACATGAAGCACAACAATTGAAGAAATGCAAGCATCCCAGACAGCAGAACACGCGTCACAGACAGCCAGGAGCAACGCAGGAAAATGTACACCGAAACAGTTGGAATTCTGAATACGTATGATCATTTGTTCTCGTGTGACAAACACCATTGCATATGAAAATAACAACCACAAAACGAGAGCTAGTTTATTTGAAAGATTTATAAACTAACAATAATTTCAATAAGTTACCATGCATATCAATTTCAAATAATATCAAACAATTCATTCATTATATATAAATTTAATTAACAATGAAATACTACTTTTAGAATATTCTTCCCTTAAATTGGACTAAAAATTATGCATATGTCATATGAATATTTAGTAGATTTTGACAATTTTAACTTAGACTCTACTCTACTTCCAATATTAAGACTTAAGTTTTTTTTTTTTAGGTTTAATCCTTTTCGACATCCCTATTTATGTACGAATGTCTCAGATGGGTCCTCGTTTTCTAAAGTGTATCAAAATGGTCCTTAATTTTGAAAATTGATATCAATTGAGTCCTTTCCGTTAAGTTGGCTGGACGGCGTTAAAAAAATTGATGAGTGGATGCTGAGATGACGAACGAACGCTCGTCCACCAGCGAACGAACGCTCGTCCATCAGCGAACGAACGCTCGTCGACCACCGAACGAACGGTCGTCCAGGAGTAAGATGTCGACGAGCGTTCGTTCTTTGGTGGACGAGCGTTCGTTCGCTGGTGGACGAGCGTTCGTTCGTCATCTCAGCATCCACTCATCAATTTTTTTAACGCCGTCCAGCCAACTTAACGGAAAGGACTCAATTGATATCAATTTTCAAAATTAAGGACCATTTTGATACACTTTAAAAAACGAGGACCCATCTGAGACATTCGTACATAAATAGGGATGTCGAAAAGGATTAAACCTTTTTTATATATAACAAGATTATTTGGCTATCGTCTACTATATTGATTATTTTGCATCAAGATAATTAACGCCGTTTGTACGGATTTAACGGAAGGGATTTAATTGATGCAAATTTTATTAAGTGAGGACGTAATTGACGCATTTTTTAAAGGATGGACTAATTTGACATTTTCGAGCGAAACTGAGGACAAAATAGGATATTAAGCCTATTTTTTACATCAAATCTCGTTATAGGAATATCTATCAACTATTATCTTTTATATATTTTTTCTATATAAATTAATATATCTAGTAGAATTTGAATATTCTCATCAAACAATCCTTATTTAATATACGACCTAAATCACACATAAAAACATTTTCTTTCGTAAATAATTAATCATCATATACACAATTATTCAATATCTCATTCTTATCACACTTTTTCTCTTTTCTAACATTTTTCTTTCTCAAAAACTCTATCGTTTAAGCGAGTTTTTGAACTTACCCAACGATATAGGTATGCTCACTCAATGAATTTTTGGATCAGATCTTTTTAGATTTTTAAAATAAATTTTCGTTCAACTGCCTTGTCCAACAACCTCTATGAACTCTCTAAATTTTCTCAAACTATTTTTGTCTAGAAACTATTGTGCTAGTCTAATGACCAAGTCCCTAGGAGTTAATTTTACCAAACACTTCAACTAAAACCAACAATTAAATATATTAATAATAATATATTATTATTATTATTATTACATACCAATAAATTATTTAAGATTTGATTATAAATTACAAATAGAATACATTTATATATTCCAAAACTGACTGACATGTGATTTAGTTTTTATTTCTAATCTTAATTCCTAATAAAATTACATAATAAATAAATGTCCTAATTAATATTAAAACTATAAAGGTTAATATTAATTATAATAAGTGACATTGATTTCAAATATTTAATTCTTTACTAAATTCATTTATTAACATAACTCAATTTCTAATACGAAATTAAATGACACACACACACACAACTATATATGATAGATGCTTTAACAAACAAAATAATATTTATGATTTAAATTAAAGGAAAATAAAAGTATATAAATATTTATAGATATAATAATGATTAATAAGTGAGATAAAATTATATAATAAATACAAAATTACTATTTAATATTAAACTTATACATAAATATAAATAACATTGAATTCAACATTTAATTCAGCATTAAATTAAATACAAAATTAAATTGAAATATTTCCTAAACATTTGATTAATTTATAGAGGTCTGAAGTTTCTTTTAAAAATTTTCTCTCTCTCTCCCTATATATATATATATATATATACATATATATTTAAAAGATAAATACTAATTATAATAATTATTTTCTCACATCAAGGGTGACTGTTATGAAATAATAAAAACACACATGATAAATGTTAGTTCCGAAACCGTAAAGCTGACTGCGAGGTTGGCTTGGCTTTTGCTATTGTGGACAGCCACGTCATCATCACAGTGGGTCCTGCTCTCTTGCAACTCAAACTCCTTCTCTTCTTCACAGTCACACACTCTTTTTCTAGTCTTCTTTTGCAAATTACAAAAATCTCCTTTTTATTACGGTCACAATAATATTTATCATTACAATAACAAAATTTAATTTAATTCAGATATACCAAAATCACAGTTCATCAGATACCAATAAACTAAGGAGAGAGAAGCTTAAGGAGTTAGTATAGTAATTGGTAACTGCTAGCTCAGTATTATCAAAATATTTAAATTTGGGAAACTGTAATAAATATGATTAATATGTTTAATTTAAAAGAAAAATCATAATTTTTTGTTGAGCAAGGTGTTTATTGTGGTATTGTTGCAGAGGAGGACCCATTTCAGTTATGTATCTTTGAGCGGAGATTACTGAGTTCAGCCCAGGTGCTGTTCACTCTGTTCTTTCTGCCCCCACTCTCCTCACTTCACTTTTCATTTCCCAATTCCCAATCTATCTACCCTTCAAGTTTTCTTTTTTCCTTCTGTTTTTTTTTTAGCTATTTTCACTTACTTAATGTGATCTGGTACTTTTCCCCCTTTCTGTCTTTATTTATGGGTCTTCTGGGTTGCTCGGTTTCAAGGGGTGTTGGGTTGTAAAGTTGTGATCTTTAGGTTTTCCGGGGGAATTTTCCATCTGGGTTAGTGGGAGGGTAGGAGGAGGTGGTATTTGGAATTGATGATATCTGGGTTTGGTTGTCTAGGAACTAGTAGAGATGGGTTTGGGTGCTGAGAATGGTAAGGTGGTGGAGCCTTGGGATGTGTGCAAATCAAAAGGGAGGAAGAAGAAGAAAGGGAATGAAGAAGTGGAAGGGGCTGGGTCTGGTTGTTGGTTTAGGCTCAGGTTTATGGGCAGCTGCATTTCCTCAAGATCCAAAGTCGATACCTCAGTCAGTGGCAGCGGCACCAGTACTCATTATGGTAATCATTACTGTTTCCATACAAGAGTTGCTACTATTCTTGTTGTTCTTCTTATCATGTGCCTGGATGTTCCATCTATGTGAATGTGCTTGTCATATGATTTATTTTTTGTGCATAGGCTTCCCCATTTTTGTTTAGTGATTAGTTTGTATTGGGGTTTGGGAATTCTTTCTTTAGCACCTGATGCAGGCTTGTTTACCTATTTTGTTTGCTATTTGGTTGAAAGTTACCATGCTATGTAATGTGAAATGATACACAAACGAGTACGAGTGCTGTGGCTGCGGTTTGGGGGCGGGAGCAAAACAAGGTTGAAATTGAAATGTAATTGAGTTTTTTCAATTCATGTTAATCCAGAACTGCAGTGGCTTACACTCTTTATCCTATGAGATATGCAATGCATTTGTAAGCTTTATATGTAGAATGTTTCCTTTACCACACCTCCATGTGGTATTCCAGTTCACAATGAGAAGCCAGCGAAAGAGTTTAAATTTTAGACTGGCTAGGAAATAAGTGTCAGATTTGACTTTTGTGGTGGTAGGTAATTACTATCATATGAGCTTGAGATTAGATATAAGGAAAGAGGGTACTCCCATTTGCTCTTTGGGCAAAACTGAATTTCAAATATATGCTTTAAAGGTAGATTACTTGAGATTGTCTTTAATTCTGAGTATTCGTATCTACCATAAAATCTATAGTCCTTGATGCTATTTTTAGTTTTTTACTACTTGTCCTGATACGCCTTTCTATAAAATTCTCTTTCTGATGGCTTCTCATTAGCTGAAAGTAAATCAACTAATGATACTAGTAGAGACCAACCAACGGCTCCAGCAGTCTCTTCTACAACCACTAGTAATGCCGAAAGTAATTCATCCACTTCCAAACTTGAAGAGGAGCTTAAAATTGCTTCCAGGCTGCGAAAATTCCCTTTCAATGATCTTAAGTTAGCTACCAGAAATTTTCGGCCTGAAAGTTTTCTTGGTGAAGGTGGGTTTGGTTGTGTTTTCAAGGGGTGGATTGAAGAAAATGGAACTGCTCCAGTGAAACCTGGCACAGGGCTTACTGTTGCTGTAAAAACCCTCAACCATGATGGGCTCCAGGGTCATAAAGAGTGGCTGGTTTGTATATTTTCAAAACTTCTTATTTTCTTCTATTATTATCTACTAAATTCTACATTTCCAATGATCATTCTCGTTTGGATCACGTGACAGGCTGAAGTAAATTTTCTTGGCGACCTAGTTCATCCGAACCTTGTTAAACTTGTGGGTTACTGCATTGAAGATGATCAAAGGTTGCTGGTGTATGAGTTCATGCCTCGGGGTAGCCTAGAAAATCACTTGTTTAGGAGTAAGTTACCCTTTTCTATGCAATTCGTTTCCACTGTTTCTTCTATGATAATAATTGTTACATCACTACTGCACCTTGAAATTTTGATCACATAAAAAAGAACCCTGCTGGATTTCTCTCGTAAAGCATGGTTTCAGATCCACAGAAGTCAGGTTATAAGGTTATAAACTTTTGTTAATTTGGCATGGAGATCTAGACGTACAAGGGAAAAGGGGTTACATAATGTAGTACGTCTATTGTATTACTATTACTGTTGTGATCTGCCTATTTAGAATAATGCATGAATCTAATCTATACCATTATAATGATTCCATTAATAACTTTGTTTCTTTGAGTATCTCAGTTGTTATATAAGGGATTTAGTAGTTTTCTCTATCAGGGTTAGAACTGTAACTCAATATTGCGGTTATATATTTTATATTTGGATTATGTCTTTTCTTATTTATGTTCTCAAGTTGAAATTATGCCATATGTAGGATCCCTGCCTCTTCCATGGTCCATTAGAATGAAAATTGCCCTTGGAGCTGCTAAGGGTCTTGCTTTTCTTCATGAAGAAGCCGATCGACCAGTAATATATAGGGATTTTAAAACTTCAAATATACTATTAGATGCAGTAAGTGCCAAAAACTACATTATGATTACATGTGTTTCCCTTTTTGTTCATCTAACGTTTTGTACAAATTCAGGAGTACAACGCCAAGCTCTCGGACTTTGGTCTTGCCAAAGATGGCCCAGAAGGTGATAAAACCCATGTGTCTACTCGAGTGATGGGAACCTATGGCTATGCTGCACCAGAATATGTCATGACAGGTAACTTTTGGTTGATATAGCACTTCCAAATCTTAATGTTTTAGTTAATTATTTATCATTTTATCTATAAAGTCTTGAATGCTTAGGCGTTGATGCTATTTCTATCTGACTTCATTTTGTTAGGTATTTTTCATCTGCTAAGTTATTAGTTTTATTTATTGATGATCATTACTTTCAACAAAATTCTAAACAAAAATTGTAAACATAATTCCTTGTGGGACTGTTTTAATGTTTGGAATGTTTTAAGCTTTTATCTCTGATATTATTTGTTTTCCACTCTAGAAAAATTATGATTAAGATAGTAAATTAGTTGATCTGTCTATATTCTCCCTGTCCGATGATCAATTGTATTGATGGGTTTGATATCTTCAGTTGTGTTTTCTTAATGTTTATGACTTACAAAATTGGAGTTTAAGTTTCAGTTATGTTTTTTCCAAATGCATTTAAACACAATCCATCCAATATCTAATTGGTTGAATTCTAATAACATTCACTTGTGTTGCAGGTCATCTTACATCAAAAAGTGATGTGTACAGTTTTGGAGTGGTACTACTGGAGATGTTGACTGGGAGAAGATCCATGGACAAACACAGACCCAATGGTGAACATAACCTTGTGGAATGGGCTCGGCCGCATCTGGGAGAGAGGAGAAGGTTCTACAAGTTGATAGACCCTCGTTTGGAAGGGCACTTTTCGGTGAAAGGTGCTCAGAAAGCTGCCCAACTAGCTGCTCATTGCCTTTGTAGAGATCCAAAAGCCAGGCCTCTGATGAGTGAAGTTGTAGAAGCTTTGAAACCTTTGCCAAACCTCAAGGACATGGCAAGCTCTTCATATTATTACCAGACGATGCAAGCCGACCGCATTGGAGCGAGCCCCAACACAAGAAACGGTCGAACACAAGGAGCATTGCTCAGCCGCAACGGACAGCAGCAAAGGAGTCTTTCTATACCAAATGGTACCTATGCATCTCCTTATCACCATCAGTTTCCTCAACCATCTCCAAAGACCAATGGCAAAGCGTAGAGCTGGTGAAAATTCTCTTTTTCCCTTTCACCTTTTATGTCATTTCTTAGTTTTTCCGTGTAGATGTACCTTGTGTCAAAGCATCATCCGTTCATGGAGATCTTGAAAGCAAAAGAAGCATGTTTCTTTATGATATTATGTTATGGCTTTCGCTTGAAAGAATATTTGGGTGGGAGCAAGTGAAGCTTATCGAGTTACTGTCTCTTCTGTCAAATTGTTATTCAATATTTTCATCAGGGTGTTTGAAAATATTGAACATTATGAAATCATCATCCTTATTTTATTTTCTTTTCACATTTCTCACCGGAAATTGTTATCTCTTAGGCTTTGCTTGTGATATCAAACCCTGCACCTCTTTAAACTAATCACTGTCTTTTTGTTTATAAAAAGATGAGAAAGAAGCTTTATTGCTTAATTTTTAGC