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_02126	LG1	26397609	26414494	hypothetical protein	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	protein phosphorylation, protein phosphorylation, protein phosphorylation
Cellular Component	is active in	cellular_component
Molecular Function	enables	molecular_function

SNP	Position	Effect	Amino acid change
C/T	26397609	5_prime_UTR_variant
A/T	26397653	5_prime_UTR_variant
C/G	26397661	5_prime_UTR_premature_start_codon_gain_variant
A/C	26397663	5_prime_UTR_variant
T/C	26397671	5_prime_UTR_variant
C/T	26397777	missense_variant	p.Leu33Phe
T/A	26397866	intron_variant
T/C	26398279	intron_variant
A/T	26398360	missense_variant	p.Tyr61Phe
A/G	26398398	missense_variant	p.Thr74Ala
A/G	26398407	missense_variant	p.Ile77Val
A/T	26398491	missense_variant	p.Thr105Ser
A/T	26398497	missense_variant	p.Thr107Ser
C/T	26398506	stop_gained	p.Gln110*
T/C	26398541	synonymous_variant	p.Tyr121Tyr
T/G	26398612	missense_variant	p.Leu145Trp
G/A	26398633	missense_variant	p.Gly152Glu
A/G	26398636	missense_variant	p.Asp153Gly
C/A	26398673	synonymous_variant	p.Ser165Ser
T/A	26398722	missense_variant	p.Phe182Ile
A/G	26398725	missense_variant	p.Ile183Val
T/A	26398824	missense_variant	p.Ser216Thr
T/A	26398892	intron_variant
C/G	26398914	intron_variant
G/T	26398989	intron_variant
T/A	26399107	intron_variant
A/T	26399117	intron_variant
T/A	26399120	intron_variant
A/T	26399121	intron_variant
A/T	26399126	intron_variant
C/T	26399251	intron_variant
G/C	26399257	intron_variant
A/T	26399289	intron_variant
C/G	26399308	intron_variant
G/A,T	26399322	intron_variant
A/C	26399325	intron_variant
T/G	26399336	intron_variant
C/A	26399433	intron_variant
A/T	26399437	intron_variant
A/G	26399503	intron_variant
T/C	26399540	intron_variant
C/T	26399640	intron_variant
T/C	26399641	intron_variant
T/C	26399750	intron_variant
C/T	26399751	intron_variant
T/G	26399777	intron_variant
C/T	26399828	intron_variant
C/A	26399865	intron_variant
T/G	26400002	intron_variant
G/C	26400011	intron_variant
C/G	26400026	intron_variant
A/C	26400068	intron_variant
A/T	26400099	intron_variant
A/G	26400103	intron_variant
A/G	26400120	intron_variant
A/T	26400121	intron_variant
A/T	26400162	intron_variant
A/G	26400163	intron_variant
C/T	26400191	intron_variant
T/C	26400208	intron_variant
G/A	26400210	intron_variant
A/T	26400215	intron_variant
A/T	26400219	intron_variant
G/A	26400228	intron_variant
A/G	26400229	intron_variant
G/A	26400258	intron_variant
T/C	26400259	intron_variant
C/T	26400272	intron_variant
C/T	26400311	intron_variant
G/T	26400339	intron_variant
C/T	26400341	intron_variant
G/A	26400346	intron_variant
G/T	26400409	intron_variant
A/C	26400435	intron_variant
C/T	26400444	intron_variant
T/C	26400447	intron_variant
T/A	26400456	intron_variant
T/G	26400461	intron_variant
A/T	26400495	intron_variant
T/C	26400499	intron_variant
T/C	26400505	intron_variant
C/G	26400585	intron_variant
T/C	26400825	splice_region_variant&intron_variant
A/G	26400917	missense_variant	p.Asp252Gly
C/T	26401016	missense_variant	p.Thr285Met
C/A	26401018	missense_variant	p.Leu286Ile
T/A	26401019	missense_variant	p.Leu286His
T/C	26401125	synonymous_variant	p.Val321Val
G/A	26401146	synonymous_variant	p.Ser328Ser
C/A	26401842	intron_variant
T/G	26401847	intron_variant
G/A	26402236	intron_variant
A/G	26402246	intron_variant
G/A	26402337	intron_variant
T/C	26402460	intron_variant
G/T	26402466	intron_variant
C/A	26402648	intron_variant
T/C	26402703	intron_variant
G/T	26402708	intron_variant
T/C	26402959	intron_variant
A/T	26402991	intron_variant
G/A	26403192	intron_variant
A/G	26403325	intron_variant
G/A	26403329	intron_variant
A/G	26403345	intron_variant
C/T	26403347	intron_variant
C/T	26403348	intron_variant
A/C	26403350	intron_variant
A/G	26403354	intron_variant
C/T	26403358	intron_variant
C/G	26403363	intron_variant
A/G	26403397	intron_variant
C/T	26403418	intron_variant
C/T	26403428	intron_variant
A/G	26403430	intron_variant
G/A	26403443	intron_variant
A/G	26403451	intron_variant
A/T	26403485	intron_variant
G/A	26403489	intron_variant
A/C	26403490	intron_variant
G/T	26403495	intron_variant
T/G	26403510	intron_variant
A/G	26403519	intron_variant
T/A	26403521	intron_variant
G/A	26403639	intron_variant
T/A	26403728	intron_variant
C/A	26403729	intron_variant
C/A	26403754	intron_variant
A/G	26403755	intron_variant
T/C	26403779	intron_variant
G/T,A	26403781	intron_variant
G/A	26403801	intron_variant
T/A,C	26403805	intron_variant
G/A	26403811	intron_variant
T/A	26403812	intron_variant
T/C	26403814	intron_variant
T/C	26403822	intron_variant
A/T	26403832	intron_variant
A/T	26403839	intron_variant
T/C	26403845	intron_variant
C/G	26403852	intron_variant
T/A	26403853	intron_variant
A/G	26403860	intron_variant
C/T	26403864	intron_variant
C/T	26403870	intron_variant
A/T	26403875	intron_variant
C/A	26404004	intron_variant
C/T	26404073	intron_variant
T/G	26404235	intron_variant
G/T	26404236	intron_variant
A/T	26404241	intron_variant
G/T	26404349	intron_variant
G/A	26404360	intron_variant
A/G,*	26404457	intron_variant
G/A	26404460	intron_variant
G/A	26404468	intron_variant
T/G	26404473	intron_variant
C/A	26404489	intron_variant
C/T	26404503	intron_variant
C/T,*	26404505	intron_variant
T/G	26404516	intron_variant
A/G	26404519	intron_variant
G/A	26404524	intron_variant
G/C	26404530	intron_variant
G/A	26404542	intron_variant
G/T	26404545	intron_variant
A/G,*	26404548	intron_variant
T/*,C	26404549	intron_variant
G/A	26404580	intron_variant
A/T	26404588	intron_variant
G/A	26404589	intron_variant
T/C	26404596	intron_variant
A/G	26404608	intron_variant
G/C	26404617	intron_variant
A/G	26404621	intron_variant
T/A	26404625	intron_variant
G/T	26404779	intron_variant
G/T	26404800	intron_variant
G/T	26404941	intron_variant
A/T	26404977	intron_variant
T/C	26405052	intron_variant
T/G	26405068	intron_variant
A/T	26405133	intron_variant
G/A	26405231	intron_variant
A/C	26405233	intron_variant
C/T	26405242	intron_variant
C/A	26405324	intron_variant
G/A	26405500	intron_variant
C/T	26405536	intron_variant
T/A	26405890	intron_variant
C/A	26405898	intron_variant
G/C	26405903	intron_variant
C/T	26406247	intron_variant
T/A	26406331	missense_variant	p.Val464Asp
A/C	26406397	intron_variant
A/T	26406439	intron_variant
A/T	26406474	missense_variant	p.Thr485Ser
T/A	26406480	missense_variant	p.Ser487Thr
A/T	26406482	synonymous_variant	p.Ser487Ser
T/A	26406484	missense_variant	p.Val488Asp
T/A	26406485	synonymous_variant	p.Val488Val
A/T	26406490	missense_variant	p.Glu490Val
T/C	26406494	synonymous_variant	p.Ser491Ser
G/T	26406675	intron_variant
A/G	26406687	intron_variant
G/A	26406714	intron_variant
C/A	26406799	intron_variant
G/C	26406878	missense_variant	p.Cys517Ser
T/C	26407058	intron_variant
A/T	26407076	intron_variant
C/T	26407078	intron_variant
G/C	26407093	intron_variant
T/A	26407099	intron_variant
T/A	26407101	intron_variant
G/T	26407108	intron_variant
A/G	26407114	intron_variant
A/G	26407269	intron_variant
A/T	26407281	intron_variant
A/T	26407369	intron_variant
T/C	26407371	intron_variant
T/A	26407392	intron_variant
C/T	26407488	intron_variant
A/T	26407695	missense_variant	p.Ile584Phe
G/A	26407770	missense_variant	p.Glu609Lys
T/C	26407917	intron_variant
G/C	26408263	intron_variant
G/A	26408625	intron_variant
C/A	26408679	intron_variant
G/C	26408733	intron_variant
T/G	26408798	intron_variant
A/G	26408864	intron_variant
A/G	26408872	intron_variant
C/G	26408902	intron_variant
A/G	26408924	intron_variant
G/A	26408992	intron_variant
A/G	26408994	intron_variant
C/T	26409007	intron_variant
T/C	26409068	intron_variant
G/A	26409073	intron_variant
C/T	26409096	intron_variant
A/G	26409097	intron_variant
C/A	26409128	intron_variant
C/T	26409156	intron_variant
A/G	26409164	intron_variant
G/C	26409201	intron_variant
C/A	26409223	intron_variant
G/A	26409276	intron_variant
G/A	26409289	intron_variant
A/G	26409311	intron_variant
A/G	26409515	intron_variant
T/C	26409551	intron_variant
T/C	26409567	intron_variant
C/T	26409574	intron_variant
G/T	26409599	intron_variant
A/G	26409606	intron_variant
A/G	26409636	intron_variant
G/A	26409685	intron_variant
T/C	26409706	intron_variant
C/T	26409732	intron_variant
G/A	26409779	intron_variant
T/C	26409780	intron_variant
T/C	26409792	intron_variant
T/C	26409854	intron_variant
A/T	26409857	intron_variant
A/G	26409878	intron_variant
G/C	26409900	intron_variant
G/T	26409903	intron_variant
T/C	26409924	intron_variant
T/C	26409983	intron_variant
A/G	26410045	intron_variant
C/T	26410058	intron_variant
C/T	26410082	intron_variant
T/C	26410137	intron_variant
G/A	26410168	intron_variant
G/A	26410189	intron_variant
C/A	26410218	intron_variant
C/T	26410229	intron_variant
G/A	26410281	intron_variant
A/G	26410410	intron_variant
G/A	26410454	intron_variant
T/G	26410455	intron_variant
G/A	26410473	intron_variant
C/T	26410538	intron_variant
G/A	26410580	intron_variant
G/A	26410588	intron_variant
A/G	26410623	intron_variant
C/A	26410644	intron_variant
T/C	26410720	intron_variant
A/G	26410727	intron_variant
T/G	26410779	intron_variant
T/G	26410826	intron_variant
C/G	26410841	intron_variant
T/C	26410849	intron_variant
G/T	26410874	intron_variant
C/A	26410923	intron_variant
T/C	26410927	intron_variant
A/G	26410933	intron_variant
G/T	26410938	intron_variant
C/T,A	26411002	intron_variant
C/G	26411079	intron_variant
G/A	26411176	intron_variant
G/A	26411188	intron_variant
G/A	26411260	intron_variant
A/G	26411312	intron_variant
G/A	26411343	intron_variant
A/G	26411367	intron_variant
T/G,*	26411397	intron_variant
A/T	26411414	intron_variant
A/C	26411428	intron_variant
C/T	26411430	intron_variant
C/T	26411443	intron_variant
G/T	26411451	intron_variant
C/T	26411457	intron_variant
T/C	26411458	intron_variant
C/T	26411467	intron_variant
G/A	26411480	intron_variant
G/A	26411488	intron_variant
T/A	26411490	intron_variant
G/A	26411494	intron_variant
G/A	26411500	intron_variant
G/A	26411503	intron_variant
C/A	26411509	intron_variant
G/A	26411520	intron_variant
C/T	26411524	intron_variant
C/T	26411527	intron_variant
A/T	26411528	intron_variant
G/A	26411529	intron_variant
G/A	26411531	intron_variant
T/C	26411536	intron_variant
C/T	26411538	intron_variant
G/A	26411540	intron_variant
G/A	26411564	intron_variant
T/C	26411567	intron_variant
C/T	26411569	intron_variant
C/T	26411570	intron_variant
G/A	26411579	intron_variant
C/T	26411580	intron_variant
G/T	26411582	intron_variant
C/T	26411598	intron_variant
C/T	26411599	intron_variant
A/G	26411754	intron_variant
C/G	26411760	intron_variant
C/A	26411821	intron_variant
G/A	26411872	intron_variant
A/G	26411996	intron_variant
A/C	26412011	intron_variant
C/T	26412182	intron_variant
C/T	26412355	intron_variant
T/A	26412461	intron_variant
A/T	26412484	intron_variant
T/G	26412506	intron_variant
A/G	26412508	intron_variant
C/T	26412863	intron_variant
C/A	26412868	intron_variant
A/T	26412908	intron_variant
G/A	26412937	intron_variant
G/A	26412943	intron_variant
A/G	26413049	intron_variant
T/C	26413054	intron_variant
C/T,*	26413059	intron_variant
G/T	26413066	intron_variant
T/C	26413081	intron_variant
G/C	26413102	intron_variant
G/C	26413108	intron_variant
T/A	26413166	intron_variant
A/G	26413173	intron_variant
C/T	26413180	intron_variant
A/G	26413189	intron_variant
A/T	26413204	intron_variant
A/G	26413210	intron_variant
T/A	26413227	intron_variant
C/T	26413228	intron_variant
G/A	26413320	intron_variant
C/A	26413406	intron_variant
C/A	26413454	intron_variant
T/C	26413529	intron_variant
T/C	26413595	intron_variant
G/C	26413597	intron_variant
T/A	26413632	intron_variant
A/G	26413640	intron_variant
C/T	26413673	intron_variant
A/G	26413679	intron_variant
G/A	26413709	intron_variant
C/T	26413712	intron_variant
T/C	26413740	intron_variant
T/G	26413749	intron_variant
C/T	26414029	synonymous_variant	p.Asn803Asn
G/C	26414035	synonymous_variant	p.Leu805Leu
C/T	26414050	synonymous_variant	p.Ile810Ile
G/C	26414067	missense_variant	p.Arg816Pro
G/A	26414071	synonymous_variant	p.Arg817Arg
T/C	26414089	synonymous_variant	p.Asn823Asn
A/G	26414280	stop_retained_variant	p.Ter887Ter
G/A	26414351	3_prime_UTR_variant
T/A	26414370	3_prime_UTR_variant
A/T	26414448	3_prime_UTR_variant
T/A	26414470	3_prime_UTR_variant

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_02126.1

MDRELQWILVLAICASSLINILAENSQLTYWNLANLDYSGVISIDCGVDEGYTDKTTNLQYEADDIQFGEINNTSSIYNMGHISQIHKQLNTLRSFPYGKRNCYTLTPKQGKNKKYIIRAYFAYGNYDNENKPPVFDLHLGVNFLKTINSSGDVVIRIEAVHFASTERIDLCLVNIDQGVPFISLLELWPLDNSIYQSSSTLLTLDLLTRLNLGASEDNFIRYTDDIYGRSWEVPNNYNKRPLKTSSAIDLDKFDDPYKLPAEVLSSAVEARDSNSLEFTLNYGTLSEYYVYLHFFDFEDRTNKQKRRLNIVINGFEDNNVTEFHTLSYWKPYTIILPIKQGMGIRKILIEANSDSDELPAMLNALEIYRVLPQSDSSTQEQDVYAIRHIKHVYMINNINWQGDPCGPKNFTWEGVKCSNGDTPRIISLNLSSSKLSGEIDASFSNLTCLVTLDLSDNELSGEVPEFFAKLPQLHFLNLSRNRLTGSVPESLKAKSSNNSLQLSFDGNLRPYRTGSCKSNHKKFIIPLVASITACVAVVLTISTIVMVIWRLRKKGKVISSISVKDEPLKSANQVFSYSDIRRITNNFTTMIGKGGFGKVYLGTLECGERVAVKILSSPSAQGYKEFQSEAKLLMHVHHRNVVSLVGYCDESDTKALIYEYLSEGNLQQKLSDKNPIFLEWTQRLKIAMDAANGLDYLHNGCKPPVIHRDLKTSNILLDENMHAKISDFGVSKTFANDNDTYVTTYPAGTPGYLDPEFYCSGTLNKKSDVYSFGIILLELITGQPALTGTSENLSYILPWVNNKLRTGNIQEIVDRRLHGKYNGASAWKFVGIAMSCLPQVPIHRPDIGHIALELKDCLSLELSLERTVSNVRESLAMSSRQIEFH*

CDS Sequence:
>Vu_02126.1

ATGGACAGAGAATTGCAATGGATCCTAGTCTTAGCAATTTGTGCTTCATCACTCATTAATATACTTGCTGAGAACTCTCAACTAACTTACTGGAACCTTGCCAATCTTGATTATTCAGGTGTTATAAGCATTGATTGTGGGGTAGACGAGGGCTACACTGACAAAACAACCAACTTACAGTACGAAGCAGATGATATCCAATTTGGTGAAATCAATAATACATCCTCAATTTACAACATGGGACATATAAGTCAAATTCATAAGCAGTTGAACACATTGAGAAGTTTCCCTTATGGGAAGAGAAATTGCTATACCTTAACACCCAAACAGGGAAAGAATAAGAAATACATAATCAGGGCATATTTTGCATATGGCAACTATGACAACGAAAATAAGCCACCAGTTTTTGATTTGCATCTTGGAGTCAATTTCTTGAAGACAATAAACTCTTCTGGGGATGTGGTAATTCGAATCGAAGCTGTTCATTTTGCCTCCACAGAAAGAATCGATTTATGCCTTGTGAACATCGATCAAGGGGTGCCCTTCATCTCATTGTTGGAGCTATGGCCTTTGGACAATTCCATTTATCAAAGTTCCTCCACTTTGTTAACACTAGATCTTCTCACTCGACTAAACCTTGGTGCCTCTGAAGATAACTTCATCAGGTACACAGATGATATATACGGAAGGTCATGGGAAGTTCCAAACAATTATAACAAGCGTCCGTTGAAAACCTCATCAGCTATTGATTTGGATAAATTTGATGATCCTTACAAACTGCCAGCAGAAGTTCTGAGTTCTGCAGTGGAGGCAAGAGATTCCAATTCCTTGGAATTCACACTCAATTATGGCACGCTTTCTGAATATTACGTTTATCTTCATTTTTTTGACTTTGAGGATCGGACCAATAAACAAAAACGAAGGTTGAATATTGTTATTAATGGTTTTGAAGATAACAATGTTACAGAATTTCATACTCTTTCGTACTGGAAGCCCTATACCATAATTCTACCTATAAAACAAGGGATGGGTATTCGGAAGATATTGATCGAAGCCAACTCTGATTCTGATGAGTTACCAGCAATGCTTAATGCTCTTGAGATTTACAGAGTACTACCTCAGTCAGATTCTTCCACACAAGAACAAGATGTTTATGCTATCCGGCACATCAAACATGTTTATATGATCAATAACATTAATTGGCAAGGAGACCCTTGTGGACCAAAGAATTTTACATGGGAAGGTGTGAAATGCAGCAATGGAGACACTCCAAGAATCATTTCATTAAACTTGAGCTCGAGCAAGTTGTCAGGAGAAATAGATGCCTCATTCTCCAACCTCACATGTTTGGTGACTTTGGATTTGTCAGACAATGAATTGTCAGGGGAGGTTCCAGAATTTTTTGCAAAACTGCCACAATTGCATTTCCTTAACTTGTCCAGGAATAGGCTCACAGGTTCAGTTCCTGAGAGTCTAAAGGCAAAGTCATCTAACAACTCTTTACAATTGAGTTTTGATGGAAATCTCCGTCCTTATCGGACAGGGTCATGCAAGAGCAACCACAAGAAGTTTATTATTCCATTAGTGGCATCTATAACAGCATGTGTTGCAGTGGTCCTCACAATATCTACCATAGTTATGGTGATCTGGAGACTTAGAAAAAAGGGAAAAGTGATTTCTTCAATTTCTGTGAAAGATGAGCCACTGAAATCAGCAAATCAAGTATTTTCTTACTCAGACATTCGTAGAATCACTAATAATTTCACAACAATGATTGGGAAAGGTGGATTTGGTAAGGTATACCTAGGTACTTTAGAGTGTGGCGAAAGAGTTGCTGTGAAGATACTTTCTTCACCATCAGCACAAGGGTATAAGGAATTTCAATCAGAGGCAAAACTGTTGATGCATGTTCATCACAGAAACGTGGTTTCTCTTGTGGGATACTGTGATGAAAGTGATACTAAAGCACTTATTTATGAATATCTTTCAGAAGGGAACCTCCAACAAAAATTATCAGATAAGAACCCCATTTTTTTGGAATGGACGCAAAGACTTAAAATTGCTATGGATGCAGCAAATGGGTTGGACTATTTGCATAATGGATGTAAGCCACCCGTAATTCACAGAGATTTGAAAACATCCAACATCTTACTAGATGAAAATATGCATGCCAAAATTTCAGACTTTGGGGTGTCTAAAACTTTTGCCAATGATAATGACACTTATGTCACAACTTACCCTGCAGGCACACCAGGTTACCTTGATCCTGAATTTTATTGCTCTGGGACACTCAACAAAAAGAGTGATGTTTATAGTTTTGGGATAATCCTACTAGAGTTAATCACTGGTCAACCAGCACTAACAGGAACTTCAGAGAATCTCAGTTACATACTTCCTTGGGTTAACAACAAACTGAGAACAGGAAATATCCAAGAAATTGTTGATCGAAGGTTACATGGGAAATACAATGGTGCTTCAGCATGGAAATTTGTAGGGATAGCCATGTCATGTCTCCCTCAAGTTCCAATTCACAGGCCTGACATAGGGCACATAGCCTTAGAATTAAAGGACTGTTTGTCTCTTGAATTATCACTTGAAAGGACTGTGAGCAACGTGAGAGAGTCATTGGCCATGAGTTCTAGGCAAATTGAATTCCATTAA

Promoter Sequence:
>Vu_02126::LG1:26395609-26397609(+)

AAGTCAAGTTTTTATATGACTTTTTCTTTCTTTCCTGTCCACTATATGTCAATAATGAATTATCACTGTCTTTGTCTCTAGTTTCTTTAAAGCTATATCCGTTTATTTTATTAAAGATATGGACATTCTAATCTTTTTATATTGTTTTAATTTTCTACTTTACAGAAGCAGTTTTCTTCTTCTATATTTTTGTTAGACATTATTTAACGATTTGAAAGTCATATTCTATAAGTAGATGGGTAGCTCTACTCTTCATACAAGTTACTTAATTTTAATAAGAAAAAAAAGTCTCTTTAACAATTTTTTTTATAAAACATACGTGATAGTTTATGATTGATATGTTTCAAATAAACCAATCAATAAAATAATGATACATAATATATTGTTAAAAATAATTATTAAAATATCATGATCGTTTAATAAACATGCCATTTAACGTTTTTACCAGTAACAGATTATACGATATTGTTTAAACACTTTATGCAATAAAAAGTATATCTTACATTCAGAATTATTTAATGGATCGTTTGTGTAAAATATATAAAGAACTCAATAAGCATCTATACATTACAAATTATATTTATATGTCCTGAAGGTATTCAAATCGAGAGGGTTCGAATACTAAGATAAATAGATTAAAAAAAAATAAGAAATCAAAGAGAAAAATATAGAGAAATGATTATACATAATATTGAGACAATCATGGAATAATTGGACATTTCAAGGTTATCGAAAAAGACAAAATCAAAAGTTGCATGAAGGTCACAGGGAATACTAAGAAAGACCAACTGCTGCAAATATGTATATATCTAGTAGTCACTGATGCAATGTGAACGATTTTTAGATGATTATTTCGTTATGTAATTTTTCTTTATTTTATTTTGACTTAACTATCAAAAAATATGAAAAAATAAAAATAAATTATTTATATTAAAAAAGTGTGACAAATTATATTTACAACACAAACATTATAAAAACATTAAAACATGACAATAACAAATCAAATGGTGACGGTAGAAATTTGGATCCATAAATATTTTTTACTAGTTTATGTTTTATTTTTAGTAATTTATTTTCTTGCATTTACATTCTTTATAAATTGTATTCTAAGGTTTCTCAAACACCTTTACTTCAATCCATCTCTTTAATAGATTTTCATCTTACCTATTTTTATTCACATCATTCAATTTTCATTAACATCTTTCCGTCCAAAAAAAATCAATTAATGAAAAAAAACCGATAAATTCTTAGTTGATATTCAAATAAAGAAACAGATTAGTAAAATATATTTGTGAAATAAATTCACAATATAAATGATTTACTTATCAATTTTATATTTGTTTGTTAGTCTTTATTACAAAAATCAACACCAAATTGATTTGACTCACGAAATACATATTAAACACGTATTAACCTTAATTTTCGAGAAACAATTCCAAATAAAAAATAACATTATATGAATAAAACTAATAAATAATAAATCACACGGATTTAAGAATCAAGCCTACAGAAAAGATGTTTTTTTAAGAGTAAAGAAGAAAGCTCCTCATACGCTATATATTATTAATGAAAGTTTCAAATAGTATGGTAGTGTCGATATTGAAAGTTTCCAACCGAAGAGTGAGTCAAATTCTCATAAACAAATGGCTACCACAATTTTTATTTTGAAAAGACATATCCATAGAGGAAGAGAAAAAAATATTTATAAAATTGCTCTTATAATGTTGTCTCATAAAATACAGATACTTAAAACCTGTGTGTAAATTCTAATTCATAAAAATAATTATATTAAATATTAGGAAATACACAAAAAAAAAATACAGCTCACAAGAAGATGAGTATACTTAATAACTTAATAAATTAATATGGCCTACCATCTCTTTCGGGGAAGTTATTTAGTTTCCCTACCTACTACCTCTTTAATTAGCCATCATTTCTAAAAAAAAAAAAAAAGATAAAATATTTAGTATTTATAGTTTATAGCTTTCGAGTACTCTTCC

Gene Sequence:

>Vu_02126(+)

CTTCCAAAGAGTCTGGTTTTTCTACACAAAAGGGTACATTTATCAACTTATTCTATCTTTTTTATTAGCAGCATGGACAGAGAATTGCAATGGATCCTAGTCTTAGCAATTTGTGCTTCATCACTCATTAATATACTTGCTGAGAACTCTCAACTAACTTACTGGAACCTTGCCAATCTTGATTATTCAGGTATGAATCTACACCAAGCTTCTTCACCTTTCTATAATTTTGTAATTCAAGCTTTTAAGAATCTAGCTTAGGTTTAAATCAATATATAAATCAAATCAAAATAACTTACTCCTAAATTTAAGTTTATCAACCAAGCTTTCATTATTTTAATGCATTTATTCCAACATAATCTATGTTACGTTATCGCCCTTAATTTATAACACAACTTCATAAAATTTCGATCAAAACCTAAGTTGTAAGTTTGCATGTGTAATCATTAAAAAAAATCATATCATTTTCTTATCTAGAATTTAAGTATGAGTTAAGTCTCATACTACTACTATAAATGAAAAGTTAAGCAAATATAAAGAATTATTTTTTATAAATCCATTATTTTAAGATGAAATGATGTAAGTTTATCTTATGTAAGTTGAATCCATGTTTTATTGGTACTGAGTCTTTTTATAATAACATGGTTTTACTCTGAACATTTTTGTTTAATGTATTTACATTTTGTAGGTGTTATAAGCATTGATTGTGGGGTAGACGAGGGCTACACTGACAAAACAACCAACTTACAGTACGAAGCAGATGATATCCAATTTGGTGAAATCAATAATACATCCTCAATTTACAACATGGGACATATAAGTCAAATTCATAAGCAGTTGAACACATTGAGAAGTTTCCCTTATGGGAAGAGAAATTGCTATACCTTAACACCCAAACAGGGAAAGAATAAGAAATACATAATCAGGGCATATTTTGCATATGGCAACTATGACAACGAAAATAAGCCACCAGTTTTTGATTTGCATCTTGGAGTCAATTTCTTGAAGACAATAAACTCTTCTGGGGATGTGGTAATTCGAATCGAAGCTGTTCATTTTGCCTCCACAGAAAGAATCGATTTATGCCTTGTGAACATCGATCAAGGGGTGCCCTTCATCTCATTGTTGGAGCTATGGCCTTTGGACAATTCCATTTATCAAAGTTCCTCCACTTTGTTAACACTAGATCTTCTCACTCGACTAAACCTTGGTGCCTCTGAAGATAACTTCATCAGGTGACTTTCATATATCAAACTATGCATGTTTTGCTTACTTTGATATCTTTTCTAGCTGGCTAGTCAGTTCCAGAAATTAATTATATGATAGGTGATGGTAAGTGCGTTTTCTACTTGTTTGAATAAGTCTTTCCATAAATAAATTGTTTCTAAAGGAAATAATGAAATTACCAAATTAATTATATGGTGATGGTAAACGTGTTTTCTACTTGTTTGAACAAGTCTTCACATAAATTGTTTTTCAAAATATGAAATTAATCTTTTATTAAACTAAAATAAACTAAGGTTTAAATAATAGGAGTAAATAGTTACTTAAGTACAATAAGATCGATATAGTTTTGTTTTTTTACAATAAAAATGATATTAGTACAATAATTTTAATCATGTTAATTTTATTTAAGTTCGATCGATCGGAGATACGATTAAGCACGTGACTATTTTTAGTAATTAGTGTATGTTTTTATCAAAAACGAAATATGTAAATATTTGTTTTACTGATTTGTAAATACATTGAATTCAAGTGAAAAATCACCACGTGATCTTCTTAATAATTATATTTAATACTTTTCTTCATCAAATTTATTATTTTCTAAAATTTCTAAATATTAAATGTTATGACTGTGTTTATCATATGCGTGGACTCGTAATAAGTCTTCCAGAGAAAAAGACAGAACAAATTATAGTAAATGCAAACTGTTCACAGGGTTAATTCGAGAAAACCATTTACCACAATATTGAAAATTTCATGGAAAGGCAATATAATTTTATGAAATTAAACAAAAAAAGGAAATATAATCTTTTATTAAACTAAAATCAACGTAGGCCCAAAATAATAGGAGTAAATAGTTAGTTAATTACAGTAAGTACTTACATATTTTGTTTTTCGTCCACATAAAACTAATTTTATCATAATAATTTTAATTATATTAGTTTTGTATGAATTCGATTGATTGTTAATATGATTAGTACGTGTTTAATTTTTAGCATTTAATATGTTTTTTTAGTAAGAAGTAAAATATGTCAATAATTATTGTACTGAATCGATTATCTAATTAATAATTAAAATTTATACAATAAAGTTTTTATAAATTAATTTACATGTCAACTAATTTTAACCTTTAATTTAAATTTTATCTCTTGAAAAAAACCTAACTAATTTAGTTCATCGAAACATAGATTATTCATAATAATATATTAGCATTGAAATGATAATTAGGCTTTGATAACATGCTTTGAACTTATTTTCTCCTTTAACACAAATTACCTAATTACGAAAAATAAGCAACAAAAAACAATTTAACACAAATTCTAATGAATTAAAATTAAGACAAATTTATAATATATAACCAGATATAAATTTTATCTAGTTAAATTTATAGAATTGGATTAAATTTAAAAATCACTTTTTAATATAGTATTGAAGTTACGCAATAAAATTTATTTTAACCAAATTTATTAGGTGTTCTACTTATTATTAAATTATTATCTATTAATAGGCTTAAGATATATATATTAACAAAAGAAGAATTTAATTATTTTAATGTTTGTTATGGTACGAAAAGAGCGATATATACATTGAATCTAAGTGAACACTTGATCTCCTTAATAACCTTTTTTTAATGCAAATTTATTATTTTCTAAAGTTTCTAGAAATGTTATCATAATGTTTATCATATGCGTAGACTTATAATAAGGCTTACTGAAAAAAGGATAAAAGGGCAGAGCAATAAATGGAATTACTCACAGTTTAACTTAATGAGTTAATTAGAGAAAACAATTTAACATGATAATTAAAATTTCGTGGAAAGCAAATATAATTTTGTGAAATTAAGCAAAGAAAGCTAGCATTATCTACCTCGTACTCAAATGAAATTATACCACTGTTTTAGTTTCAATTGCAACATACTTTGGTTTCACTGCAGGGAGACAGTATCATTATGTGAAAACTAATCACTGTTGGTTGGATAATTTGTGTTTAAGTTAGGTACACAGATGATATATACGGAAGGTCATGGGAAGTTCCAAACAATTATAACAAGCGTCCGTTGAAAACCTCATCAGCTATTGATTTGGATAAATTTGATGATCCTTACAAACTGCCAGCAGAAGTTCTGAGTTCTGCAGTGGAGGCAAGAGATTCCAATTCCTTGGAATTCACACTCAATTATGGCACGCTTTCTGAATATTACGTTTATCTTCATTTTTTTGACTTTGAGGATCGGACCAATAAACAAAAACGAAGGTTGAATATTGTTATTAATGGTTTTGAAGATAACAATGTTACAGAATTTCATACTCTTTCGTACTGGAAGCCCTATACCATAATTCTACCTATAAAACAAGGGATGGGTATTCGGAAGATATTGATCGAAGCCAACTCTGATTCTGATGAGTTACCAGCAATGCTTAATGCTCTTGAGATTTACAGAGTACTACCTCAGTCAGATTCTTCCACACAAGAACAAGATGGTAGGTTTCTTTAATCTTTCTTCATTTGTTACCTTTTACTTCCTTGCCCATAAGTCACATAATTTGAATCAATTTGGATGCTATTCTGCTCAAATTCCTCTATTCTCTATCATTTTTTTTATTAAATTTCTCATTTATTATGTGCTGACCTATTGAAAATTTGTTTACTTCTAAAGTTCATAATCACAATCTTTAGCTGATATTCTTGTTAATACTGCACATTTACAACAGTTTATGCTATCCGGCACATCAAACATGTTTATATGATCAATAACATTAATTGGCAAGGAGACCCTTGTGGACCAAAGAATTTTACATGGGAAGGTGTGAAATGCAGCAATGGAGACACTCCAAGAATCATTTCATTGTAAGTATCTTGTGGAAATTTCTCATAATATCCAAGGTTGCTATGTTGAAATTTTATGTGTTGAGTAATATGTTATGTAATGGATTCGATTGGACTTAAATCATATAAAAACAAATTTATCCCTTATGTGATGGATTGGATTGGACTTAAATGATATAAAAACAATTTTTTTTATTGAGTAAACTTAAACGACGAGTCCAATTTAGAAGATAACAAATGCTAAATCTTTAAAAGAAGTGTGAGATATATAGGAAAAGACCTATAAAGGGGATAATCATGTTAATCATTCAGACTTCAAACTCTCATTGGTGACTTGAAATCATGAGGATGAAAGAGGCCAAAGGAGTTGTTTTGTTGAGTATGTCTTTTGTGTTGATACCACGATGAATGAGCTTGGAAGGAATGGAGAAACGTTGTCCACTTCCTAAGTGGAGCAAATCCTAAGGTTGTTAACCAACCACTTTGAAAAAATAACATGCACCATTAAGGAGGTCAATGACTTGTCAACGTTCTCAGTTAAAGAGTTTGTCGAGTCACTTGAGGTGCATGATCAATAGAGAAAAAAAAGAAGAAGAGGAGTCTTTCGATCAAGCACTTCAAGTAAAGACAACAATTAAGGAGAAAAAGGCACCTTATACTCATAACACTTAAGGTCCAGGTAGCCAGAGAAGGATATGAAAAAGGTAAAAAATAATATAAACAACAAAACTGACATGGTCAGGGATAAGGAAGAGACCGAATAGGTCGGTCAAGTAACTCAAAAGTTGAGTGCTTCAAATGTGCAAAGTAAAATAACTTTGCTAAGAATTGCAACTCGTATAAATGATATAATTGTGGGAAGGTCGGGCATTTCACAAAGGACTATCGGTCTAAGAGCAAGAAGGAAAAAGGAAACAAACTTCCTCTCTGAAGATGTCAAGGAAGAGGGAATGTTGATGTTGTTGAGGACTTTGGGTACTGAGCCATGTCTGAGTTGTTCTGACAACTCCATTTGGTATCTTGATATAAAAGCAAGTAATCACATGTGCGGGGACAAGAACCTTTTTAAGGAGCTATCTAAAGTTGAGGTCAAGAACGTGTCATTTAGAGATGCATCCAAGGTAGCAGTAAAAGGCTGAGGTACAATCTGTTACCTGCAAAAAAATGACTGATTTGGAGAAATCAAAGACGTGTACTATGTACTCAATCTAAAGAGCAATGTAATTGATCATGGGCCAACTAATGGAGAAAGGTTATTCGGTTTTGATGAAAGATCGAGTACTACACTTGAAGAACAATTTGATCATTTGATTGCCTGAGTAGAAATGAAGAAGAACAGGATATACAATTTAGACTTAAAGATAGTCCAAGAGAGATGCTTGAAACTTGACGTAAAGGATGAGGCCATGATGTGGCACTTTCAATTTGGTCACTTGCATTTTGGTGGCCTGACTAAGCTAGCTAAGAAAGGAATGGTGCATAGATTGCTAAGTATAACAATTGAAAAAATATTTTGTGAAGAGTATGTGCTCAGAAAGCATCCAAAGGCCTTGTTACCGAGGATAGCTAAGTACCGAGCAAAGGAACAACTCAAATTAATCCATACTACCTATGTGTGTTGATTACCCTCGAGTCTTTCAATGGAAAAAGGTACTTTATTTCATTTATAGGTGATTTTTCAAGGAAAACCTAGGTATACCTCTTCAAAGAAAAATTATTTAGAAGATTCAAAATGATGATTGAGAAAGAGAAAGGCAAACCAGCCAAGTCTATTCAATCTAACTGAGGAGGCAAGTTTGTTTTAACCAAACTCATGAAGTATTATGAAAAGAAAGGGATAAAGAGATTTCTTACAACATCATTCTCACCCTAACAAAACAAAGTTACCAAGAGGAAGTATTGAACCATCCTCTAACATGGTTCGAACAATGTTGAGAAGTAAGAACATTCCTAAGGAGTTATGGGCGAAAGTAGAGTAGTGCACTATTTATGTGCAAAATAGGTGTCCAAATGCTAAATGGAATGAGAAAACACCACAAGAAGTCTAGAATGGAAAGAAGTTGAGTTTGTCTCATCTTAAAGTGTTCAACAACATCACTTATGGTCATGTTCCAACTCAATAGAGAACCGAACTTGAAGATAGAAGTAAGAAGTATGTGTTCATTGGGTATGAAGAAAAAACTAAGTCCTACACTTTGTTTAACCCAATAACAAAGAAAGTGATATGGATCAATATGTTCAAATTGATGAAGTGAGTGAATGGAAGTAGAACAACTCAAAAAAGGAGTCTACTAGAACTAGAATCTTATAAATTGTTACACCATCTACAGAGATAATTCATGAAACTTTTGTGAAAAGGATCAACCTCTACAGCTTAGAGCACGAAGTTTGTAAGACATATACAACTCCACTAACGAAGTGCATTGTGTATGTTTTTTGGTAGATTAAGAAGACTTAAGCTTTAAGAAGGTCGTGTAGGAGGAGAAGTGGAAAAAGATAATGGATGAGGAGATCAGGGAAATCAAATGCAACAACACATGGGAATTGACCGAATTCCTCAAGGGAGCTTGACCTATTGGCGTAAAGTGAGTGAATAAGAAGAAGACAAATGTTGAAGGAGAAGTTGAATGATATAAATCATGGCTCGTAGTGAAGGGATATAAACAGAAGGAAGAAATATACTATGATGAGGTATTCCCCCGAGTGACGAGGATGGAAATAATTTGGCTTTTGATTTTCCTAACTGCTCAACACAAAATGGACGATCTTGCAAATGGATGTGAAGTCGGCATTTCTACATGGAGTCTTAGAGGATGAAGTATTTGTTGACCACCCTCTTGGATACACGCAAAGAGGATAAAAGAAGAAAGTGTTGAGATTGAAGAAGGCATTTTATGGCTTGAAACAAGCTCCTCGAGCATGGAATGAAAGAATTGATACTTACTTTAAAAAGAATGAGTATAAGCTTGCTCTATACATGAAAAAGAAAGGAGGAGATGTGATGTTTTACACTTGTATGTTGATGACCTAATCTTCATGGAAAACAAAGTTGAGCTGGTTGAAGAATTTAAAGAAGTGATCAGGATGGAGTTCGAGATGAATGACTTGGGTCTTGAGAGGGGAGGAAGTTGTTCAGGGGGAGGAAGACATCTTTATGTCCCTATATGCTAAGGAGGTTCTGAGAAAGTTTAAGATGACAAGTTGTAACCCGATATCCACCCCAATGGAATCTATGTTAGAATCACAGAGTGGAATAATCGCATTTGGACAAAACGAAGAGAAGGTGGATTGGTTTGTTAATAAAACTGTGCTTTTTTTAAAAAAAAAAATCTTTTAAAATTTGACTTAACAATAAAAAGGATTTCTTTAAGATAAGACTAGATAAATAAAGAGTGTAGGGAAAGAGGTATTTATAAAAGTAATTTTATATTGGTTCGAATCGAAAGACCATATGTCGAATTGTTAATCTCTCTAAAGAGGGATTAACTCAAACACTAAAAATAATTTGAGATTGCAAATAGGAACAAGAACACTTTAGGATAGAAAACACCTCTATTGAAGCCACAAGAGATGAAAGTCACCTCCCTTGAAATCCACAAGGGGTGAACACCTTCTTTGAGTCCCACGTCGGGATACATATTTTTCATGGGAAACACAATATTCACCTAACTTTTGAAGAAGCAACCCATTGTAACATTGTCAACTTGTGAAGCCGAGTACATTGCAACATCTTGTGGTATATGTTAGGTTGTTTGGCTCAAGAATCTTCTAAGTAAGTTGGAGATGAAGCAAGAAAAGGGACTATGATCCGAATTCAAAACAAGTCGGTCATTGAATTGGCGAAGGACCTAATAAATTATAAAAGAAGCAAACATATCGATATTCTATTTCACTTCATTTGAGAATAAGTGAAAGAATGAAATATGTAATTAGAGCACGTTGGAAGTTGAGCACAAGGTGCAAATATATTTACAAAGCCTTTGCCAACCACTTTGTTCGAGAATGGCAAGAAGATGATTGAAATGAAAGACAAGAAAAACATTTAAGTTTATGAGAGAATTTTGTTAGATAAACTTAAAAATAGGTAGTTGAATTTAATGATAAATTATGTTAATTATCTTAGGAGATTGGTGCTTCTAGTATTGGTTAAAGCACACAATAGAGCTTATTAATGGTGATAGTCATAATTAATGCATGTAGTTGAAGGGTCACACCAAAGTCTATAAATAGTTAAAATCTCACAAGTTATAATACTAAAGAGTGTTTATCTTCAGGCTTGTTGTCAACAATTTTAAGGTGACATTTATACATACTTATTGCTCTATTTTACTAATATATCTCGGAAATGTGAAAATCTTCATTGATAAAAATGAAATAATCTTGATGAATGTAATATGTTTTAGATCTCCACTTTTATTCGTTTTAATGGCAAAATTTTCTCAAAATTCAAGCAGAAACTTGAGCTCGAGCAAGTTGTCAGGAGAAATAGATGCCTCATTCTCCAACCTCACATGTTTGGTGACTTTGTAAGTTTTTCTTGTTAAATTTCACATAAATCTGTTTTCAATATTAATAGCAGAGCACTATGCTGTTGCAACTTGCAACTTAAAGGAACCAAAACCATAACTATTATGTTGTAGGGATTTGTCAGACAATGAATTGTCAGGGGAGGTTCCAGAATTTTTTGCAAAACTGCCACAATTGCATTTCCTGTGAGTTGTGACCTTGATACATTAAAATTTCTATCACACACACTCTCTAAATATATTTAACACATCATATCATCTTTGCAGTAACTTGTCCAGGAATAGGCTCACAGGTTCAGTTCCTGAGAGTCTAAAGGCAAAGTCATCTAACAACTCTTTACAATTGAGGTTTGTTCCTAGGCTATTGCTCACATAACTTTCTTGAAGTAAAATAAACATTTCTAAAGATGTAAATAAATCTTTGCTGACTCCCTCATAATCTTTGTTTTTCACCCTCTATATATTACTCCATATTTAAAAACAATAAGCAGGAACTAGCAATACCAAAATAATGAGAATTTTAGAGTTTGCCCCTCTTTCTTCTTCAACCTTTGATTTTCTTTAATTAAGAAGTACTAATACTTTTCATGATTATATAATTCCTCATCACAATTCTTCTCAATCTTATGATGACTAACACTTGCATACATTGTAGTTTTGATGGAAATCTCCGTCCTTATCGGACAGGGTCATGCAAGAGCAACCACAAGAAGTTTATTATTCCATTAGTGGCATCTATAACAGCATGTGTTGCAGTGGTCCTCACAATATCTACCATAGTTATGGTGATCTGGAGACTTAGAAAAAAGGGAAAAGGTAATCTAAAGAATAAGTTTTATAATGCTCCATATCTTGCTTATAGAAGGTCATTTTTATATTCAAATATATATTATCATTTTTAAATATTTGCATTGTATTAATCTGAGACCATTACCACAATTTTGCAAGTTCCATTGTTAATGAATTTGTAAATCAGATATCAAGTCATTAATAGTTTACATTCTATGTTAATTTCTGACCATTATGTGAATTATTTCTGTCCATTTCTGCCATTAAAGATGCACAGTCTTTGAACTGAAGCCTAATAATCAATACTAATATTTGAATACATTAAGTAATATAATTGCATTTACTCTTACTGGTTTTTCTTATCATTGTTAATTGTCTTAGACATAGTAACCATTAGTCCTTGAGTGAATGATTGCATTAAAACACTAGTTTTAAATTGTTCGCTTAAGTGATATTTTCCTTGATGATTTCCATCTAGTACAATCAAATTCAACTTTCCACGATAATTTTTTCTCATTTTCATTAGGGATACTGATTATAGTTTCACTGTCACAAAGCTCCCAAAGAAAATTAGAACCGAAGCCACACTTTTCAAACATATATATTCTGTGGAAAATGATTGTTGTTATTTACATTTGGTCCAGTGATTTCTTCAATTTCTGTGAAAGATGAGCCACTGAAATCAGCAAATCAAGTATTTTCTTACTCAGACATTCGTAGAATCACTAATAATTTCACAACAATGATTGGGAAAGGTGGATTTGGTAAGGTATACCTAGGTACTTTAGAGTGTGGCGAAAGAGTTGCTGTGAAGATACTTTCTTCACCATCAGCACAAGGGTATAAGGAATTTCAATCAGAGGTAATTAACTAAACTCTTTTGTATTCTTAAAAATGTTTATAATTCTTATAGACCAATCTATTTTTCATTCAGTCATGGTACTAATATATGTTATTTCTAAACTTGAAAATGCAGGCAAAACTGTTGATGCATGTTCATCACAGAAACGTGGTTTCTCTTGTGGGATACTGTGATGAAAGTGATACTAAAGCACTTATTTATGAATATCTTTCAGAAGGGAACCTCCAACAAAAATTATCAGGTTTCCACTTCACTCCATATTGGCATGTGCATTTAAAGTTGGTGAAAACAAACTGCATTATGATAAATGAATCATGAACATGCTTATGCTGAATATATTAGCTTCTTATGCAGATAAGAACCCCATTTTTTTGGAATGGACGCAAAGACTTAAAATTGCTATGGATGCAGCAAATGGTAACTCTAAGTTCATGATGTTCTATAGTTATTTTCTTTTCTTATTATGATTAGAACTATTGTGATTAACAAGTACGTGACTGATAATTTGAATAACAGGGTTGGACTATTTGCATAATGGATGTAAGCCACCCGTAATTCACAGAGATTTGAAAACATCCAACATCTTACTAGATGAAAATATGCATGCCAAAATTTCAGACTTTGGGGTGTCTAAAACTTTTGCCAATGATAATGACACTTATGTCACAACTTACCCTGCAGGCACACCAGGTTACCTTGATCCTGAGTAAGTAACGTTTAATTTTTCAGAGTGTTTATTGAATGGAATTGAAGCTCTAATATTAATGATCAATTTGAAAATGACGTCGTGTGTAGAATAGAATAAGTAATGTTAGAATAAACTTAAATTTAGGACTTATTTCACAATTGTGAACAATAATGTTTTAATGTTTTAAGAGAGCAAAAGCTAAGAAGTTAGTGTGTTATGTTTTGATATTAATGGTCTTTATAGTGCTCTGTTTTGTAATAATTGGAGACATTATTACTTGGAGATGAAAAGTCAAATGTTTATCTTATAAACTATAATGTTCACATGACATGAAAGACACATAGAATAAGAGCAAATAAGATTATACAAAGAGTTTGTCATTTGCTAATAAATTGGTATCAGAGTTTTGAGAGCTTTAGTGTCTAAATGGAAAAAGAAAAGGTTAGCTTTAAGTGTTTGAGGAAGAAAGAATGAGATGACCAACCTTGCAAACAGTGTATCTCTGCCTCAATTAACAAAGAAAGTCAACTATGATAATTAGAGTTTGCAGCTGAAGGCTCTTCTTGATTTACCAGACGTGTGGGATATAGTTGAGAATGGGTACCAAGAGCTAGCAAAAAATAAAGAATAGACGGTTGCCAAAATAATGCACTGCGAAAAATTTAGGTAAAGGACAAGAATTTTACGTGTCGTACCAAGCTGTGGATGAGTCGACTTTGAAAAGATAGTAAACACTACATCTTCAAGAGAGTGTGAGAGATCATGGAGAAGGCATATAAAGGAGACGATCGAGTAAAGCAGGTTCGACTTCAAACTCTTAGAGGAAAGTTTGAAAGCTTGAGAATGAAGGAGAGAAAATGGGTAGACAAGTACATAACTCGGGTGGAGATCGTGACAAATCAACTAGGTAGAAACAGAGAGGCATTGCCAACCAGCTAGGTCGTGGAGAAGATCTTAAGGTCGTTGTTAGAGGACTTTGAGAATATTGTTTATGCCATTAAGGAGTCTAAGGACTTGTTAATGCTCTTAGGTGAAGAGTTTGTTGGGTTCCTGGAGTCGCACGAGTAATGGAGAAGGAAGAAATGGGAGCAACTTGATCAAGCACTTCAAGCAAAGCTTGACGTGAAAGGAGAAGCTTGGAACAATCAAAGTCGAGCTCTTGATGGAATAGACCAAGAAAGTTGAGGATAAGGAGGTCAAATTTGAGGCGATTATTAAAACAACAAAGAGCAATCCAGTCTACAAAATTGGTGTGGTCAAGGACAAGGTAGAGGTCAAGGAGGTCGATCAAGCAACTAAAGAGTTTAATGATTTAAATGTGGAAAACATGTCCATTATGCAAATGAATATAGATAAGTCAAATGCTATAATTATGGGAAGGTCAGTCACATCACAAAGTATTATCAGTCTAAGAGAAAGAAGGAGACAAACTTCCTTATTGAAGAAGTTGAGGAAGAAATGAGGATATTGATGATGTCAAGCAGCTCGAACGTTGAGCTAAGTCCAAGCTGCAGACCAGATACTGAGCTGAGTCCGAGTTGTATAAGGTCGAAGAGATCAGAAACCAAGCTATGTTTGAACTGAAGATCAAGTGTCAAGTTAAGCCCAAGTTGTCCAAACAACTCAGTTTGATATCTTGATATAGAAGTGAGAAATCACAAGTGCGGTGATGAGAATTTGTTCAAAGAGCTCTCCAAAGTTGAGGCTGAGAATGTATCATTTGGAGATGACTCCAAGGTAGCAGTGAAGGGCGAGGAGCAATCTGGTACCTATAGAAGAATGACCAAGTTGGAGAAATTAGAGACATATACTATGTACACAATCTCAAAAGCAATATATTGAGCATGCGTCAAATGATAGAGAAGAACAACTCAACTATGATGAAAAACCAAGAAGTACTATACGTAAAAGTAAATTCAACCACTTTCGAGTAGAGATGAAGAAGACTAGGATGTACAAGCTAGAGTTGAAAATAATATAGAAGAAGTGCTTAAGCTCCACGTGAAGGATAAAGCTATGGTGTTGCAGTTTCCTTTTGGCCATGTGCATTTTGGCAGGCTAGCCGAGCTGGAAAAGAAAGGATTGATGCACAGACTGCCAAGTATGGAATTTGACAAAAACAATTGTGAGGAGTGTGTACTTGGAAAATATTTGGGGATCAAGTTTCCAAAGATAATCGAGTACCAAGCAAATGTATAACTCGAATTCATCCATACCTACTTGTGTGGGCTAATTACCCTTGAATCCTTTAGTGGTAAGAAGTTCTTTATCTCATTCGTCGATGACTTTTCACAAAAAGACATGTATATTTCTTACACGAAAATTTTGAGGTATTTGAGGTCTTTAAGAAGCCTAAAATGATGGTTGAAAAGGAAACCGACAAGCACATTAAAGTTCTTCGGTTTAACAAGGAAGGTGACTTCACATTAGGTGAGTTCATGAAATATTGTGAGGAGCATGACATAAAGAGATACTTGACAGCTTCGTACTCGCCACAACAAATTGGTGTAACTAAGAGGAAAAATTGAACCATTCTTGATATGGTTCGAACCATGCTAAAGAGTAAAAATATGTTAGAGAAGTTCCTAGGCAAAAGTAGTACAGTGTGCCATTTATGTGCAAAATAAGTGTCCACATGCTAAGTTAATCCAAGAGAAACCACAAGCATAGAAAAAAGTATAATGTAACTCACTTTAAAGTGTTCAACAACATAACTTATGTTCACGTTCCACCTCAGCACAAGAGCAAACATGAAGATAAGAATAAGAAGTATGTTTTTGTTTAAAGAATACATATCACAGATAAATAAGTGACAATAAGCTCATAATTCAATCTTTAAGGCTAATTTAATTTAAAAGTAATCATGTTATTTCTTCTGATAGACGGGCCCAAGCCCAATCTATCAGCCGAATAAACCTCCAAGATTAGGGTTCCTAGTTCTTCCGATGCTTCATCTGTTTCTCCGATACAGAACCTGGGGATTCACGGTTCAAATCGTTTCTTCAGTGGCTTTTCGGTTCTTCAGCTCAAGCTACTCTCAGATTTCCTGCTTCTCGCTGATGTGCCTCGAGCCGCCGTGTATCATCTTCATTTCAAGTAATAATCTTTTAATTATTTTTAAACTAACAATTCTTTCAATTTTGTTTAAAATAGCTTTTTCAATAATACCCTAGATAACTAATATCACTAATAAAAAACATACAAAAAAAGTAATTAAAAAGTTAAGGATAATTTCTCCTAATTTTGTATTAATATCACAAAAGAAGTATTATTTCGAAATGGAGGGAGCATAATTATCTCGTCATGAGATTACTACATTATATAAATTAATAGTGTCATTTTTCCTCTGCTCAAGTGTTCCTTGGTTTTTTAAAGCATGATGGAAAAAATGTATGGAAATTTGTAGAAATATGAAGTTCAAATGTTCACATAAGGTAATCCCCAGACACGCAGGTTACCATAGGTTTGAAAAATGAAATTTTATATAAATGTCATGACACATGTCATTTAGGCTACAATTTATTTATTTATTCTTTTTAAATAGGTTTCAACTTCCGATATTTAAAATTGTTTGGAGTTTTTTTAATCTTTGTCCTTGTTTTTACATGAGTTTGGTCTGACCCTTCATGTTACATGTATTTTCTTTACTGTTTTTAATCAATTTTACAATGACTTGTATGCTTTATATGATGTTTAACATAAAGGAAATGTATAATTCTCTTTTTATACATAACGGAAATGTATAATTCAAGTTTAATAGGATATTTTATTGTACAACTAAGACTTCCATCTTGAAACTAAGTGCTGATTAGTAAAATGTTAACTAGAGTACGTATACTAGATATGATACTTTAAGATTAAATGCATTAAACAAAGCTGGGATAATATTTTTTATATAAAATGATTAACCTTTGGTGGATCATTGTAAAAGTGTTAATAGAGAGAAAAAGGAGGAGATGAAAAGTAATGAGTATTCTGTATTTTAAGATTCTAAATCAGTTTATCTTTCAAGTTTACTTGTAAAATGATATACATAAATTTATTTTAAGATTTTAGAAAACTAAAACTAAAGTTTTATTTATCTATTATGATTTATTAATGTTGAACTTTTTAATTTTTTCTCATTTAAAAATTATAAATTAAATATGTTTTTATCCTTAAATTATTACGAAATTTTAGTTTTAGTTTCTCTTTTAAATTTGGTTTAATTAGATTCTCATTGTTTCAAAGTGTATGGAATTAATCCTCAATAACTAATCGTGTTAGTTTTTTCTTTAATATGGAAAACGGTAATTCAAGTGAGTAATTTTGTTTGGGACACGTGGAAAATTATTTAATTCAAAACATATTTTTTATTTTCCACTTAGTCGTCTTCTTCTTTCTTAAGCTTAGATTTCTCTCCCAAATATCATAGCAAAAGCATTTATTATCCAACATCATCTTTTTCACCCTCCACCCATGCAAATCAACACCCACACTAACCTTCCAAATCCCCTTCCCAATTTGAAAAGAAAATTGAAAACGAAGGTATGAGGCTTTTTTGAATTAAATAACTTTTCACGTGTCAAACAAAATGCTGACATGGATTACTTTGGTCACGTCAAAGAAAACATTAATGCTAGCCATTAAGAACTTATTCCATTAATTTTAAAAGAACGTGAATCTAGTTAGACCAAACTTAAAAAAAAGAACTAAAATCAAAATCTTTTAATAATTTAAAGATAAAAATATATTTAACCCTAAAGTTATCAATAAAATTTAAATGTATTATAGAAAATTATTTATAACAAGAGAGAGTTTAGTTTTTGTTGTATATATGCCATGGAAAAGCAAATATTGGAGTCATGGTTGGGTTAGTTATTCTAATGTTGAACCGCCTCTACTAACATTTTAATAAAGACAACTTTTTAATAAGTTAAATTTAGACTTACTTTAATTGTACAAACAAACTTATAAGTATTTATTTATATATAATGTAAATTTATTTAATTTCTAATATCCCTTATGTCAATACATATATACGTATAAGTTATAAAATTAAATATTAATAGGTATGGTAAGAGTAACCTCATAGTGAGTGGTAGAATAATCTAACAAACAATAAATATTTATTAGGATGAATTTTTTATGATTATGATATTATTGTAGACTTTAAATTTAACTGAACACTACAAAATTAGTATTAGTTCGTAAGATGAAATTTATATCTTATTATATATTTTAAATTATGGTTTCATCCTTGTTATGCTTTCATTAACACTTTAAAAGTTGCCTCCAAGATAAATTTTTATTAAATGACTGTATAATAATATCTTTATGAATACATTTATGACTAAATGTGATATATAACCATATTGTACCTTACAGATTTTATTGCTCTGGGACACTCAACAAAAAGAGTGATGTTTATAGTTTTGGGATAATCCTACTAGAGTTAATCACTGGTCAACCAGCACTAACAGGAACTTCAGAGAATCTCAGTTACATACTTCCTTGGGTTAACAACAAACTGAGAACAGGAAATATCCAAGAAATTGTTGATCGAAGGTTACATGGGAAATACAATGGTGCTTCAGCATGGAAATTTGTAGGGATAGCCATGTCATGTCTCCCTCAAGTTCCAATTCACAGGCCTGACATAGGGCACATAGCCTTAGAATTAAAGGACTGTTTGTCTCTTGAATTATCACTTGAAAGGACTGTGAGCAACGTGAGAGAGTCATTGGCCATGAGTTCTAGGCAAATTGAATTCCATTAATTAATCATAGATGGGTTCAAACCCTAGCTAGGGTTGTATAATTTCATCATGATTTAGATCCACATGAATGATTGATGGATTTTTTTTTTAAAATACGTGTGTTTGCTTTATAGTAATTATTGGACCCTGCTTAAGCTAGGGATATGTTCAACGGTCAAATAAAGGTAATGCCATATAGAAGTAGTTTGTTTTATGCACTTTTTCTTTTTTGAT