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_12651	LG3	19144854	19152851	PREDICTED: protein NLP9-like	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated
Cellular Component	located in	nucleus, nucleus, nucleus, nucleus, nucleus, nucleus, nucleus, nucleus, nucleus, nucleus, nucleus
Molecular Function	enables	DNA-binding transcription factor activity, DNA-binding transcription factor activity

SNP	Position	Effect	Amino acid change
T/A	19144883	5_prime_UTR_variant
G/A	19144968	5_prime_UTR_variant
A/G	19144984	5_prime_UTR_variant
T/G	19145014	5_prime_UTR_variant
C/T	19145125	5_prime_UTR_variant
G/T	19145151	5_prime_UTR_variant
A/T	19145168	5_prime_UTR_variant
A/G	19145320	intron_variant
G/A	19145352	intron_variant
T/G	19145353	intron_variant
A/G	19145412	intron_variant
G/A	19145447	intron_variant
C/T	19145470	intron_variant
T/C	19145490	intron_variant
T/C	19145511	intron_variant
G/A	19145640	intron_variant
A/C	19145654	intron_variant
T/C	19145656	intron_variant
A/T	19145705	intron_variant
A/G	19145775	intron_variant
C/T	19145829	intron_variant
A/C	19145849	intron_variant
T/G	19145884	intron_variant
T/A	19145887	intron_variant
A/G	19145915	intron_variant
G/A	19145952	intron_variant
A/C	19145953	intron_variant
T/A	19145975	intron_variant
T/A	19145980	intron_variant
C/T	19146007	intron_variant
T/C	19146033	intron_variant
G/A	19146052	intron_variant
G/T	19146152	5_prime_UTR_variant
C/T	19146231	missense_variant	p.Pro7Leu
T/G	19146481	missense_variant	p.His90Gln
C/T	19146492	missense_variant	p.Pro94Leu
T/A	19146663	missense_variant	p.Leu151His
A/T	19146666	missense_variant	p.Asn152Ile
T/C	19146721	synonymous_variant	p.Ala170Ala
T/C	19146986	missense_variant	p.Tyr259His
T/A	19147177	intron_variant
A/C	19147210	intron_variant
A/G	19147327	intron_variant
G/T	19147407	intron_variant
A/C	19147408	intron_variant
C/A	19147475	intron_variant
G/A	19147600	intron_variant
T/G	19147833	intron_variant
C/T	19147871	intron_variant
G/T	19147993	intron_variant
C/A	19148077	intron_variant
T/A	19148079	intron_variant
T/G	19148080	intron_variant
A/T	19148081	intron_variant
T/C	19148085	intron_variant
T/C,*	19148097	intron_variant
G/A	19148110	intron_variant
G/A	19148125	intron_variant
G/C	19148136	intron_variant
T/C	19148155	intron_variant
A/G	19148157	intron_variant
G/A	19148179	intron_variant
C/A,T	19148207	intron_variant
A/T	19148218	intron_variant
G/A	19148228	intron_variant
C/T	19148229	intron_variant
C/G,*	19148241	intron_variant
A/*,C	19148244	intron_variant
C/T	19148258	intron_variant
G/A	19148280	intron_variant
A/T	19148294	intron_variant
C/T	19148339	intron_variant
T/A	19148354	intron_variant
C/T	19148377	intron_variant
C/T	19148381	intron_variant
C/G	19148398	intron_variant
G/A	19148405	intron_variant
G/A	19148413	intron_variant
C/T	19148421	intron_variant
C/T	19148430	intron_variant
C/T	19148446	intron_variant
G/A	19148496	intron_variant
C/T	19148505	intron_variant
T/C	19148545	intron_variant
G/T	19148556	intron_variant
A/G	19148564	intron_variant
G/C	19148565	intron_variant
C/T	19148573	intron_variant
A/G	19148598	intron_variant
T/A	19148604	intron_variant
C/T	19148632	intron_variant
G/A	19148633	intron_variant
T/C	19148663	intron_variant
C/A	19148665	intron_variant
A/G	19148678	intron_variant
C/T,*	19148694	intron_variant
T/A	19148703	intron_variant
G/A	19148717	intron_variant
G/T	19148722	intron_variant
A/T	19148723	intron_variant
G/A	19148732	intron_variant
G/A	19148742	intron_variant
C/A	19148753	intron_variant
C/A	19148762	intron_variant
T/C	19148770	intron_variant
C/A	19148800	intron_variant
G/A	19148841	intron_variant
A/G,*	19148849	intron_variant
G/A,*	19148874	intron_variant
C/T,*	19148895	intron_variant
T/A	19148901	intron_variant
C/A	19148923	intron_variant
C/T	19148936	intron_variant
G/T	19148945	intron_variant
A/T,C	19148992	intron_variant
T/G	19149002	intron_variant
T/C	19149004	intron_variant
C/T	19149040	intron_variant
A/G	19149074	intron_variant
A/T	19149092	upstream_gene_variant
G/C	19149109	upstream_gene_variant
C/T	19149118	upstream_gene_variant
A/C	19149135	upstream_gene_variant
G/A	19149136	upstream_gene_variant
C/T	19149167	upstream_gene_variant
A/G	19149168	upstream_gene_variant
C/T	19149171	upstream_gene_variant
T/C	19149188	upstream_gene_variant
C/T	19149195	upstream_gene_variant
G/A	19149197	upstream_gene_variant
G/A	19149201	upstream_gene_variant
A/C,*	19149220	upstream_gene_variant
A/C	19149226	upstream_gene_variant
G/A	19149235	upstream_gene_variant
C/A	19149238	upstream_gene_variant
C/A	19149240	upstream_gene_variant
G/T	19149242	upstream_gene_variant
C/T	19149268	upstream_gene_variant
T/A	19149309	upstream_gene_variant
C/T	19149325	upstream_gene_variant
C/T	19149330	upstream_gene_variant
C/G	19149350	upstream_gene_variant
G/A	19149353	upstream_gene_variant
A/G,C	19149359	upstream_gene_variant
T/C	19149364	upstream_gene_variant
G/T	19149365	upstream_gene_variant
T/C	19149371	upstream_gene_variant
A/T	19149380	upstream_gene_variant
A/T	19149381	upstream_gene_variant
C/T	19149386	upstream_gene_variant
G/A	19149471	upstream_gene_variant
C/T	19149472	upstream_gene_variant
T/C	19149480	upstream_gene_variant
A/T	19149481	upstream_gene_variant
G/A	19149492	upstream_gene_variant
T/C	19149494	upstream_gene_variant
G/A	19149524	upstream_gene_variant
C/T	19149526	upstream_gene_variant
G/A	19149533	upstream_gene_variant
A/G	19149555	upstream_gene_variant
G/T	19149563	upstream_gene_variant
G/C,T	19149578	upstream_gene_variant
T/G	19149580	upstream_gene_variant
T/C	19149616	upstream_gene_variant
T/A	19149626	upstream_gene_variant
A/C	19149668	upstream_gene_variant
G/C	19149673	upstream_gene_variant
A/G	19149677	upstream_gene_variant
T/C	19149685	upstream_gene_variant
T/A	19149687	upstream_gene_variant
A/G	19149701	upstream_gene_variant
G/C	19149793	upstream_gene_variant
A/G	19149808	upstream_gene_variant
G/A	19149846	upstream_gene_variant
G/A	19149905	upstream_gene_variant
A/G	19149908	upstream_gene_variant
G/C	19149931	upstream_gene_variant
C/T	19149959	upstream_gene_variant
G/A	19150079	missense_variant	p.Cys370Tyr
A/G	19150176	synonymous_variant	p.Ser402Ser
T/A	19150397	missense_variant	p.Phe476Tyr
A/T	19150592	missense_variant	p.Tyr541Phe
C/A	19150600	missense_variant	p.Pro544Thr
T/C	19150638	synonymous_variant	p.Asn556Asn
C/A	19150729	upstream_gene_variant
C/T	19150741	upstream_gene_variant
C/A	19150743	upstream_gene_variant
T/G	19150744	upstream_gene_variant
T/A	19150757	upstream_gene_variant
G/T	19150864	upstream_gene_variant
A/G	19150878	upstream_gene_variant
C/A	19150916	upstream_gene_variant
C/T	19151102	upstream_gene_variant
G/A	19151149	upstream_gene_variant
T/C	19151165	upstream_gene_variant
A/G	19151208	upstream_gene_variant
T/A	19151236	upstream_gene_variant
G/A	19151250	upstream_gene_variant
A/G	19151293	upstream_gene_variant
C/T	19151294	upstream_gene_variant
C/A	19151300	upstream_gene_variant
C/T	19151415	splice_region_variant&intron_variant
G/A	19151483	synonymous_variant	p.Arg642Arg
G/T	19151553	stop_gained	p.Gly666*
A/T	19151603	synonymous_variant	p.Ser682Ser
G/A	19151790	missense_variant	p.Gly745Ser
C/T	19151962	missense_variant	p.Ala802Val
G/A	19152056	synonymous_variant	p.Ser833Ser
A/T	19152101	missense_variant	p.Gln848His
G/A	19152421	missense_variant	p.Ser955Asn
C/A	19152436	missense_variant	p.Pro960Gln
C/T	19152447	stop_gained	p.Gln964*
T/C	19152480	3_prime_UTR_variant
C/T	19152490	3_prime_UTR_variant
G/A	19152607	3_prime_UTR_variant
G/T	19152659	3_prime_UTR_variant
A/C	19152694	3_prime_UTR_variant
C/G	19152722	3_prime_UTR_variant
C/A	19152772	3_prime_UTR_variant
C/A	19152822	3_prime_UTR_variant

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_12651.1

MEDHFSPKGKETGYCTSPCTQLEESTSVDGGMKKSASEDMFSNFSELMNFDTYAGWSNSSSMNYQSLASVFSSFSSASYPPSDGLNLVEHGNGPCFMTEVSEIHNGIESSPSCEERGIFQQMDIQLGFLDEANDSNSFDSKQNRNGLYQQLNTSDMCNYMISRSSGRPLADRMLRSLSFFMESVDEGMLAQVWVPIKHGDEFILCTSEQPYLLDPKLAGYREVSRAFTFSAEGKKGSCPGLPARVFTSHVPEWTSNVGYYNKTEYLRLDHALNHEIRGSIALPVSDMHSHEPCAVLELVTTKEKPNFDRELEIVTQALQLVNLKTTMPPRLLPQCLSSNKRAALTEIVDVLRAVCHAHRLPLALTWIPCCYSEGIGDEAERIRIKEGHTSSDEKCVLCIEESACYINDAAIGGFVHACVEHHLEEGQGIAGKALQSNHPFFYTDVKTYDISEYPLVHHARKYNLNAAVAIRLRSTFTNDDDYILEFFLPVNMTGSSEQQLLLDNLSGTMRRICRSLRTVSDTEITGIEGSVAGFPKEKLTYFFPMSKRNSQIAFINDDYDSNQKMSLKASNNGIEAAHGQVMNGPRKQIEKKRSTVEKNVSLSVLQQYFSGSLKDAAKSIGVCPTTLKRICRQHGISRWPSRKINKVNRSLKKIQTVLDSVQGVEGGLKFDPYTGGFIAGGSLMQEIDTHKYILFPEKSAVKDPKHATQKPVSAPGSTSENSTIKLDDDDDGVCLVENKIVDSRGALLSNTSEGGFKKDNASSDDCCEDSKSVAMNDGSSQKAKNQDCPEQTCSISLVTDEAEVGVDGGEGIEEHNNLINSSSTTNSSNGSGSMMHGSSSCSQSFENQKHSKVKPTCVDSESKMIVKASYRGDTIRFKFDPSAGCFQLYEEVATRFKLQNGLFKLKYLDDEEEWVMLENDSDLQECVEILHDIGTRCVKFLVRDVPCVLSSCGSSNCFLPDSSQCLI*

CDS Sequence:
>Vu_12651.1

ATGGAAGATCATTTTTCCCCAAAGGGAAAGGAAACTGGCTATTGCACATCTCCTTGTACCCAGTTGGAGGAATCAACATCGGTTGATGGTGGGATGAAAAAATCTGCTTCAGAGGACATGTTTAGCAACTTCTCTGAGCTCATGAACTTTGATACCTATGCTGGTTGGAGCAATAGTTCATCTATGAATTATCAGAGTTTGGCAAGTGTGTTTTCATCATTTTCCTCAGCATCATATCCACCATCCGATGGATTGAATCTGGTGGAACATGGCAATGGTCCATGCTTTATGACAGAAGTCAGTGAAATTCACAATGGTATAGAAAGTTCTCCTAGTTGTGAAGAAAGAGGTATATTTCAGCAAATGGACATCCAACTTGGTTTCTTAGATGAAGCAAATGATTCAAATAGCTTTGATTCAAAACAAAATCGTAATGGTTTATATCAGCAACTTAATACCTCAGACATGTGCAATTACATGATCTCAAGGTCATCAGGGAGGCCACTTGCTGATAGAATGTTGAGGTCTTTGTCCTTCTTTATGGAATCAGTTGATGAGGGAATGCTGGCACAAGTTTGGGTACCTATAAAGCATGGTGATGAATTCATCTTATGCACAAGTGAACAACCTTATTTGTTAGATCCAAAGCTTGCAGGGTATCGAGAGGTGTCAAGGGCATTCACATTTTCTGCAGAAGGAAAGAAAGGATCATGTCCGGGGCTTCCTGCACGAGTGTTTACATCACATGTTCCTGAATGGACTTCCAATGTTGGCTACTATAATAAAACTGAGTACTTAAGGTTGGACCATGCATTGAATCATGAAATTCGTGGATCTATTGCTCTTCCTGTTTCTGATATGCATTCTCATGAGCCATGTGCTGTATTGGAACTGGTCACTACAAAGGAAAAACCTAATTTTGACAGAGAATTAGAAATTGTTACTCAGGCACTTCAGCTTGTAAATTTAAAGACTACTATGCCTCCACGACTTCTTCCCCAGTGTCTATCAAGTAACAAAAGAGCTGCTTTAACAGAGATAGTTGATGTGTTACGTGCGGTGTGTCACGCACATAGATTGCCACTAGCACTGACATGGATTCCCTGTTGCTACAGTGAGGGAATAGGAGATGAAGCTGAGAGAATACGAATCAAAGAAGGTCATACAAGTTCTGACGAAAAATGTGTGCTATGTATTGAGGAATCAGCTTGCTATATAAATGATGCAGCAATTGGAGGGTTTGTTCATGCATGCGTTGAACATCATCTTGAGGAAGGGCAAGGTATAGCAGGGAAAGCTCTTCAATCAAATCATCCATTCTTCTACACTGATGTGAAGACATATGATATTAGTGAATACCCCCTTGTTCATCATGCACGCAAATATAACTTGAATGCTGCAGTTGCAATTCGGCTAAGGAGTACCTTTACCAATGATGATGATTACATATTAGAGTTCTTTCTGCCAGTGAACATGACAGGGAGTTCAGAACAACAACTTTTACTGGATAATCTCTCAGGTACCATGAGGAGAATTTGTAGGAGTTTGAGAACAGTTTCAGATACTGAAATAACAGGAATAGAAGGATCCGTAGCTGGGTTTCCAAAGGAAAAGCTCACATATTTTTTTCCCATGTCCAAAAGGAACTCTCAGATAGCATTTATAAATGATGATTATGATTCGAATCAGAAGATGTCCTTGAAGGCATCTAACAATGGAATTGAAGCTGCTCATGGCCAGGTAATGAATGGACCAAGAAAACAGATTGAGAAAAAGAGAAGTACAGTGGAGAAGAATGTTAGTTTGAGTGTTCTACAACAGTACTTCTCTGGTAGTCTGAAAGATGCTGCAAAAAGCATTGGTGTTTGCCCAACAACTCTAAAAAGGATATGCAGGCAACATGGAATTTCAAGATGGCCATCTCGGAAGATCAATAAAGTGAATCGTTCATTAAAGAAGATACAGACTGTGCTTGATTCTGTCCAGGGAGTGGAAGGAGGGTTGAAGTTTGATCCTTATACTGGGGGGTTTATAGCTGGAGGATCACTGATGCAAGAAATTGACACACATAAATACATTCTGTTTCCTGAGAAAAGTGCTGTGAAAGACCCTAAGCATGCAACACAAAAGCCAGTTTCAGCACCAGGCAGCACTAGTGAGAATTCAACAATTAAGTTGGATGATGATGATGATGGTGTTTGTTTGGTGGAAAACAAAATTGTAGACTCAAGAGGTGCACTTTTATCTAATACCAGTGAGGGAGGATTTAAAAAAGACAATGCTTCTTCTGATGATTGTTGTGAAGATTCAAAATCAGTGGCCATGAATGATGGATCAAGCCAGAAGGCCAAGAATCAGGATTGTCCTGAACAAACTTGTTCAATATCCTTGGTTACAGATGAGGCTGAAGTTGGAGTAGATGGGGGAGAAGGAATTGAAGAACATAACAACCTTATAAATTCTTCAAGCACCACAAACTCATCCAATGGCTCTGGCTCGATGATGCATGGCAGCTCATCATGCTCTCAAAGCTTTGAGAACCAAAAGCATTCAAAAGTAAAACCAACTTGTGTTGATAGTGAGTCAAAAATGATTGTGAAAGCTAGCTATAGGGGAGACACTATTCGTTTCAAGTTTGATCCATCCGCAGGTTGTTTCCAGCTATATGAAGAGGTTGCAACAAGGTTCAAACTCCAAAACGGGTTATTCAAGCTCAAATATCTAGATGATGAAGAGGAATGGGTGATGTTGGAGAATGACTCAGATTTGCAAGAGTGTGTAGAAATTTTGCATGACATTGGCACACGTTGTGTGAAGTTTCTGGTTCGTGATGTGCCTTGTGTTTTAAGCAGTTGTGGCAGCAGCAATTGCTTCTTGCCAGACAGCTCACAGTGTCTGATATGA

Promoter Sequence:
>Vu_12651::LG3:19142854-19144854(+)

AGGTGATCGAATGGAAATATAAAGAAAGACTTAACAAAATAGAAAAGCACAAAACAACACAAATATATGGAACTTAAGGTAAATAGTCAAATGGTTCATAGATGACCAAGAATTAGAACCATGAAAACACAAAAGATGAAATGGTAGAAAAGCAAGACAAGTAAAGAACACATAAGAACACAAAAAAGCAATAAAGATAACCAAGAACTGAGAAACTTAGCTCTTTTAAAATCAAAGCTCTTGATACCAAATGATGGTAGACTCCTCCTCCAGCCTATATGACTCAAGTAAGGTGGGTGAACCCAAGGATGAGATGGTGCGCGAAAGCTACAGATGTGGGGGATATATTGGCTCAGTTTTAGTGATTTAATGGTGACGAGAATATGGTATTTAGGTACAGTCAAAAGAGGTTGAGTCAACTCTTAAAGAAAGGTGGCTAAAAGAAACCTAGAAGAGATGTTCTAGTCTTTGGTGACCTAAGTGAGTAGTATGACACAAATATGGTAGCATAACAATACTTAAATCAAAGGTGAATTTACATGAAAAGAGATACATATTTATAAGCTTAAGTAACTTTAAAGGTCTCTCTAAATTGTAGAAGCAAAACCCAATACTCTAACTTGGAGACCAAGATATAATCATCTTCATTAGGAGGAGAATGACACATTACAAGAGCATGTGCCTCACAAAATAGAGCACTTAGATATCACTCTAGCCAAGGACCCACAAACTTCTAGAATTTCAAACTTTTGTTTGCATAAGTTGAACTTCTTCTAGAAGGTTTATGCTCCAAGGTAGGGTTTTTACCTTAGATCTATGTGTTTTCTTAGGGCCAACCTCCTTTAGGTCCAAATCCCTACGCTACAACCTTAGGCCAAAATACAATAACCAAAAGAAAATATATACTATTTGACTTATTATACAAGGTCTAAAAGGAAAACCCTATACTATTAAACTCATAATACAAAGCCCAACGAAACATATTTTATTAAAATATCACTAACACATAATGAAAAAAGTTTAAGTCTACCTTCCACGAATGATTTTGACTCTTCTTAAGTTTGTTTGGCCATGCTTAAGGGATATGTCATCGATAAATAAAGAATATTAAATTTTTTTATAAATTTTATAGGGATCAAAATATAAAAAACTTCATTAATACGAAAATTTATTTGAGAAAGAAGGTAAAAGAAAAAATAATCAAACATTTTACTCAAGTAGTAAGATGTCATATAAGAGATAATTAATCATTTAACTAATGTTAATAAACAATAAAGACTAATAAACAATAAAAACCAAAATAGAAATATATTTTTTTTATCAAAAATAAAAACAGAAAATAATTACGATATGCAAAATTGGGAAGTAAAAGGAATTTACTTATGTAAAATTAATAACACTGAAAAAATCTTACAGAAGCAAGATATTAAGTATGAGCCATTAAAAAGGATAAAAAAACGTAGAAATGGTTCTAAAATGAAAATATGACCAAAGCAGACAGCTGAGGGTTCGAAAAAAAAACAAAAAACAAAAAGCGCATCATTCTCAACATCTGCAATCCGTCACCACAATTAATATTTTATTTATTTTATTTATTCAAATATAGTTGTCTATCCATCCACAAGATTCTGATTCCACACCAATTCTGGTGGTTAGCTAGTTTCATGAATAAATTAATAATTAATTAAAATACAATTAATTATTACAAAGCATGTCTGAATATATATATATGTATATAATTTGACACATAAATCATTTACATTTATTTTACATAATTTTTTTTTTAAAATATAAAAATTTATTTCTTTATAACTATTTTATCATGTTAAATGGAGGTAAATATGGGTCATCTCAATTATCATAAAGAAAGAAACTCTTAGCATAGTTAATTTTTTAATTTATTTTTTCTGTTCTAAAAGTCATAATCAGATTCGAACATGCAGATAAGATTATTTTATTGTGTTCCTGCCTATATTAAGAACAGAGGCTTAGACAAAGAA

Gene Sequence:

>Vu_12651(+)

AGGGTAGATCACCACCATTAACGGTTTTCTATTTTTAGTAAACACTTTTTGTACTTCTAAGTAAACAGTTTATTCGAAAACTGCTGCAGAAGTCATGCACTACTCAGTTCTGTTGCATTTCCTTTTATGGAATCTATTTTCCACCTACTCTTTGCTACTGTTAGCTTCCATCAAGGAAGAAAATTCCTGGGTTTGTGAAAATTCTGAATTTTGACTTGCAAGTTTCAAGCTTTTGGAATTTTAGAACAGTTGTTTCTTTTGGGTCGGAAAGCGAAAGCTTGTCTGATAAGAAGACAGGCATCTTAGTTCAAAAAACTCTCTCAGGTATTTATAGATTGCTCAATAAAGAGGTTCTTACTTGGTTAGTAGAATTTGAACTCATGTTCTTGTGAAGAGCTCGCATTCACACAGACATTAAGTGCATTAGACAACTGGGAGTTTCTCAGTATCATAAATGGTTGACACTATTTATGAATCCTTGTTCTTGATGCCTTAATTGTGTGTTAAAATTTTCCATTGATGCACTTGCTTGGATGCAAGCATTCAAAACCCAACTTCATGTTTAAGTTTGGCTTTTGTTTTCAATCTGTTTCGTGTGTCGTGATGTTTTAAACACCTTTTGTGCTGAATTTGTTGTTATATACAGTTGTTCCTAATTTTAAGATTGGATTAGATAATAGCTTTAGGGTAGTTGGCGGCTACTCATTAGTTTGGCTGTCAAATTTTGACTGTAGGATGTGATGATTTGCTTATATTAATTCCTCTAATTAAAACTTTTACTAAAACGAGGACTTTGAACTAATGAATGATTCTTGAATCCTGAATTCTAATTCCCTGAAGTTTCAAATACCAGATTTTAAGTGAGGTGATGTTTTTATTTACTCGTTATTGTTACATATATTTTCTCTGTTGGGTTCTTCTACTTCAAAAATTATTTTTAAGTTGCTGTGAAAAACACCTTTTACTCCTTTTTGTCAGAGAGATAAAGAAGAATAAAAATGATATGAAGAGACAGCAGAGATTAAAACTGTTATGTGGAAGGACTAACAGGAGATGTTTTTAAGTATGAAGATTATAAGAAAAGTATTTGTAGCCATAGACAGCAAACGAATGATTTAACTTTTTTTAGTCTCTGTTTGATTTTGTTGTTTTTCTTTCTGTGATGAGAAGACTTTTGTGTGATGATTTTAAGTTCCTGGGTTCTGACTTTTTCTTGAGATTGTGCATGCCATGCAGTGTAAACCCTGGTGGCTTTTAGGATGTTGGTCAACTTGGAAGAAGCCTCTGGTGCAAATTTTGATTCAAAGGGACTAACATAGGTCAAATTCTCAACTTAAATTTTTCTCTTGAACCAAACCATGGAAGATCATTTTTCCCCAAAGGGAAAGGAAACTGGCTATTGCACATCTCCTTGTACCCAGTTGGAGGAATCAACATCGGTTGATGGTGGGATGAAAAAATCTGCTTCAGAGGACATGTTTAGCAACTTCTCTGAGCTCATGAACTTTGATACCTATGCTGGTTGGAGCAATAGTTCATCTATGAATTATCAGAGTTTGGCAAGTGTGTTTTCATCATTTTCCTCAGCATCATATCCACCATCCGATGGATTGAATCTGGTGGAACATGGCAATGGTCCATGCTTTATGACAGAAGTCAGTGAAATTCACAATGGTATAGAAAGTTCTCCTAGTTGTGAAGAAAGAGGTATATTTCAGCAAATGGACATCCAACTTGGTTTCTTAGATGAAGCAAATGATTCAAATAGCTTTGATTCAAAACAAAATCGTAATGGTTTATATCAGCAACTTAATACCTCAGACATGTGCAATTACATGATCTCAAGGTCATCAGGGAGGCCACTTGCTGATAGAATGTTGAGGTCTTTGTCCTTCTTTATGGAATCAGTTGATGAGGGAATGCTGGCACAAGTTTGGGTACCTATAAAGCATGGTGATGAATTCATCTTATGCACAAGTGAACAACCTTATTTGTTAGATCCAAAGCTTGCAGGGTATCGAGAGGTGTCAAGGGCATTCACATTTTCTGCAGAAGGAAAGAAAGGATCATGTCCGGGGCTTCCTGCACGAGTGTTTACATCACATGTTCCTGAATGGACTTCCAATGTTGGCTACTATAATAAAACTGAGTACTTAAGGTTGGACCATGCATTGAATCATGAAATTCGTGGATCTATTGCTCTTCCTGTTTCTGATATGCATTCTCATGAGCCATGTGCTGTATTGGAACTGGTCACTACAAAGGAAAAACCTAATTTTGACAGAGAATTAGAAATTGTTACTCAGGCACTTCAGGTGGATTTTTCTTCTGCTATTTCTAGTGTACACTTTAATTTATGCAGTTTCCTGTCTCACTGCTTGTCATATTATGTCTGTTTAAGAAAATTTCTACCTTGCTGCCAAAGTATCTTATCTTGTATTCTGTATATAGTTGATGTTTATCTCTTGCTGTAATTGAGGAGAAGTTAGGAAAGAAGATTTTCTAAGCATGTGCATAGTGCTGGTGCAGTCATATTTCTTGTGATCAAACTAAGATTAGTTTGCAAAAATTGGAGCCTTCATATTATACTAATCTATTTCTAGTCTATAGTCATCATTTGTCGGCACATCCTACATTCATTAGTACAGGGTTTACTTGTATGAGAAACCTCTACAATTACTAGGAAAAGTAGCCTATTTCTATGTCTTAGATATTTCCATATTATGTTATCATCGAAGGTGCTAATGATAAATATCCTTATGATGACATTATGCAGCTTGTAAATTTAAAGACTACTATGCCTCCACGACTTCTTCCCCAGGTAACGATAATCCATACTCTGATGATTTATCATATTGATCTTTCCCCACTGTAAAGGCAAAGCTCAGCTTTCTGAATTTTCAATGGAGGGGAGGGGCTTGGGAAGTGTTATTATCTGGTTTTCTCAAGAACTTGTTCAAAGGGTTTAATAATAATTGTTCCTAACCTAATGTTTTTATCCATATAGATCCAAAATGCATATCACAACCACCTGTTAATCCTTAATGAATTCATACACTAATTCATTATGAAAATAGAATGCAAAAACATACCCTAAATTTGTCACTGAGATTGATGTGGATGATGTATAACACTGATGGTATTTCTCTCCTGATAGGATGAAGATAAACAAGACCCTAATATAATTGTTAGATCTATTAGATATCTTATATAGATATCTTATCTTTATATTTTATCTTTATATGTTAAATACAGTGAAAATTATGTATGAGATTAATTTTCGTTGGGTTGAATATACACATAAAGTATTCTATTTATAATAGAAGAAATATTAATATAAATCTTTATTATTTCTTATTTGTATATTGAACTTAGCCCATATTTATTCTAATATAAATAGAGGACTCTATGTGTATATTCAATAAGGGGAGATTAATTCTATATATAGTTACCACTATATTCATCATGGTATCTAGAGTAAGGTTCTTTTGAGTAAAAAATTATTGTTGCCTCTACCACTGCACCCGCCGACGGCACCATCTACCGCTGTCGGAATGGTGTCGTCGGCGCCATCGTCTACAGTTGTCACTACCGAAGTGCTAGTTTTGACCGACAATCACACAATTTTGATTGTCTCGGCCAGGCGCCCACCGTGTCATCAAATACCTTCATCGGAGCTCTTATGCACTCTTAGTGCCTTTTGAAGTTGCAGATCTACTCCCTTTTCCGTTGTACGTGTGACACATCTCGTCTCCTCTTAGGCAGCGATTCAGAGTGTCGAGGTCGCTCTTTTTCCTCTTTTAGGTTCATCCTGTTTCCTCTCAAAGCTTTGAAGTTGCTCTTTTTCCTTTTTCAAGTGCCTTGATTGGAGAATCTTGGATTTTTAAGGTTTCTCTCTCCTATTCATCCATGACTTTTTCTGTCTCTTCTGACCTCTCTTTTGTCACCATTGCGTTTGACCCATCCATATATATTTTTTCTCTCATGGCAAAGATAGTTTTTGTTAGTTTATTTATAGCCGTGGTTGCTCTTCAACAATGACCTCTTTATTCACTAGATGACAACAATGCATTCCTTAATGGCTGCAAGAAGAGATTTGTTGGAACAATTTTCCAAGAACTTAGGGAAACAAGATGAAAAACAATGTATATTTGATATAATCTTCTAGGCGTGAATACACACTTTCCTAAAAGCAATATTTCGTCCCTTATAAGAGTGAAAGGGATCACGAAATCCGCATTTGAGATACAAAGAAGAAATACAACAATGATACTCACTCTTAGTATTAACGTCAAACAAGAATAAAATTCTCACAAACTGATTTGTGTGTTAAGTGAATGACAGAATGTAGAGAAAAGTCTCATATATGTGTACATCAATAGAGCACAGGATCCCTTTATATAGATGATTGTAACTTTTCATGAATGATTGTAACTCTTCATGAATAATTGTAACTCTTCATTGGTTATAACTCTTCATGAATAAATGTAACTTTTCATGAATCTAAAAATGGTCTCTAATACTCTAAAATTCCAACAAGATTTACATGGAGCAACCTCCATATTTGTTGTTAGAGGGAGTCTTTTGGGTTGATATTTCGTCTTTTACGTCGTCTTCGCAAATCACTAATAATTTGGTGTTTCTCTAATACAGAAGGAGATATTTTCACTGTCTTTATTGATTATATTAGTAACAAGCTTGATATATATGATTTATATGCATCAGCTTGAGGGGAGTATTAGATATATTATTTTTATCTTTCTTTTATCTTTTATCTTTAGTTAGTTTGTTATTATTTCTTATTTATATTTTGAATTTAGCTCATATTTCTTTTGTTATAAATAGATATTCCTATGTGTATATTCAACAAGAAGAGATTAATCCTATAGATAGTTTTCACTATATATTCATCAATAACTATGGTCACATTCTAGAGTTTGATAACTACAATTCAACCTCTTATCAAGTCAAAATATTACTTTAGGTATCTATGCAATAATCTTTCATAAGAGTTGTACTCTTAGTGATAACCTTAATATTAACAGACCACTGACACATTTAAATAGTATATATGTGAGCCAAAATATTTTAACACTTATTAGTGGCTCTTTTTCTGCAGTGTCTATCAAGTAACAAAAGAGCTGCTTTAACAGAGATAGTTGATGTGTTACGTGCGGTGTGTCACGCACATAGATTGCCACTAGCACTGACATGGATTCCCTGTTGCTACAGTGAGGGAATAGGAGATGAAGCTGAGAGAATACGAATCAAAGAAGGTCATACAAGTTCTGACGAAAAATGTGTGCTATGTATTGAGGAATCAGCTTGCTATATAAATGATGCAGCAATTGGAGGGTTTGTTCATGCATGCGTTGAACATCATCTTGAGGAAGGGCAAGGTATAGCAGGGAAAGCTCTTCAATCAAATCATCCATTCTTCTACACTGATGTGAAGACATATGATATTAGTGAATACCCCCTTGTTCATCATGCACGCAAATATAACTTGAATGCTGCAGTTGCAATTCGGCTAAGGAGTACCTTTACCAATGATGATGATTACATATTAGAGTTCTTTCTGCCAGTGAACATGACAGGGAGTTCAGAACAACAACTTTTACTGGATAATCTCTCAGGTACCATGAGGAGAATTTGTAGGAGTTTGAGAACAGTTTCAGATACTGAAATAACAGGAATAGAAGGATCCGTAGCTGGGTTTCCAAAGGAAAAGCTCACATATTTTTTTCCCATGTCCAAAAGGAACTCTCAGATAGCATTTATAAATGATGATTATGATTCGAATCAGAAGATGTCCTTGAAGGCATCTAACAATGGAATTGAAGCTGCTCATGGCCAGGTACATCTTGGCCATTTCCTTTATCCTTTACCCTTGTGAAATTTATTAAGAAATAAATACTTAGTTTGAGAAAGCATAGAGTTATTGTGATAAAGGAATTAAACGGAGGAGAAATATTGATTATTGTTCATCACATTTCATTTGTCACAATGGGAGTGAGTTGATGTAGAAAAAACTTTATGGAATATGCTTCAACTTTTGTACCCTGGTGTGATGGTTTTGGGATTGAACTTTGACATCGTAGGATTTTGTCTTGTAGGTAATGAATGGACCAAGAAAACAGATTGAGAAAAAGAGAAGTACAGTGGAGAAGAATGTTAGTTTGAGTGTTCTACAACAGTACTTCTCTGGTAGTCTGAAAGATGCTGCAAAAAGCATTGGTGGTGAGACCCCGATGTTATTTCTGTTAATTTCTTCATATATTTTTAACTCAGATTAGTGTTTTTGGGTTATATGGGGATCCATGTTTGTCATCAATCAGATTTGTTTAATTTCATACGCGTAAGTTCTGAAACTAATGTATATTTTTGTTCTCTCCCGTAGTTTCTACTTACTAAAGAAAGTAATGAATGCAATTTCACAACCCTTACTTTTTTTCTTTGAATTTGGAAGATCAAAAGAGGATTCGCTCTAAATTTAAAGGATCAAAAACACAATCAAGTTTTCTGAGAGGTGATTCTTGCTAACAAAGTCAGTTTTTTCTTCGAACAGTTTGCCCAACAACTCTAAAAAGGATATGCAGGCAACATGGAATTTCAAGATGGCCATCTCGGAAGATCAATAAAGTGAATCGTTCATTAAAGAAGATACAGACTGTGCTTGATTCTGTCCAGGGAGTGGAAGGAGGGTTGAAGTTTGATCCTTATACTGGGGGGTTTATAGCTGGAGGATCACTGATGCAAGAAATTGACACACATAAATACATTCTGTTTCCTGAGAAAAGTGCTGTGAAAGACCCTAAGCATGCAACACAAAAGCCAGTTTCAGCACCAGGCAGCACTAGTGAGAATTCAACAATTAAGTTGGATGATGATGATGATGGTGTTTGTTTGGTGGAAAACAAAATTGTAGACTCAAGAGGTGCACTTTTATCTAATACCAGTGAGGGAGGATTTAAAAAAGACAATGCTTCTTCTGATGATTGTTGTGAAGATTCAAAATCAGTGGCCATGAATGATGGATCAAGCCAGAAGGCCAAGAATCAGGATTGTCCTGAACAAACTTGTTCAATATCCTTGGTTACAGATGAGGCTGAAGTTGGAGTAGATGGGGGAGAAGGAATTGAAGAACATAACAACCTTATAAATTCTTCAAGCACCACAAACTCATCCAATGGCTCTGGCTCGATGATGCATGGCAGCTCATCATGCTCTCAAAGCTTTGAGAACCAAAAGCATTCAAAAGTAAAACCAACTTGTGTTGATAGTGAGTCAAAAATGATTGTGAAAGCTAGCTATAGGGGAGACACTATTCGTTTCAAGTTTGATCCATCCGCAGGTTGTTTCCAGCTATATGAAGAGGTTGCAACAAGGTTCAAACTCCAAAACGGGTTATTCAAGCTCAAATATCTAGATGATGAAGAGGAATGGGTGATGTTGGAGAATGACTCAGATTTGCAAGAGTGTGTAGAAATTTTGCATGACATTGGCACACGTTGTGTGAAGTTTCTGGTTCGTGATGTGCCTTGTGTTTTAAGCAGTTGTGGCAGCAGCAATTGCTTCTTGCCAGACAGCTCACAGTGTCTGATATGATCAATGGCTTCATTGAGGTCATTACAAGCCTTGCTTCAACAATATCATGTGGGTTTTGGTTCACATTTGATTCTAATAGTATGTTGGTTGGAGGAGTTGACCTTTTAAGCCACCAATGCCACATGCAAATTTCTTCATTTTCTGTGAAGATGTTGCAGGTGTCATTTGTGGCCATTGGGTCAAATATTTGTTACAATGCTATCTTCTAAGGGTGGCTGTTTTCAGTAGATAGAAAGATAAACACTCACATGATAGCACTACCATGTTAAATATGCTGTTCTCTCTGTATGCTTGATTAAAGCTCCATACACGTTTGTAGCTGTAGACAAGAGTAAATAGCTCAATCTTCACTTTTATCACCAGTTTAATAGAAATTATATATTTGAATTT