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_37185	LG11	33162502	33171266	PREDICTED: PTI1-like tyrosine-protein kinase At3g15890	Map

Annotations

category		relationship type		keyword

SNP	Position	Effect	Amino acid change
G/C	33162612	intron_variant
T/C	33162628	intron_variant
T/A	33162643	intron_variant
C/T	33162847	intron_variant
A/C	33162917	intron_variant
G/C	33162963	intron_variant
C/T	33163192	missense_variant	p.Ser124Leu
G/C	33163252	missense_variant	p.Gly144Ala
T/C	33163348	intron_variant
A/G	33163362	intron_variant
T/C	33163368	intron_variant
T/C	33163380	intron_variant
T/A	33163385	intron_variant
A/T	33163392	intron_variant
C/T	33163393	intron_variant
G/T	33163423	intron_variant
T/G	33163426	intron_variant
A/G	33163612	intron_variant
T/C	33163774	intron_variant
C/G	33163871	intron_variant
A/T	33163885	intron_variant
C/A	33163888	intron_variant
G/C	33164013	intron_variant
A/G,T	33164035	intron_variant
G/A	33164111	intron_variant
T/G	33164114	intron_variant
T/C	33164155	intron_variant
A/T	33164184	intron_variant
A/G	33164185	intron_variant
G/A	33164193	intron_variant
G/C	33164205	intron_variant
C/A	33164213	intron_variant
G/A	33164253	intron_variant
T/A	33164265	intron_variant
T/C	33164276	intron_variant
G/A	33164298	intron_variant
G/T	33164311	intron_variant
T/C,*	33164391	intron_variant
T/G	33164402	intron_variant
T/A	33164411	intron_variant
A/T	33164419	intron_variant
G/T	33164497	intron_variant
G/A	33164505	intron_variant
C/T	33164507	intron_variant
C/G	33164527	intron_variant
T/A	33164706	intron_variant
C/T	33164757	intron_variant
G/T	33164790	intron_variant
T/C	33164816	intron_variant
A/C	33164836	intron_variant
G/T	33164890	intron_variant
C/A	33164942	intron_variant
T/C	33165077	intron_variant
G/C	33165094	intron_variant
T/A	33165172	intron_variant
A/T	33165218	intron_variant
G/A	33165221	intron_variant
C/T	33165257	intron_variant
G/T,*	33165510	intron_variant
G/A	33165519	intron_variant
A/T	33165563	intron_variant
A/G	33165572	intron_variant
T/G	33165639	intron_variant
T/A	33165654	intron_variant
G/A	33165657	intron_variant
T/C	33165709	intron_variant
G/T	33165784	intron_variant
T/G	33165866	intron_variant
A/G	33165867	intron_variant
A/G	33165869	intron_variant
T/C	33165903	intron_variant
G/C	33165909	intron_variant
T/G	33166057	intron_variant
A/T	33166058	intron_variant
A/G	33166074	intron_variant
C/T	33166076	intron_variant
C/T	33166190	intron_variant
T/C	33166233	intron_variant
G/A	33166319	intron_variant
G/A	33166331	intron_variant
G/A	33166428	intron_variant
T/C	33166432	intron_variant
C/G	33166441	intron_variant
T/A	33166486	intron_variant
C/T	33166783	intron_variant
C/T	33166793	intron_variant
T/A,*	33166845	intron_variant
C/T	33166903	intron_variant
G/T,*	33166926	intron_variant
C/T,*	33166972	intron_variant
A/G,*	33166973	intron_variant
T/C,*	33166991	intron_variant
A/T	33166994	intron_variant
A/G	33166996	intron_variant
G/T	33166999	intron_variant
A/C	33167011	intron_variant
G/A	33167028	intron_variant
A/G,*	33167050	intron_variant
G/A	33167063	intron_variant
C/T	33167070	intron_variant
C/G	33167071	intron_variant
G/T	33167072	intron_variant
T/G	33167073	intron_variant
T/G	33167074	intron_variant
T/C	33167075	intron_variant
G/T	33167079	intron_variant
C/T	33167080	intron_variant
C/T	33167102	intron_variant
G/T	33167129	intron_variant
C/T,*	33167135	intron_variant
A/T	33167143	intron_variant
A/T	33167148	intron_variant
A/G	33167157	intron_variant
G/T	33167193	intron_variant
C/G	33167198	intron_variant
T/C	33167240	intron_variant
C/T	33167251	intron_variant
G/A	33167255	intron_variant
C/T	33167259	intron_variant
G/A	33167277	intron_variant
G/A	33167283	intron_variant
C/T	33167287	intron_variant
G/A	33167297	intron_variant
G/A,T	33167303	intron_variant
T/G	33167304	intron_variant
G/A	33167305	intron_variant
G/A	33167308	intron_variant
G/A	33167325	intron_variant
C/T	33167329	intron_variant
G/C	33167345	intron_variant
A/G	33167377	intron_variant
A/T	33167378	intron_variant
T/G	33167380	intron_variant
A/G	33167381	intron_variant
A/T	33167398	intron_variant
T/A	33167399	intron_variant
T/C	33167402	intron_variant
A/G	33167412	intron_variant
A/G	33167417	intron_variant
G/A	33167419	intron_variant
G/A	33167422	intron_variant
T/A	33167427	intron_variant
A/G	33167428	intron_variant
G/A	33167437	intron_variant
G/T	33167447	intron_variant
A/G,*	33167453	intron_variant
T/G,*	33167454	intron_variant
A/G	33167456	intron_variant
C/T,A	33167464	intron_variant
A/T	33167469	intron_variant
T/C,*	33167482	intron_variant
C/G,*	33167484	intron_variant
C/G,*	33167488	intron_variant
T/C	33167573	intron_variant
G/A	33167600	intron_variant
G/A	33167609	intron_variant
C/A	33167613	intron_variant
C/T	33167617	intron_variant
A/T	33167618	intron_variant
A/T	33167726	upstream_gene_variant
T/C	33167738	upstream_gene_variant
G/C	33167743	upstream_gene_variant
G/A	33167755	upstream_gene_variant
C/G	33167787	upstream_gene_variant
T/A	33167794	upstream_gene_variant
T/A	33167953	upstream_gene_variant
C/A	33167982	upstream_gene_variant
T/C	33168025	upstream_gene_variant
A/C	33168097	upstream_gene_variant
G/A	33168098	upstream_gene_variant
T/C	33168315	upstream_gene_variant
T/C	33168377	upstream_gene_variant
T/G	33168386	upstream_gene_variant
C/T	33168498	upstream_gene_variant
G/A	33168523	upstream_gene_variant
A/G,*	33168558	upstream_gene_variant
C/T,*	33168567	upstream_gene_variant
T/C,*	33168583	upstream_gene_variant
T/G,*	33168595	upstream_gene_variant
A/G,*	33168623	upstream_gene_variant
C/G,*	33168627	upstream_gene_variant
T/C	33168639	upstream_gene_variant
T/G	33168680	upstream_gene_variant
T/A	33168681	upstream_gene_variant
G/T	33168687	upstream_gene_variant
T/C	33168692	upstream_gene_variant
G/A	33168714	upstream_gene_variant
C/T	33168751	upstream_gene_variant
T/A	33168773	upstream_gene_variant
C/T	33168785	upstream_gene_variant
A/G	33168795	upstream_gene_variant
A/G	33168823	upstream_gene_variant
A/G	33168919	upstream_gene_variant
A/G	33168931	upstream_gene_variant
G/C	33168937	upstream_gene_variant
A/T	33168972	upstream_gene_variant
T/G,*	33168975	upstream_gene_variant
T/A	33169002	upstream_gene_variant
T/G	33169016	upstream_gene_variant
A/T	33169047	upstream_gene_variant
A/G	33169095	upstream_gene_variant
G/A	33169196	upstream_gene_variant
C/T	33169246	upstream_gene_variant
C/A	33169316	upstream_gene_variant
A/G	33169374	upstream_gene_variant
T/C	33169397	upstream_gene_variant
A/C	33169426	upstream_gene_variant
G/C	33169427	upstream_gene_variant
G/C	33169529	upstream_gene_variant
A/G	33169596	upstream_gene_variant
T/C	33169621	upstream_gene_variant
C/T	33169662	upstream_gene_variant
T/G	33169969	upstream_gene_variant
C/A	33170057	upstream_gene_variant
G/A	33170432	upstream_gene_variant
C/T	33170455	upstream_gene_variant
C/A	33170560	upstream_gene_variant
G/A	33170566	upstream_gene_variant
G/A	33170640	missense_variant	p.Met165Ile
T/A	33170641	missense_variant	p.Cys166Ser
C/G	33170655	synonymous_variant	p.Leu170Leu
T/G	33170842	stop_lost	p.Ter233Gluext*?
T/G	33170870	missense_variant	p.Leu242Arg
G/T	33170878	missense_variant	p.Asp245Tyr
A/G	33170926	missense_variant	p.Ile261Val
A/G	33170930	missense_variant	p.Lys262Arg
C/T	33170957	missense_variant	p.Thr271Ile
C/G	33171030	missense_variant	p.Asp295Glu
C/T	33171142	missense_variant	p.Arg333Trp

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_37185.1

MINCSEHTKVARRGKEQPTWRVFSLKELHSATNNFNYDNKLGEGSFGSVYWGQLWDGSQIAVKRLKVWSNRAETEFTVELEILARIRHKNLLSLRGYCAEGQERLIVYEYMQNLSLHSHLHGHHSFECSLDWNRRMNIAIGSAEGIVYLHHQATPRIIHRDIKSSNVLLDSHFKARVADFGFAKLIPDGATHVTTKVMGTRGYLAPEYAMLGKAKASCDVYSFGVLLLELASGIRPTEMLDSTVRRSIVDWALPLVCEKKFNKIADPRLNGNYVKEELKRVVLVALICAQDLPEKRPSMLDVVELLKGESKDKFSDLENSDMFRSRLAAAGTSAAKDSLDYISEEKELEHPLRKNASCFFAIVAIFKSTLEALF*

CDS Sequence:
>Vu_37185.1

ATGATTAACTGTTCTGAGCATACCAAGGTCGCACGGAGAGGGAAAGAACAACCCACATGGCGGGTGTTTTCTTTGAAGGAATTACACTCTGCTACGAATAATTTCAACTATGACAACAAGCTTGGAGAAGGAAGCTTTGGCAGTGTGTACTGGGGCCAACTTTGGGACGGATCACAAATTGCGGTGAAAAGATTGAAAGTTTGGAGCAACAGAGCCGAGACAGAATTCACAGTTGAGCTTGAAATCTTAGCAAGAATTCGACACAAGAATCTTCTCAGTCTTCGTGGCTACTGTGCAGAAGGACAGGAACGGTTAATTGTGTATGAATATATGCAAAATCTGAGTCTCCACTCTCATCTTCACGGACATCATTCATTCGAATGCTCTCTGGATTGGAATCGTCGGATGAATATCGCAATTGGTTCTGCTGAAGGAATTGTGTACCTTCACCACCAAGCAACACCACGTATCATCCACAGGGATATTAAATCAAGCAATGTGTTGCTAGATTCTCATTTCAAGGCCAGGGTTGCTGATTTTGGGTTTGCTAAGTTGATCCCTGATGGGGCAACACATGTGACTACAAAAGTTATGGGAACTCGTGGCTACCTTGCACCAGAATATGCCATGTTAGGTAAAGCAAAAGCGAGTTGTGATGTCTACAGTTTTGGTGTTCTGCTTCTAGAACTCGCTAGTGGCATAAGACCAACCGAAATGCTTGATTCCACTGTGAGGAGATCGATAGTTGATTGGGCATTGCCATTGGTTTGTGAGAAGAAATTTAATAAAATTGCTGATCCAAGACTAAATGGTAACTATGTGAAGGAAGAGCTTAAAAGAGTTGTTTTAGTTGCTCTTATTTGTGCTCAGGATCTACCTGAGAAGAGACCATCCATGCTTGATGTGGTAGAACTACTCAAGGGAGAGTCTAAGGATAAATTTTCTGATTTAGAGAACAGTGACATGTTCAGAAGTCGTCTTGCTGCTGCTGGAACTTCAGCGGCTAAAGATAGTTTAGACTACATCTCAGAAGAAAAAGAATTAGAACATCCGCTGAGAAAGAATGCTTCGTGTTTTTTTGCTATTGTTGCAATTTTCAAGTCAACACTCGAAGCCCTTTTTTAG

Promoter Sequence:
>Vu_37185::LG11:33160502-33162502(+)

AATAGAATGTATTCTTCAAAGAATAAAAGAGTTTGATTTTCAAAAGATGTATGAGGAAATCATATTCTTTCTTTATATTATATATATTTTATGTTTGATGCCAAAATTATAAATAAAAAAAATATGTTGAAAGTTTATAATCAATTATAAATAAGGTGAGTTTAAAGTATATAAAAAAGAAATTTACAATGTTATGAGAATTTTGTCTACTATAATTAAAGTCATATTTTTTTGTTATGGGTATTTATTATATAATTTTATCACTATTATATTTTTATATTAATTTTTAAATAACTATTTTATATTATAACATAGAAGGAAAACGTGTCATCAAGCAATGTGAGCATATGACAGTGCATTAGATAATTCATAGCAATATTAAATATACAATATTTAATATTGTAAGAGAATTATGCAAAAATAATTAAAATAAATAAGTAAAAGATAGAAGAAATTTAGACTTTAATAATAATAAAAGGAATTTTGAAAACATAGGTATTTAGTACTCCAGACAAAAAAGTTATAAAAGGAAATTATAGAAGCACGCACAACTAAAATTTGAAAGAGGAAAAGAAACAAATATAGTCGTAAAATATGTTTCAAATAATCAATAATTTAATAATTTATAAACTAAGAATATTAAATAATTTCAAATCCACAAGCGAAGGAATTAAAATTTTTTTTAGTGAAATGAGTTTTGACTAAATAGTCAATAATACCATATTTGATAAAAATAATAATTTAATACATTAAATAAGCTTACAGCAGAAACCTGATATATTTATTTTGTTAAAAACAACAACATAGACAAGTTAAATTCTTTCACGAAAATAATTTCGAGCAAAAATTAGTTTTTTTTTTTCAAAAATATAATTTTATGAAAATGTTAATTTTCAAACACAAACTAGATAAATATCTGAAAAAAAAAAACTAGATAAGATAGCTAGCATTCTCAACTCCGAAATTATTATAATAAAATGAAAATGAAATTATTTATGTTAAAACGAAACTTTTAGTTAATGTAAAATCTTTTTATATCATTTTTATTTTTTCTTTTACATGTTAAAAGAAATTATTGAATGTAATTAATTTTTTTATCTATTTTTTTGGCATATAATTAATTTTATCTATTTAAGCAACAGACCTTCCTTATTTCGGTTTTTTATCCTAAGATTGACATTCATGTCTAAATTAAATTCTCCCAAATCACAATTAAAATTTAAAAAAAAAAATGGGCCCCACACATATTTTTGTTTTCTTTAATAATTAAAAAACATTAACATTTTGAACAGCTGGAGTTCAGTGTGACAAGGACCCAGAGGAGTAACGAGCCATAACTTCCATTAAACAGAAGCTCTTTTTCTTCTCTGTTGGCACTTTCTTTTGGGTTTCTCTTAACATCACCTTTCACATTGCATCATCATCTTCCTCCTCTTTTCTTCTCTTTGTTTCCATGCAACACATGTTCGTTTATCTGCATTCACGCTGAGAACCGAATATCCATCCTAAGAAACAAGTCCGAGGTTAAAGGAACAACAACGACGTCAACACCTGTTTTGGTTGGTGGGTCGGTTTCAAGTTCTGATTTTGTTCGCGTTTTCTGGGCTTCTCTTGCAAAACACAGAGAAGGGAGAAGGTGGGTCGGTTTCAAGTTTTGATTTTGCTCGCGTTTTCTGTGTTTGTTGTGCAAAGCACAGATAAGGGAGAAGGTGGGTCGGGCTCGTTGGTGAAAATTATGGCTTCATGGTTTTGCTGCGGAAAAGTTTCGAACCGGTACGACAGTAATTCATGAATCTTGTTCCACTGTTTTTCTTGCTCTGTTTTTCTTTGTTATCAAATTAGATGTTTTCAGTTGTGTGTATAATTTTAAAAACGTTAGATATTTTTGATTGTGCAATCTTGACTCTTCTTGAGTAAGAAGAATCAATCAAGGGTTAGTTGAGCTTGTTAGGAACAACTCCAGAGGCAAAACTAAGAGAGAAGATTTGAGCATTTAAGCA

Gene Sequence:

>Vu_37185(+)

ATGATTAACTGTTCTGAGCATACCAAGGTGTATGTTTCATTGATCGTAAACTCGAACAGTTCTTAAAGTGCATCTTTTATCTTCAAAATTTGGTCTCAGTTATGCCTTTTGATTTTGTTTTTTGCCTATTAGATGTTTGATTTAAGAGTCTTATTCATGCAGCGCACGGAGAGGGAAAGAACAACCCACATGGCGGGTGTTTTCTTTGAAGGAATTACACTCTGCTACGAATAATTTCAACTATGACAACAAGCTTGGAGAAGGAAGCTTTGGCAGTGTGTACTGGGGCCAACTTTGGGACGGATCACAAGTAAGACTATGCTTTAAATTTTATTTACTTTTGCTCATTGTTTTACTGTCACTGATCTAAATAATATGATCAGATAATGCTATAAAAATCCTCTGTTCAAAAATCATATGTGATATGCTGATGATGAGAAGCAAATAACATGGATGTATAAGCACTTTATTGTTTAAAAAATCTTGAATTTCAGATTGCGGTGAAAAGATTGAAAGTTTGGAGCAACAGAGCCGAGACAGAATTCACAGTTGAGCTTGAAATCTTAGCAAGAATTCGACACAAGAATCTTCTCAGTCTTCGTGGCTACTGTGCAGAAGGACAGGAACGGTTAATTGTGTATGAATATATGCAAAATCTGAGTCTCCACTCTCATCTTCACGGACATCATTCATTCGAATGCTCTCTGGATTGGAATCGTCGGATGAATATCGCAATTGGTTCTGCTGAAGGAATTGTGTGAGTATTACTGACCTGACTTTTCTTATGAACTTCTTCTGCTATAGTTTCTTATCCATAAATCTCATTACTTTCAGGTACCTTCACCATCAAGCAAGACCACATATCATCCACAGGGATATCAAATCAAGCAACGTGTTGCTGGATTCTGATTTCAAGGCCAGGGTTGCTGATTTTGGGTTTGCCAAGTTGATCCCTGATTGGACCACCCATGTGAGTACAAGAGTTAAGGGAACTATTGGCTACCTTGCACCAGAATATGCTATGTTAGGTAAAGCAAACGAGAGTTGTGATGTGTACAGTTTTGGTGTTCTTCTTCTAGAACTCGCTAGTGGCAGAAGACCAACAGAAAAACTCAGTTCCACGGTGAGGCGATCGATAGTTGATTGGGCATTGCCATTGGTTTGTGAGAAGAAATTTGGTGAAATTGCTGATCCAAGACTAAATGGTAACTATGTGGAGGAAGAGCTTAAAAGAGTTGTTTTAGTTGCTCTTATGTCTGCTCAGGATCTGCCTGAGAAGAGACCAACCATGCTTGATGTGGTAGAGCTACTCAAGGGAGAGTGTAGGGATAGATTTTCTCATATAGAGAACAGTGACATGTTCAGAAACCCTTTAGCTGCAGAAAGCAATGATGGAACATCATTGGCTGATGACAGATTAGACTGTATCTCAGAAGAAAAAGAATTAGAACGTCCATTGAGAGAAAATGCTGAACTATGATCAGCTTCAGTTTTATGTTTGCTGCATGAGTGTGGTTGTATGAGTGCTGGGGGATTTTCAGTTTGTGTAGTGTTTTGTTTCCCTCTTCAATATTGTTTCTATATTTTTTTATGCTATGCCCTATTAGAAGTTTTCAATTTTTGTTGTTTGAAATTCATCAATAAAATAGTTTTTTATGAACTAAATAAATTTTCAAATTTTAAAAAGTAACGAGACCATCACAGATTTTTACGTTTATTTGATAGAGTATAAAAATAAAATAATCATAAAAGTATAAAAAAAATTTAACTTTTTTTAAGAAAAATTAAAGTAAAAAGCAGAAAATGATAGTCTCAAATCAATGTAAAAAGTTTAAATATGATAAATAAATGTAAAAAATTTAAGAATGTAAATTTAAGAAAAGTAAAATTGATACTTTGATATACATAATTTTTTTTAACATTGATACGAGACTGCTCTTTTCTATTTTTTTTTCAAAAAAACTACAAAAGTTTAATCTTTTAATATCATTTTATGGTTATTAGGCGTGTGAAATCAAATACAATCTATATCATATTACCTACTCAAAGTTTAAATGCACCTACCCGCGGGTTCCTCGTCATTTCCAAACCAATTGCTTCTCATTTCATCTTTCTCTCGCTCTCTCTTTCTGTTTAGGGTTTAACCAATAACTTCTCGCTCTTGTATTTGAAATCACCTCGCAACTTCTCAATTCATCTCTCTCTCACTCTCTCCATATATACATACGTGTGTGTTTGCGCTCTAAAAGCACACACACATTACATTTTTTTTCACTTGGTAAATGGACGGAAGAATCAACGCGGCTATTGAAAGTAGCGGTGGTTCAATTTCGAAAAATAGAAAATACAGCGTCGGTGGATTTGGTTCAGAAGTGGACAGTGCCATAAGGAGTGGGACTGCGCCAAATTCGGAAGTATCCTCCGTCCATGGATTCGATCGCGCAGTGGAGAATGACATCGAGAGTACCACTCCGTCAAATTTGGAAACACCGGTCAGTGTTGATAGTTTTGGTCGGACGGTGGAGAATGCAATGAGGAGCTTTGTGCCAAATCCCCCTCCTCTCTACGGTTTCGCTAAGGCAGTGGATCTTGGCATTAGCAGCCACGTCGGTTTCGAACAAGATCAGAATGAAACTAAAGAGTCGCCCAGCGGTACCGTCTACGAAGGCTTCCCGGAGTATGTATTCTCTCTCCTCACTTCCTTACCAAAATAAGTATAGCACAAAATTGAATTCATGATTTACAGATTCTATAACAAAATATCTACTAATCAATTTATGCCTCAAATAATAATAAAATGAAATAGATTTTTTTTTCTAGTTTTACTTTTTTAAATAAGTTTCTTACATGAAAAATTAGTAATAAATAATTATTTTATTTATTAGTTTTTTATAATGATGGAAAAAATTATACAAAAACTACTCTTATTGCGAAATTGTGAGAAAATATTACATACAATTTTTCTAGTTTCTCTTGGATAAAATTTTTATAAGAAAGATGACAAGGAAGTTGGGACAGAACTCATGAAGCAACTGAGCATTTGTGTGTAATTTCACAAAAAATAGAGAATAAGTAATATAAAAAGCTATTTTTCATTAATTATTGACCTGCTTGTATATAAACTATTTATTTAAAAATCGTGAGGAAAATATTACGTAAAAATAGATCTCACAAAACCAAGTCAAACTATATATTCTTATTAGCTTTTAGTTGTCTTTAACTAACTACCCCCACTCTACCCATAATAAACAATTTTAGTGTTCTTCATGATATTGAGTAATAGGATTTAAATGCTATATTTTTTTAGCAAAATAGTCAAAGGAATATGCAAAGTCGAAATCAAATCCAGAAAAAAAGATGCATGTATAATAATAATATATTGGGATGCATTGGGTTCTAATTAGAAAGATTTTTGGCAAACTAAAACAAAGTTTCTGTACAAAACTAAGTTTATGTTTAAAAAAATCACATGAGCATGTAATGTGATGAGAATAATTTATTGTATTCTGTATTCTTCAAAGCATCAAAGAGTTTGATTTTCGAAGAATGTGTGAGTAAAGTATAAATAACCAATCCTGATTCAATTAATTAATTTTTGTAATTAACTACTCTAATACAAATCTCTCCACGATAAATATTGATAATATTTCAGTGATTTTTAAGTATATTTTCGTAAATATATTTTTTTCAATTTTTATGAATCACTACCATGGTACCTCTACGTTGAGTGTTGTTCCCTTGATCACCAAATGATCCTTACATCTCTCATACCTCTTTTGCCCGTAAATTTTCACCCATATCCACCTACTTCATTAATGATATATTAATGGTCCCTTATAAGAATGCACCCCTATCCAAATTCTTTATATTTGATGTGTTTCTCCAAGTTGTCCCTAATTGCTGAACTTCTCTGAGCACCAAGAACAGACATTTTACGAACTGCTCCCTGACTTGAATCCAGAGTCAGAGGACGAGAAGCCTCAGTCTCGCTGCCAACAACTACATCACGAGATTCTCGGCTGCCTGAGACGGCACCTCGCCTTGCAGATCCACTTGGCCGGAAAAAATTAAAGCTTGACAACTGATAAACCATGCAGAAATATTCGTGAGCAACACGAAAATTAATTGCCATATAAACAGATAAACTAGTATAACCTCAACCTGTAAGAGATAAATTAGAATTTTGAAATAACAAGGCAATCACAAAAAGAAAGATTAGCAACACAAACAAGAAAGGGTCTATATTGTTTTAGTTTGCCAAGAATCACATACACTGGATAACGACATTCTCCCCACAAAACTCTAATACAAGTCTGAAGAATCTAAGTCCAGTGATATATAAATTGTCTAACATAAAGCTAAGTTTTGAATATTATATTACGTATTTATTTCGTGCTTCATCTGTAAATAAACGCAATACAGTCGATACAGTGTAGTCGGGTCATGACCAAAATAAAGATGTGCAACAAACAATAAGAATTAAACTCAATTGACATGGCATATTCGTAAATAGACATGGCATATATGTAAATAGATATCAACATCCGGACCAAACGGATATGCAACATCCGTTTATGGCCTGCGCGGTTATCTTCTTTCTCTGCACACATAGAGAAAACACACAACAGCACAACAACAACCAAACAACAAACACAATATATTCAATACATTAAAAAATATAAATCTATCATGCATACTATGAATGAAGCAAACAACAAACTTACCTCTCGTAAACCAATTACACAATAACCACGAACCAAAACCAAAATGAAGTGGAAACGGATACGAAGAAAGAGAGAAAGTGCGGGGGAGAGTGAAAAGGAGGTACGGATTTAGAGTTACAGAAAAAAGTAAATAAATATGGTTAAAGTAAAAAATTATACTTTTGTAATTAAAATTTTTTTGAAAAGATTTGAAGAAGTGCATAAAGAATTTGGTGGTGGTGGTGGAGATAACAACACTCCTCTATGTTTTATGAAATCCTCACTAATTACCAAAACAATTCCAAAAGGCCCGTTACTCAAGTCCAAATACTCATTCTACATGCAAGTTCACAGTTCACAATTCTCATTTTAACAAAAATCAAATTCTGTCTTATGGACCAATAGTAACTCACATTCGAATTCACATATTTATAGAGTTCAATCAAAATTATACATTCAAAATGCACTTCTCATTCAAAAGTAATCCCATTCATATATCAATAAATCAAAATTAAAGATTGAAATTATTACTATTTTTGTTACCTCTTCCGGGGCTTCTTAGTTTACAATTGCTCATAAGTTCTACATCTCATAGGACACTCTAAAAACACACAAAAAAAAAAGCTTAAATTAATAATCTAAACTAGAATCACAACAAAATTAGAATTCCTATAAATGCCATAGAATCATATGCAAAACGAAAAAGATCCACATACATTTAGATCAAACTTTGACTTAAGAACACAAATTAAACTTATTCTACTTAAAAAAACTAATCGGTTAGAATTGTTGCTCTTGTTGCGAGAAACATACTAAAATCTAGAAGGAGAAGAAATGCAGAGTTAAAAATTTAAAGAGAAGATATAAGAGATTCTGAAAAAAAGGTTTTTAGAGAGAGATTTTTATAAAATGAACTTATTTCTAATAAAATTATATTTATACATAATTTCAATTTTAATAATAAAATATCAATTGTTCATTTTATAAAACCTCTTTTCTATATTTAACCATTTTTAATCCTCACAAACTAAATAAAAGAACTAACATTCCGAACAAATTATTATAATAAAATCAAAATTAAATGCATTTATGTTAAAATGAATTTTTAACTATTATGAAATATTTTTATACCATTTTTATTTTCTCTTTTACATATTAAAAAATTATATAAATATATATTATTTTTTTTATCTATTTTTATATAAATAATTTATCTATTTAAACAACATACCTTTTTTTTTATTTCTATTTATATTTCTTTTACTTTTTTCTTCTATTTCTAAATTATATTCCCTCAAAGCACAATTAAAATTAAAAGGAAACGGCCCCACACATGTTTAGTTTTGTTTAATGATTAAATAACAATAACTTTTGCAACTGGGGGAGTTCATTGTGACAATGACTGAGGAGTAACGAACAAGCCTTTAACTTCCATTAAAAGATTAAAAGAAGCTCTCTTCTTCTCTGTTACCACTTTTTTTAGTTTTTTCTTATCATCCATCACCTTTTGCATTGCATTCTCCTTCTCCACCTCCTATTTTCTTGTCTTTATTTCTTTTCAACACATGTTCATTTATCTGCCTTTACTCTAAGAACTGAATATTCATCCTAAGAAAAAAGTCTGAGGTTAAAGGAACAACATCAACAGCTGTTTGGGTTGGTCGGTCGGTTTCAAGTTTTTATTTTGTTCGCATTTTCTGTTTTTTTTTTTTCAAAGCACAGAAGGAAGAAGGTGGGTGGGGCTCATTGGTCAAAGTTATGGCTTTTAGATTTTGCTTCGAAAAAGTTTTGAACGCGTATGACAATTCCTTTCTCTGTTATTTTTTGTTGTTGGATAAAAGTAGATGTTTGTTTATATGGTATGATTCAGTTTGTGTGTTTAATTTTGATAAAAATAATGAATGATAGATATTTTTAATTGTGTAATCTCGACTCTTCTAGAGTAAGAAGGATCAATTAAGGGTTAGTTAAGTTTGTCAGGTACAACTCTAGAGGAAAACTTAATAGAGAAGATTTGAGCATTTAAGCATGATTACTGCTCCGAGCATAACAAGGTGTATGTTTCATTGATCCTATACTCAGCACAGTTCTTAAAGTGCATATTTTATCTTCGAAATTTGGTCTCAATTACGCCTTTCCAATTTATTTTTTACTCAATAGATGTTTGATATCGGAATCTTATTCATGCAGCGTAAGGAGAGGGAAAGAACAACCCACATGGAGGGTGTTTTCTTTGGAGGAATTAAAGTCTGCTACGAATAATTTCAAACCTGGCAACATTCGAGGAGAAGGAGGCTTTGGCAGTGTGTACTGGGGCCAACTATGGGATGGATCGCAAGTATGAGTATGCTTTAAATTTTATTTATTTACTTATAGTTACTATTGTTGTTGAAATGTCGTATCAAATCTGCTGCATTTTGTGTCTTATATTCTATGGTTGTTCTTGCTTATTTTAGCCACAAATGGGGTGACGATAAGAAAGTCTCACATTATCTAAAAAGGACACATTGAGAAACATATAAGTCCGCAAACCCAATACCTCAAGGCTTTTTTAGAGTATGGTGTCAACAAATTCACACAGAGTTCATTAACCATTTCACATCATCGATTGTGTTGACAAATTCACATTCTTAACGGCTCTGTGGGGTCTGCTTTGATAGTTTGAAACATCTCAAGAAATTTCCTATATCTTTTTCAGTCGTACTTGACAACTGGTAATGATGAGTCTTCCAACCAATTAATATGATACCTTGATGTATGATAATAATTACAATATTCAATTATTCATTTTTATTCCTAGCAGTTCCATTGAACTAAAATGGCAAATGGTTGTATATTAATCAAGTGAGTGACGTTGATTTACCTTCCTTAATGGATTTTCATTTAGATTTCAAGGATTTTGATTTATCTAGTGACGTGATTTCTAAAGAATATGATCCAAAGTTTCTGGGGTTATTGGTGCAAAAACCTCTGTTCAAAACCTTTTACCTAGCCCTTGAGAATGAATCTACTGTAATATGTTTAAAAAATCTTGCCATTTCAGATTGCGGTGAAAAGTTTGAAGTTTCAGAGCAACATAACTGAAACATTTACGGTTGAACTTGAAATCTTGGCAAGAATACGACACCAGAATCTTCTCAGTCTTCGTGGCTACTGTGCAGAAGGACAGGAACGGTTAATTGTGTATGAATATATGCAAAATCTGTGTCTCCACTCTAATCTTCATGGACATAATTCATTGAAATGCCCTCTGGATTGGAATCGTCGGATGAATATCGCAATTGGTTCCGCTGAAGGAATTGCGTAAGTACTAACCTCACCTTTCTTATGAACTTCTTCCACTATCGTTTATTATCCATAAGTCTTATTACTTTCAGGTACCTTCACCACCAAGCAACACCACGTATCATCCACAGGGATATTAAATCAAGCAATGTGTTGCTAGATTCTCATTTCAAGGCCAGGGTTGCTGATTTTGGGTTTGCTAAGTTGATCCCTGATGGGGCAACACATGTGACTACAAAAGTTATGGGAACTCGTGGCTACCTTGCACCAGAATATGCCATGTTAGGTAAAGCAAAAGCGAGTTGTGATGTCTACAGTTTTGGTGTTCTGCTTCTAGAACTCGCTAGTGGCATAAGACCAACCGAAATGCTTGATTCCACTGTGAGGAGATCGATAGTTGATTGGGCATTGCCATTGGTTTGTGAGAAGAAATTTAATAAAATTGCTGATCCAAGACTAAATGGTAACTATGTGAAGGAAGAGCTTAAAAGAGTTGTTTTAGTTGCTCTTATTTGTGCTCAGGATCTACCTGAGAAGAGACCATCCATGCTTGATGTGGTAGAACTACTCAAGGGAGAGTCTAAGGATAAATTTTCTGATTTAGAGAACAGTGACATGTTCAGAAGTCGTCTTGCTGCTGCTGGAACTTCAGCGGCTAAAGATAGTTTAGACTACATCTCAGAAGAAAAAGAATTAGAACATCCGCTGAGAAAGAATGCTTCGTGTTTTTTTGCTATTGTTGCAATTTTCAAGTCAACACTCGAAGCCCTTTTTTAG