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_31309	LG8	46226490	46237360	hypothetical protein LR48	Map

Annotations

category		relationship type		keyword

SNP	Position	Effect	Amino acid change
A/G	46226855	synonymous_variant	p.Leu122Leu
C/T	46226900	synonymous_variant	p.Asn137Asn
G/A	46227023	synonymous_variant	p.Ser178Ser
C/T	46227244	downstream_gene_variant
A/T	46227329	downstream_gene_variant
A/G	46227406	downstream_gene_variant
A/G	46227418	downstream_gene_variant
G/T	46227528	downstream_gene_variant
C/G	46227529	downstream_gene_variant
T/C	46227555	missense_variant	p.Ile252Thr
C/T	46227606	missense_variant	p.Thr269Ile
C/G	46227668	missense_variant	p.His290Asp
C/T	46227701	missense_variant	p.Arg301Cys
G/A	46227758	missense_variant	p.Ala320Thr
A/G	46227766	synonymous_variant	p.Gly322Gly
G/A	46227767	missense_variant	p.Gly323Arg
G/A	46227818	downstream_gene_variant
T/C	46227870	stop_lost&splice_region_variant	p.Ter332Glnext*?
C/T	46227993	missense_variant	p.Pro373Ser
A/T	46228203	missense_variant	p.Thr443Ser
G/T	46228207	stop_lost	p.Ter444Leuext*?
C/T	46228211	synonymous_variant	p.His445His
G/T	46228350	stop_gained	p.Glu492*
T/G	46228376	missense_variant	p.Cys500Trp
G/T	46228377	missense_variant	p.Gly501Cys
A/G	46228425	missense_variant	p.Lys517Glu
G/A	46228484	synonymous_variant	p.Gln536Gln
T/G	46228501	missense_variant	p.Ile542Ser
C/A	46228504	missense_variant	p.Ala543Asp
T/A	46228823	downstream_gene_variant
T/C	46228825	downstream_gene_variant
G/A	46228849	downstream_gene_variant
G/A	46228941	downstream_gene_variant
A/G	46228948	downstream_gene_variant
C/T	46228960	downstream_gene_variant
T/C	46228964	downstream_gene_variant
C/T	46228996	downstream_gene_variant
A/T	46228999	downstream_gene_variant
G/C	46229008	downstream_gene_variant
C/T	46229028	downstream_gene_variant
G/A	46229031	downstream_gene_variant
C/T	46229047	downstream_gene_variant
T/A	46229054	downstream_gene_variant
T/A	46229063	downstream_gene_variant
T/C	46229073	downstream_gene_variant
T/C	46229074	downstream_gene_variant
G/C,*	46229091	downstream_gene_variant
T/C	46229098	downstream_gene_variant
A/G	46229105	downstream_gene_variant
C/T	46229115	downstream_gene_variant
T/C	46229124	downstream_gene_variant
T/C	46229131	downstream_gene_variant
A/T	46229148	downstream_gene_variant
A/G	46229150	downstream_gene_variant
A/G	46229160	downstream_gene_variant
A/G	46229163	downstream_gene_variant
A/G	46229168	downstream_gene_variant
A/T	46229174	downstream_gene_variant
A/G	46229193	downstream_gene_variant
C/A	46229202	downstream_gene_variant
G/C	46229204	downstream_gene_variant
C/G	46229207	downstream_gene_variant
C/A	46229220	downstream_gene_variant
A/G	46229231	downstream_gene_variant
G/A	46229289	downstream_gene_variant
A/T	46229303	downstream_gene_variant
A/G	46229319	downstream_gene_variant
G/A	46229330	downstream_gene_variant
T/A	46229371	downstream_gene_variant
T/A,*	46229472	downstream_gene_variant
C/T	46229660	downstream_gene_variant
A/C	46229747	downstream_gene_variant
A/G	46229886	downstream_gene_variant
T/C	46229890	downstream_gene_variant
C/T	46229901	downstream_gene_variant
G/T	46229943	intron_variant
T/C	46229965	intron_variant
C/T	46229972	intron_variant
C/T	46230012	intron_variant
G/A	46230047	intron_variant
G/*,A	46230051	intron_variant
T/G	46230093	intron_variant
A/T	46230095	intron_variant
G/T	46230097	intron_variant
C/T,*	46230116	intron_variant
G/T	46230118	intron_variant
G/C	46230122	intron_variant
G/A	46230175	intron_variant
C/G,*	46230189	intron_variant
A/G,*	46230190	intron_variant
G/A	46230196	intron_variant
A/G	46230203	intron_variant
G/A	46230266	intron_variant
T/G	46230282	intron_variant
G/A	46230292	intron_variant
G/C	46230305	intron_variant
C/T	46230327	intron_variant
C/T	46230339	intron_variant
A/G,*	46230364	intron_variant
A/G,*	46230374	intron_variant
C/T,*	46230430	intron_variant
T/A,*	46230442	intron_variant
A/G	46230450	intron_variant
G/A	46230461	intron_variant
T/C	46230464	intron_variant
A/G	46230469	intron_variant
A/G	46230510	intron_variant
T/C	46230533	intron_variant
G/T	46230581	intron_variant
C/A	46230620	intron_variant
T/C	46230629	intron_variant
T/C	46230679	intron_variant
C/T	46230751	intron_variant
C/T	46230797	intron_variant
T/A	46230813	intron_variant
A/G	46230829	intron_variant
A/T	46230844	intron_variant
G/C	46230919	intron_variant
C/T	46231180	intron_variant
G/C	46231259	intron_variant
C/T	46231330	intron_variant
G/T	46231362	intron_variant
G/C	46231363	intron_variant
T/A	46231375	intron_variant
A/G	46231426	intron_variant
T/C,A	46231455	intron_variant
T/G	46231474	intron_variant
A/T	46231479	intron_variant
C/A	46231487	intron_variant
A/G	46231488	intron_variant
A/G	46231490	intron_variant
C/G	46231502	intron_variant
C/T	46231517	intron_variant
A/G	46231519	intron_variant
T/C	46231525	intron_variant
C/T	46231548	intron_variant
C/T	46231556	intron_variant
C/A	46231565	intron_variant
C/T	46231583	intron_variant
T/C	46231602	intron_variant
G/T	46231615	intron_variant
A/G	46231623	intron_variant
T/C	46231704	intron_variant
C/T	46231723	intron_variant
T/G	46231752	intron_variant
C/T	46231754	intron_variant
T/C	46231774	intron_variant
C/T	46231784	intron_variant
C/T	46231795	intron_variant
G/A	46231809	intron_variant
A/T	46231813	intron_variant
T/C	46231817	intron_variant
C/T	46231822	intron_variant
A/T	46231835	intron_variant
A/G	46231910	intron_variant
T/C	46231994	intron_variant
T/A	46232109	intron_variant
C/T	46232162	intron_variant
G/A	46232193	intron_variant
T/G	46232284	intron_variant
C/G	46232320	intron_variant
T/A	46232372	intron_variant
T/C	46232446	intron_variant
T/A	46232537	intron_variant
A/G	46232543	intron_variant
G/A	46232577	intron_variant
T/A	46232684	intron_variant
T/C	46232767	intron_variant
G/A	46232784	intron_variant
C/T	46233001	intron_variant
T/A	46233161	intron_variant
C/T	46233486	missense_variant	p.Thr668Met
C/G	46233493	missense_variant	p.Asp670Glu
G/A	46233534	stop_retained_variant	p.Ter684Ter
C/T	46233598	synonymous_variant	p.Phe705Phe
T/G	46233602	missense_variant	p.Leu707Val
G/A	46233645	missense_variant	p.Gly721Glu
C/T	46233732	missense_variant	p.Pro750Leu
A/C	46233733	synonymous_variant	p.Pro750Pro
A/G	46233847	synonymous_variant	p.Pro788Pro
G/A	46234238	missense_variant	p.Val818Ile
T/G	46234459	intron_variant
A/G	46234517	intron_variant
C/T	46234592	intron_variant
A/G	46234732	intron_variant
C/T	46234788	intron_variant
A/T	46234789	intron_variant
T/A	46234835	intron_variant
T/G	46235016	missense_variant	p.Ile838Met
T/C	46235083	missense_variant	p.Phe861Leu
T/C	46235140	missense_variant	p.Phe880Leu
A/C	46235164	missense_variant	p.Asn888His
C/G,T	46235194	missense_variant	p.Arg898Gly
T/C	46235275	intron_variant
A/T	46235411	intron_variant
C/T	46235511	intron_variant
C/A	46235745	splice_region_variant&intron_variant
C/T	46235805	missense_variant	p.His927Tyr
T/C	46235909	synonymous_variant	p.Ser961Ser
G/C	46236043	missense_variant	p.Gly1006Ala
C/T	46236051	stop_gained	p.Arg1009*
T/C	46236055	missense_variant	p.Ile1010Thr
T/C	46236056	synonymous_variant	p.Ile1010Ile
C/G	46236073	missense_variant	p.Pro1016Arg
T/G,A	46236132	stop_lost	p.Ter1036Lysext*?
C/G	46236142	stop_gained	p.Ser1039*
T/G	46236155	missense_variant	p.Cys1043Trp
T/G	46236182	missense_variant	p.Ser1052Arg
A/G	46236195	missense_variant	p.Ile1057Val
T/C	46236196	missense_variant	p.Ile1057Thr
G/A	46236214	missense_variant	p.Gly1063Glu
C/G	46236217	stop_gained	p.Ser1064*
A/T	46236263	splice_region_variant&intron_variant
G/A	46236456	intron_variant
G/T	46236485	intron_variant
G/T	46236486	intron_variant
G/C,T	46236510	intron_variant
T/A	46236523	intron_variant
T/A	46236691	intron_variant
G/T	46236749	intron_variant
T/C	46236968	synonymous_variant	p.Asn1090Asn
C/G	46237006	missense_variant	p.Pro1103Arg
A/C	46237078	missense_variant	p.Lys1127Thr
A/C	46237177	missense_variant	p.His1160Pro

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_31309.1

MFPVYMFIMVFLVWVGNGNGHKDDCPFWFDCGNHGKFGYPFTTLQRQDCGIWPVHGCDDHNPNSGQGVTLKIGSRWIRVRNFEMQLSITILYFVDDHLNHLLQSDSCETFNHNIPLPPSSPLGYFTINNNITIFKCNRTRQVKTPRTFLKNTTCDYDIFMGPPHSDEVSHNSLASSCSMVQLPVNGYAVSANPFAFLTADIPLQFHPSDECMQCLGAISLCHLDNQRKVHCAPREDKSPAWKLGLIIGIGAGLCNVITLVLILTLRRCKHGGALALFRSRNGADPHDNLDIMTDRIFFGVPVFSYKELQEATNNFDRNRKLGEGGFGSVYYGKLEDGREVAVKLLFEHNYRRVQQFMNEIEILTHLRHRNLVSLYGCTSRHSRELLLVYEYVPNGTLAYHLNRRDKLLTWPIRMQIAVETATALAYLHASDIIHRDVKSSNILLDTNFLVKVADFGLSRLLPTDASHVSTGPQGTPGYLDPEYFQHYQLTDKSDVFSFGVVVAELISSLPAVDAGRESDEINLVSLAIKKIQNGKLSELVCQSLGFESNEEVRRMVSSVAELAFLCVQGDRQLRPSMDEVVEALQKIQAGIVLLLAAGNANGHSSDCPDSFDCGSLGRFSFPFTTFEYRNCGALAIQGCNNPNKTALKQVQLTNGGKLLQVTNIVGWRRKTEVTIKDKDFLNLLESSNCNALSYNIIFPPSSPFGSFYLKNNITAFNCSRQENRNISKDFVNYRCLSFDFYFAPSSSDQDHLRSLTSSCSMVQLPVRQDSQFFRDPFGFLTPEITFQFQFSNDCWRCQGSGGNCRIDSNAKLYCAMRKSRVSTRKLALMLGIGLGPWVIFGLFFTLRYCKQKYAQSRNTYGDSFQNPDTEIDMIFFGVPIFSYKELQEATNNFDSTRKLGDGGFGIVYHAPQGSPGYLDPEYFQCYRLTDKSDVYSFGVVLMELISSMPAVDAARERDEVNLVNFFMTKIQKGKLRELVDPSFGFESDEVVKRMVTSVAELAFRCVQGDNELRPSMDQVLEFLKKIQSGNYESENPDKGDHGGNVMSSTSREEVQPPPSVSRNSGQIEILMNNKLSSPRAENRVRKRGEITQYMAALHKFKLFATPCGVGQSPTQSPRTSPLVQFRRPKTSLRTLLSLNRSPRRAVEKDPMRRHSLKDLFVSSPPREEQVHDHETTPMLVSVAVPHSWNNEPGSTNSPWTGFRCRSLLKRKYWRPLLLTIPE*

CDS Sequence:
>Vu_31309.1

Promoter Sequence:
>Vu_31309::LG8:46224490-46226490(+)

TTATTGAGCTGATATCATCTATGCCAGCAATTGATCTGAACCGACATAAGGATGAAATAAACTTGGCAGATCTAGCAGTAAGGAATATTCATAAAAATGCAATTGCTGAGCTGGTGGATCCTTCCCTTGGTTTTGAGTCAAATGATGATGTTAAAAGACAAATCATTGCAGTAGCAGAATTGGCTTTTCAATGCTTGCAACAGGACAAAGACTTGAGACCATCCATGGATGAAGTGTTGGAGGTGCTGAAAAGAATAGAAAGTGGGAAGGATGAAGCAGGGCATGCTCAGGATGAAGAGCCATCATCACCATCTTCAGTAGATCACGATGAAGTGAAATTGTTGATGAATATGAAGTTGCCACCTTCGCCAAGGGCCGTGACAGATAAATGGAACTGTCGCTCTACCAGTCCTAATGTTAGTGGTCAATAAATCTTGCACTTTGTAACTTTCTTCCTTTCTCACTAAATATAGAACTTTTATAACTAACTATATATCATCAGTTAAATTTTTTAATTAACTTAATAATATAAAACTTGTTTGTAATTTAATAGCTTCTACTGTCTCTGCACTTCTCGTCACAGCCGTGAACTATTACTGTCTGAATCATTTGGAATAGAGCTGTTTCCCATATCTACCCGAAATGAAGCGGCCATAGAGACTGATTATTTTCTAAAATTGGGTGTATTATATATCTGAATCAACAAAATTAAATAAACAGAAGGGACTACTAATACTAACTCTCAACATCTTATACTAGAGAGTTATGGGAATCATGTTTGTGGTTACTGGTTTCAAATTATGGTCACAATTGTAAATCTAGTCCCATTACGCAGGCTCAACTGGTTATGGAGTATATGCAAGCAGTGCCAGTTTACAACGGCAAAAAAGAAAAACTAACAGACTAGAGCAGCAAATATTTTAATACCCATTTATAAAAAGATTGAACATCAGTATTATACTAATATATATTATATGTAAAAAATTAAAATAAAATTTTAATTTATATATTATTAAGTTAAATTTAATAAAAATTAACATTAATTTATATTTTGTAAAGTTAAATTTAATTAATACTAAATTTTAATTTATATTTCATTTAATTTATATTATATTTTATATTTTTTTTTAATTTTGTTTTAATAATTTATAAAAAATATATTTTTTACATATTTGTATATATTCACGATTTTAAAATATTCGCGAATATTTTTAAATAAATATCGATATGGATAATGAGTTAATTTTTTTGTTGAATCAAGTTATAGATAGACTTGGTGTTCAACCTGAGTTATTGTCATCTAGAATAATGTTGTCGAAAAGGAAAATAATATTTTTTCAAAAATTTATAAAAGCTAATATTTTTATTCTGACTTATTTTATTTTTAAAATAAAGATGTTATTTTGCTAGTGTTGGGTACGTGTAAACTAAAAGAAATATGGTGTTCGGATACTTTTCTCTTTTACTCTTTCTTTTATTAATAATATATTATAATTAATAAAGAAATTAAAATTTTAAATTAAAATAATAATATTAATCGAGAGTATAATCAAAATCCAGTGTCAAATATCAGGATCAACAGAGTAACGATCTTTTGATGACGGGGTAAAGATATTTTAACACAGCAAAAGACAACTAAATTTATTTAAGATAAAACTATATTTATCGGACATTAAAAAATAATAATATTTTAATTAAATTTTAAATTAAATTTATAATATATATTATTATATTATTAAAAGAGAGTGTTAAATGAACTTAGTTTTAAGGAGACCGCCAAACAAACTGTTTACTCAAAGATTCAAAAGGGACATGTGTTGTGTTTCAGCTTTGGAAGTTGGGGACCAGGCCCTGCTTCTTTACTCGTTTTTCGAGTCAACGGCAGATATGAAACAACTTGTCAATCGTGTGACACACTTGCAGCGAGGAATGGGTTATAAATTATTGAGTTTATCATTTCTGGGTTCAATCACAACCATTTCTTTACCATCATCTGAGGA

Gene Sequence:

>Vu_31309(+)

ATGTTTCCTGTTTACATGTTCATTATGGTTTTCCTTGTGTGGGTTGGGAATGGAAATGGGCACAAGGATGATTGCCCATTCTGGTTTGATTGTGGAAACCATGGGAAATTCGGTTATCCTTTCACCACGCTACAACGCCAAGATTGTGGCATATGGCCAGTCCATGGTTGTGATGATCACAACCCAAACTCAGGGCAAGGGGTAACGTTAAAGATCGGATCAAGGTGGATTAGGGTTAGAAATTTTGAGATGCAATTGAGTATTACTATACTCTACTTCGTTGATGATCATCTCAATCATCTCCTGCAATCCGATAGTTGTGAGACATTCAACCACAATATTCCACTCCCTCCTAGCTCTCCCTTAGGTTACTTCACTATCAACAACAACATAACCATTTTCAAGTGTAACCGCACTCGCCAAGTTAAGACCCCCAGAACATTCCTCAAAAATACAACCTGTGACTATGACATCTTCATGGGGCCTCCACACTCTGATGAAGTGTCTCACAACTCTCTAGCTTCCTCCTGTTCGATGGTTCAGCTTCCCGTCAATGGCTATGCAGTCTCTGCAAATCCCTTTGCATTCTTAACTGCTGACATTCCCTTGCAGTTCCATCCGTCAGATGAGTGCATGCAGTGTTTGGGTGCCATAAGCCTTTGTCACCTCGACAACCAACGAAAAGTTCATTGCGCCCCAAGGTATTTCTAATATTTAGCAAATTCATATATCTTTAAGTATGTGATCGATCTTTCCTATTATGCAGGGAGGATAAAAGTCCAGCTTGGAAGCTAGGATTAATAATAGGTAATAAACATGGTCTAATACCCCAGAGTGGCATGCATTGCATAAAGTGTCATTGTTTTTCTTTTTATAATATTTAACCCTCTTTGTTCTCCAATTTCTTTGCTAAAAAACAATTTACTGTATTTAAAGGAATTGGCTTCCAAAATAATTTGCTGAACAATTTTTTTCATTGAGATGACATATCCTTCTATGATACTCTTATGCATGTAAGCTTAATAATTGGAAATGTATGCAACAATGGCAGGTATAGGTGCTGGATTGTGCAATGTAATAACATTGGTGTTGATCCTCACATTACGGCGCTGTAAACATGGTGGTGCACTGGCTCTGTTCCGATCAAGAAATGGAGCCGATCCTCACGATAATCTCGACATAATGACAGATAGGATCTTCTTTGGAGTACCCGTCTTCTCTTATAAGGAGCTTCAAGAAGCAACAAACAATTTTGACCGCAACAGAAAGCTAGGGGAGGGAGGATTTGGAAGCGTTTACTATGGTGGGTATCATATAAAATAGTTAATGTATGAAATTTGATTAACTTGTTAAATTAAAACCAAAAAATAAAAATGCAGGTAAGCTCGAAGATGGACGGGAAGTTGCAGTGAAATTGTTGTTCGAGCACAACTACAGGAGAGTGCAACAATTTATGAACGAAATTGAGATTCTCACTCACTTGCGACACAGGAACCTCGTCTCCCTCTACGGTTGCACTTCGCGTCACAGCCGTGAGTTACTGCTTGTGTACGAATACGTCCCAAACGGCACTCTTGCTTACCATCTCAACAGAAGGGACAAGCTGCTGACGTGGCCAATTCGGATGCAAATTGCGGTGGAGACCGCCACTGCCTTGGCTTATCTCCACGCTTCCGACATCATTCACCGTGACGTGAAAAGCAGCAACATTCTACTTGACACAAATTTTTTGGTTAAGGTGGCCGATTTTGGACTTTCGAGGTTGCTTCCGACCGATGCAAGCCACGTGTCAACCGGTCCGCAGGGGACTCCGGGGTACCTTGACCCTGAGTATTTCCAGCACTACCAGCTGACGGACAAGAGTGATGTATTTAGCTTTGGGGTTGTGGTTGCTGAGCTGATATCGTCGTTGCCTGCGGTCGATGCCGGCAGGGAAAGTGATGAGATAAACTTGGTGAGTCTTGCCATAAAGAAGATTCAAAATGGGAAACTCAGTGAGTTGGTGTGCCAATCGCTTGGCTTTGAGTCAAATGAAGAGGTGAGAAGGATGGTGAGTTCAGTGGCGGAATTGGCCTTCCTGTGTGTACAAGGAGACAGGCAATTAAGACCTTCCATGGATGAAGTTGTGGAAGCACTGCAGAAAATTCAAGCTGGGATTGGTGAGTGCGACATGTAGGAAAAAGAGAAACGCTGGTGCTGGGATCTCGCAGACTCAAGGAATAATATCAAAAAAAAAAATTGGCATCATTTTACTGGTAGTAAACTATCTTCATCGGAAAAGTTAATCTTTGGTATAGTGCATATTTTATCCAATTTTACTGGACACTGGACACTTTTTTTTGTTTTTTTTAAATTAACCGTGATTTCGTTCTACAGAGACTTCTGGTTGATAATTGAACCTTAGGTGAAATTGTTCAACCAAAATGACTTTTGTGTGGCTTTCAAAATCTTGTATTTGACTTTCTTTAATCTAATATGAAATTAATTTTGTTTATTTTTTTCCATTCATAAAAGACTTGTAAAGAATAAAGATTATTTCACGCAACTAAATATTTTACATTTATTTGACATTATTTTTAGTCATTTTTTATTCTTTTTTTTGAAACAATACAAAAATTTATATTTCTTTAACTATTTTATCTTTGTAACTCGTGTCAAATAAATGTAAAAATTATCATAATATCATTACTTATTCTAAAATTAAAACTAAAGCCGAACTTCCATAATAACCTGACTTTCTTATTTCTTTTAACCGCATATACATTTATGTTTATTAATAAATATTATAAAAATAAAATAGTCATAAAAATTAAATTTTTATATTTTTGAAAAAAGAAAAAGTAAAAAGTAAAAAAGTTAATATTAAATAATATAAAAAATTTATGTGTGAATTTCTGTTATTTTAAAGTACAATTTTTTAAGATTTAAAAAAAAACCCATTTGACACTTATTTATGAATAAAATAATCGTAAAATAAATAAATAAAATAGTATAATGAATGTAAAAAAAATTAAATGTTAAATTCCATTTCTCAAAAAAAAAGTTTCCTTCCTACTCTCAGTATTTTTTAGTATATGTTTTTTATAATTGTTATTTTTTATAAAAAAATTATTTAAATATTTAAAGTATTAAAAGAACAAATAAAGATTGGGTACAAGTATTCCGGCCAGCCGTTTCTATCTATAATCATTACAAAATGTTATGTTAATACAATGTTAAGCGATAATGTCACAATCATTCGGTCTGATTTATTTGCGAAATTATTTATAAACTTTTTAATGTTTCTTGACCCTTTTTATTTTCTTTTTATGAAACTAAGTGTAGTTTCTAATGATTTCTTGTTTAGTTAGTCCTTGATTATTTTTTCCATTATTAGTTTGAGTAGATAATCTTTTGACAATAAAGTCTTCACGAAGAAAATAGAAAATTTGTAGGAAAAACTGAAAAGGTGATGTAGTATTGTGATCAAAATTAATAATTGACTTTGACACCATTAAAAAAAATCAACTATTCATAATGTTACTATGGGCTCTCATAGCCGATCGATCGGTAAAGATGCAGGAGAGTCTCTACGTCACTTTGGACTCATATACTACTGATTAGTTAGGGCTTGGGCTAATATACTACCGATCGGTTAGGACGACATTCGATTCTAAGGAATCGAACGATCAGTATGCAGGAAAAAGCTTATTCGTCGTTCAGTTCCGACAACCATTAAACAATTAAGGTTTGCATTAATGACCATTAAGAGGTAAATTAATTGGTCAGATTCCTTTGAACTTTATAAATAAGTTTTAGGTTTGAGGTAAACTCACGTTCAACTCATACTCTACTACGCCCTACTTACATCCGAGCAAGACTTAAATATTTAACTATAACAAATAATTCATAAAACCGCAGTCAAGACTGAAGTTCATCGAGCGACCAATACTAAAGGTGACTGATCAGTCCATACTGGAAACAGACAAGCGGAGTACACAACTTAAACATCGAAGTCACGTCGAAAATATTAGTATCTCGATCTCACAAAATCCCTACCGAAATACATAATAATTTATATAAACCATAATAAGAAAAAATTACAAAGCACTGATTGTATTGAAAAGTTGAATCAACAAAATTAGAGAACCCCCAACTTTTGAACTCTTGGAAATCCCAGCCCCATTTCTCAAACAAATGAACCTTCTCTTTGAATATCTCCCGCACAAGCATTTTGTCCACTAGCTAGGAATGGTAGCACTAGAGTAAGGCAACTAGGTTTCAATATTGCCAGAATTTTAAAGGAAAATTGTAAAGTAATACTTTTACTTTCTTATTTAACATTTTTTACTTAATTTATATTTCAAAATAAAAAAAATAATTTTATTAGTGTTGTGAGATGCAAAGTAAAAACGAACGTATTCATGTATCATCATCCTTAAAGGAAACTGAATTTTGAAGTAAATGGTTGAGTTTTACAAGAAACTCAATTCATTAAAGAAGTAAAAACAAAATTTATTAAAAAAATTAGGGTTAAATATGTTTTTAGTCCCTAAACTATTGGCCGTTTTTGGTTTTCGTCCCTCTTTCAAAGTAAGGTACAATTTGGTCCTCATTCTTTTCGAAACGTTCGTTTTAGTCCTCGGAATTTTGGTTTTAGTCCTCATTTGTTGCTAAATGAGGACCAAATTTTTAAACAGTGTTTAGTTTTCGAGGACTAAAACGAACGTTTCGAAAAGAATGAGGACCAAATTGTTCCTTACTTTGAAGGAGGGACGAAAACCAGAAACGGCCAATAGTTTAGGGACTAAAAACATATTTAACCCAAAAAATTAAAAACATATTTTTAACAAAGTAAAAACTATACGTTAAGATGGGTCAACATTGCACTTAGGGTCTAAAATAATTTTACACAAAATTTAGAAACTAAAAGCAAAATTTTAATTCAGAGTGATTTAAGATTTTAATGTAATAAATATTTTGTTTTGGTAGAGATGGACATCCTTACTCAAAGCATTCACAATAGTTTTAAACACCGGATGAACTTCCTAACAGTTTTCCATTATCTATGTTTCATTGCTTGTTTTCTCTCTTCCCTCTCCAAGCGATGAGGGCGGATAAGTCAATGATTTATTTAATAATTATTGTATTAAAAATGAATAATAAAAATTAATTATTTGTTTTTTCTGTCAGACCGTATATATATAAATATTATAATAAGTTTACCTGACTCATTAATGATCAATAAATGACTCTCATTATTTTTATTAATCTCTAGTTAATTACTATTATTCTCTTTAACTGTTCATTAATAACTATTATTATCCAGATTAATTATCAGTTAATGATTATTCTGGACCGAGATTAATAATATTTAAAGTTATTTTGTTATAAGAATCAAATCAAAATTCAGTCGTTGAAGAAATAATCTTAGAAAAAACATTAAAGTCTGACTTATACTAATTTTATTAGAAAGTATTTAAGTATATTTATATCGTAAGGTCGAATTCTGAATAAAGATAAAATATTGCAGCTACTTTATTTCATTTTAATTTTAAATTACAAACTTTCTAATTTTTGAACAATTTTTTCTTGATGATTATTGAAATTATCATCTAAATCACGTTTAATGGTCAACTGTCGACTCACATTTTAGTCTGGGACAACTTAGTTACACGCACGAATAACTTTTTCGTTTGATTCTTGGGTGGTCGATTTTTTGAGGTGTGCTTTTCAAACTCAATTTTTGAGCGGAGACGAAAATGCTGACTATATTAGCCAATGGTTTTATTCTTTGCGAAACCGACAATAAAGTTTAAAGTGTTAAAGATCTGGTCAAGAAAATAAAAGACAAACAGTTAGACTATTAATTGTTTTTTATTTACTACTTAAAATTAATAATATTTTTATAATTATTTATAACAATTAAGGAATTGTTTTTGTCATCATTGTTAATAGAATCATCCTAGATATTTTATATGTTTTTTAATAAAAATATTAAAAATCACTCACAAAAATAGTAGAATAAGATAACAATCACAAGAACAAAAAATTAAAAATTATATAAGTATGTAATAAATTAAAAAATTAATATAAATTAAATTAAAAGTACAAAAATTAAAGAGAAACTTAAAGTTTAATTAAATCTTATATATTCAAGTATATATATTACTAATATTATTTAAATAACACATATTGCACACTCTTTAACTTCTTAATAAATTTTATTAGAAAAAATGTAGAGGGTTGTAAAGGTATCACCCTTTTTTTATTATTTTGTCAGAATTTGAAAAAAAATTAGTCTTTTTTTTTTTTGCGTGTGTGGTGACAGATCTACGACTAATTGGTTGAGTGCATCTGTACCAAAGAGTATGATTCGAGTTTCACACCGCGGCGGGTATTTATTGTCAGATAGCTAGCTATCTTTGGAAAGTCAAATTCCAAGAAACAAAGTGTTAAACACTTCTACCTGGTCAAGAGTCTGAGCAACCGAGTTCGTCAGGGTGGACGTGAGTATTATAAGAATTTATCACATTTTTATGATCTTTAGGACTTTACGCATTTAATATTAAATCCACATATCAACAAGGTAACACGGAGATTAAATAGCCATAAACAAATCACAAATCACCTAAATTCTTGCTCCCAATGTACATTGATATTCGCAGTCAACTGGTTTATAAGCGAGATACTAATATATAGAGGCATTCCATGGTTGTGGTGCTTCTATTGTATCATACGAAAATGTATGATGTTTATGTAATACTTTTGTTTTGTCATCTGACAGTGTTGCTTCTCGCAGCCGGAAATGCAAATGGGCACAGTTCTGACTGTCCGGACTCATTTGATTGTGGAAGTTTGGGAAGGTTTTCCTTTCCCTTCACCACCTTTGAATACCGCAATTGTGGTGCTTTGGCAATCCAAGGCTGTAATAATCCTAACAAGACAGCACTGAAGCAAGTCCAGTTGACCAATGGTGGAAAACTTTTACAAGTTACAAACATTGTTGGTTGGAGACGGAAGACTGAAGTTACCATTAAAGATAAGGACTTCCTCAATCTTCTTGAAAGTTCTAATTGTAATGCCTTGAGCTATAATATCATCTTCCCTCCCTCCTCCCCTTTCGGTTCTTTTTACCTGAAAAACAATATAACCGCCTTCAATTGCAGCCGCCAGGAAAACCGCAATATTTCAAAAGATTTCGTCAACTATAGATGTCTTTCCTTTGATTTTTACTTTGCCCCTTCATCCTCTGATCAGGACCACCTTCGCTCTTTAACCTCCTCATGTTCAATGGTTCAACTTCCCGTCAGACAAGATTCCCAGTTCTTCAGAGACCCATTTGGATTTTTAACTCCTGAAATTACCTTTCAATTCCAGTTTTCAAATGACTGTTGGCGGTGTCAGGGAAGTGGGGGCAATTGCCGAATAGACAGCAACGCAAAATTATACTGCGCCATGAGGTAATACTCATGTCTCAACAAAATTTCTTCATTAATATTTACATACATAACCAGATTTCTACAATTTTCACGCTTTTTTATTTCCCAACTGCTAAAAATCAAGTTAACTCTATGTTTTTTCTCATCAACACAAGAGTTAAAATTATGTAATTATTTTCTACTTTATTACTTCCCCGTTTACTCTGCTTGACTGTAATATTATAGAAAATTTTGCTTTATCATCTAGTGATCGCATATAACTAGGTTCACTTCACTTCTTTGTCATCTGATCGGAACAATTGCTCTGCTTTAAATTATGCAGGAAAAGTAGAGTTTCGACTCGGAAGCTCGCATTGATGCTAGGTAACTTACACATCCTGACATTCCCCTTCCGAATCTAAGTTTTCACTCCGAAATTTACAATAGAACACGTTTTTTCATTCATAAAATGAAAACTTAGGGAGAATCAATTTCTCAACACGAAACTTTGTCCCATGCGTATGTGTTTCATGATAATGGCTTATTCTCTTACAATTTCCTTTAATATTTTATAAAGAAAATAAAGTTAACATTTATAAAACATACCAAAACTCAATACCTGTCACAAAAAAGTTGTGAATAGTGTTTTAGAATTATTCACAATTTCATACTTTGCCTATTCACCAAGTTTAATATCACATTCTGGTTTTCTCCGACATTTTTTAAAAGAGAACTCTTGAAGATTATAGATAGAAACGAAGTGACACAAATTTAACATAAGATCTAATAGGGAATTCCCGTCCCCTTACAAAGTTTTAGAAAGCCGTATTGATTTCATCATCACTGATTTCTTTAAATTATTTAGGAAAAATTTAATTAATACCTTAACTTAAATAATCAAAAGTATTCTTTTTAAAATATATTATTAGGACACGTGAAACATTTTTTTTTTTACAGTTTTAATTAAAAAACTTAATACAAAATTTGTCATAGAAGTTATTTTTCTCCTCTTTGGTCATTCACTGGTTGACATTAAAAAGATGACTTTAATTTGAGTCTCTGTTAGTTGTGAAACTAATTAAAGTCGCAATCTTTGAAGGAATCGGTCTTGGACCATGGGTCATATTTGGGTTGTTCTTCACGTTACGCTACTGCAAACAGAAGTATGCTCAATCGAGAAACACTTATGGTGATTCCTTCCAAAATCCAGACACAGAGATTGACATGATCTTCTTTGGGGTACCCATCTTTTCGTATAAGGAGCTTCAAGAAGCAACCAACAATTTTGACTCCACTAGAAAGCTCGGAGATGGAGGCTTTGGCATTGTTTACCACGGTCAGCATACAATACACTACATACCTCATTTCCACTGCAGAGATACAATTACTTTTCATCTTATTAATTCGCTTAAGCATTTATCTATAAAAAACCAGGGACACTGAGAGATGGAAGGGAAGTTGCAATCAAACATCTATTTGAGCACAATTACAAGAGAGTGGAACAGTTTATGAATGAAATTGAGATCCTTTCTCGCTTGCGCCACAGAAATCTCGTGTCCCTTTATGGCTGCACTTCACGTCACGCCCAAGAGCTGTTGCTTGTGTATGAGTACATTCCAAACGGCACAGTTGCTAGCCATCTCCACGGTGAATTAGCAAGAGTTGGTTTGCTGACATGGCCCATTCGAATGCAAATTGCCATGGACACTGCTACTGCACTCTCCTATCTCCATTCTTCTAACATCATTCACCGTGATGTGAAAACCAATAACGTTCTGCTTGACATTAATTTTTCCGTTAAGGTGGCAGATTTTGGGCTTTCAAGATTGTTTCCCAATGATGTTAGTCACGTGTCCACAGCTCCGCAGGGATCTCCGGGGTATCTTGATCCTGAATATTTTCAATGTTACAGGCTCACCGATAAGAGTGATGTGTATAGCTTTGGGGTTGTGCTAATGGAGCTAATATCATCCATGCCAGCAGTTGATGCAGCCAGGGAAAGGGACGAAGTTAACTTAGTAAATTTTTTCATGACAAAGATTCAAAAAGGAAAGCTTCGTGAGCTTGTAGACCCATCCTTTGGATTTGAGTCAGATGAAGTCGTTAAAAGGATGGTGACTTCAGTGGCAGAATTGGCCTTTCGGTGTGTGCAGGGAGACAACGAATTGAGGCCTTCTATGGACCAAGTTCTGGAATTCCTCAAGAAAATCCAAAGTGGGAATTATGAGTCTGAGAATCCAGATAAAGGAGATCATGGTGGTAATGTTATGTCGTCTACCTCAAGGGAAGAAGTGCAACCACCACCATCAGTTTCACGGAATTCGGGTCAAATTGAAATTTTAATGAATAATAAGCTTTCTTCGCCAAGGTCCTACACCGAGAAATGGGAAAGTGAATCTACAACGCCCAATGTCAGTGGTTAACCACTTTTCGGCTAATAATAACAATAGTTTTTCACGTTTTGGTAAAAATTAAGAATATATTACCGAGCCTTTTTTGTACTCTCGATGCTCCTAGTTCCATTACACTAATGATTGATTACGAATTTCAAAGAGACAAGGACTTGGGGGGAAAAAAAGTAAAGAAAAATCGAAGGGAGAAGAAAAATTCTGTAATCTACGTCACATAATTCGTTATTTATCAGTCAAATCAATGTAACTATTTGTTAGTATCGCGCGTGACGTTGTACTGTAGTACATTTAATGTTTGTTTTTGTGGAGGATATATTTGTTCTTTAAAATCGCAAGATCCAGTTGGTGCAACGATTACGTTTTATTTTATTGAAAAGAAAAAAAGCCAGATGGGAAAATGGTTGGGCCTACTAGCGATTCCATTTCCATGGTCTTGGCATGAGTCATAGTGCTTTTTAGTCCAAAGTATCAAAGGAAGAATTAAAGAGAAGTAATGAATGTGTGTGGAAGAAAAGATGCAACCGTTCCCAAAATAGATCCCATGCTTGTTAGGAGCAATCAATCACCTTTGTCCCCTCACAATTATCAATATTCAAATTCAAACTCACTTTAACCCTCTTTTAATAGAGCAGAGAACAGAGTGAGGAAGCGTGGAGAAATAACTCAATACATGGCTGCATTGCACAAGTTCAAACTCTTCGCAACCCCGTGTGGAGTGGGGCAAAGCCCGACCCAAAGCCCGAGGACGAGCCCGTTGGTTCAGTTCCGGCGGCCCAAAACATCCCTGCGCACTCTTCTTAGCCTGAACCGGTCACCTCGGCGAGCCGTGGAGAAGGATCCCATGCGGAGACACTCCCTGAAGGACCTCTTTGTGTCATCGCCGCCACGAGAGGAGCAGGTGCACGATCACGAAACTACTCCAATGTTGGTTTCCGTTGCGGTTCCGCATTCTTGGAATAACGAACCCGGTTCAACGAACTCGCCTTGGACCGGTTTCCGTTGCAGGTCGTTGTTGAAAAGGAAATACTGGCGCCCTCTCCTCCTTACTATTCCGGAATGA