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_35263	LG10	19713504	19720358	PREDICTED: putative disease resistance protein RGA1	Map

Annotations

category		relationship type		keyword

SNP	Position	Effect	Amino acid change
G/T	19713647	intron_variant
T/C	19713655	intron_variant
T/C	19713700	intron_variant
C/T	19713718	intron_variant
T/C	19713747	intron_variant
A/G	19713821	intron_variant
G/A	19713827	intron_variant
C/T	19713867	intron_variant
C/T	19713915	intron_variant
C/T	19713918	intron_variant
C/T	19713945	intron_variant
A/G,T	19713955	intron_variant
C/T	19713962	intron_variant
G/A	19713973	intron_variant
A/T	19714030	intron_variant
G/A	19714179	intron_variant
G/A	19714257	intron_variant
A/G	19714279	intron_variant
A/G	19714280	intron_variant
G/A	19714292	intron_variant
A/C	19714551	missense_variant	p.Thr80Pro
C/T	19714581	stop_gained	p.Gln90*
G/A	19714670	synonymous_variant	p.Gln119Gln
G/A	19714672	missense_variant	p.Gly120Asp
G/A	19714700	intron_variant
C/T	19714717	intron_variant
G/A	19714745	intron_variant
C/T	19714751	intron_variant
C/T	19714753	intron_variant
C/T	19714761	intron_variant
C/T	19714772	intron_variant
G/A	19714789	intron_variant
G/A	19714803	intron_variant
G/T	19714834	intron_variant
G/A	19714835	intron_variant
A/G	19714882	intron_variant
C/T	19714890	intron_variant
T/C	19714916	intron_variant
T/A	19714917	intron_variant
T/A	19714919	intron_variant
T/C	19714922	intron_variant
T/A	19714927	intron_variant
A/C,*	19715068	intron_variant
C/T,*	19715086	intron_variant
A/G	19715112	intron_variant
C/T	19715128	intron_variant
T/C	19715414	missense_variant	p.Cys153Arg
G/A	19715437	synonymous_variant	p.Lys160Lys
A/T	19715441	missense_variant	p.Ser162Cys
A/G	19715461	synonymous_variant	p.Ala168Ala
C/A	19715565	missense_variant	p.Pro203Gln
A/G	19715605	stop_lost	p.Ter216Trpext*?
T/C	19715648	stop_lost	p.Ter231Argext*?
A/G	19715760	missense_variant	p.Lys268Arg
G/T	19715807	stop_gained	p.Glu284*
A/C	19715808	missense_variant	p.Glu284Ala
T/C	19716722	stop_lost	p.Ter589Argext*?
G/C	19716849	missense_variant	p.Trp631Ser
C/A,G	19716852	missense_variant	p.Thr632Lys
G/A	19716907	synonymous_variant	p.Ala650Ala
T/G	19716917	missense_variant	p.Cys654Gly
C/T	19716982	synonymous_variant	p.Phe675Phe
G/C	19716989	missense_variant	p.Val678Leu
A/G	19717019	missense_variant	p.Ile688Val
A/T	19717026	missense_variant	p.Glu690Val
A/C	19717033	missense_variant	p.Glu692Asp
T/G,A	19717176	stop_gained	p.Leu740*
A/G	19717177	synonymous_variant	p.Leu740Leu
T/C	19717181	stop_lost	p.Ter742Glnext*?
A/G,C	19717182	stop_lost	p.Ter742Serext*?
G/A	19717290	stop_gained	p.Trp778*
G/A	19717306	synonymous_variant	p.Arg783Arg
C/T	19717311	missense_variant	p.Ala785Val
C/A	19717319	missense_variant	p.Gln788Lys
T/C	19717337	missense_variant	p.Ser794Pro
G/C	19717340	missense_variant	p.Glu795Gln
A/G	19717356	stop_retained_variant	p.Ter800Ter
C/A	19717385	missense_variant	p.Leu810Ile
A/C	19717389	missense_variant	p.Glu811Ala
C/A	19717426	synonymous_variant	p.Ser823Ser
C/T	19717465	synonymous_variant	p.Ser836Ser
G/A	19717498	stop_gained	p.Trp847*
G/A	19717569	missense_variant	p.Gly871Glu
G/A	19717585	synonymous_variant	p.Arg876Arg
G/A	19717601	missense_variant	p.Gly882Arg
C/A	19717610	missense_variant	p.Pro885Thr
G/C	19717626	missense_variant	p.Ser890Thr
A/G	19717644	missense_variant	p.Lys896Arg
G/C	19717646	missense_variant	p.Gly897Arg
G/T	19717651	missense_variant	p.Glu898Asp
G/A	19717654	stop_gained	p.Trp899*
G/A	19717658	missense_variant	p.Glu901Lys
C/T	19717711	synonymous_variant	p.Gly918Gly
G/T	19717740	stop_lost	p.Ter928Leuext*?
C/G	19717750	synonymous_variant	p.Thr931Thr
G/A	19717771	synonymous_variant	p.Glu938Glu
G/T	19717787	missense_variant	p.Asp944Tyr
G/C	19717791	missense_variant	p.Gly945Ala
G/C	19717813	missense_variant	p.Lys952Asn
G/T	19717818	stop_lost	p.Ter954Leuext*?
A/G	19717822	stop_lost	p.Ter955Trpext*?
G/C	19717829	missense_variant	p.Glu958Gln
A/G	19717836	stop_retained_variant	p.Ter960Ter
T/A	19717898	missense_variant	p.Phe981Ile
G/A	19718135	missense_variant	p.Ala1060Thr
G/A	19718449	synonymous_variant	p.Thr1164Thr
A/G	19718452	synonymous_variant	p.Arg1165Arg
C/G	19718460	stop_gained	p.Ser1168*
A/G	19718523	missense_variant	p.Lys1189Arg
A/T	19718526	missense_variant	p.Asn1190Ile
C/G	19718529	missense_variant	p.Thr1191Arg
T/C,G	19718535	missense_variant	p.Ile1193Thr
C/A	19718540	missense_variant	p.Leu1195Met
T/A	19718541	missense_variant	p.Leu1195Gln
A/C	19718548	synonymous_variant	p.Gly1197Gly
G/T	19718555	missense_variant	p.Val1200Phe
A/T	19718567	missense_variant	p.Ile1204Phe
G/T	19718603	splice_region_variant&intron_variant
C/A	19718605	downstream_gene_variant
T/G	19718624	downstream_gene_variant
T/G	19718638	downstream_gene_variant
G/A	19718642	downstream_gene_variant
T/G	19718643	downstream_gene_variant
C/T,G	19718713	downstream_gene_variant
G/A	19718743	downstream_gene_variant
A/G	19718756	downstream_gene_variant
T/C	19718786	downstream_gene_variant
A/G	19718795	downstream_gene_variant
A/G	19718882	downstream_gene_variant
G/A	19718887	downstream_gene_variant
A/G	19718902	downstream_gene_variant
G/A	19718912	downstream_gene_variant
C/T	19718923	downstream_gene_variant
A/G	19718963	downstream_gene_variant
A/G	19718965	downstream_gene_variant
A/T	19718993	downstream_gene_variant
T/G	19719290	downstream_gene_variant
A/T	19719291	downstream_gene_variant
T/C	19719375	downstream_gene_variant
G/A	19719409	downstream_gene_variant
C/G	19719449	downstream_gene_variant
G/A	19719531	downstream_gene_variant
G/A	19719547	downstream_gene_variant
C/T	19719614	downstream_gene_variant
C/T	19719615	downstream_gene_variant
G/A	19719735	downstream_gene_variant
T/C	19719745	downstream_gene_variant
T/A	19719760	downstream_gene_variant
G/A	19719771	downstream_gene_variant
A/T	19719779	downstream_gene_variant
G/A	19719803	downstream_gene_variant
A/G	19719837	downstream_gene_variant
G/C	19719850	downstream_gene_variant
A/T	19719968	stop_lost&splice_region_variant	p.Ter1232Cysext*?
C/A	19719989	downstream_gene_variant
A/C	19719990	downstream_gene_variant
A/G	19720001	downstream_gene_variant
G/A	19720063	missense_variant	p.Arg1239Gln
G/A	19720066	missense_variant	p.Arg1240His
A/G	19720079	synonymous_variant	p.Leu1244Leu
G/A	19720083	missense_variant	p.Gly1246Arg
A/C	19720100	missense_variant	p.Arg1251Ser
C/T	19720102	missense_variant	p.Thr1252Met
G/C	19720105	missense_variant	p.Gly1253Ala
A/G	19720114	missense_variant	p.Asn1256Ser
G/A	19720126	missense_variant	p.Gly1260Asp
T/C	19720154	synonymous_variant	p.Ser1269Ser
A/G	19720179	missense_variant	p.Thr1278Ala

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_35263.1

MTNHAVKDWLQKLTDAAYVLDDISLMNVQFTSQIFDGFHKCESLSLMGDIRITRVEQSQTKIKSVPIAVTPEGFWCCPTTVGFQKSLKPQNPLNKLKPSPPAPKSSSQKKKSRVVREKQGLPHQDQLGTYLGVEQQIQKLSNNLIAIRAVLRDAERKQITSEVLKNWLQKLTDAAYVLDDILDECSIHFTKMHSDDGHTSCLSRLHPNDILFRFNIDKRMKDITQRFHDIHEEKIRFNLEHGVTEAQRVDDSWRQTSSDITEPVVYGRNQDREQIVKFLLEDARNSEELSIFPIVGMGGLGKTTLAKKVFNDHRVCKHFELTIWVCVSDDFNTMTILQSIIECITGQNPNINSLEAMRKKVEDVLHGKRYLLVLDDVWNEDPEKWEQLKGKLQCARAAKGATILVTTRLEEVASTMQTHPAYRLKELPGDESWSLFKYHAFGPNREEKEELVAIGKEIVRNCIGLPLAIKTLGSLLRDQSEVRQWIYVKESSSKTNEENSIMRALKLSYSNLELSLRRCFSFCAIFPKDFEIDKEELIHLWMANGFIESERNIEVEDVGNKVWNKLYSRSFFQEAKCDEFGMVKSFKMHDLFHDLAQSIMGEECAAFVEGRLTPLSSRVHYSTLLSSDVSFGRFKHAFKKVESLRTFLDLRTSFVLGNVAPVPSNHSLRALCTRSSLLSPLKDLTHLRYLSLNCGYKANLNNVICQMRKLQILKLKRSTYLHGLPKNLTQLQDLRHIVMDYCNSVVETLPKISKLRHLRTLSIFVVGSKPGCGLAELHGLNLGGRLRIRGLENVPNEWDAKQANLIGKKDLNILHLSWDGNANPKGSDVSVERVLEALEPPSTLKSFGMNGYKGRQLPSWMRSSLVLRDLVEVELSGCDNCEELPPLGKLAHLKRLKVSGMKNVKWIDGETYDGVEEKAFPSLEELIVDNLPNLERLLRDEGVEMVPRLSQLRIDDVLNFKVPRLPCVETVHARGIEAVTSFMEGVGESMACLKTLSIKFIKGVVVLPDEFRRLGALQELYIREWYDVEYFPEHVLEGLTSLRTLSIKNCKKLKSLSEGVRHLACLESLTIGNCPELVTLPSNMNQLTALRNVSIIQGYSTLPYGLQRVPSLRVLGIYACTCTSLPDWLGDMTTLEELRIHCCWELRSLPSSIQRLTNLSHLAIRECPHLKKRCKRETGEDWQYIKHIPKIQLYFWREPTFCDEFKSILFTSPLSIACGSLFNLNVSGLQDVEVTDGGFRRHQHLHGERLLRTGTFNSIFGDCLGGQSASAASWEIASTASPASTIEEIISLVKNSNHTSQSKFVLAIHPKFQAAHPFEGSQNSWLYLLLHHSSDSM*

CDS Sequence:
>Vu_35263.1

ATGACAAATCATGCTGTGAAGGACTGGCTGCAGAAACTCACAGATGCAGCATATGTGTTGGATGATATATCCTTGATGAATGTTCAATTCACTTCACAAATATTTGATGGCTTTCATAAATGTGAATCCTTGTCACTTATGGGGGATATCAGGATTACCCGGGTAGAGCAAAGTCAAACAAAGATTAAAAGTGTTCCAATTGCTGTCACCCCTGAAGGATTTTGGTGTTGCCCTACTACTGTTGGGTTCCAGAAAAGCCTCAAGCCTCAAAACCCTTTGAATAAACTCAAACCCTCCCCACCAGCTCCGAAGAGCAGTTCCCAGAAAAAGAAGTCTCGGGTAGTGAGAGAAAAGCAGGGCCTGCCCCATCAAGATCAACTTGGAACTTACTTGGGTGTTGAACAACAAATTCAGAAGCTTTCCAACAACCTCATCGCAATTCGTGCTGTCCTCAGAGATGCTGAGAGAAAGCAAATAACAAGTGAAGTCCTCAAGAATTGGCTGCAGAAACTTACAGATGCAGCATATGTCTTAGATGATATATTGGATGAATGTTCAATTCACTTCACAAAGATGCACTCTGATGATGGACATACTTCATGCCTATCCCGTCTCCATCCTAATGACATTCTCTTTCGTTTCAATATTGACAAGAGGATGAAAGACATCACACAAAGATTTCATGACATTCATGAAGAAAAGATCAGGTTTAATTTAGAACATGGTGTCACAGAGGCGCAAAGAGTGGATGATAGTTGGCGCCAAACTAGCTCTGACATTACAGAACCTGTAGTTTATGGCAGAAACCAGGATCGAGAGCAAATTGTGAAGTTTCTTCTGGAAGACGCTAGGAACAGTGAAGAGCTCTCTATCTTTCCCATAGTTGGTATGGGTGGACTTGGAAAAACAACATTAGCCAAGAAGGTTTTCAATGATCACAGGGTATGCAAACATTTTGAATTGACAATTTGGGTTTGTGTTTCTGATGATTTCAACACCATGACAATACTACAATCCATCATAGAATGCATCACCGGACAAAATCCCAATATCAATAGCTTAGAAGCAATGCGGAAAAAGGTTGAAGACGTGTTGCATGGGAAGAGGTATTTACTTGTTCTTGATGATGTGTGGAATGAAGACCCAGAGAAATGGGAGCAGTTGAAGGGAAAGTTGCAGTGCGCAAGGGCAGCAAAAGGAGCTACCATTTTAGTCACTACTCGACTCGAGGAAGTTGCTTCCACCATGCAGACGCATCCTGCTTACCGTTTGAAAGAATTGCCAGGAGACGAAAGTTGGTCGTTGTTCAAATACCATGCGTTTGGACCAAACCGAGAAGAAAAGGAAGAGCTCGTGGCAATTGGCAAAGAGATCGTGAGAAACTGCATTGGTTTGCCGCTTGCCATAAAAACACTGGGAAGCCTCTTGCGTGATCAAAGTGAGGTAAGACAATGGATATATGTAAAGGAAAGTAGTTCTAAGACAAATGAGGAAAATTCTATTATGCGTGCTTTGAAACTTAGCTATTCTAATTTGGAGTTGTCATTGCGGAGATGCTTTTCTTTTTGTGCAATTTTCCCCAAAGATTTTGAAATAGACAAGGAAGAATTGATTCATCTCTGGATGGCTAATGGGTTTATTGAAAGTGAAAGAAACATAGAAGTGGAGGATGTTGGAAATAAAGTGTGGAATAAATTATACAGTAGATCATTTTTTCAGGAAGCAAAGTGTGATGAGTTTGGTATGGTCAAAAGTTTCAAGATGCATGATCTATTTCATGATCTTGCCCAGTCTATTATGGGTGAAGAATGTGCGGCTTTTGTGGAAGGAAGGTTGACTCCGTTGTCAAGTAGAGTTCACTATTCAACCTTGTTATCTTCTGATGTTTCTTTTGGACGATTCAAGCATGCTTTCAAGAAAGTTGAATCCCTGCGGACTTTTCTTGATTTGCGGACTTCTTTTGTTCTTGGTAATGTTGCCCCGGTGCCATCAAACCATTCTCTCCGAGCATTATGCACAAGGTCTTCTTTGTTGTCCCCACTCAAGGATTTAACACATTTGAGATATTTGAGTTTGAATTGTGGTTATAAAGCAAACTTAAATAACGTTATTTGTCAAATGCGGAAATTGCAAATTTTGAAATTGAAACGTTCAACATATCTTCATGGACTGCCCAAAAACTTGACACAATTACAAGATCTAAGACATATTGTGATGGATTATTGTAATTCAGTAGTAGAGACGCTTCCCAAAATTAGCAAGTTAAGGCATCTAAGAACACTAAGCATTTTCGTGGTGGGTTCAAAGCCAGGGTGTGGCTTAGCAGAGTTGCATGGCTTAAATCTGGGAGGCAGGCTAAGAATCAGAGGCCTTGAGAACGTTCCGAATGAATGGGATGCTAAACAAGCAAATTTGATTGGTAAGAAGGACTTGAATATCCTGCACTTGTCATGGGATGGTAATGCTAATCCAAAAGGTAGTGATGTAAGTGTGGAGAGAGTATTGGAAGCCCTAGAACCTCCCTCAACTCTCAAGAGTTTTGGGATGAATGGATATAAAGGAAGACAGCTACCCAGTTGGATGAGAAGTTCTCTAGTTTTGAGAGACTTGGTGGAAGTTGAGCTCTCCGGCTGTGACAACTGTGAGGAGCTTCCCCCACTTGGTAAACTAGCACACTTGAAAAGGCTAAAGGTGAGTGGAATGAAAAATGTGAAGTGGATAGATGGTGAGACGTATGACGGCGTGGAGGAGAAGGCATTTCCATCGTTGGAGGAACTGATTGTTGATAATTTACCAAATTTGGAGAGGTTGTTGAGGGATGAAGGAGTAGAGATGGTCCCTCGTCTTTCCCAATTAAGAATTGATGATGTGTTGAACTTTAAAGTCCCACGTCTTCCTTGTGTTGAGACAGTTCATGCTAGAGGAATTGAGGCAGTGACTTCTTTCATGGAAGGGGTTGGGGAGAGTATGGCTTGTCTAAAGACCTTAAGCATTAAATTCATTAAAGGAGTGGTGGTATTACCCGACGAATTCAGGAGGTTGGGTGCACTACAGGAACTATACATTAGAGAATGGTATGATGTGGAGTATTTTCCAGAACACGTGCTGGAAGGTCTAACATCTCTTCGAACTCTGTCCATTAAAAACTGTAAGAAATTAAAATCATTGTCTGAAGGAGTGCGACATTTGGCTTGTCTTGAGAGTTTGACGATCGGTAATTGTCCAGAGCTGGTGACTCTACCAAGCAATATGAACCAACTAACTGCCCTTCGGAATGTCTCAATTATTCAGGGATACTCCACATTACCTTATGGCTTACAACGTGTCCCTTCCCTACGAGTTTTAGGTATATATGCATGCACATGTACTTCATTGCCGGACTGGCTGGGAGACATGACTACTCTTGAAGAATTAAGAATTCATTGCTGTTGGGAGTTGAGGTCACTGCCGAGTAGCATTCAACGCCTCACCAACTTGTCTCATTTAGCGATACGCGAATGTCCTCATCTGAAAAAGCGGTGCAAGAGGGAAACAGGAGAGGATTGGCAATACATAAAGCATATTCCAAAAATACAACTATATTTCTGGAGGGAACCGACGTTTTGTGATGAATTCAAGAGTATTTTGTTTACTTCTCCCCTGTCCATCGCTTGTGGATCCCTCTTCAATCTCAATGTTTCTGGTCTCCAAGATGTTGAGGTCACTGACGGTGGATTCCGGCGTCATCAGCACCTACACGGGGAGAGGCTTCTCAGAACGGGTACCTTCAACAGCATCTTCGGCGACTGTCTCGGAGGACAATCTGCTTCTGCCGCATCTTGGGAAATTGCTTCTACTGCATCTCCGGCGTCTACCATAGAAGAAATTATTTCCCTCGTCAAAAACTCCAACCACACATCGCAAAGCAAATTCGTGTTGGCAATCCACCCAAAGTTTCAGGCAGCACACCCTTTTGAAGGTTCCCAAAATAGTTGGCTCTATCTTCTGCTGCATCATTCCAGCGACTCAATGTAG

Promoter Sequence:
>Vu_35263::LG10:19711504-19713504(+)

AACTTGTTTCAGCATCCATAGGTCCCGTAAGACGTAGCTCTAGATACCAATTTGTTGGTTATATTATTGAAGAAAAGGTTGAGAGAATGGAACAGAAAAATATAAAACTGCTTAATATATTATTTTTGGAGTGCAATTGCTTTTATAAAGCAAATAAGTGAACGTAAATGTACGAAAATGTTGGTCTCTATAACCACTAACAAACTAGTGCTCTTAGTGCCTAGAAAATAGCAAATAAGTTCTACTAGTCAACATGACTTTTATTTTCCTAAAAAATAGCATAACATATAATTTTAATTTTTTAATTTCCAATAGTCATTAATCAACAGAAACTCAATTTTTTGGAGAGAAAGAATGATGCAGAAAGTGACACGAAATTTCAAAACTTTTATTTATATACTACCGTCAAAATCGATCGGTCCAATTGCATGCATATACCTGTCCTCCTCTACACAGTCCTTACAGAAAGCAATTAAACCTTAATAAATCTTGTAATTCCTTACAGGGGTTAGTTTTATATTTACGGCAGTATAAAAGTTGAATTCAAGTGAGGAGGGGGTCGACAATAGAAAATATGGTTGGAGGTTATAATAAATTAATTATGTTTAAGGTTGAAATAGATTGTTACGTTCGAATTGAAACAAATAGAACAGGGGTGTGAGTTTATCTAGCAAATGTGTGGTAATACAAATATAAGAACTTCCTGTTCATCATTTACAAAGATAGAAGCTTGTTTCTATTCTCCAAAACCTAAACTCTTTCATTTTCTTTAGTGATTTTCAAGGATACAATCTAGTTAGAAAATAGAGAACAATGGTAAGTTATTTTTTATATTTTTACTTCAAATTATTTTGGAACTAGGAAATAGAGAATAATGGGTAATATTATTTAGTTTACTTGAGTTGGTAATATTTTACTGTTATACGGTTGGTTACCAAATGGCAATGGACATGTTACAACATGCCAGTGGATATGATTTTAAGTATGATTATAGTAATTTTATTTATGCATCCAAAGAACTCGCTTCTTTTTCAGTCCTCTAATTTGGCTAGCTCCTCAGTGTATTAAATAAGAATAGTTTTTTTTTTTTCACAAGCTAGATAATAGAGACAGATGCAAAGCTTTACATGATGTAAGAATCTAACACGAAAGGAGCTATTGATCACTAGCTAGAATAGTCATCACCTGTCATATATCTTTTCTTAACAATCTCTTACGCAAATATTAGTCATTCTTAATTAGGCGTGTTCACGAGTAAGATAAGTTCGAAATTTATTGGCAAAACTTAAACTTGAACTAATCACATTAATTTGGGTTAGTTTAATTGAATTTTTTTATTATATGCCTTATGTTATACTTAACATTCGCAATAAATAACTATAGCTATTTGTAAAAGTATGATAAAATAATATATATGTTATGAAGTCTTTTTAACTATTGATAACTTTTCACTTTTTGAGAACAATTTATTTAAATACACACCTTATTTTTAACTGTTATGAAGCTACATTTTTTTTCTCAATGCCAGCTTAAAGATGCATCATTTTAAGGGTTATAATCTCTGGGGGTATCAATTCAATATACTTTGGGGATGACAACATATTCTTGAGCTGCAAGAAGAAGGGATTCCATCATCAAGCTGTTGACAACTTATTCTTTTTTTTTCACAATACGAATGACATTTTTTTTATTTTTCAATCTACTGAGATAAACTTCAAAATAAAAGCACTTTGCTTGTATAATTACTATGCTCGTTATATTCCAAACACCCAGCATAAGTTAGTTAAAGTACATATAAAATTCTTTCACACCAAATTATTATTCACTCGTTGCCTCTCCTCTCCATATCACCGACCTTTCACTCAATCTAGCGCTCGTTCCTCCCAATGGCCGAAGCTTTGCTGGGATTTGTGCTTCAAAATTTGGGATCTTTTGTTGAATACAACCTTGCAACTTGATGGGGTTGATCAACAGACTCAGAGATACTGTGAGAAAGCAAA

Gene Sequence:

>Vu_35263(+)

ATGACAAATCATGCTGTGAAGGACTGGCTGCAGAAACTCACAGATGCAGCATATGTGTTGGATGATATATCCTTGATGAATGTTCAATTCACTTCACAAATATTTGATGGCTTTCATAAAGTATGAAATTTTAAATTTTCTCTGAAAGGAATAGATTATTTTAAGGTTTAATACCTTTTTGGTCCCTCGAAAGGGGTCAAATGTTCAATGTGGTCCTACTGTTTTTTAGAAGTTCAATGTGGTTCCAACTTTTGTAAAAAGTGTGCAATTAAATCCTTTTTGGTAACGGCGTTAATTTTTTAACGGGCCAGCTGACAAGGTGGGCTGAAGTTTGCTACGTGGCTGTGTGAGGGTAATACGTGGCTGGCTGTGTTCCATCACCATCGCATGCGCCTGGCTCTCCATGTTGTTCAGCTGCTGTCCCTGCGCCTCCACCATCGCCGCCATGTCCAGAAAAACCGGATTAAAGGAAAAGTTTTCTTTTTTATTTATTTCATTTTAAAAGATTGTTTTTTTAATTAGAGAAAAGATGAATGGTTGAGTCTGAGGGGCCAAGTGATGCGAATTCTGAGACCCAAATCATGAAAAGCATGGAACTTGCAAAGTGGAAAGTAGGAAACATAGCCCATTTCCTTTCATTTCATATGGGTGCCCTCTTTTTGCTTGTGCGGGTCTGCTGGTGTTCTATCCTTCACTAGTTAGAGAGTGACCAAACTCATTATTCCTCATGTTCCATGTACTTTGTGTGAAACTGCAGTGGCGCCGGTTCTTTTTGAAGAAGTAGATCAGCTTCAAAGATTGCAGCTTTTCATTTTGCTTATTTTTCATATTTTATGAGGGGAAATATATTAGTTGCTAAGTGGGGATACGAAGACTTGTCTACACTTCATCTTTTCCCCTGTGATGCTATATCTTGTTCCATATAATTAGTGTGAATCCTTGTCACTTATGGGGGATATCAGGATTACCCGGGTAGAGCAAAGTCAAACAAAGATTAAAAGTGTTCCAATTGCTGTCACCCCTGAAGGATTTTGGTGTTGCCCTACTACTGTTGGGTTCCAGAAAAGCCTCAAGCCTCAAAACCCTTTGAATAAACTCAAACCCTCCCCACCAGCTCCGAAGAGCAGTTCCCAGAAAAAGAAGTCTCGGGTAGTGAGAGAAAAGCAGGGCCTGCCCCATCAAGGTTGGTGGTTTCTGATGCTCACACAGCCAGCCACGTATTACCCTCACACAGCCACGTAGCAAACCTCAGTCCACCTGTCAGCTGGCCCGTTAAAAAATTAACGCCGTTACCAAAAAGGATTTAATTGCACACTTTTTACAAAAGTTGGGACCACATTGAACTTCTAAAAAACAGTAGGACCACATTGAACATTTGACCCCTTTCGAGGGACCAAAAGAGGTATTAAACCTTATTTTAAAATCTCTTCTCAATAAATTTATGAAACAAAACTAAATTATGATTATAATCCAGTAAAAGAATGTAAATTTTATTAAATAATATCTTTATCTTTTAACTGTACATGATAAAGAGGCATTCAAGCATCACAAAAGTTTGTCGGTAAAGGCTGTAGCATCTCAACCATTCATTTAAAGCAGACAAACAAAAGTCAATTTATTTATTCCTTTTTCTGCCACCACTTTCCTCTCTCTGCTCAATTATTTTGCATAAAAGCAACCCCACTTAATTAAATTCCTTTCAAATCACCACACCAAATATTGCTCTCCATTTCACCAACCTTTCCTTCAATCCATCGCTCGTTCCTCCCAATGGCCGAAGCTTTGTTGGGCTCTGTGATTGAAAATTTGGGATCTTTTGTTCAAGATCAACTTGGAACTTACTTGGGTGTTGAACAACAAATTCAGAAGCTTTCCAACAACCTCATCGCAATTCGTGCTGTCCTCAGAGATGCTGAGAGAAAGCAAATAACAAGTGAAGTCCTCAAGAATTGGCTGCAGAAACTTACAGATGCAGCATATGTCTTAGATGATATATTGGATGAATGTTCAATTCACTTCACAAAGATGCACTCTGATGATGGACATACTTCATGCCTATCCCGTCTCCATCCTAATGACATTCTCTTTCGTTTCAATATTGACAAGAGGATGAAAGACATCACACAAAGATTTCATGACATTCATGAAGAAAAGATCAGGTTTAATTTAGAACATGGTGTCACAGAGGCGCAAAGAGTGGATGATAGTTGGCGCCAAACTAGCTCTGACATTACAGAACCTGTAGTTTATGGCAGAAACCAGGATCGAGAGCAAATTGTGAAGTTTCTTCTGGAAGACGCTAGGAACAGTGAAGAGCTCTCTATCTTTCCCATAGTTGGTATGGGTGGACTTGGAAAAACAACATTAGCCAAGAAGGTTTTCAATGATCACAGGGTATGCAAACATTTTGAATTGACAATTTGGGTTTGTGTTTCTGATGATTTCAACACCATGACAATACTACAATCCATCATAGAATGCATCACCGGACAAAATCCCAATATCAATAGCTTAGAAGCAATGCGGAAAAAGGTTGAAGACGTGTTGCATGGGAAGAGGTATTTACTTGTTCTTGATGATGTGTGGAATGAAGACCCAGAGAAATGGGAGCAGTTGAAGGGAAAGTTGCAGTGCGCAAGGGCAGCAAAAGGAGCTACCATTTTAGTCACTACTCGACTCGAGGAAGTTGCTTCCACCATGCAGACGCATCCTGCTTACCGTTTGAAAGAATTGCCAGGAGACGAAAGTTGGTCGTTGTTCAAATACCATGCGTTTGGACCAAACCGAGAAGAAAAGGAAGAGCTCGTGGCAATTGGCAAAGAGATCGTGAGAAACTGCATTGGTTTGCCGCTTGCCATAAAAACACTGGGAAGCCTCTTGCGTGATCAAAGTGAGGTAAGACAATGGATATATGTAAAGGAAAGTAGTTCTAAGACAAATGAGGAAAATTCTATTATGCGTGCTTTGAAACTTAGCTATTCTAATTTGGAGTTGTCATTGCGGAGATGCTTTTCTTTTTGTGCAATTTTCCCCAAAGATTTTGAAATAGACAAGGAAGAATTGATTCATCTCTGGATGGCTAATGGGTTTATTGAAAGTGAAAGAAACATAGAAGTGGAGGATGTTGGAAATAAAGTGTGGAATAAATTATACAGTAGATCATTTTTTCAGGAAGCAAAGTGTGATGAGTTTGGTATGGTCAAAAGTTTCAAGATGCATGATCTATTTCATGATCTTGCCCAGTCTATTATGGGTGAAGAATGTGCGGCTTTTGTGGAAGGAAGGTTGACTCCGTTGTCAAGTAGAGTTCACTATTCAACCTTGTTATCTTCTGATGTTTCTTTTGGACGATTCAAGCATGCTTTCAAGAAAGTTGAATCCCTGCGGACTTTTCTTGATTTGCGGACTTCTTTTGTTCTTGGTAATGTTGCCCCGGTGCCATCAAACCATTCTCTCCGAGCATTATGCACAAGGTCTTCTTTGTTGTCCCCACTCAAGGATTTAACACATTTGAGATATTTGAGTTTGAATTGTGGTTATAAAGCAAACTTAAATAACGTTATTTGTCAAATGCGGAAATTGCAAATTTTGAAATTGAAACGTTCAACATATCTTCATGGACTGCCCAAAAACTTGACACAATTACAAGATCTAAGACATATTGTGATGGATTATTGTAATTCAGTAGTAGAGACGCTTCCCAAAATTAGCAAGTTAAGGCATCTAAGAACACTAAGCATTTTCGTGGTGGGTTCAAAGCCAGGGTGTGGCTTAGCAGAGTTGCATGGCTTAAATCTGGGAGGCAGGCTAAGAATCAGAGGCCTTGAGAACGTTCCGAATGAATGGGATGCTAAACAAGCAAATTTGATTGGTAAGAAGGACTTGAATATCCTGCACTTGTCATGGGATGGTAATGCTAATCCAAAAGGTAGTGATGTAAGTGTGGAGAGAGTATTGGAAGCCCTAGAACCTCCCTCAACTCTCAAGAGTTTTGGGATGAATGGATATAAAGGAAGACAGCTACCCAGTTGGATGAGAAGTTCTCTAGTTTTGAGAGACTTGGTGGAAGTTGAGCTCTCCGGCTGTGACAACTGTGAGGAGCTTCCCCCACTTGGTAAACTAGCACACTTGAAAAGGCTAAAGGTGAGTGGAATGAAAAATGTGAAGTGGATAGATGGTGAGACGTATGACGGCGTGGAGGAGAAGGCATTTCCATCGTTGGAGGAACTGATTGTTGATAATTTACCAAATTTGGAGAGGTTGTTGAGGGATGAAGGAGTAGAGATGGTCCCTCGTCTTTCCCAATTAAGAATTGATGATGTGTTGAACTTTAAAGTCCCACGTCTTCCTTGTGTTGAGACAGTTCATGCTAGAGGAATTGAGGCAGTGACTTCTTTCATGGAAGGGGTTGGGGAGAGTATGGCTTGTCTAAAGACCTTAAGCATTAAATTCATTAAAGGAGTGGTGGTATTACCCGACGAATTCAGGAGGTTGGGTGCACTACAGGAACTATACATTAGAGAATGGTATGATGTGGAGTATTTTCCAGAACACGTGCTGGAAGGTCTAACATCTCTTCGAACTCTGTCCATTAAAAACTGTAAGAAATTAAAATCATTGTCTGAAGGAGTGCGACATTTGGCTTGTCTTGAGAGTTTGACGATCGGTAATTGTCCAGAGCTGGTGACTCTACCAAGCAATATGAACCAACTAACTGCCCTTCGGAATGTCTCAATTATTCAGGGATACTCCACATTACCTTATGGCTTACAACGTGTCCCTTCCCTACGAGTTTTAGGTATATATGCATGCACATGTACTTCATTGCCGGACTGGCTGGGAGACATGACTACTCTTGAAGAATTAAGAATTCATTGCTGTTGGGAGTTGAGGTCACTGCCGAGTAGCATTCAACGCCTCACCAACTTGTCTCATTTAGCGATACGCGAATGTCCTCATCTGAAAAAGCGGTGCAAGAGGGAAACAGGAGAGGATTGGCAATACATAAAGCATATTCCAAAAATACAACTATATTTCTGGAGGGAACCGACGTTTTGTGATGAATTCAAGAGTATTTTGTTTACTTCTCCCCGTAATGTGTCACTCTGTCTTTGAAAATTTTGTGTAGCCTTTTTCGCGTTGTATATATATATTAAATATAAACAAAGTTTGAGTATTCCCCAGATTTATGGTTGATGTTTGGCACGTACCGTACCAAGTTCTGATTTCGTATAGGATTGAGCTTAGTCACTAACGAGGATGACAAAAATATATGGAACCATTGGTATCCTAATATAAAATCCGCTACAAGTACTGTATGGATATTTCAAACAGGTATTCATAATTAACAATGACAGATAATTTAATATATATTTATAAACAAGTCGAAATATTTACTATGTGTATTTGTCGGTACGCTCTGTAAAAAAAATAAATTAAAATTCAATTTATATTTTATTAGATTAAATTTAAATAAAATTAAAATTTATATTTATATTTAATTTAATTTGCATTATAATTTAAATTAATTACTTATAATATATTTAAATTTATTTTAAAAATTTAAAAATTATTTTATTTTAAAATATTTACGAGTATCAATATATTTTCTAAATGTATATACGGTGAATAATGGGATAGATAAGGTTGAATTTTCTGATGCAAGTTGGTAGAGAGACGGTTGTTGAATTCTAAATACTATTTGTGGTGGTTGTTGGTGTTGGGAGTGAGTTTGTTGGCAATTTTTGTGTTATTCTTAGCTTTTGCAAATTTTTATCACTGCGTTTTAGTTATTCTTAGCTTTGTGTTGCCAGTTATGTTTCACTATTTGATTTTCAAAGAAGAGATTGATTAGAGGTGTCTGGTTTATGATGGGGCAATTGTGGTTTTTGGGTTGGTTATTACAGTTACAACCTGGTCTTCCTTATCACTGTAATTAAGAGTAACAAGTTGATTTTGGTACATATAGATCACAAAGGCTTCCGATTTTTAGAGTATAAAATGCAAAACTGATGAAATCAGACCTGTGCATGAAGCTCCGACCGTGATCGGCGGCGAGGTCTATGGCTTGACTGGATGAAAAACACGAGTTGGTTAATGGTCTTCGAATTCCAAATCCCTAATTCCCTTATGGTTTAAACCCTCATTTGGTCCTCGTATTTGTGTGTCAATCTCAAGTGAGTCATCGTTTTTTTTTCGGTCTCAATCGGGTCCATAAACTTGTAAAAATGAGCCAATTAAATCATCTCTGTTACGATTTCACTAACGGTGTCTAAATGTGATGACGTGTTTATGCTGAAGTGCATTGTTTCATTATGTGAAATTTTTATTTAAATTAAATAAGTATGACATGGCAAAATTGAAAAGGGTTCTGAACGTTCTTTGCAAGATCTTAGAGGGGTGACCAGTGTCCATCGCTTGTGGATCCCTCTTCAATCTCAATGTTTCTGGTCTCCAAGATGTTGAGGTTAGGGATTCATAGTCTTCATCATCCTACAACGTCTTCATCTTTCCTTCACGTATTGTCGTTGTCTCAATGAGGTCACTGACGGTGGATTCCGGCGTCATCAGCACCTACACGGGGAGAGGCTTCTCAGAACGGGTACCTTCAACAGCATCTTCGGCGACTGTCTCGGAGGACAATCTGCTTCTGCCGCATCTTGGGAAATTGCTTCTACTGCATCTCCGGCGTCTACCATAGAAGAAATTATTTCCCTCGTCAAAAACTCCAACCACACATCGCAAAGCAAATTCGTGTTGGCAATCCACCCAAAGTTTCAGGCAGCACACCCTTTTGAAGGTTCCCAAAATAGTTGGCTCTATCTTCTGCTGCATCATTCCAGCGACTCAATGTAG