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_11290	LG2	52783373	52793136	PREDICTED: DEAD-box ATP-dependent RNA helicase 50	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	RNA splicing, mRNA processing, RNA splicing, mRNA processing, cellular defense response
Cellular Component	located in	nucleus, chloroplast
Molecular Function	enables	mRNA binding, RNA helicase activity, RNA helicase activity
Pathway	B 09182 Protein families: genetic information processing	C 03041 Spliceosome [BR:ko03041]

SNP	Position	Effect	Amino acid change
C/A	52783510	synonymous_variant	p.Ser46Ser
C/A	52783746	missense_variant	p.Ser125Tyr
C/T	52783748	missense_variant	p.Arg126Trp
A/G	52783779	missense_variant	p.Asp136Gly
T/A	52783975	downstream_gene_variant
G/T	52784099	missense_variant	p.Cys197Phe
T/G	52784100	missense_variant	p.Cys197Trp
C/A	52784113	missense_variant	p.Gln202Lys
A/C	52784114	missense_variant	p.Gln202Pro
G/T	52784119	missense_variant	p.Gly204Cys
T/A	52784284	downstream_gene_variant
A/G	52784285	downstream_gene_variant
G/A	52784468	missense_variant	p.Gly285Glu
A/G	52784490	synonymous_variant	p.Thr292Thr
G/A	52784505	synonymous_variant	p.Leu297Leu
C/A	52784511	synonymous_variant	p.Leu299Leu
C/T	52784625	downstream_gene_variant
C/A	52784683	downstream_gene_variant
A/G	52784889	missense_variant	p.Gln352Arg
T/C	52784952	missense_variant	p.Val373Ala
G/T	52785193	downstream_gene_variant
T/A	52785224	downstream_gene_variant
G/T	52785229	downstream_gene_variant
A/C	52785232	downstream_gene_variant
T/A	52785550	downstream_gene_variant
A/G	52785552	downstream_gene_variant
G/C	52785607	downstream_gene_variant
A/G	52785611	downstream_gene_variant
T/C	52785797	downstream_gene_variant
T/C	52785911	downstream_gene_variant
G/A	52785913	downstream_gene_variant
C/T	52785999	downstream_gene_variant
T/G	52786439	downstream_gene_variant
C/A	52786681	downstream_gene_variant
C/T	52786689	downstream_gene_variant
A/G	52786832	missense_variant&splice_region_variant	p.Lys426Arg
C/G	52786896	downstream_gene_variant
A/G	52786902	downstream_gene_variant
T/C	52786906	downstream_gene_variant
A/T	52786913	downstream_gene_variant
C/A	52786916	downstream_gene_variant
G/C	52787068	missense_variant	p.Arg470Pro
T/C	52787087	synonymous_variant	p.Val476Val
C/A	52787089	missense_variant	p.Ser477Tyr
C/T	52787105	synonymous_variant	p.Cys482Cys
T/A	52787159	downstream_gene_variant
A/G	52787162	downstream_gene_variant
C/T	52787170	downstream_gene_variant
A/T	52787383	intron_variant
A/T	52787537	intron_variant
T/A	52787581	intron_variant
G/A	52787588	intron_variant
G/A	52787589	intron_variant
G/C	52787607	intron_variant
T/C	52787624	intron_variant
T/C	52787668	intron_variant
A/G,*	52787708	intron_variant
C/T	52787717	intron_variant
G/T	52787723	intron_variant
A/G	52787741	intron_variant
G/T	52787787	intron_variant
G/A	52787833	intron_variant
T/C	52787900	intron_variant
T/A	52787986	intron_variant
G/A	52787996	intron_variant
T/C	52787997	intron_variant
G/A	52788033	intron_variant
C/T	52788092	intron_variant
G/T	52788127	intron_variant
C/A	52788134	intron_variant
C/T	52788153	intron_variant
G/A	52788183	intron_variant
A/G	52788205	intron_variant
A/C	52788230	intron_variant
G/C	52788238	intron_variant
C/T	52788253	intron_variant
G/T	52788282	intron_variant
C/A	52788303	intron_variant
A/C	52788357	intron_variant
G/A	52788415	intron_variant
T/C	52788447	intron_variant
A/G	52788527	intron_variant
T/C	52788562	intron_variant
T/G	52788569	intron_variant
G/A,*	52788583	intron_variant
C/T	52788670	intron_variant
T/C	52788672	intron_variant
C/T	52788757	intron_variant
A/G	52788758	intron_variant
G/T	52788767	intron_variant
T/C	52788789	intron_variant
A/G	52788871	intron_variant
T/A	52788958	intron_variant
C/T	52788978	intron_variant
T/C	52789034	intron_variant
A/T	52789047	intron_variant
C/G	52789058	intron_variant
C/G	52789097	intron_variant
A/G	52789226	intron_variant
G/A	52789252	intron_variant
C/T	52789260	intron_variant
T/G	52789508	intron_variant
G/A	52789681	intron_variant
C/T	52789690	intron_variant
T/C	52790105	stop_lost	p.Ter545Argext*?
A/C	52790216	missense_variant	p.Ser582Arg
C/T	52790244	missense_variant	p.Ser591Leu
C/A	52790251	synonymous_variant	p.Ser593Ser
A/T	52790309	missense_variant	p.Thr613Ser
T/A	52790423	missense_variant	p.Trp651Arg
T/A	52790456	stop_lost	p.Ter662Lysext*?
G/T	52790626	synonymous_variant	p.Gly718Gly
C/T	52790924	upstream_gene_variant
C/A	52790930	upstream_gene_variant
A/G	52790936	upstream_gene_variant
T/A	52790948	upstream_gene_variant
T/C	52791182	upstream_gene_variant
T/C	52791299	upstream_gene_variant
A/T	52791510	upstream_gene_variant
G/A	52791549	upstream_gene_variant
C/A	52791706	upstream_gene_variant
G/T	52791722	upstream_gene_variant
A/C	52791891	upstream_gene_variant
G/T	52792188	upstream_gene_variant
A/G	52792191	upstream_gene_variant
T/A	52792304	upstream_gene_variant
C/T	52792342	upstream_gene_variant
C/A	52792634	synonymous_variant	p.Thr877Thr
T/C	52792644	missense_variant	p.Tyr881His
T/C	52792694	upstream_gene_variant
A/T	52792715	upstream_gene_variant
G/C	52792849	upstream_gene_variant
T/A	52792861	upstream_gene_variant
G/T	52792888	upstream_gene_variant
G/A	52792927	missense_variant	p.Arg921Lys

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_11290.1

MVVGRVAVPNPPSGLFHNPSSAATLIPPHIRLLSFSASAAASSSSSSANRTRHTSTTKSDSPFSTFGRVKSQKPKTLLHKSRDRRRALQVEEEEEEEDDNDDYDDNDDYYDNLAAPRGRPSRSGSRSGGRKRGGWDIIPRFPSQAKSTTDTNFFSLKSFKEIGCADYIIQSLQKIFLTRPSHVQAMAFSPVLSGKTCVIADQSGSGKTLAYLAPIIQRLRQEEQEGRSQSSSQAPRVLVLVPTAELASQVLDNCRSLSKSGAPFKSMVVTGGFRQRTQLENLQHGVDVLIATPGRFLYLMNEGFLQLTNLRCAVLDEVDILFGDEDFEMALQCLINSSPVDTQYLFVTATLPKNVFTKLVEVFPDCEMIMGPGMHRISSRLEEILVDCSGEDGQEKTPDTAFLNKKTALLQLVEESPVPRTIVFCNKIETCRKVENSLRRFDRKGNHMQVLPFHAAMTQESRLASMEEFTRPPSKGVSQFMICTDRASRGIDFAGVDHVILFDFPRDPSEYVRRVGRTARATVTQVPSPFDVPSMDIDLEVPICEHEKLNIGSSGNNLTDTTCDICIEEHKINPSSMTAHCKEVLSEKDFCCQDPVDLNSNQVDAIDRFPIKEPQNGLEFESKEAAYSFYREYARLVGFGITIKASRRSKKSGKFIDIKIVCSRFGSKRESGTAVNPRPCTKTDCKAGMHMKKKIDGNWIIYNFVKEHNHEICPDDFVTGRSKQISNLACRKKGMQLALDEGDVQLIIEYFISMQRAIVLSQIGSLSEDTYRVASQAMEEMYKHCVNTKYSARSTSDPNKLALDAFDVRDKNYGCNRAKPTKKRKSFSKRESSDPERINIKTMDDLRKREQRITRAHNFNNCYIYQQNMQTVDLDSRASTLDAYYGTQQSVLEDGQLHSIASRGPHYGMQHRMQRPLQGELTFRTPTVQGCFDLQDSLEAIEEPVKASQFHDIASKQLEADKSLP*

CDS Sequence:
>Vu_11290.1

Promoter Sequence:
>Vu_11290::LG2:52781373-52783373(+)

CCATTTTGTTTACAGTATTTGATGACTATGAAACTCGAACTTGTTCTGTATGTCTAAGAAGTTCTTAGTGTATTAAATTGAGGTCACACTGTATATATGAAATTATTCGGACTGATTTCTTGTAATTGTATTTGTACTTAACTACAAATTTAAAGGGAAGAAAAACTAATATTCTTAACTTCTTCATAAGCTGGCAAGTGGACAAGTTTATTTGACTGAATAGCTTTTCTCTTTTTCTGATAATTTCTTCTGATATAAACCGAAGTAGCCAAAAATCCTGCTCATGTAATTAATATGCATATTATTTTGAAGCATCTATCATGTACGGCTTTGGTAAATACAAGTTATAGTAAATTTTGTGCTGCATAAGAGCTCTCAAGCAGGGCATGAAGCCTGCCTTTTAATTTTCGTGCTACTTTACCATTTCAGACAAGCCAGTCATGTATTCGAGTGGTGCGTCAGCATGGACTCAGCAGCAGTTTAGACCTCCTCAGCAGGTAATCACTTTCCCTTACCTTGTCATTACATTCTCCTTTTCAGGTTATGCAGCCATCTATAAGTGCTTCTTCCTCTTGTGTGTCACAGCAGGATTTCCTGGCAGAACTTCGTCGCCAAATGCAAAACGCTAATCCTAATTCCACATGATGGCTCACTTGGATGGCTTGTCTAATAAAGTTTTTTGGAAGAACGTGGATTAGCCGACTGCTTTAAGAACACTTCCATGTTTAGCTACTTCTTGTTTTGTCAAACTCGTTACTAATACATGTAACGGAATTTCAGATTATCCTATTTAAATTGTATAAATTGGGGATGTCGCACATTCAGGATTCCTATTTAAAGGTTTATTCAGTATTCTTGCAAACTCTTGATTTCTTTATTTATAGAGAGCCCTCCGCAGTATACACCTTTTTAAGTTCCAAAAAGATAAAGAAACTAAAAAGCTAAGATACATGAAGTATCGGTTTCGATTAATCTAAGCTAAGTAATTTTAGTCCTTGTTTCTGTTGACATCCCAACACATCCAAGATTAATTATGTGTTACATAAAATTGACAACTGAATATTTTCACTCTTACTTCTAAAGCCGATTGCTACATTGAATTTGGTTACCATGTGATTAAAAATATTGTATATATATATTTTTTTTTAAATCTGTGATTAAATTAGTAATATTTAATTGACAGTCTTGTTTCAGTATTAACATCTAAATTTAACTTACTGGTGTTACAATGATTGAAGTGAATATCTAATATCTGTTACCATCTTGTAATTATCAGTGACGATGAAGCAGTTTAAATGTTGTGATTAAATCAAATGTATATTTCTAAAACAAAAATAAATAACGTCTTTAACCATACTAAAAAGAAATAAAATTAGAGTTACATGCTAACATGATGTCACATATATGTTATTGAGCTTCTATTTCGTATAATAATTACTTACAAGACCGGTAAGAACTAGAAATATTCAGTTTAAACTTTAGAGAAATCGAAAAATTCGTTACAAGAACTAAAATTAATGTTTTTCATTTCACATTGAACCAAAAATACATACTTATAAAATAAATTGTGTGATGTATACCTGGTTTGCTGTTCTTTTTTACCTTAAAGAATAACGAACATTTATCTCAAAAACACATTGAATTAATTTTTAAAGTTCAAATAGGTTAGATAAAGAAAGTCAAGAACATTCATAATTTATGTAGGAAAATATTTTTTAACAACTTTTTTTTTACCACTTAGAACAAAATTATTTTTTAAAATAATTTAGTATTTTAATTTATTTAAGGTTGAAAAATTGACATATTTTTGTAGATGAACTTAAGATAACCCATCATTATTTAGGAGTTAATTTGTTAAGATTGTGTGTTTTTGTCCGTAAAATTAATTTCTCTGAACACATATTTTGTAAGTATTTATTTATAAAATATATTAATTAAATGGAGAAAAGAAGGTTATCTAGATATTTTTGGTCGAAGAGAGAGGAAGAAGAGCAGAGAAA

Gene Sequence:

>Vu_11290(+)

ATGGTGGTTGGGAGAGTTGCTGTTCCAAATCCTCCCTCCGGTCTGTTCCACAATCCTTCTTCTGCTGCCACCCTCATACCTCCACACATTCGTCTTCTCTCTTTCTCCGCTTCCGCCGCCGCCTCCTCCTCTTCCTCCTCCGCCAATCGCACTCGTCACACGTCCACTACAAAAAGCGATTCTCCCTTCTCAACGTTCGGAAGAGTCAAGAGTCAGAAACCGAAAACTCTGCTCCACAAAAGCAGGGACCGAAGACGCGCCCTTCAAGTTGAAGAAGAAGAAGAAGAAGAAGACGATAATGATGATTATGATGATAATGACGACTACTATGACAATCTCGCAGCCCCAAGAGGAAGACCTTCTCGTTCTGGGTCTCGGTCAGGTGGACGAAAACGAGGAGGATGGGATATCATTCCCAGGTTTCCCTCACAAGCCAAATCAACCACTGACACAAACTTCTTCAGTCTCAAGTCATTTAAAGAAATTGGGTGCGCTGACTACATCATTCAATCCCTCCAAAAAATCTTCTTAACGCGCCCTTCCCATGTACAGGTACCTATTCATTCATTCGCTCCTACCATAATTCACTCATGCTCATATGCTATCTCCTTTTGTTGTTGCTTTAAGCTTTATGCTATTTCTGACAAGTTCGTTGCAATGAGTAATTTGATTGTGTATTGCATGTGTAGGCCATGGCATTTTCTCCTGTTCTTAGCGGAAAGACTTGTGTCATAGCTGACCAAAGTGGTTCTGGAAAGACATTAGCTTATCTTGCACCAATCATTCAGCGTCTTAGACAAGAAGAACAAGAAGGACGTAGTCAATCCTCTTCGCAAGCTCCTAGAGTGCTGGTACTCGTACCCACTGCAGAGTTAGCCTCTCAGGTCAAATCCTCCTTTCTTAATCTGTCTTATTGTTTTGCTTGTTTGAACCCTTTGAGAGTGGTGTAACTCTGCTGTTCATCTAATGCACTATTGCGTGCTTCGCAGGTCTTGGATAATTGTCGATCCTTGTCAAAATCTGGGGCTCCATTCAAATCTATGGTTGTCACGGGAGGTTTTCGACAACGGACTCAACTGGAAAATTTACAGCACGGAGTTGATGTCTTAATAGCAACACCTGGCCGTTTTTTGTACCTCATGAATGAAGGCTTCTTGCAGTTAACAAATCTAAGATGGTAAAACTTGATCTCTTATTTATTGAATTGTTTACTACCATTACAGATGTTTACATTGATTTTCTGTTTTATCATCAAACGGGCAGTGCAACTAATTTACGCGTCCATTTAGGATATTTTATCTATCCATGCCCTTTTCTTCCTCAACGCGTGTCCATTTAGGATATTTTACCTATTCACGCTGATTGTGAAATTTTTCTTTACAACAATTTGTTTCAGTGCTGTGTTGGATGAGGTAGATATTCTCTTTGGTGATGAGGACTTTGAAATGGCTCTTCAATGCCTGATCAATTCTTCACCGGTTGACACACAGTATCTATTTGTGACTGCAACTTTACCAAAAAATGTTTTCACCAAATTGGTTGAAGTTTTTCCCGACTGCGAAATGATTATGGGGCCTGGTATGCATCGAATAAGTTCTCGCCTCGAAGAGGTCAGGTTTCAGTTGTAACTTTCTTTTCTTTCTATTTCATTTTTCTTGGGCAGAAGACAACATTACAGAATATCAAAAGACTTATCTATGAATATGTTGACTCAGTACGGGAAAATTCAATGGACTTAGTACGAGAAACATAATCACTTATTGTCTCCAACGTGATATTTAAATTGAATTGTTTTACTTAGGAGCTATATATATAGAGAAGGGGAGGGGATACATTTATCCCAAGAATAAGTGTAAGTAATTACTCTTAATCTGATCCTACTATTTTATTTTAGATTAATGATTCAGATTAAGAATATATATGGGCTCTCACGTGAAATTTGTTTTCCACTTCCTACCTTTATCTTCCTGTTCGTAGTTATGTAAAACTATTAGGAAGGATTTTACTTACCCATGGTGAATCTTAATCTGGACTTTCTATCTTATTTTAGATCAATGGCTCATAATAAATACTTAAAAGGCTACTCTTGATAAAGCAGTGAGTAATAATCATCCCCTAATACTCTCCATAACTATGAACAGGAAGATAAAGGTAGAAAGTGGAAAGAAAAATTTGAATAAAGTGTAGAGTTTTAAATACTAAATTTGAGCAGTTAATGTAAAATAAAATACAAGGTTCAGATTAAGAGTAACTCATTATAGTTACTCTTTACTCTTGGAGTAAGTAGATTCCTCTACTACACACGATCACACACACTGATGGGGAAAGGATTCTCTGTATTTGAGGTTGGACCCAAGAAAGGATGAAGGAAGAGGATCAGTATTGTATTCAGCACCTCTACTCAATCAAGGAAAATTCAATGATTAATAGCCAATCTAGGCTATCTAAAAGAATTCAATTTAACTACTTTAACAAATTGCCAACTCAGCACTAACAAAATCGAACAGGAAATTATAGAACTTATTGTTCCTCTCCTCTTGGTAATAGACATATTCTGAATTTCTTTTCTGTTTAGCAATCCTTTTGGGCCTACTGCTCTGGGCCTCTTCTACCTGCATGTTCGCATCATATACTTTGTATTGTGCATAGCTATTAGAATTTTATTATTCATGACTTGAAAGCTACCATTTGCTATAGTTGACTACCTATCAATTCGTGTTATAAGATAAATCTCAAATGACTTTCAATCTTAAGATTTATGAATGTATCAGTGTAATTTTGTATCATGGATACTAGCACTCCATCCAAGTATTTTTCTCTTATAATAAAGCCAAAATTTTCTACTTCACTACTTTGTCATTCATTCCTTATGTGCATTCTATCTGTGGCTGTTTCATTGCTTCATTTTCGATCTTCTATAATAGGGGTTTCGCAATCTCGGATTTAACTCATCACTCTGATATGTGGGCTGATGATTAAGTTGGTTTATCTAATGCTAGTTTACAGTTATTACCTTGAACGCTGTATACATTTCTATGATATACTTGAAGTTATTTTTCACATTCTTTGAGTCATACAATGTGGTACAACTATTTGAATCTCGCTTTGGTCATACTACCATAGCTTGTAACAAATTAGAAAAGTGGGATCATACACTGTATTATATATTTTTAGGGTGCTGGGATATTTTGGTGCTATATTATATTCTTAGACAGCTATAATGCATATCAATATTTGTTATGTAACTGACTTCTGTGCCAGACTGCCAGTATTTTGAGTCATCAGTTTCTATTTATCTTGATGTGGTTCGTATCTACTTATTTGTTCAGATTCTAGTAGATTGCAGTGGAGAAGATGGACAAGAAAAAACTCCTGATACAGCATTTTTGAACAAGAAAACCGCACTTCTGCAGCTTGTGGAGGAAAGTCCTGTTCCAAGAACAATTGTGTTCTGCAACAAGGTATTTTACATTCTGACTTGAGACTTATCTTTTATAATTTTAGTTTTCTATGCAACATTTGTCCTTTTATTTTGGTGTAATTCTCCACACAAAAAAAATTGCAGATTGAAACATGCAGAAAAGTTGAAAATTCATTAAGGCGTTTTGATAGAAAAGGAAATCACATGCAAGTTCTACCCTTCCATGCTGCCATGACACAAGAATCACGGCTTGCTAGCATGGAAGAGTTTACTCGTCCTCCATCAAAAGGAGTTTCCCAGTTCATGATTTGCACTGACAGGTATTTGTCAGTTAAGTCTAATTTTACCTTTGCCTTTCTGACGTTTTGATGATTCTCTGATTCCAAATAAGTGATTATGGTAACTTGTCACAGGGCTTCACGAGGTATTGACTTTGCAGGAGTGGATCATGTCATACTCTTTGACTTCCCACGTGATCCAAGTGAATATGTACGTCGTGTTGGAAGAACAGCCAGAGGTGCGAAGGGAGTAGGAAAGGCATTTATATTTGTGGTTGGCAAGCAAGTATCCCTTGCAAGCAAAATAATGGAAAGAAGTCAGAAGGGTCACCCACTACATGATATACCTACGGCATATTAGCTAATGAACTAGAATGAGTGCTTGAAAAGGTTTCTCTGAACTTCACTGCTGAATCATGGAAAGGAGAGCTATGCAGCTGCTTAACCTCTTTTCTAATCAGAACCACCTTATTCAAAGCAACTTGGCTGATCCATAGGTGGCTTATTAGTAACACAGGCACAAGGTGGTTTGCAAGAGTTGTAGCTAAAACATGACTTACGTTTATTATCAAGATCTCTGAAACATGAAATGAAAGTTTTTTACCTACGCGAGTTTTTAGGTGCATTTTCACCCTTAGTAGTTTGCAAAATGTTAACATTAACTCATTTAGTTGTTAATGAAACTAGTAGTACAAGAAAATTTTGACGTCATTTTGGACCTGAATTATAGCTGGTCAATTTGATCGTTACGAGAGTATTTTGTCCATTATTTTAGTCTCTGTTAATTTCAATACTAAACAAATCTGCTCTCTCACGTTAGGCTTCATGTAAGACGTGGATGTGGTTAATATCTACAGAACTTTCTCTCTTTTGAGACTAAAATGATGGTATATGTAAATCCAGTTCAAGCAAAATCTAAGTCATGTAAGTGGTTAATATGGGACAATTTTTTTCTCTTTTGGAATTTCAATAGTATAACCGAAGACACATTCTGGGGAGCAATATTTTTACATTTTTTTCCGTAATAAAAGTTATATATAATATCATTAGTTGTGGTATTCTCTGATTAGAATTAGAATTTCACTTGATAGTATCACTTATCGGATTATTTGTCACCAAATTATTTATTAGGTATATTATTGAGGTAAAAATTCAAATATGATAATGTAAACAAGTTGTCTCTTCCGATATTTGCTATTTTATGAAAAAAGAAATCCTTTCTTGACATATTCTTTACAAATAGTTTATTTTGTATTTAAAGGGGTGTCATTAGGATTCAAGCCCGAAACAACTACTATTTCCACGGACCAATTTTAATTTTTGCACTAATATATGTTAAATCTGTAAATTTTCTTATGAAAAAAAATCAAATAAATATATAAAGTTAATCTATATTATTATTTAATCTTTTTTTTTTACACAAGTCGTATATATGTATATATTAATTTTAGATTAATAGGGTTATCAACTCGCAATTAAATATTTTTTAATTTCCTTTGATTTAAAGACTAGATGCGACTGACAATAACTTTTCAGTTTCAAGAATTAAGATAGCAGTTTATTCATTATTATTTTTTTGTTGAGTGCCAGAATCTTTTCCTAAGGTGCCCTTAATTTAATAATTGTATATGATGTCTGAATTCAAAAAGAATGTCTTGTTATAACAGTGTTAAATAATAAAAATACATATTTTTAGTTTAATAACAAAAACTAAGGTTGCGTGGTTGTGTAGATTGTAGCGTTGCCTGGACTGGAGTGAAGGGAGAAAGCAAAGCATCTTCTTGATTTTGTCTTTCTTCATCTTCTCAGCAATGCCGCCTTTGTCAACAACTCACTTTAGGTTTCTACTTTTTTTCAATTTCTATTTCCTTTAATTTCCTGCAGTTTCTATCTTTTTTTTTCATTACCATATGCTTCGACGACCGTATCTGTTTTATTATTCAATTTGAGTGTATGGTTTCTTGAAATTGAGATGAGTGGGTATTACATTTTAGCTCACCCACTTCACCACTCATCCTTTCAACCCTCGAACTTACCCAATGTCGCTTATTCTTTGTTAATTTTTCAAGTAATTCATATGATCATATTCGGCTAATGGGATAATAAATGGTGACTTTGGGTTCCTGCTACTGAGATTCTTTTGATGTCATTTTCATTCTTCCTTATCAAAATGAATGAATGCAGCAGTCAGACAGTTTTGCTAAATTTCGAAAACTCTGTCGTATTTGTGGGATTAATCTCCAGTGTGCTGTTGTTTTTACCATGTGCGTATCAACTTTGTTTGAAATCTTGCTTGAATAGGTTGGAAAACAAGACGGATTAAATACTCTACAATTTGTATATAATGTTTGTATCACCCCTCTTTTCAATACAGAAAAACACATTTCATCCAATCTTTTTAGGAGACACCGATACTGCTGCTTTTTTTTCTTCATTTTCCTTCATTTTATGATTATTTCCTTTTCCTCAACTCTAAGGGCTGGACCTGTCAATTGATTAATTGCAGTCCTAGTTTTTATTTTCGTAGTCAAGTTCCTAGTATATAGAAGTTGTTTTACATTCCTTGATTGAACAATGAATTGTTTACTACATAGTTATTATTCCATGAAGATATGCTTCATTTATTTGTTTTTGTAAAATAGAAATGTTAGATGACTTTTAATCTTGTTAAAATCAATTTACGAATATATAGAATCAAATATTACATCAGTATTAATTAAATATGAAATTTATAGTCACAGTCTAATTTGTATATAAAATTTAAATATTATTCTGTTTACTGCAGAATCTTGAAATTGTACATATCCTGAAGATTTATTTGCTTTTGTTTTCTTCATTGTGTGTTAATATATGATCATTCCAAATGTTTTTATGGCCTTATTACTTGCACATGGGATTGTACTCGTATTTTGCGTTTATAAGATTGTTGTTGCTTATTTATATTCTCTCCCTTTCAGCTACTGTGACACAAGTTCCTTCTCCTTTTGATGTGCCCTCCATGGACATTGATCTAGAGGTACCTATATGTGAGCATGAGAAGCTTAATATTGGATCTAGTGGAAATAATCTTACAGATACAACATGTGATATATGTATTGAGGAGCATAAAATCAATCCTTCGTCAATGACTGCACACTGTAAGGAAGTTTTAAGTGAAAAAGATTTCTGCTGTCAGGATCCGGTGGATTTGAATTCTAATCAAGTGGATGCAATTGATAGATTTCCCATTAAAGAACCACAAAATGGCTTGGAATTTGAATCAAAGGAGGCTGCCTATTCTTTCTACAGAGAATATGCTCGCTTAGTGGGTTTTGGCATCACGATAAAAGCCAGTCGACGCTCGAAAAAGTCTGGAAAATTTATTGATATTAAAATTGTTTGTTCTAGATTTGGAAGTAAGCGTGAGTCCGGTACAGCTGTTAATCCACGACCATGTACAAAGACAGACTGTAAGGCTGGAATGCATATGAAGAAGAAGATAGATGGGAATTGGATTATATACAATTTTGTAAAAGAGCACAATCATGAGATCTGTCCCGATGATTTTGTCACGGGACGTAGCAAACAAATAAGTAATCTAGCTTGTCGTAAGAAGGGCATGCAATTGGCTCTAGACGAGGGAGATGTGCAGTTGATCATCGAATACTTTATCTCTATGCAGTGTGAAAATCCAAACTTCTTTTATGCAATAGACCTGGATCAGGATAGACATTTGAGAACTGTATTTTGGGTTGACTCAAAAGGAATATTTGATTATAAAAAGTTTCATGATATTGTGTTGATTGACACTTTTTACCTGAAAAACAAATATAAAATTCCTTTTGTTCCTTTTGTCGGGGTCAACCATCACTTCCAGTACATTTTACTTGGATGTGCTCTGGTTGGGGAAGAGTCTGTTTCAGCTTTTATGTGGTTAATGCAAGCATGGCTCAAGGCAATGAGTAACCTACCTCCCGAGGTGATTATCACAGATCAGGAGCAATTCTTGAAAGAAGCTGTCATGGAAGTGTTTCCAGATAAACATCACTGTTTCTGCCTATCACATGTTTTATGTAAAATAACCAAGAATTTGGATTATATCATAAATGAAAATAATAATTTTATGGAAAATTTTGACAAATGCATTCATCATTACTGTTCAGATGAGAAATTTGAAGAGAGATGGTGGAAGTTGATGAATAGAATTGAACTAAAGGATGATGAATTGGTTCGGTCATTGTATGAAGATCGTAAAAAGTGGGCGCCTACATTCATGCGGGACATTTCTTTGGTTGGATTATCAACAATTGTAAGATCTGAGAGTGTATCATCTTTCTTTGACAAGTATATCCGTGTTGATTCTACCTTTGAGGAATTTATTGAACAGTATAAAGTTTTCTCTGTAGACTGTTTTGACATTGAAGCCAAAGCTGACATTGAAACAAAACAAAAGCAACCTACATTAAGATCTTTATCACCTTTTGAGAAGCAGCTATCCGCAATTTTTACTGATGCCATATTTAGAAATTTTCAGTTGGAAATATTGGGAATGATGTCCTGTCATCTGCAGATGGAAACAGAAGGAAGGGAAACTTTGACATTTCTTGTTCATGATTTTGAGAAGCGGAAGAAATTTATTGTTTCTTGGAAGGAAGCAGATTTGTATGTCTGGTGTTCATGTTGTTTATTTCAATACAAAGGTTTTCTATGTAGACATGCAATGCTTGTCCTTCAGAAGTCGGGCATAACCAGCATTCCATCCTATTATATTTTAAAACGATGGACAAAAGATTCAATGGCCGATCAATTTTCTGGTGACATAATTACCAGGACTGCTAATAGAGTTCAACGATTTAATGACCTTTGTAGGCGGGCAATTGTATTAAGTCAAATTGGATCTTTATCTGAAGATACTTACCGTGTTGCATCTCAGGCCATGGAAGAAATGTATAAACACTGTGTGAACACAAAATATTCTGCCAGAAGCACTTCGGATCCCAACAAGTTGGCTCTTGATGCTTTTGATGTTCGAGATAAAAATTATGGCTGCAACAGGGCAAAACCTACTAAGAAAAGGAAGTCATTCAGTAAAAGGGTTAGTTGATGATCAACTGTTATGGTGCTGCTAGAACTTGTAGTGACTTGTAGTAAGTGGTGGACCTTCTTAAACAGATTTTGTATATTACAGGAATCCTCTGATCCAGAAAGAATCAATATCAAGACGATGGATGATCTCAGAAAGAGGGTTTGCCTTTATTACTTTCTTGGCCTTGTCATGAACGGATAAAGCTCAGAATTCTAATATTGCTCATACTTTTTAGGGTCATCAGTGTTATCTTTATGTGCAGGAACAGAGAATTACAAGAGCGCACAACTTCAATAATTGTTACATTTATCAGCAGAACATGCAAACTGTGGTACGGATATTTCTCTGCACATGATAGTCCAGAAAGAATCTAGAGATAGTACTTTAACAGTAACAGTTTTCGTAAATGTTCATTCTCCTCTTAATTTCTATTTTATTCTTTTGGATACATAAGATAAGTTTTTGTTCTCACAGGACTTAGATTCTAGAGCTTCGACCCTTGATGCTTATTATGGGACTCAGCAGAGTGTGCTTGAAGATGTATTATCTGCACTCTTTTTTTTTTTCAGTTGGATGGGAGATGTTTTGAATCTCATATTTTGTTTCAATCTTCAGGGGCAATTGCATTCCATTGCAAGCCGTGGTCCACATTATGGGATGCAGCACAGGATGCAAAGACCGGTAGTGATTTACGGCTTACATTTTGAAACTAGTTGGCTCAAAATTTTTAATCCAAGATAATTAGCGTTGGGTGGTTTGTTTTCACAGCTTCAAGGAGAGCTCACTTTCAGAACGCCAACAGTACAAGGGTGTTTTGACCTCCAAGATAGTCTAGAAGCTATAGTATGCATTTAAATGATTTAGTTATAATTTGCACTTTAGTTTGCACTGCGGAGTATATTCATGAGATGTGATTTTGTTTCAGGAAGAACCTGTTAAGGCCTCACAGTTCCATGACATTGCATCAAAGCAACTAGAAGCCGATAAATCACTTCCCTGA