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_11990	LG3	8660613	8667827	PREDICTED: U-box domain-containing protein 35 isoform X1	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	protein phosphorylation, protein ubiquitination, cellular response to organic substance, protein phosphorylation, root development, protein phosphorylation, root development, cellular response to organic substance
Cellular Component	located in	nucleus
Molecular Function	enables	ubiquitin-protein transferase activity, ubiquitin-protein transferase activity

SNP	Position	Effect	Amino acid change
T/A	8660930	intron_variant
G/A	8661007	intron_variant
A/T	8661009	intron_variant
G/C	8661105	intron_variant
G/T	8661112	intron_variant
A/T	8661117	intron_variant
C/G	8661118	intron_variant
A/G	8661226	intron_variant
C/G	8661341	missense_variant	p.Ala90Gly
A/G	8661415	intron_variant
G/C	8661446	intron_variant
C/T	8661493	synonymous_variant	p.Asp118Asp
C/T	8661628	intron_variant
C/T	8661702	intron_variant
A/G	8661703	intron_variant
T/A	8661724	intron_variant
G/A	8661761	intron_variant
A/G	8661811	intron_variant
T/A	8661868	intron_variant
G/T	8661907	intron_variant
A/T	8662391	intron_variant
C/A	8662524	intron_variant
T/A	8662538	intron_variant
T/C	8662846	intron_variant
A/T	8662854	intron_variant
G/T	8662960	intron_variant
A/T	8662986	intron_variant
C/G	8663006	intron_variant
T/A	8663015	intron_variant
G/T	8663050	intron_variant
A/G	8663051	intron_variant
T/C	8663656	stop_lost	p.Ter158Glnext*?
A/T	8663661	synonymous_variant	p.Ala159Ala
T/C	8663744	missense_variant	p.Leu187Ser
G/A	8663871	intron_variant
G/A	8664126	intron_variant
C/T	8664130	intron_variant
A/T	8664194	intron_variant
C/A	8664197	intron_variant
T/C	8664210	downstream_gene_variant
T/C	8664219	downstream_gene_variant
A/T	8664267	downstream_gene_variant
C/A	8664277	downstream_gene_variant
G/A	8664295	downstream_gene_variant
G/C	8664320	downstream_gene_variant
G/T	8664331	splice_acceptor_variant&intron_variant
G/A	8664358	stop_gained	p.Trp219*
A/G	8664365	synonymous_variant	p.Thr221Thr
G/A	8664389	synonymous_variant	p.Thr229Thr
G/C	8664397	missense_variant	p.Ser232Thr
C/A	8664419	stop_gained	p.Cys239*
C/A	8664421	missense_variant	p.Thr240Asn
C/G	8664424	missense_variant	p.Ser241Cys
G/T	8664428	missense_variant	p.Lys242Asn
A/T	8664434	missense_variant	p.Lys244Asn
C/T	8664437	synonymous_variant	p.Ser245Ser
T/G	8664443	missense_variant	p.Phe247Leu
C/G	8664461	missense_variant	p.Phe253Leu
T/C	8664462	stop_lost	p.Ter254Glnext*?
G/A	8664464	stop_retained_variant	p.Ter254Ter
C/G	8664475	missense_variant	p.Ser258Cys
G/C	8664490	missense_variant	p.Arg263Thr
G/A	8664499	missense_variant	p.Cys266Tyr
C/T	8664504	stop_gained	p.Gln268*
G/T	8664511	missense_variant	p.Cys270Phe
A/T	8664522	stop_gained	p.Arg274*
G/T	8664542	missense_variant	p.Lys280Asn
T/A	8664550	missense_variant	p.Leu283His
C/G,T	8664551	synonymous_variant	p.Leu283Leu
C/A	8664558	missense_variant	p.Gln286Lys
G/C	8664563	missense_variant	p.Lys287Asn
G/A	8664580	stop_retained_variant	p.Ter293Ter
A/C	8664599	synonymous_variant	p.Ser299Ser
A/C	8664600	missense_variant	p.Lys300Gln
C/G	8664622	missense_variant	p.Thr307Ser
C/T	8664637	missense_variant	p.Ser312Phe
G/C	8664650	stop_lost	p.Ter316Tyrext*?
C/T	8664652	missense_variant&splice_region_variant	p.Ala317Val
G/C	8664655	splice_donor_variant&intron_variant
T/A	8664659	splice_region_variant&intron_variant
T/C	8664672	downstream_gene_variant
C/T	8664694	downstream_gene_variant
T/A	8664695	downstream_gene_variant
G/A	8664733	downstream_gene_variant
G/A	8664774	downstream_gene_variant
A/C	8664775	downstream_gene_variant
G/C	8664781	downstream_gene_variant
A/G	8664785	downstream_gene_variant
T/A,*	8664792	downstream_gene_variant
G/A	8664812	downstream_gene_variant
A/G	8664817	downstream_gene_variant
C/G	8664830	downstream_gene_variant
A/G	8664831	downstream_gene_variant
C/T	8664846	downstream_gene_variant
T/G	8664853	downstream_gene_variant
T/G	8664920	downstream_gene_variant
T/G	8664927	downstream_gene_variant
C/A	8664934	downstream_gene_variant
A/G	8664935	downstream_gene_variant
C/A	8664938	downstream_gene_variant
A/G	8664946	downstream_gene_variant
C/T	8664973	downstream_gene_variant
C/G	8664991	downstream_gene_variant
G/T	8665018	downstream_gene_variant
A/G	8665034	downstream_gene_variant
C/A	8665036	downstream_gene_variant
C/A	8665052	downstream_gene_variant
A/G	8665054	downstream_gene_variant
C/A	8665063	downstream_gene_variant
A/T	8665075	downstream_gene_variant
G/C	8665080	downstream_gene_variant
C/T	8665090	downstream_gene_variant
G/T	8665105	downstream_gene_variant
C/A	8665111	downstream_gene_variant
C/T	8665115	downstream_gene_variant
C/T	8665147	downstream_gene_variant
C/A	8665160	downstream_gene_variant
C/G	8665167	downstream_gene_variant
T/A	8665478	missense_variant	p.Phe345Tyr
T/C	8665487	missense_variant	p.Leu348Pro
T/G	8666083	downstream_gene_variant
G/A	8666251	missense_variant	p.Glu488Lys
A/T	8666252	missense_variant	p.Glu488Val
T/A	8666442	synonymous_variant	p.Leu551Leu
G/T	8666451	missense_variant	p.Lys554Asn
C/A	8666969	downstream_gene_variant
T/C	8666976	downstream_gene_variant
A/T	8666979	downstream_gene_variant
A/G	8667291	downstream_gene_variant
C/G	8667322	downstream_gene_variant
T/A	8667327	downstream_gene_variant
G/A	8667363	downstream_gene_variant

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_11990.1

MEKILEADANTVSQRSSSSSVVALAIKGNKKSKYVVQWALNKFVPEGMIIFKLIHVYATIKGVPTPLGNVIPLSQVRNDVATAFKKEVEWQTNQMLLPFKRLCEQRKVHVDVVLIESDDVAIAITEEVAKGAITKLVVGASSRGIFKSKQKGISMKISVSTPRFCTVYAISKGKLSIRQSDMPIDGSIVDDASETSLSSSSSSNYTSTSQTESASVSSYAGLHSSSLATQRFQALSSINSALLSTNPSLSDTSHSRGQSLDFGRENTATSSARNSDIDHALSRVSSCKSFISDTESWMYDQNSIKDVPLATTLPSPNRQLNDLSKKRSEESIKMKEIIAKEEKAKEFAKLEIEKYQDASREAVYMKECAEREAVERKETEMKVIRATKEKEKLEGALSGNILQYRKFTWAEIVSATSSFSEDLRIGMGAYGTVYKCNLYHTTVAVKVLNTNGNRESKQFQQELEILSRIRHPNLLLLLGACPDHGCLVYEYMENGSLEDRLLRKNNTCPITWFERFRIAWEIASALAFLHSSKPEPIIHRDLKPANILLGRNLVSKIGDIGLSTVLHSDNLSTMYKDTAPVGTLCYIDPEYQRTGLISPKSDVYAFGMVILQLLTAKPAIALAHKVETAIEGGNLTDILDPEAGAWPFKETLDLALLGMSCAELRRRDRPDLKDQVLPILDRLKEVADRAQHSASTVTIKSKPPNHFICPILQDVMDDPCVAADGYTYDRKAIDKWLEENDNSPMTNIALPHKHLIPNYTLLSAILEWKSAES*

CDS Sequence:
>Vu_11990.1

Promoter Sequence:
>Vu_11990::LG3:8658613-8660613(+)

ACAATCTAAAGAATTATCACAATTTTAAAGATGAAATAGTAAGAAAATATTGATGAAAAACAAATACAAAAAAATGTTATAGATGTACCATTAATTATTAATTTTCTATCACAAATGATCTTAATCTTAATAATTAGAGTAAATACAATATATAGTTATTAAAAATAAAGCCATTTTAATAAAATTGTGTACATGAATATTTATTTATTATTCTTAATCTATTAATAAAAAGAATATAATAAATTCTTAAAATGTATATAAATAAATTGTGATGGAGGGGCAATTTGCTTTGATTTTATTTATTCTTTTTACTCTGACAATGATGAGTTGTTATCATTTATAACTTTGATGTGTATAGATTAATTTAATCACTGATTATTAATTTGTGATATCAACCAGTGGTGTCAATTTCGATAACTAAATTATTCTAAAATTGTGAAGGTCAGAAACTAAATTTTCTGAGTCTTTTTAGAACATCATAGACTAAATGAATTGACTTATAATTTTAATGATTTACCTTATGATATGATTCCAGAATATTCCATTAAACACATTCAACAGCTTTGGCAGTTAACATAAGACAAGAAACATCATATTATTAAAAGAAAGTGTTACCATTTCAAGTCTCAATTTCTTGGTTTAAACTAAAACAACATGTGTGAGGCGGCTAGAGAGGTTTGACTAATTGAGTTGATAATTGAAATGAAAATGCTCTCAAAAATTGAAAGTAGAAACACCCTTTTTGTGTTGACGGAAATTGCTGTTAGAGTTTGATTGTATGAAAAAAATCCTCGTCATGACAGTGACTTCTTATTTATGAGGTGGACATTGTCTGAAGGCACGGTTAGGTTGATGCATTTAATAGAAAATGTGTCTGATGAGACCATGAATTGCTGTTACTCACGTTCTTTGTTCTTTTATGTGTGAGACAACCATGTAATGAATTTTGGGGTGTCTGGGTGGTGTTCTTGTTTGAGACCTGGGAAAGGTTTCATATAGGAGAAGCTTCTTCACCAACAAGGATTTGAAGCTTTTCACTGTTTCAACATTCAACTAAGCAGGGGTTTGACTGGTAAGTTGAAAAGCCTCCTATGGTTGTTTTTTTGTTTTGTTTTACTTTGTTTGTTTGGTCTGTTTAAGTATATGGATTTCTGAATTTTTATCACACTCTCGTCCCTTTGTCCATGGATCTTTGAAATTTCCTTTTTTCATCATTTAAAGTTGATAATTGCACACTGAGTTCTTTCTGGGGATTGTTTACAGAGTTGGGAATTTGGGATTAGGTTTTTTGACTCATGCATAAAGAGAAGAACTTTGTCCTGTGAAATTCAGAAATTAAATTGTTTTAATTTGGAGCTTGAAACCCTTGTCCTTGATTTATCAGGTTATTTGTAAAATTAATGGAGGTTGCTTTCTCTTTAAAACAAAAATAGTTCCTTTAACACTCATTGTTTTGTATATTTCTAAGATTTCACTCTATAGATAAGTTTTATAGTATCAGTTATATACTGTTAGACAATTTTGCTTTATGTTAATTGATTTTAGCTTGAAATATGACACTGTAACCCTACTTTGTTATGACCTACGTAAGGATAAGACATATTTAGGAAAACTTCTCTATAAATGCTTCAAAAGAGAAGTAAAGCAATAAAGAAAAAAAAAATAAGTATTTTGAAAAGACGAAGTTAGCTTATGCATAAGCTAATTTATAAAAGTTTGATTTTAACTTATATATATATATATATGTTGATTTTCGCTTAATAGAGAAGTTTATTCCATTTTCCTATCTTACTTTCTTCTCTTAAAAATACTTATGAAGAAGTTTATCCTAGTAAGTCCTTAATGTGGTTTAGAAATTTATTGCAAGTGTTTTGACATGAAGCTGTTAAATTTTGTTATTTTTAGTGCCTGCAAGTAACTTGATATTCTGATAGAACATTCATTTTGTTTCTTTTCGGCTGTTACAGATAACTTACATCCTTATTCGTAGGGAAGAGAGA

Gene Sequence:

>Vu_11990(+)

ATGGAAAAAATTCTGGAAGCAGATGCAAATACTGTATCTCAGCGTTCCTCATCTTCTTCAGTTGTTGCTTTGGCAATCAAGGGTAACAAGAAAAGCAAATATGTGGTACAGTGGGCACTGAATAAGTTTGTTCCCGAGGGAATGATTATCTTCAAGCTGATACATGTTTATGCTACTATAAAAGGAGTTCCAACGCCATGTAATGTATTTTTATGTTTAATGTGTTCAATAAAGTCTGAACTTTATGCATATATTACATTGGGAAACTTCTACAAGTAATGATAACTGCATCAGTCGCACTTGTATCCTGAAGAAGTTTGTTTAGGTGGTCTGGTCTATTTGTAAAGGACTATGACTATCCAATTAGCAGTCTTGCATTGAGCCTCAAAGTTAGGGAATTTTCATATCTGCATAACTTTTGTCAACATGACAAAACTTTAGAACGTGATTTTGGGCCATGTTTCTGTTCTGTTTTCATTTTAATACTTAAGAGTTTTCAGCTGGACAACATAAGTACTTAATTATATGGGTTACTTAAGTTTTTCTATAGAATAAGTAATTTGATAATGCACAAGTGAAGTGACATCTGGTAGAAGATGGATATGAATTAGCAAAAGATTATTTCGTTAGGATAATATAACATTTTTGTATTTCCAGTGGGAAATGTGATCCCTCTTTCACAAGTGCGTAATGATGTAGCAACTGCATTCAAAAAGGAAGTGGAGTGGCAAACAAACCAAATGCTGCTACCTTTCAAGAGATTGTGTGAGCAAAGAAAGGTCAGATATGATAGATCATGTAGATTAATACAATATAGGATTTGTTTTCTGATAGTGTTGGTGCAGGTGCATGTGGATGTTGTACTGATTGAATCAGATGACGTGGCTATTGCAATAACAGAGGAAGTGGCTAAGGGTGCTATCACCAAACTTGTTGTTGGAGCTTCATCTCGTGGCATATTTAAAAGGTATTTGCTGATATGTTGATGCATAGTTCAATAAACCAGTACTTCTGCCAAGAAAAATGATAAGTACTTAAACACTTCAAAAGCTAACTATTAAGGGGAGAGAATCAAACACTTCAATACTCCACCAAGCATCACATACTACTTTGTGTAGGATTTGGACACTCTCTAATACCCAAGTTTTGTATCATAATCTAATCACACATGAGTCCTTAAATTGGATATTGGGATTTAAGAGGACTGTTGCTTTTACCATTAATTACTATTTGTTGGCTGATCACAAATTGTACTTCATTTTTTTCTTTTTAACTATGAAGAGACCTAGCTTCGGTCTCCTAACCTATATCACTGCATAGTTGATTATGAATATTTCTGGTATGAAAAATGCTATGAACATAAACTTTTTAAGCACCTTCTTTTTATTAGAACAAACTTCTAGGGAATCACAAAATTATGTGAAACTCACTTCCTATTGAATGAGTTTCATTTATGATTTTCAATAAATTTCAACCAATAATGGTGTGTTAAAAAATGGTTATTATAATACTCCTTTTTTGAAGTATGATAGGAACACTTGAGGTTGCTTTACCAATAAAATTCAAAATAATGAAATGTATCTTACCTAGACATTTTAGTATGAAATTAGGTTAAATACTCCATGCTAAATAGTGATTGTTCCCTAAACTTAATGGCTCTGTAGTCTCTAATCTCTCCTTGCACTTTAGGACTGATTTTGTCCCTTGTGACAACTTTGTGATCAGTGACAAATTTGATGATATAGGTGAATAAAATAAAATAGGCAAAGTTATCTATTAAAAAACACAACTATATTTGTAAATAATTGATCTTGTACACTATTTTTTTGTCTTTATTTGTTCAAAATGTGTAATCTCCTAGAGCATTATTATAGGTTTTTAAATTTTAAGGCCTGCTTAGAATGACTCATTCTAAAAGATTTTATTTTTTTACTTAATTGTACTTCTGATCTTCTAGTTTAGATTTTTGTTTTCCAAGTTTTCTTTGAATAAAGGAAGTCCCTCTATTTTTAAATTAAACAAATTTAGGCTTGTTGTCAAATTTTTTCTACCTGAAATTTCCAAAATATTAACTTCTATTCAAATATTTGGGGATTTGTGATGGATTTGGGATATGAACAAATTTGGAAATTTATAAGTCACATATCTAGTGGGAGCTTAATAAAATTTGAAGGGTTTAGTAGGATGTGAATTTAGGATCAAAAGAGAGAAGATTTGGAATTTTTTATTTTTGTTGAAATTAAATACTTAGGTAGTAAATTTTGGGTAAAAGAAAGTTTAGAACCATTTAAATGATTTTGTTTGTGATGATTTTCAGTTGGAAGTAAGAATTTGAGAGATATAAGTAGAAAGAAAGTGATAGAGGGACTAATTATAACAATTGAAGACATTCACATTGTCTGTAGGATGGTTTTCTTTTTCTGGTGTGCTCTAAGATGACTTATTGACCAAAATGATTTGTATAAGAACCTGAAAGTTAGTATTTCTTCCAACTTTTGTACATGATATGATGAACCATGGAAGCAGCAAACTTTTCGTAAAACTTCTATGACCAAAATTTTGTTGCAGACTAGATTTAATGTCAATGTTATGATGAGAAAAAAGATTACCAATTCTGTGTTCTAATTTAGGATGGATATTTTGTTAACAATTTTTAACTTTGCCGACAAATTCAGAAGAGTTCTTCCTTCTTGTTTCTTTGTAGTTTGCCTGGACAACTCTGAATTGAGGTGTTTGAATTACCTGAACTAGAACTTCAATTTAATTGATAATAATATTCATGATAAAAACCATTTCTGCGCTTCTCTTAATACTTAGCCTATACGATGATTTTGTTCAATATATGAATATTTAGAGCATGGTTACTTATGGATTTTTAAACTGAATTTAATGATGAGCCTGGAATATTTTACAGTTTGTATCAGTGTTGAGTACATAATGTTTCATTTCAACCAACTATCTTGTGGTCTCTATCTGATTATATTCCCCCTTTACTAATGTATTGTTTTCAGTAAACAGAAGGGTATATCTATGAAAATATCAGTAAGCACTCCAAGATTTTGCACAGTTTATGCTATTTCGAAGGGAAAATTGTCCATACGACAGTCAGACATGCCTATTGATGGAAGCATTGTAGATGATGCTAGTGAAACCAGTTTGTCTTCCAGCAGCTCATCTAACTACACTTCCACCTCTCAGACAGGTCTACTACTACTAGTAACTTCTGCAAAACTATGGTTTAGAAATTTGTAAACCCTTGATAAGTTATGAGATCATATTTAAATTCTTAAATTGCTATCATCATGTCAGCATAGGTACATATCCAATGCCTGAAATTTTCCAATTTGACATTCTTGTGTTCCAGCATTGTTAGTACACAGATAGGCACCTGCTCATATGTCTCCTGTAAATGGTAGACATTCACATTATTCTTCAAATCGTAATTTCCAATGACTCCCCATCTGGATTATTAGAAATAAGGAAATATAATAAGAAATCATCTATATTTAAACTGTGCCACTATATTTTACAGTTCTACTGTGATATTTAATGTTCATATTACTCACCTACATTGCAAATAAAGGCAACACTATGAGGTGCTTGGTTTCAAAGATATGTTTATCTCTTCTCAGAAATTCTAGCCTGTGTTGCATCATGAAAACATCAAAATTGACTATCCCCTGTGTAGTATAATTATTATCATTTTTGGATGTATACAGAATCTGCATCAGTTTCATCATATGCTGGTTTACACTCGTCTTCCCTAGCAACACAACGATTTCAAGCTCTTTCAAGTATAAATAGTGCACTTCTAAGCACAAATCCGAGTTTAAGTGACACTAGCCATTCTAGAGGCCAATCTCTAGATTTTGGGAGAGAAAATACTGCTACCAGCTCTGCCAGAAACTCAGACATTGATCATGCCTTAAGTCGAGTCTCTAGTTGCAAAAGCTTTATTTCTGATACTGAATCTTGGATGTACGATCAAAATTCTATAAAGGATGTGCCACTAGCAACTACACTTCCATCACCTAATAGGCAGGTAATTGAAATTTTTTTTATCTGGCTTGATGAAATGGTACTGATTTCTAGCTCATACATCAGGTGATGGTACCCTATTGGAAAACATAGACATATGTATACATGATTTAACATCGGATGGAAAAGTGTTCATTCCTTTTTTTTTTTATTTAATTTTCGTTCTATCCTATACTTGACAAGTCTCCAGCAACACAAATTTTATCTTCCACTAGAACCAGTTTTTTCATGCAAATGTAAAACTACAAATATGTTGTGCACAATCGAAATTTTTATTAATATGCAATCCTTCATAAAAAACTTTATGTTGCTTGTCATATAGCTATTGCTTCAGCAAATTCTAGATAGATACAACTCCAATTTGCAAGTGAACTTTCTTTTTGATCATTTATTTTATCAGGCAAAATTGAACCTTGAGCTGGAAAAGTTGAGAATTGAGCTAAGACATGTCCAAGGACTTCATGCAGTAGCTCAAAGTGAGAAAGTTGAAGCATCCCGGAAGGTAACATCTGTTTTCTTATTGCCAAAAACACTTTCTTCTACCTAATAAGTACAATAATTTAATGGGACCCCTGCACCCTAGCATACCTAAGTTGTTTCCTTGTTAGGTTCTTTGCTTTGACATCCATAAAGATACATTACCCTATTATAGCAATTGGAAGATGAAGTCACCTTCCATATGCGTGCAACTAAAATCATTGCTGGTATTGTCAAATGGAGTAACATCATTTATTGTTTTGAACAGCTGAATGACCTTAGCAAGAAACGGTCAGAAGAAAGCATAAAAATGAAGGAGATTATTGCTAAGGAGGAGAAGGCAAAAGAATTTGCAAAACTAGAAATAGAGAAATATCAGGATGCCTCCAGAGAAGCTGTATATATGAAAGAATGTGCTGAAAGGGAGGCTGTGGAAAGGAAAGAAACAGAGATGAAAGTGATCCGTGCCACAAAAGAGAAAGAAAAGTTGGAAGGTGCTCTTAGTGGTAATATACTACAGTACCGGAAGTTTACATGGGCTGAAATAGTCTCAGCTACTTCATCTTTTTCTGAAGATCTGAGAATTGGAATGGGAGCATATGGAACAGTGTACAAGTGTAATTTGTATCACACAACTGTTGCCGTTAAAGTTCTCAACACTAATGGAAATCGTGAAAGCAAGCAATTCCAACAGGAGGTATGAATTCTATAAATAAAATAGTAAAGCAAAAATATGTTCCATAATATGAGATAAAAGAATAAGTATATAGCTTCAATGTTGCAGGTGTTTATAGCATTTCAGTCGCAAGTTTGGATTTTCTCATTGATGTATCAAAGTTTATAATCCTAATTCAAATATAATGGTTAGGGTTGGGCAAAAATCCAAATAGTCAAATCTAATACATATTACTTTATGTCAATTTTAACACAACCAAGTTAGTTGTAAGACTGGAACTGAACCAGACAAGAATATTAAAAATAATTATAAGACTGGAACTGAACCAGACAGCAATATTAATTTATATCTTTTCTTTTGTTCTAGTTAGAGATATTGAGCAGAATTCGTCATCCAAACTTGCTGCTTCTTCTGGGTGCATGTCCTGATCATGGATGTCTTGTATATGAATATATGGAGAACGGTAGCCTGGAAGACAGACTGCTGAGAAAAAACAACACATGCCCAATCACATGGTTTGAGAGATTTCGAATAGCTTGGGAAATTGCATCAGCTCTTGCCTTTCTTCACAGCTCAAAGCCAGAACCTATCATTCATCGGGACTTAAAACCAGCAAACATCTTGCTTGGTCGAAACCTTGTCAGCAAGATTGGTGACATTGGACTTAGTACAGTACTCCATTCCGATAATTTATCTACCATGTACAAGGACACAGCACCTGTTGGGACACTCTGCTACATTGATCCTGAGTATCAAAGGACTGGGTTAATATCTCCAAAATCTGATGTCTATGCTTTTGGAATGGTGATCCTACAATTATTGACAGCAAAACCAGCAATAGCACTTGCTCATAAGGTTGAAACTGCAATTGAAGGTGGGAATTTGACAGATATATTGGATCCAGAGGCAGGAGCTTGGCCATTTAAAGAGACACTAGATTTGGCTTTGTTGGGAATGAGCTGTGCAGAACTTCGGCGTAGAGACCGGCCTGATTTAAAAGATCAAGTGCTTCCAATACTTGACAGATTAAAAGAAGTTGCTGATAGGGCCCAACACTCTGCTTCAACTGTTACTATTAAATCCAAACCTCCTAATCACTTTATCTGTCCAATTCTTCAGGTAATCAAATACTCCATATGTGACAATAAATTGATTTTCTATGCCACAATAATTAAATGTAAAACCTACTCATTTGGGTAAACATATTTTAGTGACAACAAACCCAACCTTTTTCCTTATGATAAGGTTGGATACGTCAGATAAAAAAATGTCATAATGTTACTTTAGGTTTAATTACTACTTTGGTTCTTATGCTTGTATTGTTTCTACATTTTGGCCTTAATACCTAAAAGCTAAACATTTTGGTTTGTGCATATACACTTATAATTGATCTCCTCTGTTAAGTGTGTCCAAAGAGCTAAAACCACCACAAATTTTATAGTGCTTGTTAAACCACAAGAACTTGTCACTTTAGCAACAAATTTGTGATAATTTAATAACTTCCCTAAAAAATCTGTACCAGCTCTACACTGTTAATATTGATTTGTGATGGTTTTATCGAATGGTAGGGCCAAAACAGAACTAAATGTTCACATGTAGAGACTGAAAGGTCAGGTTTTTAGGTACAGAGACTGAATGTAAAAACCTCAGATAGTAAAATATCAATTTATAAGCAACGTTTTGAATGATTCCACCTGTAGATTCTGGTAAACAGTCTTCACAAAAACATAAGGAACATTCTGTCCGTGTTAACTAGTTACCATCATAGCTTTAGCCAAACGTTGTTATCCAACTGTCTTGTCAATGTCCTTGAAGATGTCTGTTGTACTTTATTGATGCAGGATGTGATGGATGATCCTTGTGTTGCTGCTGATGGATATACATACGATCGCAAAGCAATTGATAAGTGGCTTGAAGAGAACGACAATTCACCAATGACAAACATAGCTTTACCTCACAAGCATTTAATTCCTAATTACACACTTTTGTCAGCAATTTTGGAGTGGAAGTCCGCAGAATCATGA