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_01772	LG1	20958115	20965226	PREDICTED: U-box domain-containing protein 52-like	Map

Annotations

category	relationship type	keyword
Biological Process	involved in	phosphorylation, protein phosphorylation, developmental growth, organelle organization, cell differentiation, regulation of developmental process, protein phosphorylation, protein phosphorylation, phosphorylation
Cellular Component	located in	nucleus, nucleus
Molecular Function	enables	protein kinase activity, protein kinase activity, protein kinase activity, ATP binding, ATP binding

SNP	Position	Effect	Amino acid change
G/C	20958280	synonymous_variant	p.Leu818Leu
G/A	20958325	synonymous_variant	p.Asn803Asn
G/A	20958385	synonymous_variant	p.His783His
A/G	20958514	synonymous_variant	p.Ala740Ala
A/G	20958739	synonymous_variant	p.Pro665Pro
C/A	20958801	missense_variant	p.Val645Leu
T/A	20958802	missense_variant	p.Leu644Phe
G/T	20959058	synonymous_variant	p.Ile602Ile
G/A	20959073	synonymous_variant	p.His597His
A/G	20959103	synonymous_variant	p.Tyr587Tyr
T/C	20959592	intron_variant
T/G	20959808	intron_variant
T/G	20959811	intron_variant
T/G	20959933	missense_variant&splice_region_variant	p.Gln443Pro
G/A	20959934	stop_gained&splice_region_variant	p.Gln443*
A/G	20960285	intron_variant
G/T	20960772	synonymous_variant	p.Ile275Ile
T/A	20960801	splice_region_variant&intron_variant
T/C	20960802	splice_region_variant&intron_variant
A/C	20960848	intron_variant
A/C	20960926	intron_variant
T/G	20960968	intron_variant
G/A	20961288	intron_variant
G/A	20961340	missense_variant	p.Thr235Ile
G/A	20961368	missense_variant	p.Pro226Ser
G/A	20961370	missense_variant	p.Thr225Ile
C/T	20961375	stop_retained_variant	p.Ter223Ter
G/A	20961457	missense_variant	p.Pro196Leu
G/T	20961646	stop_gained	p.Ser133*
G/T	20961665	missense_variant	p.Leu127Ile
T/A	20961688	missense_variant	p.Gln119Leu
A/T	20961888	intron_variant
C/A,*	20961892	intron_variant
C/T,*	20961895	intron_variant
A/C	20961904	intron_variant
G/A	20961924	intron_variant
T/G	20961941	intron_variant
C/T	20961976	intron_variant
C/G	20962045	intron_variant
T/C	20962231	intron_variant
G/A	20962238	intron_variant
C/T	20962246	intron_variant
A/C	20962298	intron_variant
T/C	20962307	intron_variant
C/T	20962323	intron_variant
T/C	20962348	intron_variant
C/T	20962353	intron_variant
A/C	20962368	intron_variant
C/T,*	20962404	intron_variant
G/T	20962405	intron_variant
A/G	20962425	intron_variant
G/A	20962429	intron_variant
C/G	20962662	intron_variant
T/C	20962697	intron_variant
T/G	20962719	intron_variant
T/C	20962743	intron_variant
A/G	20962763	intron_variant
T/G	20962811	intron_variant
T/G	20962838	intron_variant
C/T	20962862	intron_variant
G/A	20962940	intron_variant
T/A	20962970	intron_variant
T/C	20962987	intron_variant
G/A	20963020	intron_variant
A/C	20963022	intron_variant
A/G	20963033	intron_variant
A/C	20963035	intron_variant
T/C	20963052	intron_variant
A/G	20963061	intron_variant
G/T	20963062	intron_variant
G/A	20963063	intron_variant
G/A	20963112	intron_variant
C/G	20963145	intron_variant
C/G	20963212	intron_variant
G/T	20963252	intron_variant
G/A	20963286	intron_variant
A/C	20963306	intron_variant
G/A	20963308	intron_variant
T/C	20963309	intron_variant
C/T	20963321	intron_variant
G/A	20963328	intron_variant
C/G	20963347	intron_variant
C/T	20963402	intron_variant
G/A	20963432	intron_variant
T/C	20963452	intron_variant
T/A	20963459	intron_variant
G/A	20963463	intron_variant
T/C,*	20963501	intron_variant
A/C,*	20963516	intron_variant
A/T,*	20963517	intron_variant
T/C,*	20963525	intron_variant
G/A	20963646	intron_variant
T/C	20963663	intron_variant
C/T	20963666	intron_variant
C/T	20963675	intron_variant
C/T	20963677	intron_variant
G/C	20963687	intron_variant
T/C	20963799	intron_variant
A/T	20963806	intron_variant
A/T	20964063	intron_variant
A/G	20964094	intron_variant
A/T	20964239	intron_variant
C/T	20964310	intron_variant
A/T	20964338	intron_variant
C/G,*	20964355	intron_variant
G/T	20964394	intron_variant
G/C	20964418	intron_variant
C/G	20964548	intron_variant
G/C,A	20964603	intron_variant
C/G	20964614	intron_variant
G/A	20964714	intron_variant
G/A	20964723	intron_variant
G/A	20964847	intron_variant
G/T	20964882	intron_variant
C/G	20964887	intron_variant
G/A	20964907	intron_variant
G/A	20964911	intron_variant
G/C	20964992	missense_variant	p.Pro79Ala
C/T	20965023	synonymous_variant	p.Gln68Gln
G/A	20965031	missense_variant	p.Pro66Ser
A/G	20965173	synonymous_variant	p.Asp18Asp
T/C	20965193	missense_variant	p.Thr12Ala
G/T	20965203	synonymous_variant	p.Gly8Gly

View accession wise SNPs

Sequence Details:

Protein Sequence:
>Vu_01772.1

MFSASFFGSRVTFDVAGDIVFIWNEKNWESWVSIGSSGCLDYSSYLVYNISKNEFQDIVQQLTGSPSQDHPPRPPHNPPEPQSTRLQKIRPPPVKGLKNERMRLKAWCVGVRVMEKVATGKKWESMAFLISIFTPHQDQEDPKTKGHKLTETFCLRPRLSQRSRRWQTLAKTTTTTTTTTSTLTSAMSSNADSTTSQLLNVTMVAVDKGKSCAHAFRWTIKNIDNPVIIALHIKHKNITHQSTDAVPPDEDDVAHVFNHLRQMCQGNNVQLKEAVIHDSDIVRGIVEYAQRNRVNTIVVGAGSSNRTSFARSLYLRSGSKKLKGHVSTGVMKSAPDHSSVFVISKGKIVGARPAIRPMVNMVQPPSEHAKSENRTHAIRSGSTNGRSERSLVLEMPRSSSVGQSMEHRLIFCRSSDGTDSSKSNKLVSSDGIRQECDPSDSQFTEELESEMKRLKLKLKHTMDMLSSACKEAVSAESKAKEINQRKLDEERIAEVAKLSKEAALALAEKEKVKAKAALEAAEEAIKMVEKEAQRRFNAEMKARREAHEKDRALNQLACRDIRCRKYSISDVEEATHKFSPALKVGEGGYGPVFKGQLDHTQVAIKILNPEATHGRRQFQQEVEVLCSIRHPNMVLLIGACPEYGCLVYEYLENGSLEDRLLRKNDSPPIPWWKRFEIAAEIATALLFLHQTKPEPIVHRDLKPANILLDRNFVSKISDVGLSRLVPASVADSVTQYHLTAAAGTFCYIDPEYQQTGMLTTKSDVYSLGIMLLQIITAKAPMGLAHHVLKAIEEGTFSEMLDPSINDWPLEETLEFAKLSLNCAELSKKDRPDLATVVVPKLNHLRDFGLASQNKLNHSHPQLPLSPTRTHRSDP*

CDS Sequence:
>Vu_01772.1

Promoter Sequence:
>Vu_01772::LG1:20965226-20967226(-)

CATTAGTAAACTCAAATTTTTAGTCCTTAAAAAGCAACAACGTTAAAGTTTCTCTGCGGTGACTAAAGGTGTGTCAGGTCTGATGTCAACTTTCATGTTAAGTGTGTGTCACGTTTCAATTTTTTTTCTAAAATCTAAATAGGGGTTTCATGAAAAATTAATATTCTTTAATTATCATCAATCAAACCAAGAAAAAGGCTTGATAGGAAAATTGAAAAGAGTGGGAATTTGATTCCTATTTGAAAAATTCATTCAACCTAATTATACAACAATGGTCCTGATTTTCTGCCATTGTCTTTGGATACGGATAACATTGCTAAGACAATCAAGACTTTCTTTCGTGTCGAAGCTACCACGACGTCCTTTCAGAGTTATCCTCCGGCGCCACTGAATTTGAGGTAGCAAGATCTGCGTTTGTCGTTGCAGTCCTTTCAGGACCCTATCATGCTTCAACACTAACCTCAGAGCCACAACGAGCCGGTGCTATTCGTCGGAACGACGCTCGACTTTGATGGTGGAGCAAGCCGTCCTCTGCTTTCTCCGATTCTCGCCATTGATTTCAAAAACACATAAAAGATCCCAACTTTGTTCTTCCCGAGGTTCTTTCTCACGACCCAATTCTTAAAATCTCAATGGTGTTCCTCCTTTTTTGTTTCTCTTACTCAGTTTTTTTGTTAATGTTATTTTAGGGCTTGTGGGTTGGATTGAAGATGACTTAGTTGATAAAGAGAACATGCTTTTTGAAATATTAGGTTGAATGAATTTTCAAGAGAACTCAGTTAATAAAGAGAACATGCTTTTTTTTTGTTTGATTGATTGAAGACAAGGAAAGAACCCTAATTTTTCAAGAAACCCCTATTCTTATTTTAGAAAAAAATTGAAACGTAGCATACCTTTAACCAAACTAAAGAAAATTCAAAGTTGTCACTTTTTGAGGTCTAAAAATTTGAGTTTACTAAGAAAGTGATGAAAATAAATAAACCTTTATAAGAAAGACAAAATCCAAAATAACATGATACTTGAGTGACTAAAAACATATTTAATCCTTATTTTTATTAATATTACATTTTAAGTGAATTAACTTATTTGATTATTCTTTTAAATTTAACTAATTTTTAATTATAAATTTACTTACAAAATAAATAAAAAATTACTTACAATAATTTAAATATGATATTAATAACGATAAAAATAATTTTATTATTTTTTATTATCATAAAAAAATAATATATATATATATATATACATATATATATATATATATATATATATATATATATATAATATGGGTATTTCTCTTTTTATTATAATTGTTTTTCAATTTTATCTTAATTATTTTTAGTAAATTTAATTTTTTATTTGACCAATTTTCTTAATTATAATGGAACTATTTACCAATAAAATTATAAAAATTATATTTTATTATCATTAAGGCTGTGTTTAGTTGGGGGTGATGGAGAGAGATGATTTGGGGGAGAGTGATTGAGTGGATTTGAGAGAATTTGAGGAGAATTTTTTTTGTGTTTATTTGAGTGGATTTGGAGGTAATTGAGAGTGGATTTAGAGATAAAGTTTGTGAGAATTAGTGTAGGATTTGATTGATGTGACAGTTTTAAAAAAATTATTTAATTGATAGAAATTAAAGATTACCAAAATATCCCTAGATATTAAGGTGATATAAAATGATATTTTTTTATGTTATATTTATTTGTAAAAATATTTATTAAGATTAAAAAAATAAAAAATAATTAATAAAAATAATTTATAAAAATTAATTAAATTATAATTTAGTAAAAATGAATTTATTAACGTTCATCTCCGAGAATTAGTCTTACTCCTTCAAAGCTTCTTTTTTTTACTCAAAAACCCTTTCCAGGTATTATCCTTTCCATTAACCCATTTTTCTTTCATTCTCTACTCCCAGTTTTGATCTGATCCCGTGCTGAATTTGAAGTTGGTCCTCCACTCCTTCAAATTTCGGGCGAAGCTCTAAAAAGGGT

Gene Sequence:

>Vu_01772(-)

ATGTTTTCTGCCTCTTTCTTCGGCTCTAGGGTTACCTTTGATGTTGCTGGTGATATTGTTTTTATTTGGAATGAAAAGAATTGGGAATCTTGGGTGTCTATTGGAAGTTCAGGATGCTTAGATTACAGCTCATACTTAGTTTACAACATTAGCAAGAATGAATTTCAGGATATTGTTCAGCAGCTTACTGGATCACCCTCCCAGGATCATCCACCTAGACCTCCACACAATCCACCGGAGCCGCAGAGCACGCGACTGCAGAAAATTAGACCTCCCCCGTTAACGGCAATCACTCTGCAGAAAATTAGACCTCCCCCGCCAATCAATTGGCCTCGTATGGCCCCCGCTGCTACCCGAATACACCTATGGAGACCGAATACGCAGAGGGTAACCGAATACGCAGGAGGGTAACCGAATACGGTTTCACATGCTTTTCTTCAGACGCCTGTAACCGGATACGCCGTCTTCAAACCAAATACAGTTTCAGCGTTCTTCGTCTTCTCCAGTGAACGCAGAGTCCTCTTCTTCATCAACCTCTTCTTCATCGTGAGTGTACAGCGAAAAAAGCTGTGTATTTTAAATATGCAATGCAATTTGATTATAATTTAAGAAGGTTTATTCATCGGGGAATTTTATTCAGTTACAGGGGCATTTAAGAGAAAATGCATTTAATCCCTCGAAATCTCCTCACATATGCGGATGAGTGAACAGTAGATGAATCCTGCAATTCGCTTCAATTCCATCCGCATAATTCAGTTCAAGTGAACGCGTAATTACCTTCCATTCCTCGCTCTCAATCTTTCGTAAACAGTATCACACCCTCAAGTGAACACAGCCTCAATCTTTCGTAAACAGTATCACACCCTCAAGTGAACACAGCCTAAAAGATAGTAAACACAAACACGCTAGCACATGTGTCTAGTCTATATATAAAAACAACATATCTTTTGTATTCACATTTATTTTCTAATTTTATTCTTTAAGTATTTCTTTTAGATAAAATAATTATTTTAACAACATTACCTTTTAAGTGATTATTTATTTGACTTTAAACATTTTTTATTTGGCAGCTTTTTTAAACTTAATCATTTTTAATTAAAATATTATTTACAAAATAAATGAAAATTACTTATAATAAAATTATAAAAATTATTTATAATTAATTTTTTAATTATAATAATATTAATAATTATTTTTTATTTTTTTATTATCGTAAAAAAATAACACACGCATAATACATACGTTTCCACTAATTTTAAATAAGCTGAATAATAACATTTATACTATTATAAAAAATTAATTAAGTGTTATTTATTTTCTTAGATTTTTCATTATAAATAAAATTCATAATAACAACAATGAAAATAGTTATGTATTGACTTTTTTTGTATAAAAAGAACCTTTTTTTTATAATTTTTTTTTGGGAAAATAAAGAATACAGGTTGTATTAAAAGAATACTTTTTACATTTTTATGTTAAATTATATTTTTTGTAGGCATATATTTTCTTCTAAACACTAGTACAATTTAGGAACAACGTCAAATATTTTGGGCTTTTAATGGGAAATTTAGGAACAACGTCATATCAGGAGACAACGTTAAATTTATGTCGAATTTAAAAAATTTGACGTTAAACTTAATGTGGAATTTTGTTAATATTTGAAGTTAATCAATTTTTTTAGTTTTTCTTTAATTAATTGTGATTCTTCTTTACCTGAAAAGAAAAAAAACAACAACAAAAATCATTTTTGGTATTTTATAAAGCATGAACTATGAATGTGTAGTGTAGTATCAACAGGAAGCAATAATAACCAACAACAAACAAGTTCAATCAAACAACAACAAATAAGTTTTTTAAAACGAAAACGTTTAAAAGGTGGGTTCGTCGGGATAAAGTTTCGTCACAGTGAGAGAGAAAACATAATGCGCAGGAAAAGAACACGAAAATAATCGATTAAAACAAACAAAAATCATACATAAAATAATTAATTAACATGCATTTGTATTAAATGAAAGAAAGATTACATGTGATGCTAGTTAAATTTCGTTTTAGAAAAGTTTGAGAAGAGAATATATCGCGTGGTAAGATAAAGTGAATGAATTTTCAATATCTCCCTCAAATTTTTATTAAATTCACTCACCTTGGACATTTCACGTTTTATATCCTTTTACGTCAAATTACAATTCTAAACTATGTTTAATAATTGCATTTATTTACAAAAATTTCACTGCTCATTTTTATTATACAATCCTTTTAACACGTTTGAACGTGTAAAGTTATAAATTACTTTTGTATTAGTGAAAATTGTATAGTTTTAATTCGTTTGTTTCTTCTATTTTCTACCAATCGAACATTAAATCTACCGCATCCCTTAAGATGCCATTAAAAAACTTAACCATTTAAAATTAAAATTAAAAATAAATAAGACATATTTAAAATTAAATATTATATATTAGTCATGAATTTTCGTAATAATAGAATTTATGAGATTCAGTTTGTTATGTTTAAAAGAAAGAAGTTAAATTTGATAGAGAATGAAAATATCCCTTAAAAATAGACTATGAGAAAATTATTTTTTATTTATCAAACGATGTTATTTCTTTAAAACTAGAAATATTATGTTTAATTATTTATTTGTTTCACAAACATATATTGTTCAGTGATATTTGATAGGAAATATAGTAGGCTTAATACCCTATTTTGTCCACAGTTTCGCTCGACGATGTCAAATTAGTCCATCCTTTAAAACGTGCGTCAATTACGTCCCTACTTAATAAAATTTATATCGATGAAATCCCTTCTGTTAAATCCGTACAAACGGCGTTAATAGAAAAGAGAGAAAAATAATTAACGTCGTTTGTACGGATTTAACAGAAGGAATTTCATTGATATAAATTTTATTAGGTAGGGACGTAATTGACGCACGTTTTAAAGGATGGACTAATTTGACATTGTCGAGCGAAACTGGGGACAAAATAGGGTATTAAGCAAGATAAATCAATTCCAATTTTAAATAGGATAAGTTTTTTTTGTATCCCTTTAATTATTTTTTTCTTTCGCATGTGTAGTTAGATTCACGCTTAATAGATTAGGTTAGTTAAGGAATTAAAACTTTTAATTAAATTAAGTTAACTTAATGTTTTTTTTATTGTTAGGTTTTTGTGCTCATTTAAAGGAGATTGAAAACATTGTAGTGAAACATTTCATACTCATTAAGTTATTTATAGGTAAGGAAAAAATATTTAATTTAGTAATTCGAGAATGGCGGAAAAGTTGGTTCCTAAAATAAAATTGAAAATGATCTTAGCATTGACTTGTATATTAAATACATGTTGGAATACAATACTGTTATGTAATAAAAAAAATGTAATCGATATTTGAGAAGCATGAATATGATAATTTATTTAGAGAAGAATAAGAAAGAAAATGAAAAAAAGAAGGTTGTGGTGTGGTGTGTTAGGGTCAAAGGCCTAAAAAATGAAAGGATGAGGTTGAAAGCATGGTGCGTCGGGGTGAGGGTGATGGAAAAGGTTGCAACAGGAAAAAAGTGGGAAAGCATGGCTTTTCTCATTTCCATCTTCACACCGCATCAAGATCAAGAGGACCCCAAAACAAAAGGACACAAACTAACCGAGACCTTCTGTCTCCGCCCCCGTCTCTCACAGCGGAGCAGGAGGTGGCAGACCTTGGCCAAAACCACAACCACAACCACAACCACAACCTCAACCTTAACCTCGGCGATGTCTTCTAATGCCGACTCCACCACCTCCCAGCTCTTGAATGTCACCATGGTAGCCGTTGACAAAGGCAAGAGCTGTGCCCACGCCTTTCGTTGGACCATCAAAAACATAGACAACCCCGTCATCATCGCACTCCATATCAAACACAAAAACATTACTCATCGTAGGTACCCTCTTGCATTATTTACCTGTCTCTCTCCCTTCTTCTTATTCCATCCTCCAACAGATCTTTTAATATATATATATATATATGTACGATGATTTTTATGCTGTTGCTTATATTATATAACAGTTATAATATTATAATTATGCGCATGCAGAGAGCACCGATGCTGTACCTCCCGACGAAGACGATGTAGCACATGTTTTCAACCACTTACGTCAAATGTGTCAAGGCAACAATGTATGTAATTGATATCCAATTTTGGAGAAAATTTTCATTACAATATTCTAACAAATAGTTTGTAATGGATAAATAAGTTCATTAAATTTATGATAATTACGTCACGATTTTTTATAATATCAACAGTTAATTTTGATTAGTTGAACAGATACAAAATTTTATAGAGACCATGCATAATTATTAAAGTCTATATTCATGGATATAATAACTAATAATTATTGTTGTTGCTCTTGGTTATACTTGAATCTAACTTTGAAGTGATAAAGATGTTGCACATTGTTAACTCAGGTCCAGTTGAAAGAAGCCGTGATCCATGACAGTGATATTGTGAGAGGAATAGTGGAATATGCACAGAGAAATCGCGTGAATACTATAGTCGTTGGTGCAGGCTCCTCCAACAGGACTAGTTTTGCAAGAAGTCTTTACCTGAGGAGTGGAAGCAAGTTAAGTGTTAATTGAGACATTACTTACCAATTTTTCTACTTTGAACTCATATAAATGAGTTTAGTCATCTTAAAATTTGGCCTTTGCATGACAATTTTGTGTTTCCTTTGCATGTACAAATGTTATGTAATGTGTTAAAGTTTCTTAATGTGGTGGCTGTCTCAGAAAATTAAAAGGCCATGTGTCAACAGGCGTAATGAAATCAGCACCAGATCATAGTTCTGTGTTTGTGATTTCAAAAGGGAAGATAGTGGGAGCTCGACCAGCAATACGACCGATGGTAAACATGGTTCAACCACCAAGTGAACATGCAAAAAGGTGCCACACAATGAAACTTATTAGTACCTTTCACATTTTCAATGCATATATGCCATGATGAAATATGCAAGTAGTGAGTAAATAATTTGTCAGAAAATAAGTTGGTTATAGCCATGTTAAACTGTAAGCAAAAGGGGTCTTAAATTTTTCACATTTTGGTTGGCTACAGTGAGAACAGGACGCATGCAATTAGAAGTGGGAGCACCAATGGAAGATCAGAAAGATCACTTGTACTTGAAATGCCAAGGTCTTCTTCAGTTGGTCAATCAATGGAACACAGGTTAATATTTTGCCGCAGCTCGGATGGAACTGACTCTTCAAAGTCGAACAAGTTAGTCTCATCAGATGGAATTAGACAAGAGTGCGATCCATCGGATTCTCAATTCACAGTATGTGTCCAAGAAAACAAAAGCTTATGATGGATTAGATTGTCTTTGTTGTAGAACCAGAACTACTAAGTGATCAAGTCAGTATGGTACAACTAAGTCGTAGAAATTAATTTACTATTTTATTACTTCATTCCAGGAAGAGTTGGAGAGTGAGATGAAAAGGTTGAAGCTCAAACTGAAGCATACTATGGACATGTTGAGTTCAGCTTGCAAAGAAGCAGTGTCAGCCGAAAGCAAGGTAAAGTAAATTATGTGATCACTGTAAGAAGTAAGAAAACTCTACTTATGTGTTCATTCACTGCATAATGTATAGACAAAAATTACCCTCAAAATGGTTTACATATTGTGATGGAAATAAGGCCACAACTATTACTCCTTCACTATAATAAACTGGTAAGGATAAAACAAGGGTAGTGACTAATGAGCTTGAATGTTACACTTAGATGAAATCAACGAAGTGTTGTTAAATGAAATTACTCAAAGGGTGTTCTTGGCAGGCTAAAGAGATTAACCAACGGAAACTGGACGAGGAACGTATAGCTGAGGTGGCCAAGTTGTCTAAAGAGGCAGCACTTGCATTGGCAGAAAAGGAGAAAGTTAAAGCCAAAGCTGCCTTGGAAGCAGCTGAGGAAGCCATTAAGATGGTTGAAAAGGAAGCACAGAGAAGATTTAATGCAGAGATGAAGGCCAGAAGAGAGGCACATGAAAAGGATCGAGCATTGAATCAGTTGGCATGCAGGGATATTCGATGCAGAAAATACAGTATAAGCGATGTTGAAGAGGCCACTCATAAGTTCTCCCCAGCATTGAAAGTAGGTGAAGGTGGATATGGACCCGTCTTTAAAGGCCAACTTGATCACACCCAAGTAGCAATCAAAATTTTGAACCCTGAAGCTACCCACGGAAGGAGGCAGTTCCAACAAGAGGTATGATATATATACTTTAAATGTCACAACCGATACATATTTTAATTCATTAGCAGTATAAAAGTATTTATAGTGAACATCCATGTTTATGCAAGCTGAAGAAAATATATTTTCCTTCTGACATGTGTAGGTTGAGGTATTATGCAGCATAAGGCATCCTAACATGGTTCTCCTCATTGGTGCATGTCCTGAGTACGGATGTTTAGTGTATGAGTACTTAGAGAATGGTAGCTTAGAAGATAGATTACTGAGGAAAAATGATAGCCCTCCAATTCCATGGTGGAAACGTTTTGAAATAGCTGCTGAGATTGCAACTGCACTTCTTTTCCTTCACCAAACAAAGCCAGAACCAATTGTGCACAGGGACCTCAAACCTGCCAACATTCTCTTGGACAGGAATTTTGTGAGCAAAATCAGTGATGTGGGTCTTTCAAGACTAGTGCCAGCTTCTGTGGCTGATTCTGTCACACAATATCACTTGACTGCTGCTGCTGGAACCTTTTGTTACATTGACCCTGAGTACCAACAAACTGGGATGCTAACAACAAAATCAGACGTATACTCATTGGGGATAATGCTTCTACAAATCATCACAGCCAAGGCTCCAATGGGGCTTGCTCACCATGTTCTGAAGGCCATTGAAGAGGGAACATTTTCAGAAATGCTTGATCCTTCGATCAACGATTGGCCCCTTGAAGAGACTCTTGAATTTGCCAAACTCTCACTCAACTGTGCAGAGCTCAGCAAAAAGGACAGGCCTGATCTTGCAACCGTGGTTGTGCCAAAGCTTAATCATTTGAGAGACTTTGGGTTAGCATCACAGAACAAGCTGAATCATAGTCATCCTCAACTCCCTCTCTCGCCTACAAGAACTCATCGATCAGATCCATAA