SoyBase
SoyBase transitions to NEW site on 10/1/2024
Integrating Genetics and Genomics to Advance Soybean Research
SoyBase
SoyBase transitions to NEW site on 10/1/2024
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A newer version of this gene model can be found here:
| Database ID | Annotation Type | Annotation Description | Annotation Source | Match Score | Evidence Code |
|---|---|---|---|---|---|
| AT3G19050 | AT | Annotation by Michelle Graham. TAIR10: phragmoplast orienting kinesin 2 | chr3:6578047-6590106 FORWARD LENGTH=2771 | SoyBase | E_val: 0 | ISS |
| GO:0000910 | GO-bp | Annotation by Michelle Graham. GO Biological Process: cytokinesis | SoyBase | N/A | ISS |
| GO:0007018 | GO-bp | Annotation by Michelle Graham. GO Biological Process: microtubule-based movement | SoyBase | N/A | ISS |
| GO:0005737 | GO-cc | Annotation by Michelle Graham. GO Cellular Compartment: cytoplasm | SoyBase | N/A | ISS |
| GO:0003777 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: microtubule motor activity | SoyBase | N/A | ISS |
| GO:0005524 | GO-mf | Annotation by Michelle Graham. GO Molecular Function: ATP binding | SoyBase | N/A | ISS |
| KOG4280 | KOG | Kinesin-like protein | JGI | ISS | |
| PTHR24115 | Panther | FAMILY NOT NAMED | JGI | ISS | |
| PTHR24115:SF82 | Panther | SUBFAMILY NOT NAMED | JGI | ISS | |
| PF00225 | PFAM | Kinesin motor domain | JGI | ISS | |
| UniRef100_G7JMI4 | UniRef | Annotation by Michelle Graham. Most informative UniRef hit: Kinesin-like protein KIF15 n=1 Tax=Medicago truncatula RepID=G7JMI4_MEDTR | SoyBase | E_val: 0 | ISS |
| UniRef100_UPI0002336C2E | UniRef | Annotation by Michelle Graham. Best UniRef hit: UPI0002336C2E related cluster n=1 Tax=unknown RepID=UPI0002336C2E | SoyBase | E_val: 0 | ISS |
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Glyma07g33111 not represented in the dataset |
Glyma07g33111 not represented in the dataset |
| Libault et al. 2010, Plant Phys 152(2):541-552. Complete Transcriptome of the Soybean Root Hair Cell, a Single-Cell Model, and Its Alteration in Response to Bradyrhizobium japonicum Infection |
Severin et al. 2010, BMC Plant Biology 10:160 RNA-Seq Atlas of Glycine max: A guide to the soybean transcriptome |
| Paralog | Evidence | Comments |
|---|---|---|
| Glyma02g15340 | IGC | Paralogs in soybean determined by Steven Cannon using BLAST, DAGChainer, PAML, and selection of gene pairs from synteny blocks with median Ks values of less than 0.3. |
| Corresponding Name | Annotation Version | Evidence | Comments |
|---|---|---|---|
| Glyma.07g209300 | Wm82.a2.v1 | IGC | As supplied by JGI |
| Schmutz et al. 2010 Genome sequence of the palaeopolyploid soybean Nature 2010, 463:178-183 |
>Glyma07g33111.1 sequence type=CDS gene model=Glyma07g33111 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high ATGCTGAGGGATTTCAAGCTCCCACGCCGAAACGCTAGCAAACACGAAGAGCCGGAGAATGTAGATCCTTATGATTCATCCACCACAATTCAGAGGCACGCGGAAGGTTCTAGACATCCGTTGAATACAATTCAAGAGCCTGATGCGCATTGCGAAAGCAAGATTGACAAGACTCCTTCGAAGAGAGGAAGAGGAGGAGCTGAGCTTCGCACGCCGGATAAGCACGGCGGAGGGAGCATGCTTGTGAAGCACCGGTTCGGGTGGAATCACAAGCACGAAGGAGTTTCGTCGTTCGGTGATGACAGGAGAGCATCTGGTGTTGGGAATGTGACTCCTCGCGTGCCTCGCACCGTGGGGAGAGCTTCTTCGAGTGTTGCTGCTTGTTCCGAGAGCAACTCCACTCAGAGCACTCCGAATAAGAGTGTGACTAAGCCACCCCCGAGCTCGAGTGTTCGGAGCAAGGCGGATGGGGGAGGCTTCAGTGCTCGTTTGGGGAATTATGCTGCATTGTATAAAGGGGTTCCCAGTTCGGCTTGCTCCATGCCCACGGTTGTTAACACGGTCGAAGTGCCTCACTTTGATCTCAAGGAAGATTCTTCATTTTGGATTAATCACAATGTACAGGTTATTATTCGTGTTCGTCCTCTCAATAGCATGGAGCGATGCACACAAGGGTATAACAGATGCCTGAAGCAAGAAGGCTCTCAGAGCATTACTTGGATTGGGCAACCAGAGAACCGGTTCACCTTTGACCATGTTGCATGTGAAACCATAGACCAGGAAATGATTTTCAGATTGGCTGGTCTTCCAATGGTAGAGAACTGCCTTTCAGGATATAATAGCTGTATGTTTGCGTATGGACAGACAGGAAGTGGGAAAACATATACAATGCTCGGTGACATTGAAGATTTAGATGTGATGCCTAGTCCTCATCGTGGAATGACACCGCGTATATTTGAGTTTTTGTTTGCCAGGATCCAAGCTGAAGAGGAAAGCCGAAGAGATGAGAACTTAAAATACAACTGCAAGTGTTCCTTCTTGGAGATTTACAATGAACAAATTACAGATCTACTTGATCCCTCCTCTACTAATTTGCTACTGCGTGAGGATGTCAAGAAGGGTGTTTATGTTGAAAATTTATCCGAGTTCGAGGTTCAAAGTGTGAGTGACATAATAAGGCTTCTAATTCAGGGTTCTGCAAATAGAAAAGTTGCAGCAACAAATATGAATAGAGAGAGCAGTAGGTCCCATAGTGTTTTTACATGTGTAATTGAGAGCACATGGGAAAAGGATTCTACAACTAATTATCGTTTTGCAAGGTTAAACCTGGTTGATCTAGCTGGCTCAGAAAGACAGAAGACTTCTGGTGCTGAGGGGGAGCGTTTAAAAGAAGCAGCTAACATCAATAAATCATTATCTACCTTGGGTCATGTTATTATGATACTAGTGGATGTGGCAAATGGGAAGCAGAGGCATGTACCTTACAGAGACTCCAGACTAACGTTTCTTCTTCAGGACTCTCTTGGCGGAAACTCGAAAACAATGATCATTGCCAATGTCAGCCCTTCTATCTGCTGTGCTGCTGAAACATTGAACACACTTAAATTTGCTCAGAGAGCAAAACTTATTCAAAATAATGCTGTGGTGAATGAAGATTCTACTGGGGATGTAATTGCTTTACAGCATCAAATTCGGCTTTTGAAGGAAGAGCTTTCTACCCTCAAACGACGGCAGAATGTCTCTAGGTCTTTGTCATTTTCTTTGTCATCTATCAGAGATATAAAACAATCACTAGAACTAGAAGACTGTTGCCTAGAAAATGCAACCGACGTGGTTGATCAACATGAAGAAAACATGCCTGATTATGAATCCAAGGGCATCAGAATGTCCCACAAACAGTTAAAATCATTGGAGACAACTCTTGCCGGTGCTTTGAGAAGGGAACAGATTGCAGAAATTTCTATTAAGCAACTAGAAGCTGAAATTGAACAATTAAACTGTTTGGTTCGTCAAAGAGAGGAGGACACTAGGAGTTGCAAAATGATGCTTAGGTTTCGTGATGACAAAATTCATAGATTGGAGTCCCGACTTGCTGGTTCCATTCCTATGGACACATTTTTGCAGGAAGAGAATAAAGCACTTTCTGATGAGATTCGAATACTTCAGAGCAAACTTGATCGAAATCCTGAAGTCACCCGGTTTGCTGTAGAGAATATCAGGCTTCTAGACCAACTTAGAAGATATCAAGAGTTTTATGAAGAAGGGGAGAGAGAGATTCTATTGACTGAAGTGTCTTCTTTGAGGGAACAGTTGCTTCAATATCATGGAAGAAACTCCATACAGGCTAATTCAAATTGTGACATTCAACCTCAGGAAGCTCAGTGCTGCAATAAAGAAAATAACCCTACTGATCTAGAGCTAATAAACACCCTTGATGAGTTAGAGGAATGCAGGCGTAATTTAAATTATTGCTTAGAGGAGAATGCAAAACTCAATAGGGAAATAGATTCTCTTCACTCAATGTTAAGCAGCACAAATGCTACAAAGGTTTCTACCAAAGGACCATTTTGTGAAGCTCAGGCAGTTCCACAGATGGGGGTCAAGCTTGAAACTCATATGTTACAACACACAGATGATATTTTAAATTTGCAGTTGGAATTGGATATAATAAAGGTCATTCTGAAGGAAGAGAGGTCTTTCCGTGGCATATTGGAGGAGCAAAAAACATACTTAAATCAGGATTTTTTGATGGCAAAAGACAAGATTGAGCAGACAAGCAAACAGTTAGAAGATGCAAAATCTATCATTGAAGCTCTAGAATCACAGCAAATATTATCTATCAAAGAGATAGAAGAGATGAGGAACAAGAACAGCCATTATATGGAGCTTATGGGGAAGCAAGAGCATGAAATCATGACCTTGAAGAACCAACTTGCATCTAAAGAGTTTAGAGATAATTTGCTTTCAAATTATACAGAGTTTGAAAACAAGTCCCCCTTACAGGCAAAATTCAGAAGGATGCATGAATCTCTTGAAAAGGCCAAGCAACTGAACATGTCATACCAAAGTGATCGTGCATTCCAGATATCCACTGAGGAAGAGAGGGATGAAATCCGTCGGCAAGCCGAGGCTGAAACTGTTGAGGTGATTGTCTGTATGCAAGAAGAACTTGCCCTGCTCCAGCATCAAGTAAATGATAGTCGTTTGAAGGAAACAGAAATGAAAGAGAGTATGCTGCATCTGGAAACTGAATTGAAGGAGTTGCAGAAAAAATTGCTTACTACTATTGATGATAATCAAAGTTTAAGGGAGGAGCTTGGCCAGAAAGATGTAGAACTCATATCACTGGCTGAAGAATGGGAGCTGTTAACCTCTGAGATTGAAGAGGTTCTTCTTGATGGATGTGAGGCAATAGTTGATGCCTCTGAGGAACTTGGGAATATAAGGAATTCATTTCCACAGAAAAGGATCTGGATTTCTGAACAAGTTGGCATGATAGTTAGAAAAATTTCTGAGAAGGAATTATTGATTGATGAACTTAGAAGATGTTTGGAAGATGCAAGCAATAAAGGAAGTGATATGGAGTGTATGCTGAAGTCCTTAAGAAGTGCAGCATTAGTCATTACCAAATCCCACCAGAGGGAGTGTGCTGAAAAAGAAAAAGAAATTCTCCTATTGACCTCACAGCTGAGTGAAAAAACATCTAGTGAGGCACAGCTGAAGGAGCATTTGATAATGGCAGAAGATCATATCAGAAAAGCATCAAATTGTGCAACTGTGGCTTTTGTAGTTGTGAATAGATTGTCAGAAGTGAATCTTGGTTACCTTGATGATCTAAAGCATAAGGATATTCTGCTTAGTGAATTAGCAGAAACTGGTAATAGGAAGGATATCCTTCTCAGTGACCAATCCACTTCATTTGTTCAAGCAGAGAGACAGATAACTGAGTTGCAGGAAAGATGTAATGAATTATGGCAGAAGCTGTCTGAGGAGCAAGAGCATTCTTGTGCTTTGGAACAAAAGCTTGAAGATATTGAAAAGAATTCCATTTCAAAGACAAGGGAGCAGCTAGTGACATTGCAAGATGGTGTCTCTTCAATCAGATCATGCATGGCTTCTTTTGCAGACCATTCAGGAAGTCTTGATAATAGAAATTCATTGGATGCATGCACATCAGACTATGATGATATTGGTGAACCAAGGCAGACAAGTTCTGAAACACATCAAAATAGTGATTCAGATCCCCTTTCTGTTGAAGAACCCATAGTTGACCTGGCTGACTTACACTTGGTCAAAAGTGGATATGATACGAAAGACCTGAAATCAAAAAATGTTGGCAAGGATGTGCGTGAAAGAGATGCTACTATTAGGCTTTTGAGAAAAGAAATAGAGTGTGCTCTTGAAAGCTTAAAAGAAGTGCAATATGAGATGGCCAGATTACATGAAGAAAAAAAAGAGATGTCCATGTCTGAAAAGAAGAATCAGCAAAGCATAGAGTGCCTCACAAATCAGATACTTTTCCTGCAAGAAGCTATGAATGACTTTGAGGAGCAATCTAAAGTCAAGATTGATGTACTCTGTCACAGAGTTAGAGACCTGGAGAAACTTCTGAAGGAAGCTAGCTCCCATTGGTATAAAAGGAAAGAGTCACTTGAACTTGAAGTTGGAGAGGCAAAGATCATTCAAGCTCAGAAAGCTCAAGAGGCATCTTGTATTCTTGCTAAATTCGAAGAAGCACAAGATATGATGAGAGAAGCAGATATTATGATCAATGGATTGGTGATAGCTAACGAGTCAATGAAGATTGATATAGAAAGACTCAAAGACAGAGAAACGACTTTACTCAATGAGAAGGTTACATTAGTCAGCAATATTGAAAGCTTACAAACTGTTGTTGATTTGAAGCATAAGGAGATAGAGGACCTTGTTGAATCGAGTCTAGTAGAAACAAGGGATCTAATTGTTACGTTGGATGATGTCATTAAAGACATCCAATTGATGATGACAGAAAATTTCAAGTCTTTAGCTTGTGATTTAGAGTGCTTGAAGTCTCAATGTTTATATTCCACTAAATTGATACAGCCATGGCTTGAGAAGATATGGTCAGAGATAGTTTTTAAAGATTGTGCTATGTCTGTGCTACATCTTTGTCACATGGGTATTTTACTGGAAACAGTAACGGGGATGCATGCAGAAAATGGTTTGCTTTCACACGGCTTGTGTGAATCAAACTCTGTCATAAGTGATTTGAAGGAACATAATTATAGGACAAAGCAAGAGCTTGATATGTGCAGAATCTTGAAAGGGAAACTGCTGGCTGACATCAAGAACAGTTTTGATTGCATTAATAAGAAAGAAGTTGAAGCTGGAGAGATCACCATCAAGCTAAATACTTTTTCTAAAAACATATCAGACCTACAGCTTCAAGAGGAGATAATGCTGCTAAGGTCGAATGAAATGGGATCCCAACTTGCTAAACTGATGAGGGAATTGGATGTGAGTAATACAGATATTGTGACATCCCTTTTAGATCAAGAGAAACTAGTGAAACAGAAAGTAGAGGCCATAGAATCTGAGGCTGAATTTTTTATGGCAGATTGGTATGCCAAAGACTTTGAATCACTTATCCATGCTTCTGAATTGAAAAATATGTCATGTAATATAGCTAATATGGAGGAGCATTATGTCAACTACTCCTTATTAATTGAGCAACTGAAGAAAGAAACAATCTTTTCCCAAGTAGAAAACGAGTTAGCAGAACAAATTTTGATAGATAAGGAAGTTGAAGTTTCCCTTTTAGAAAGAGAAGTTCAGCAGGCAAAAGTGGAAAGGAAGGACCTAGTAACAGAATTAAACCGGAATGTCTTAAGGATTACAGAGATGGGTGAAGTAAACAAGGTCCTTGAACAAAATATTGAGTTTCTAAAGGATGTTACTTGTTCTAATAATGCATTGAAGGGTGAACTTATCGAAGCTAACAAGGAAAAGAAAAGACTGCTGGATAGGATTCTTGATCTGGAAGCTGATTGTGATAAATTACTTGGTGATGTCATAGAGAAGGATGTGACTTCTGAATTTTCTTTCCAACAGGTTTATTTTCTCGAACATCAAAAAACAGAGTTAAAGAAAGTAAACTATATGTTGGAAAATTCATCTTGCGGACTGAAGAATGAGCTGAACCTAAAGGATTCAGAGTTAACTAGAATGCAGAGCTTTCTGGAGGTCGAGTTATCCAGAAAGGATGATGTAATAAAAGGACTGTTGTATGATCTGAGCTTATTACAGGAATCTGCATCCAACAATAAAGACCAAAAAGATGAAAATGAAAAAATTGTGGCTACAATGGAGGCATTAGAAACGGAGCTAGCTGTTAAATCAGGTGAACTTGCTGACGTTGTTGCAAACTGTCAATCGCTTGAAGCTCAGTTGCAGGACAAAACAGTAATAGTTACAGCTCTTGAGTTGGATCTCTCAAAAGAGCGTGAGGCTCTAAAGTTGCAAGTCAGTGAAAATAAAAAACTTGCAACTCATATTGAAGGCGCCTTGGCAGCGAGACAACTGGCTGACAATGAGATAACAGAAAGAATGAAGTTAACAGAGAGCTTAGAAAATGCAATGCTGGAAATGAACAGTGTTATTAGCCAAATGAACAGTGATCTGGATGAACTCACTAACGAGAGGGATCAGCTTCAGGGTCAAGTAATTTGCCTCAAAAACAGGCTTGAAAAAGCTGAAGCACAAGCTGAAGCTAATGAAGCAATTGCTCAAGAAGCTCAGAAGGTGGCAGAATCAAGACAAATTTATGCTGAAGACAGGGAAGAAGAGGTGAAACTTCTAGCAAGATCAGTTGAAGAGCTGGAAAGTACTGTAAATGTACTAGAAAACCAAGTTGACATCCTTAAAGGAGAAGCAGAACGACAGCGGCTGCAAAGAGAAGATCTAGAGTTGGAGCTACATGCATTAAAAGATCAGATGCAAAATGTCAGAAATGTTGATGGTGACATGAGAAGATTTTTGGATGAAAAAGAGAAAAGCCTCAATGAAGCCCTAAATCACATACAGGTTCTTAAGAGGGAGTTAGCAGGAAAGGATGCAGAGATTCAACAAATGAAAGCTCATATTTCAGAGCTAAATTTGCATTCTGAAGCACAGGCCATGGAGTACAAGCAGAAATTCAAAGCATTGGAAGCCATGGCTGAGCAAGTCAAACCTGAGGGCCTTTCTAGTCATTCCACCAGTGCTAATTCCCACAATGCATTGTCAAACAAGTCTGAGAAGAATGCCACCAAGTCTCGAGGTTCTAGTTCTCCTTTCAAATGCATTGGGCTGGGCTTGTCGCAACAGGTAAAATATGAGAAGGTTGAAGAGCTGTCTGCTGCAAGACTGCACATTGAAGAACTAGAAGCCCAGGCAGCATGTCGACAGAGAGAGATATTTGCACTGAATGCCAAATTAGCATCTGCTGAGAGCATGACACATGATGTAATTCGAGACTTACTTGGAGTAAAGTTGGATATGACCTCTTATGCGTCACTAATTGATGATGAGAAAGCGGAGGAGATTACAGAGAAAGTTAAATTTCTTACTCTGGAACCTCAAGACAAGGAGGTTATTAAGCTAAAGAAGCAGCTGAATGAATTCATTGAAGAGAGACAAGGATGGCTGCAAGAAATGGATAGAAAACAAGCGGAATTGGTAGCTGTACAAATTGAATTGGAAAACCTTCGGCAGCGAGACCAGTTACTAAAGACAGAAAATGAAATGCTGAAGATGGAAAATGCAAGTAAGAAGAATAAAGTTGTGGAACTGGAGGAAGAAATTAAAAAGTTGTCTGGTCAGCAAAACCTTCAGCAGCGTATTCATCACCATGCTAAAATTAAGGAGGAGAATAACAAGTTAAAGATACAGAACGAAGAACTCAGCGCAAAGCTCCGGAAGTCAGAGATCTTCCAGTCGCGTGTCAAAGAAGACCTTGCACGTCTTCGTGCTTCTGCTGGCGTGAAAACAAGCATTAATTTTGACGAGGAACAACGTCTGATGATAAAGCTGAAGGAGATCGAGGAAGAGAAAGTACAATTAGCCCAGCAATTACTGAGATTGTCCACTAATGTTCTAAAGGTGGCTGGAATAGTAAGACCAATATCAGATGTAAATCCTTCTATGGCTGAGGAAGCCCTACAGGACCTAAAGAATAGGATAACAACTCTGGAAATGGAACAAGAAGATTTGAAGTTTAAGAATAAAATTATTAAGGAAAAGATTCGATTATCCGAGCTCATGCCACAAGCTTCTTCTCCTTTGAACCCTAGATCTGAGGAGAATCGTATGACTCCACCAAGGGCATCCCTGGCTCCATTCCTTTCCAGTTTTGATCGATAA
>Glyma07g33111.1 sequence type=predicted peptide gene model=Glyma07g33111 sequence assembly version=Glyma 1.0 annotation version=1.1 JGI Gene Call confidence=high MLRDFKLPRRNASKHEEPENVDPYDSSTTIQRHAEGSRHPLNTIQEPDAHCESKIDKTPSKRGRGGAELRTPDKHGGGSMLVKHRFGWNHKHEGVSSFGDDRRASGVGNVTPRVPRTVGRASSSVAACSESNSTQSTPNKSVTKPPPSSSVRSKADGGGFSARLGNYAALYKGVPSSACSMPTVVNTVEVPHFDLKEDSSFWINHNVQVIIRVRPLNSMERCTQGYNRCLKQEGSQSITWIGQPENRFTFDHVACETIDQEMIFRLAGLPMVENCLSGYNSCMFAYGQTGSGKTYTMLGDIEDLDVMPSPHRGMTPRIFEFLFARIQAEEESRRDENLKYNCKCSFLEIYNEQITDLLDPSSTNLLLREDVKKGVYVENLSEFEVQSVSDIIRLLIQGSANRKVAATNMNRESSRSHSVFTCVIESTWEKDSTTNYRFARLNLVDLAGSERQKTSGAEGERLKEAANINKSLSTLGHVIMILVDVANGKQRHVPYRDSRLTFLLQDSLGGNSKTMIIANVSPSICCAAETLNTLKFAQRAKLIQNNAVVNEDSTGDVIALQHQIRLLKEELSTLKRRQNVSRSLSFSLSSIRDIKQSLELEDCCLENATDVVDQHEENMPDYESKGIRMSHKQLKSLETTLAGALRREQIAEISIKQLEAEIEQLNCLVRQREEDTRSCKMMLRFRDDKIHRLESRLAGSIPMDTFLQEENKALSDEIRILQSKLDRNPEVTRFAVENIRLLDQLRRYQEFYEEGEREILLTEVSSLREQLLQYHGRNSIQANSNCDIQPQEAQCCNKENNPTDLELINTLDELEECRRNLNYCLEENAKLNREIDSLHSMLSSTNATKVSTKGPFCEAQAVPQMGVKLETHMLQHTDDILNLQLELDIIKVILKEERSFRGILEEQKTYLNQDFLMAKDKIEQTSKQLEDAKSIIEALESQQILSIKEIEEMRNKNSHYMELMGKQEHEIMTLKNQLASKEFRDNLLSNYTEFENKSPLQAKFRRMHESLEKAKQLNMSYQSDRAFQISTEEERDEIRRQAEAETVEVIVCMQEELALLQHQVNDSRLKETEMKESMLHLETELKELQKKLLTTIDDNQSLREELGQKDVELISLAEEWELLTSEIEEVLLDGCEAIVDASEELGNIRNSFPQKRIWISEQVGMIVRKISEKELLIDELRRCLEDASNKGSDMECMLKSLRSAALVITKSHQRECAEKEKEILLLTSQLSEKTSSEAQLKEHLIMAEDHIRKASNCATVAFVVVNRLSEVNLGYLDDLKHKDILLSELAETGNRKDILLSDQSTSFVQAERQITELQERCNELWQKLSEEQEHSCALEQKLEDIEKNSISKTREQLVTLQDGVSSIRSCMASFADHSGSLDNRNSLDACTSDYDDIGEPRQTSSETHQNSDSDPLSVEEPIVDLADLHLVKSGYDTKDLKSKNVGKDVRERDATIRLLRKEIECALESLKEVQYEMARLHEEKKEMSMSEKKNQQSIECLTNQILFLQEAMNDFEEQSKVKIDVLCHRVRDLEKLLKEASSHWYKRKESLELEVGEAKIIQAQKAQEASCILAKFEEAQDMMREADIMINGLVIANESMKIDIERLKDRETTLLNEKVTLVSNIESLQTVVDLKHKEIEDLVESSLVETRDLIVTLDDVIKDIQLMMTENFKSLACDLECLKSQCLYSTKLIQPWLEKIWSEIVFKDCAMSVLHLCHMGILLETVTGMHAENGLLSHGLCESNSVISDLKEHNYRTKQELDMCRILKGKLLADIKNSFDCINKKEVEAGEITIKLNTFSKNISDLQLQEEIMLLRSNEMGSQLAKLMRELDVSNTDIVTSLLDQEKLVKQKVEAIESEAEFFMADWYAKDFESLIHASELKNMSCNIANMEEHYVNYSLLIEQLKKETIFSQVENELAEQILIDKEVEVSLLEREVQQAKVERKDLVTELNRNVLRITEMGEVNKVLEQNIEFLKDVTCSNNALKGELIEANKEKKRLLDRILDLEADCDKLLGDVIEKDVTSEFSFQQVYFLEHQKTELKKVNYMLENSSCGLKNELNLKDSELTRMQSFLEVELSRKDDVIKGLLYDLSLLQESASNNKDQKDENEKIVATMEALETELAVKSGELADVVANCQSLEAQLQDKTVIVTALELDLSKEREALKLQVSENKKLATHIEGALAARQLADNEITERMKLTESLENAMLEMNSVISQMNSDLDELTNERDQLQGQVICLKNRLEKAEAQAEANEAIAQEAQKVAESRQIYAEDREEEVKLLARSVEELESTVNVLENQVDILKGEAERQRLQREDLELELHALKDQMQNVRNVDGDMRRFLDEKEKSLNEALNHIQVLKRELAGKDAEIQQMKAHISELNLHSEAQAMEYKQKFKALEAMAEQVKPEGLSSHSTSANSHNALSNKSEKNATKSRGSSSPFKCIGLGLSQQVKYEKVEELSAARLHIEELEAQAACRQREIFALNAKLASAESMTHDVIRDLLGVKLDMTSYASLIDDEKAEEITEKVKFLTLEPQDKEVIKLKKQLNEFIEERQGWLQEMDRKQAELVAVQIELENLRQRDQLLKTENEMLKMENASKKNKVVELEEEIKKLSGQQNLQQRIHHHAKIKEENNKLKIQNEELSAKLRKSEIFQSRVKEDLARLRASAGVKTSINFDEEQRLMIKLKEIEEEKVQLAQQLLRLSTNVLKVAGIVRPISDVNPSMAEEALQDLKNRITTLEMEQEDLKFKNKIIKEKIRLSELMPQASSPLNPRSEENRMTPPRASLAPFLSSFDR*
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