Monarch geneset OGS2.0

DPOGS205011
TranscriptDPOGS205011-TA9156 bp
ProteinDPOGS205011-PA3051 aa
Genomic positionDPSCF300123 + 372592-390537
RNAseq coverage286x (Rank: top 38%)
Annotation
HeliconiusHMEL0146310.064.75% 
BombyxBGIBMGA011806-TA0.054.12% 
DrosophilaCG34383-PC4e-9838.10% 
EBI UniRef50UniRef50_Q17FY67e-13640.23%Putative uncharacterized protein n=1 Tax=Aedes aegypti RepID=Q17FY6_AEDAE
NCBI RefSeqXP_001656634.11e-13640.23%hypothetical protein AaeL_AAEL003252 [Aedes aegypti]
NCBI nr blastpgi|1571353883e-13540.23%hypothetical protein AaeL_AAEL003252 [Aedes aegypti]
NCBI nr blastxgi|1571353880.030.77%hypothetical protein AaeL_AAEL003252 [Aedes aegypti]
Group
Gene OntologyGO:00055152.5e-28protein binding
KEGG pathwaycin:1001770296e-06 
 K06082 (FARP2, FRG)maps-> Adherens junction
InterPro domain[397-502] IPR0119932.5e-28Pleckstrin homology-type
[399-499] IPR0018492.1e-17Pleckstrin homology domain
Orthology groupMCL14579 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS205011-TA
ATGTGGAGTTGGAAGTATAATGTTTATATTGGGATCGATCCACCGGTGACACAGACGGACTATCAGATGGAGAACAAAAAAAATGTAACAGCAACCCAACAGCCGGTGACACAGCAACATCTCATGGCTCATCATGTCCATCCTGACCAAATATATTCACCCCAACAGACGCAGTTACCCACACTTGTTAATAATCAAGCCGCGCAAATCCAACAGAATGGCGTCATGCATCAACTATTACAAAGCCAATATCACTCGAATATGAATGCACGATCGCCACTCCTTGAAAACAAGCACGAGATGTATGGAACTGGACATAATCACGACTATGTTAGACATTACGGGGCGAATGACAATTACAATTATCCACAATCACCGCCCAGAATTGAAAAAACCGAGATTCACACAGACCACAACGTAAATCACGAACTGCTTCAGAATATGCCTAAAGGTTACAACGCTGAAGTTTATCAAGATTATATGAAACGAAACCCACCGAAAGACACTAACCAAATATATCAAAACCATCAACCTATGTACAGACCTAACATGAACCAGTACGGTTCTAAGCCGTATCTTCCTTATTCAAACAGAATAGGGCCCCAAAGTAACACGGAATTATTGAGGAGGCAGTATAATGAAATTCAACAGATGAAAATGCAACAACAGATGCATTATCAAAATCAAGCTCAGATGCATCAACAGCAAAAATTCGCTGAACGACAACTTTTACTGCAGCAAATCCATGGAGTACAACCGCCGCCGAACTTGCAGAACAGCATTTATTCAGACAGTTCCTACAGAGACTTAGATCGATATAGCAGTAAGAATGACTTCAAGGAGTACAGCAGTAATGATATACAACGAGATATGGAGAGGTACGCCAAGAACTATGATTACAACGACATGGACATACAAAACAGACAGTACCAGGAGAGTCAATGGCAGACAAACCATAACGACTACAGGGAATCCGAAAGGCAAAGACAATATTCTGAACACGAGAAATCAAAAAGCCAATCCCCGCCGTCTGACTATAGCAACCAAAAGACCAATTCAGGAGTCGTATCTCCTATGAAATCTAGTGAATCTAGTACTCCCAGTATAAAATCTCCTTCATCAGATAGTAGGAGAAGTAGTAGCGGCACTCAAGCACTACGTTCACCGACTGCCCAAAGAATACCATCAGCGCCAGTGAGCATGTCCGGAATGCTGTATAAACAGGGCTCTGATGGCCTTAAAGTTTGGAGGAAACGGTGGTTCGTGCTGTCTGAGTACTGTTTATTTTACTACAAAAGTCAAGACGAGGAGAAGTTACTGGGTTCTGTGTTATTACCGTCATACAAAGTATCAGCTTGCAGCGCAGAGGATAAAGTGATGCGGAAGTTTGCTTTCAAACTGGAGCATGCGAATATGCGTACATACGTGTTAGCGGCTTTGGACCAGGAAGCCATGATGAAATGGGTGAAGGCGCTTACAATGGCCGCGTTAATGCAAAATACCAATGAACAGAAACAAAATGACCGATCAGCGAAATCAGAGGAAAGTAATGAGGAAGCTGGCCCGACTTATGCCAACGCCCCACCAAAACCGAGACGATCCAACGATGGATATAATTCACCTAGTCCGGATATGTATGATCCAAATTACGATCTCCTTAGAAAACCAGCATCACAATATAGTCAAGGCACTAGTCACACTAGAACGAACTACATACAGGAAACATACCGAAGTCCACAGAATCCATTACAATCTCCATATCAAACAAAACGCTCATACGACATGCAGCAACTGTCACTACCATTAACAAATACAACAGACAATTCAGACAATCAGAATACATCCGTGTATAAATCTAACCCTCAATCTCCTTATGACAATAGGTTAAGAAACCAACATACTAAAGAGGACGAAGAAAAAATTGAAAGTCTATACGATAAGAAGCCTAATTACAATCCATTCCTACAAGATTATTCTGGACAAGAGAGGAAATCCCAAGAGAACGAAGATGTTAGTCGTGTGACGGCAGATATGAGCAAAACATCTATATACAGTGAACATTATTCTGATAACAGAAGCATTAAGTCACACGACCCGAATGTATACAATAGAGAAATGTACGGAGATATTAATATGAAAAGTAATAAAACTAACGCTAACATGAACGAACGCACTCCTGAAACATACGGACGACCGAACGCATCGGCATACAGTGAGAAAATAGGAGATTACGAAGATATTTACAGCGCGTACAACAATGATAGTGGAAAAATATACCCGAAATCTCCGAACCCATCGCAGTCTAGGGATACCGTCAGTCTGTCCAGCCACAAGTCACCCCAAGAACAAAATACGAATTATGTACAGGAGAAAACTTTCTCTGGACCATCCGTTCTGAGGAGGAAGAAGATGCAGGCAAGTGGCATTCAACCGACGATGCCGCGACCGCACAGCGCTGACTTTTTAGAATACGAGTCCAAAAACGAAGCCCTTAACAATTCGGTCCCAGTACGGAAAACTAACGATCAAACCAAACAACCACAACGTCCCAAATCCAGTTTAGACATCAATTCATATTACGACCCCAGTTCAGACAAATACTATTCAGAGGAGAGCTATGCAGAAAAAATGCGGCAATCCGCACAATATTTACAACAACAGAACATGGGCCCCAAAAATATACGTATTCCTTTAGAGAAATACGCGAGTGGACTGGCCGAGAAACAGCTGCATTCACCGTACAACCAAAATAACAATAATAACTATGAGACAGAGTTCAACGTCAATAGAACAGTACGAGATCATACGAACTATGCGGCCACGATACAAGACCGCGAAGGAATGAATTCCAACTGGACCTTAAAAGAAAAAGATCTTGAAAACCAAAAGGAATACCTGAATAGAAGTGGTAGTGTCATGAGCGATGGTTCAAATGTTAGTGCTATAATAAAAGATTCTAGATTCGATCCCAGCTCCGAAGGTTTCATGAGATCAGCAAGTGCCAGATTGCCGTCGGAAAGAGACAGAGATAAAAAAGTGCAACAGCGCGAGGAATCTATGAAAAGGCTTTTAGAATGGAAGCAGAGGATGTTACAATCGCCTTTAACTAGGAAAAGTACACCAGCGACTATTTCTTTGGCAAGATCCTTGAATCAGAGCCGACAATCGTTGAGATCTGATCAATATAAGCCCAAAACATATAAGAACGCCTCCTACAACAGTTACTCTTCAGATGACGAAGAAGAATCACCGGGCACTGAACTGCAAAAAATGGGAAATATGCAGGCAGGAAGGTCCGATTTAATAAATATCACATGTCCTACCTTAATGCAGACAAGTCCTCCGCACGCTGTACATTCGAATTTATTAAGTGATAAAGCCGACATGACCAATAACATTGTCGAAAACGTTACCAAAGATATAGAAAATACATATGAAAATATTTTATGCAGCGGCGAAACGACCAAGACGATGGTCAGTGATGATATTGAAATAGAAAATGAAGTTGTCATAAATACCGACGATTATAATTTAGGAAATTCGCTTGATGTAGATGAAGATGGTTATGAGACAAATGACAGCGAAGCAGAATCAGAAACACAACTAGAATATACCGATAATGATTTAGATGAAGTCTTATTAGAATCTGATAATGAAGTCGAAGATACAAAAGATAATGTGGCTGAAGTGAAAACAGTTTCCACAGTGGAAGACACTTTTGATGAGGTTAAACCTGAACAACTTCCTGTTCGACCATTGGGAGAAGATCATTACTTGCCTATGAGTCCACGCAAAATGTCAGCTATAGAACCAGCTCACAAGACAATCTTAGATAATTTAAGTGATTATGAACACGCCTCTAAACAAAATTACGAAGATAATCACTATGTTGAAATGAACTTAGGCACTGATGATGACAGTATGCAAACTTACGAATTGGTTTGTGTCAATAATGGAAGGGTTGAGCCAGTTTACATGGAACTAAATAATATTGTACCAGAAAAGTGTAATACAGAAGATACAAGTAAATCAAATAGTTTTTCAGATACAACATCACATTTTGCAGATACAAAAGAGCAAACACTTAAAAGAATATCTAAAGGAGATAAGAATGCTAAAGAAAAATTGGACTTTTCTGATGTTGAAGAAGATCCGAACAGTTCCAAACTTTCACTTGATTCGCCATTTAGTAGATTTAGTATTTCTGATACGTTTAGACCGGCGTCTTATTATTTGAGTGGAAGTAGAACCATTTTGGACAGACAAGATAGTTCAGACAGCGACATTCCATCATCAACACCAATATTTAATTCGCCGTCCGAGGATAATTTGCTTGATGAGGAACTATCGCGTTATATTTTAGACAAATTAGACAAATCTGATATTTCACAAGACAATTCAATAATTAAAATGTTGACAAGTGAGAATCAAAAAATGAATAAAATGAAAAGGAAAACCACGTCTCTTATGATTTATGGAAGTCGGACGTCAATTCATGATACTCTAACAAGAGGAGAAAAAGTTCGCAACAGTAGAGCGAGTTTGACAAATGATTTAAATAAAACTATCGGATTAGAATGCAGTTTGATGAGTAATTCGAATATAGAACAAAATGATCCAAATATCACAGAAACAGAATCCCTTAAAAGTTACAATGCAGATAAAGGATCTTCTAGATTATCTATCGAATCAGATGTGAGTAGCAAATTTGATATGGCAACCTCAAATATGTCCTCTGAAATTCAAAGTCTTATAGATTCGGATTCATTGGTTGACTTTCGTCATCCATATGGCTTTCGCAATTTAGAAGATATAAAAAGGAGGCCTCTATCCGATGACTCCTTGTTTGAGTTAACAGAAACAGAAAATTATGTTTCCAGCGAATCAATGCCTGCAGTTAATCTGGATACATATTTACAAAGATTACAGGAAGGCACCAGTGACTCGAGCATAAATAATGATAGCGATTGCCCTAATAATAATAGGAATAAAGAATTTTTACAAGAGAACAATTTACTATTGGACCGTATTCACACAGTAGTTTCACACACTAGATCCTCAAGTACACCTGTTAAAAGTGCTGCAAAAAATTCTGATAAAAATAGTTTGGGAGCTCGTCATAAATATACCACGGATCATAGATATGATTTTGCAGATTCACAAAGTTCTTGTAGTTCTTCAGGAATACCGAAATCTCCTACTTCTTTTTATAGAAAGAACTGTCATGAAAATACCTTAATGAGAAAAAATCTGAACAGCGATATTCTTGTGGATAAAATAAAAGAATTCGACAAAGATAAGCTGGCTCAAAGAACTGACAACGGAACTTCTTCTTCATCTGTTACAACTGGCTTTCATAGTAGAGAGAGTTCCACAGAACATAGTGCGCCATACTATTATTCAGATCTCTCTTCTCAAGAACATATAAACGTTTTGCCAACCTCACATTACTTAAAAAAGACCAATATTCATCGTAAACTAAATAATCAAAGACGAAGAGGTCCGATGCACAAAAATAATGAAATCAGCCACATTCGAAATCCAATACGTAATAATCAAGTTTCAGATCAACAATTCGACTTAGTTGCGTCAGCAAGGAGCGTGTCAGTGGAATTTTTAAGTGTAGTGGAGAAGAATCCAGATATAGATCTCAAAAATATATACGTATCAACGGGTGGTAAAACATCTAAAATACCTGAATCAATGAGCTTGCTGTCTAGTCTTGGATGTAAAAATAGTACAAAGAAAAAGAATTTGAATTTAGATTTATTGGAAGATGCAAACATTTCAAACCATAGTAATGTTAACACCTCTATGCCAGTTTCTTCCGAGAGCATGTCATCCCACTGTAGTGGGAATTCGTCAAACACTGTTTATTATGACGCTGAAACAGAAGCGAATGCATATGAAAATGTGTTGTATCACGGAGAGAGACATTGGGATGAAGATATTATATGGAGAGATAATTTGAGACGTGTATCGCATAGACACGCAAGATCTATGGATGATTTAGATACAATGCCTACAGATAACGTACAGAATGGAGCATACGTTAACACATCCTCTATGAATAGTATTAAACGTATTAAGAAATGTATTCCCGAAAAGAGTAAAAAGGTTGCTACCTACGTCAATTGTGATATTCAAAGCCTAGTCCAAAGGCGGAATATAGAAGCTGCTATTTCTAAATGTGACGAAAATGACGAGAACGATGTGTATGTAAGTCTTGCAAACGATTCCGAACTACCTGAATCTATAGAAGGTGTCTATGAGCAGCTAGCGATCGATACTAGTGACCAGTCGCGTAATAATAATGAAAAAAATAGAAAGAAATTTGAAATTGATAGGGAAAATCTTAGGCAGTGGGACTTAATGTCTAGTGGTCTCATGAAAGATAAAAAAGGACGCGTGCGGAGTACCGTCGCAAGTAGGGACGATAGTGATGAACACCGTATAACGGAAATTGGTACTGAAAGTACAAGCAATGAAGCTTCAATGACAATGTCAGGAACAAATATTGAAACAGGCCCTAATAATAATAACAACAATCAACATAATCAGACAACCTTGTCAAATAAACCATTCCTCGGAAGCAACACATCCATTGGCAGGACTAATAGGGATGGGAATATTCCCGTTCGAGCTGTCAGTCCAAGAGTACGATGGGTCGAAGACAAACATAATGAAGAGTACGGCTCGCAACAATTGACTACATCGCAACATAATTTAAATAATTTGACTCCATCCGAAGAAGGATGGTCGACTGTTAGGTCACCTTCAAGAGTTATCCAACAGCCAATAAGGGCTGTCAGTCCGAGAGTAAGAAGGAACACTGAGAATGATGAATTGCGTAAGGATAATCAGGAGTTGGGCGAAGTTCCAACAGCTGGGGAGCTTTTGGGACGAAGTCACGAGGAATTAGTCCTGCTCTTGATACAACTGAGACGTCGACATGCTGCCACACATCGATCTATTGAGCAATGTTGTGCCCAAATTAGTAGTATCGAGGATTGTATGAGCTCGTTGAAAGCTATGGAGCGTGAAGAGAGTTTGCAACGTCTGGAACATTTGAAGATGCAATTAATGGACCTGGAAAGTCAGTACGAGAAAAGCAAACCACTGGTACAGCTGGTTGATAATATGGTGAAATTAGGCTCATTGTATAATAGACCAGGTTCCACTATTGAGAGATTGGAAAGGAATCAGAGACTTCGACAAAAAGTTCTAGCTGAGCATGCTTTAGAACAACAGAGGTGGTTGGAAAGTGCTGCCGCCGGTAAAGCATTAGAGACAGAGGCGGCTCGTGTGAGGGTGTCCGAGCTGTGGGCGTTGGAACAGGAACTGGCTGATGAGGCAGCCATCTTACAGGGTTTGAAGACTGATAAAGATGCCATCGATTCATTACTTACTGGTGTTCGTAGTAAACTAACATCTGCTAGCGCGAGCCAGCCCGGCCTGGAGGTGGAGCTGGCGAGGGTGCACGCCATGTTGGCGCACAATTCAAAGAAATTGGAGCAGACGGTAGCAGACAACGCTCGTCTGGAACGAGAGCTGCATCACCTGCGAAGGGCGCTGAGAGCACAACGAGCCAATACACAGACACACGCACACCCCACCGCTATGTTAGAGGACGAGGTATCCCGAGTTCAACATCTTGTATCGGCCCTCCAACGTCAGAGACAGGAATTGTCTCGTGCCGTAAGACATTTGACGCAACAGTCACACGTCCTACAAACAACACATGACTCCACTGGAAAACGTCGACCTATGTCTTCGTGGCAGGAGACAAACCTAGATACAGGTCACACGATTGATCATGGGCATTCTGATTACGACTATGAACCATCGGCACCATTACAGCCCCCGGGACATTACGGACAGAGTATGGAAACACCACTATATGTTGACACTCGATCACCTGGGATGGATGTAGCTTCACCTATTAACAGCGAAGACATGCACCATACTGCTTTTGGTAATTTAACCAACGTAGAGAAACAAGAAATCAAAACAGTACGTATTGTCAAAAGAGAGAGCGAAAGACGTCAGAGAGACAGAGAACGTTCGTTACAGCCGATGTCCGATTGGTCTGCGAACAACATCACAGCCAACATAGATCAATTTCTGGAGGAAGAATTAGTGCAGCCGATAAATAACTACCGAGCATCATCCTTACCAAGAACTGACTATAGCAAATACGAGGAATATTATTCAAAACCTCAAAACCAAGATCAGTCACCCTACATCCGGATTAACGACAAAAATATGGACCAAAGTCCTAAATATCCGTCGAGTCCATCTTTATCTAACTACGATTACTCTCGAGATATATCCTCATTAAGCAGCAGCTATCATAGGAGTTACGACAAATCAGGGTACGATCGTACCAATTCACTATCCACTCAGTACTTGAATACGCCCACAGACAGCGCTAGGACGTTGACAAACGATCCTATATCAAAAACTAGTAGTATGGCGAGTTTGACGAGGTCGAACATAGAATTGTCACCGATATTCAAAAGCGAGGCAGCCAAGCAAATCATAACTGAAATGTCAAGCGATGCTCCAAAGAACGGCACGCTTCATAGACGACAAGTGCCAAAAGAGAAAAGACGACATTACACCGCTCCTCATCACCTCAGCGCGAAAACGCTGAATGAAATGCCTAAAGATGTATACAATCAAGATGCTTTAGGCAGGTCCTTAGATGACGCGGATATGGAGCGCGCTCTTCGCACGGGCGCCCCGGATGTTGTACGCTCTGCTTTGCCTCGCCGCGTACCAGATTCGATAGACCAACTACTCGCAGCGCCACAGAAGATTATCATACCGGAGCGTTATATACCAGAGAAGCCACCAGAACTATCGCCTGAGGAACAGCAAAAACGCCAGGAAAAGGTGGAATCGATCAAGAAAATGCTAACAGGTTCTTCAGCGGATCCGAGTAAGAGCCCGGACGGTGAAGACAAGCGTCAGCGGGAACACCTGCTGCAGATGAACCAGCTGCTGGCGCGACAGGTTACAGAGATGAGCAAGATCATAGCTGTTAAAGCATTAGAAGAGCTGCCGACACAGAACAACGACGAGGACTACGAAGATCGCTCGCCGGACGTCGAACTACCGATATATCAGCAGAGATATAACTTCTTCACATAA

Protein sequence:

>DPOGS205011-PA
MWSWKYNVYIGIDPPVTQTDYQMENKKNVTATQQPVTQQHLMAHHVHPDQIYSPQQTQLPTLVNNQAAQIQQNGVMHQLLQSQYHSNMNARSPLLENKHEMYGTGHNHDYVRHYGANDNYNYPQSPPRIEKTEIHTDHNVNHELLQNMPKGYNAEVYQDYMKRNPPKDTNQIYQNHQPMYRPNMNQYGSKPYLPYSNRIGPQSNTELLRRQYNEIQQMKMQQQMHYQNQAQMHQQQKFAERQLLLQQIHGVQPPPNLQNSIYSDSSYRDLDRYSSKNDFKEYSSNDIQRDMERYAKNYDYNDMDIQNRQYQESQWQTNHNDYRESERQRQYSEHEKSKSQSPPSDYSNQKTNSGVVSPMKSSESSTPSIKSPSSDSRRSSSGTQALRSPTAQRIPSAPVSMSGMLYKQGSDGLKVWRKRWFVLSEYCLFYYKSQDEEKLLGSVLLPSYKVSACSAEDKVMRKFAFKLEHANMRTYVLAALDQEAMMKWVKALTMAALMQNTNEQKQNDRSAKSEESNEEAGPTYANAPPKPRRSNDGYNSPSPDMYDPNYDLLRKPASQYSQGTSHTRTNYIQETYRSPQNPLQSPYQTKRSYDMQQLSLPLTNTTDNSDNQNTSVYKSNPQSPYDNRLRNQHTKEDEEKIESLYDKKPNYNPFLQDYSGQERKSQENEDVSRVTADMSKTSIYSEHYSDNRSIKSHDPNVYNREMYGDINMKSNKTNANMNERTPETYGRPNASAYSEKIGDYEDIYSAYNNDSGKIYPKSPNPSQSRDTVSLSSHKSPQEQNTNYVQEKTFSGPSVLRRKKMQASGIQPTMPRPHSADFLEYESKNEALNNSVPVRKTNDQTKQPQRPKSSLDINSYYDPSSDKYYSEESYAEKMRQSAQYLQQQNMGPKNIRIPLEKYASGLAEKQLHSPYNQNNNNNYETEFNVNRTVRDHTNYAATIQDREGMNSNWTLKEKDLENQKEYLNRSGSVMSDGSNVSAIIKDSRFDPSSEGFMRSASARLPSERDRDKKVQQREESMKRLLEWKQRMLQSPLTRKSTPATISLARSLNQSRQSLRSDQYKPKTYKNASYNSYSSDDEEESPGTELQKMGNMQAGRSDLINITCPTLMQTSPPHAVHSNLLSDKADMTNNIVENVTKDIENTYENILCSGETTKTMVSDDIEIENEVVINTDDYNLGNSLDVDEDGYETNDSEAESETQLEYTDNDLDEVLLESDNEVEDTKDNVAEVKTVSTVEDTFDEVKPEQLPVRPLGEDHYLPMSPRKMSAIEPAHKTILDNLSDYEHASKQNYEDNHYVEMNLGTDDDSMQTYELVCVNNGRVEPVYMELNNIVPEKCNTEDTSKSNSFSDTTSHFADTKEQTLKRISKGDKNAKEKLDFSDVEEDPNSSKLSLDSPFSRFSISDTFRPASYYLSGSRTILDRQDSSDSDIPSSTPIFNSPSEDNLLDEELSRYILDKLDKSDISQDNSIIKMLTSENQKMNKMKRKTTSLMIYGSRTSIHDTLTRGEKVRNSRASLTNDLNKTIGLECSLMSNSNIEQNDPNITETESLKSYNADKGSSRLSIESDVSSKFDMATSNMSSEIQSLIDSDSLVDFRHPYGFRNLEDIKRRPLSDDSLFELTETENYVSSESMPAVNLDTYLQRLQEGTSDSSINNDSDCPNNNRNKEFLQENNLLLDRIHTVVSHTRSSSTPVKSAAKNSDKNSLGARHKYTTDHRYDFADSQSSCSSSGIPKSPTSFYRKNCHENTLMRKNLNSDILVDKIKEFDKDKLAQRTDNGTSSSSVTTGFHSRESSTEHSAPYYYSDLSSQEHINVLPTSHYLKKTNIHRKLNNQRRRGPMHKNNEISHIRNPIRNNQVSDQQFDLVASARSVSVEFLSVVEKNPDIDLKNIYVSTGGKTSKIPESMSLLSSLGCKNSTKKKNLNLDLLEDANISNHSNVNTSMPVSSESMSSHCSGNSSNTVYYDAETEANAYENVLYHGERHWDEDIIWRDNLRRVSHRHARSMDDLDTMPTDNVQNGAYVNTSSMNSIKRIKKCIPEKSKKVATYVNCDIQSLVQRRNIEAAISKCDENDENDVYVSLANDSELPESIEGVYEQLAIDTSDQSRNNNEKNRKKFEIDRENLRQWDLMSSGLMKDKKGRVRSTVASRDDSDEHRITEIGTESTSNEASMTMSGTNIETGPNNNNNNQHNQTTLSNKPFLGSNTSIGRTNRDGNIPVRAVSPRVRWVEDKHNEEYGSQQLTTSQHNLNNLTPSEEGWSTVRSPSRVIQQPIRAVSPRVRRNTENDELRKDNQELGEVPTAGELLGRSHEELVLLLIQLRRRHAATHRSIEQCCAQISSIEDCMSSLKAMEREESLQRLEHLKMQLMDLESQYEKSKPLVQLVDNMVKLGSLYNRPGSTIERLERNQRLRQKVLAEHALEQQRWLESAAAGKALETEAARVRVSELWALEQELADEAAILQGLKTDKDAIDSLLTGVRSKLTSASASQPGLEVELARVHAMLAHNSKKLEQTVADNARLERELHHLRRALRAQRANTQTHAHPTAMLEDEVSRVQHLVSALQRQRQELSRAVRHLTQQSHVLQTTHDSTGKRRPMSSWQETNLDTGHTIDHGHSDYDYEPSAPLQPPGHYGQSMETPLYVDTRSPGMDVASPINSEDMHHTAFGNLTNVEKQEIKTVRIVKRESERRQRDRERSLQPMSDWSANNITANIDQFLEEELVQPINNYRASSLPRTDYSKYEEYYSKPQNQDQSPYIRINDKNMDQSPKYPSSPSLSNYDYSRDISSLSSSYHRSYDKSGYDRTNSLSTQYLNTPTDSARTLTNDPISKTSSMASLTRSNIELSPIFKSEAAKQIITEMSSDAPKNGTLHRRQVPKEKRRHYTAPHHLSAKTLNEMPKDVYNQDALGRSLDDADMERALRTGAPDVVRSALPRRVPDSIDQLLAAPQKIIIPERYIPEKPPELSPEEQQKRQEKVESIKKMLTGSSADPSKSPDGEDKRQREHLLQMNQLLARQVTEMSKIIAVKALEELPTQNNDEDYEDRSPDVELPIYQQRYNFFT-