MonarchBase - Protein-coding gene

DPGLEAN17424 in OGS1.0

New model in OGS2.0	DPOGS213319
Genomic Position	scaffold784:- 20213-42295
	See gene structure
CDS Length	8559
Paired RNAseq reads	6978
Single RNAseq reads	17635
Migratory profiles	Query via corresponding ESTs
Best Bmobyx hit	BGIBMGA009501 (1e-13)
Best Drosophila hit	CG34120, isoform D (8e-52)
Best Human hit	ATP-binding cassette sub-family A member 1 (2e-83)
Best NR hit (blastp)	PREDICTED: similar to ATP-binding cassette, sub-family A (ABC1), member 1 [Apis mellifera] (2e-176)
Best NR hit (blastx)	PREDICTED: similar to ATP-binding cassette, sub-family A (ABC1), member 1 [Apis mellifera] (3e-162)
GeneOntology terms	GO:0005886 plasma membrane GO:0005887 integral to plasma membrane GO:0007040 lysosome organization GO:0017127 cholesterol transporter activity GO:0030349 syntaxin-13 binding GO:0032488 Cdc42 protein signal transduction GO:0034380 high-density lipoprotein particle assembly GO:0007186 G-protein coupled receptor protein signaling pathway GO:0033700 phospholipid efflux GO:0045332 phospholipid translocation GO:0055091 phospholipid homeostasis GO:0016887 ATPase activity GO:0002790 peptide secretion GO:0005548 phospholipid transporter activity GO:0005794 Golgi apparatus GO:0006911 phagocytosis, engulfment GO:0008203 cholesterol metabolic process GO:0030819 positive regulation of cAMP biosynthetic process GO:0034188 apolipoprotein A-I receptor activity GO:0005624 membrane fraction GO:0032367 intracellular cholesterol transport GO:0043691 reverse cholesterol transport GO:0050702 interleukin-1 beta secretion GO:0060155 platelet dense granule organization GO:0010875 positive regulation of cholesterol efflux GO:0045121 membrane raft GO:0000166 nucleotide binding GO:0005524 ATP binding GO:0006497 protein amino acid lipidation GO:0008509 anion transmembrane transporter activity GO:0016197 endosome transport GO:0031267 small GTPase binding GO:0045335 phagocytic vesicle GO:0042632 cholesterol homeostasis
InterPro families	IPR003439 ABC transporter-like
Orthology group	MCL10038

Nucleotide sequence:

ATGGCGGCTCCGCTGCAGGCTCGGCTGCTACTATGGAAGGACTACCTCATACGGAAAAGG
AAACCGATAACACTCTCAGGAGTAGCATGGGCCACTCTTGTAATGCTGAGCTTATACGTA
GTTAGGATCAACGTAGATAATACAGAATATCCCACGTGGAATGGATTGCATGTCAATGAC
CTATTCAGGGATCCTAAAAGAGTGGAGCGCTATTTAGCGAAACGGTTGGCTGTTACAGAG
GATACTATTAACAGTGTGTTGATGTCGGAGATTGGGCTGAATAGTATAATGAAAGGAGGA
GCAATGAGATGTGAAATAGATTCAATAAAGAACATATTGAGAACGAACGAATCTGACCAT
CTGGATGTTTTTGTTGACAAATTGTGTTCTCTGTCGAAGAAGGATGTTCAAAGTCTTGTC
ACCGATCTGGTTTTTGAAGCCGATTTAGGAAAATATATTAAAATGTTGGGTGATATGTAC
TTCAAACTGTCCGGAGACCAAAGTTTCTTGACGCTCGGCGACATGGCGACAGCTTTGTTC
CGAATGATGACTCCGAACAGCTTCGTGCCGATAGAACTGTCAAGTCAGGACGGATTTAGT
TACGTTAATATGTCAATGCTAACAAAATTAATGGATCTCTTTGAACCAACATTCGGAGAA
ACAGATTCCTATAAATCTATGAGAGACCTCGTTGACACGGCGGTACTCGGATCTCAGTAC
TTACATAAGTTCCTAGCTAGTGAAGACACAGACAGCATAGATACAGCAGTATCTGGTATG
AGCTTTATGACGGGATTCACTAAATTAAAGAAAATATATGATAAAGTTTTTACGGCGATA
CAAGAAAGCAATTCCACTGACGTAACGGATAGATTTTTTAATATCGCCTCGAGAATAACA
AATTTCGTTTTCAAATGGTTGCCGGACAACCAGAAACACGATATATTATTCTATTCTACG
CTTCTAATCAAACTAGTAGAGAGTTGCCAGCATGTGGTCATTATAAACACTGATATAGAA
AGCGTAGCCCTTAACGTCACCTTGAGGAACCCCAAAGGCGTTGAGATACTTTTGAATCTA
CCTCCTAGTTTAATTGGCAACGGATTGGAGGCTTTAGCGGATGCAGAGAGATCTCAGATA
CTGACATCAACATTGACAGATCCAGGAAAAATATTCTGCGATACAGAAGGAATAACTAAA
ATATTTTTAATATCTGAAAATGATGCAAAAAAATATAAAAATCAACTATGTAGTGATGTA
TGGCAGAATTTTATCAATGACTTCGTGTCATCTTTTGGAGTTTATGAAGTAAAGAAGAAC
ATCAATAGCATGGCGTCGCTTTTTGTGCTGCAAACCATTGGCAAGGATATAAGTGATCAG
TTGTACACTATTGATAAAGATTTTGATATTCTGAAACAGTTCATAGAGACCTTGAAGAGT
CTTGAAGATAAAGCAACAGTCCACGTCGATTGGGCCAAAGCATGGAACATCTCCGAGCAG
TCCGAACTGTTGCAAGTGATGAAAAGTAAAGAACATTTGGGTAAACACATGCTTATAACA
GTACATGGAGCGTTGGCTAAAGAAGTGGTACGTCAGAACCCGCTCCTAGAATACAAGATA
TCACCATTCCTGAAAGACGTGGTCATTATGGTTGACGCGATGAACCATCAGCTGGACGTG
GCGCCAAAGGATCTTCAGAAGATGGCCAAAAAAATGTACCCAGATATAGTTCAAACGATG
TTGGCTACAGTAAAGGATGAAAAAAAGACGTACAAAATGTTATCCACTCCTTGTTCAGAT
ATGGTGTGCGATGGTCTAGACAACGCGTTAGTTTACCTCAACTTTCCTGATAGTGTTAAG
AAAGAACAACTAGTCCCTGTTATGTGTAACATAACTCTTGCCATCGAAGAGGGTCTCAAA
AATAATTCCATCATCGGACAAGCGATAAGTAAAATGAAGACGATGAAACACTCCGTTCTC
GACGAAATCAATTGGACCCAACTTATAACCGGTCTGAATAAACTGTATTCTAATTTAAAA
GACGACTACACTTACCTATTTGATAGAACCTTCGGGATGGATGATGCCTTGAAGAAAAAA
GTGCTGTCGGAAATGGAAGAGGTCAAAGAATACTGGTTTAGTTTCAAAAATTTAAACAGA
GTGATGCATTTATGTGTGAAGCTGGGCTTCCGTGTACTGGATCTCTTGAATCACGGCGTC
TTCAACATGTCCCATCCCGTATGGACGGAACTCAAACTGAGATTGTACTCCGCGATCGGA
CCGATAGAGGTCGTTGATGATATCTTACAGACCATCGGAGGTGTCAGTATCCGGGCTGAA
CTGCCTCCAGAAGCGAGTTCGTTGGTGACCCTAATGTCTGGAGCACCTCAACTTATCACC
GACACCGTGGACCTCATCATACGAGACAATACAGATATACAACAAATCATTTCAATTCTT
AACGGCGCTACTCCCTGGCCTTGTGAAACGATAACAACGAGTTTGGAACTATCACCGTCA
TCGGTTGAAGCGCTGAAAGCGATTGAGAGGTTTATGTGCCTTGATGAAAACCTGCAGGAA
CAATGGAGGACTTACCTAGAACAAAAAAGAGTTTTTCCCGAAAATTGGAACACAACAGAG
TTGCCGAAAGACATCTTCCTGATGTTTTCCGCAGGTTTCGATACCTTGGTGAATGACTTG
GATATCGTCAACAGACTCTTAAACGAAGCTTTCGAGGAATCAGAGAATGGAACTAAGAAC
TTGGCATTTGCTATTAAATATAGCATAGACGCGTTCAATTCCTCAAATAAGGAAACAATT
ATCGGAAATTTTCTAACCAAAGTGGACACAGTGCTCAACTCAATAAATACATCTTCTATA
TCGGAAACAGTACCACTGAACATACTCTGGAAAGAATATTTAAATTGTTCAACAGCTCTG
AAAGGTCAGATCATAGACGACAGCTGTAAAACCCTCGGGAGAGCCACCTGGAAACATACT
TTGAAATTCATTTCGGTTGCCTTCGAAAATGTTACTGAAGATTTAACAACTTACTTGAAG
GAAAGCCGTGAGCAAAATGCAACTCTCATACAGAAGCTCGGTTTCACGAGCAAAACCGGA
ATATTCATGATATATGACCGCCTGCCGGATTACATCGCTGTGTTAATCAACTCGTATTTT
GATTACGGCTTTTTAAGCAAAATTCGACGTGCATCCCAGACCCAGTTCTGGGATTGCGAA
GAGGTGGTCAATGCCCTGGTTCCTTTTCCCCCATCACGTATGGGGTCTTTGCCACCTTCT
CCCCGTGTCCTCTTACCGCTTCTTTGTCCGTCGCTGTTATATTGGGTCTCCATGCCGAGA
GGCGACAACTCACTTATCGACCTTTTAACTAAGCCCCAACATCTCTTATTCTCTTTAGAA
GTAGCAAATCTAACAAGCGATTATAGTAAGGTGTATACAAATTTTAAAGAACTCACAACG
ATATTAAATCAAACTTCATATAAAAATGTGACATTGATAAAAGATATACAATTAAGCACT
CTCAGAAAAGATTTGGAAACTGCATTAGACACAGTTTTATCTTATAAAATAAAAAACACT
GATCCTAGTTATTTGAAATTTAGTGAGGATAATAAGAAACAATACTTGTCAATGATTTAC
TTAACCAAAGTCGTCACTATGGTGAACAAATTGACAACTGCTTTGGGTAATGTTAATATA
ACCGATGACACAGAAGAGAAGATCTTGGAATCAGAGCTGGCGATCGTCCGAAAAGCTTTT
AAACGTCGCCCATCGGAAGTGATTGCATTGCATTTCGATTTGATAACGGACGTACTGTGG
AAGAATGATAACAGTTACAAACTGGTTGAAGCCTTGAGTAATGCATGTGACAGATTAAAA
AATAAAGATACATCCCAAGACATCTTGTTAGACTTGGATAGAATAAAGACCCAAGTGTGC
GCAAAGCAGTATAAAGTATTTTATAAGGAACTAGAAAATGTTGTTGACGAAGATTTTACT
GCGACCAGAAACTCTCTTTTGAAAATGGTTAGAGCGATGGAAGATGACCGCGTCACTGAT
ATATTTGCTTTTTTTAATAAAAGAAAAGTGCTAGTCGATTCTTTAAAAACTTCGGTGAGG
TACGCCTATAACCTCGGCACAGCTGTATATCTCAAGTATCTCCAAAATAATCTGAAACAC
TATGATGTCATACTCACCTTTCTCTCTGGGGGAAACTGGTGGGAAGAACTTCGAAAACTG
TACAACGGTCCTCTTGCAAGCGAATTTTTTGATACAGTAGAACAAGTTTTTGATGTCTCG
GAAGATATTCTTACACACCTGGATAAAATCCATCTAGTGAAGCTGCTCAGAGATGTGAAT
GTGAACAACACGGAGGCTCTTTGCCGTCTGTCTCTGGCAGACTACGTCCCTGACGGTACT
GGCGCTCTCTCCGCTCTACACTCAAGAGCCTGCAACATTAATAGGACTGCCCTCTTTAAA
GAACTACCGCCCTTTATGTTCGCTTCGCAGGGCTACGATGGTAACCTTGTAATATCGTCA
GAAGTCGATTACAACACACTATACTCCGACATATTGCACACTGAATCCATGGTCGATCTG
ATCGAAGAAGAACCGAAATCTCCATTACGACCTCCGTGGGTCACGGATGAAATACTGAGC
AAATTTAGAGCTGTAGCTGTTAATTTACTTTCAAGGGAATCCTTAATTAAGATATCTTTT
GGTGTGTTTGGAAATGTTGTTGACGCTGGGACATTGTATTTGAATAACAGTGAGTGTAAA
TTATGTTCCACTCTCACCACCTGGATAAAACAGTTGAACCTGCAGCTATACAAACGTCAG
GAGTATGATACCCTCCTGTGTGCTCTGGACACTATGAATGTGGATGACATACACACGACA
CTGCAGAACAATTTCCATTGGGATATGGCCATTACTGAGCTGATATCAACTCGAAACTAC
ACCAAGTATGAGCTCAACAAATCGGTCAACGAATTATTGGAGCAGATAAAGCTGCAGCTG
TTAGACGACGTTACCGCTAACGGCACCAAGCTGTACCACTGCTTAGCCAACAACGTCACC
AGGAACCACTTTGGAAATGCTGCCTTATTCGCCAAAGTCCTATCACGAACGGCGAAGCTC
TTGAGGGCGATGTTGCCACATCTTAAGGATATACCCGGCGTCACAGAACTAAAGTTTTTT
AAACAACTCTATACAAATGTCGCCCACAAACTACACGCTAACGACACGTTATCCAAATAT
ACTATTGACAATTTTAGCACCAAAATTATGGAGGAAATTAAAAATAAGAAAATTGTTAAG
GAAATTCAAAACGCCAAAGTAGACCTAGTTATGATTAAAGACGGAAATATATCAAGAGAT
TCTGTATTTATTAATTGGGATGAGATCTGTAATAAACATGACTGTGACAATGTTATGGTT
ATAATAAACTCTCATATAAACAATACACTTGTTAAAGAAAACTTGTTGCTGAAACAAAAA
ACTGAATTCTGGAAGTTAAACTTTATATCGACAATTGTCAAACATATTGAGACGTTTGTG
GAGCACGTGGCGGGAGTGGTGGGGGGAGTGAGTGAAATAGATATACAGGGAGTGAAGGAG
GGCAAGCTAGCGACGTTACTGGACACGGCACTCGTCATCATGAGGGATGATATGTTGGAT
CACTTGGTATACAGTGTGCTGGGAATATTAAAAGAGTTAGAGCCCATACTTCATCGAACA
ACCCTGCAGTTCGACATCACATCTATAACCAGCGGTCTCAAGATACTACAGCGGTTCAAG
AACCTTCTCATTGAACAGGACTACAAAATAAACGTCCAGCCAATGTTCCCCCACGCTGAC
CTCATCGAATGGTCTCTCAGTTCGTTGGGTCTTAACAACACCAACTTCTGGTCGGTCGCC
GCTCCCAGGATACAAACTGGACAGATATCTATAAAAAATATTCTGAACCACAGAGGGTCA
ATAGCAGATTTCGTGTGTCATTTGGAAAATATGTCGTCTGTGCTTTTGCTGGGAGGGGGT
CCTGTCCCTCGAGATGATGTACTGGCTGCTGTCAGCGAACAGTTCTGTGGAATTGGAGAT
CAGCTCGCTAAGGACGTCCTGCTGGTACTACTGGAGAACCTCGACTATGAACAGATCCTG
GGCTTGGTAAAGACGGAGGTGCTGTCTAAACTCTACACATTATCAAATCTCACGCAATCC
GAAGGAGATGCTGTATTGTCTCAGTTAGGAGAGATCGCCACATACTTGCCGATTATGAGA
GATCGCATGGCCAATGTCGGGGACACACTAGCTAATGAACCTTTAATAGCAAGACTGAAG
GGCGGTTCCGTCGGAGATGTTTTATCCTCTCCCGAATTCTTTTCTGATGCCGGTAATATG
GTATGTGGAGCTCCGCTGCAGGTCCGTCTAGCAAGACTGTTCCGATCTGTGGTTCAGACT
CCGGACCTCAAGGACACTCCAGACCAAAAACAACTAGATGCCCTACCCACGGACTTCTGT
CGCTCTCTTTACAAGGATATCGTGAGTATGGAAGGTGGTAAGATACTGTGGAGCTTTGTG
AAGCCATTGGTGATGGGTCGCATCCTGTACACGCCCAACAACCCTACAGTAAACAGAATC
ATTGAAAAGGCGAACGAAACATTTGGTCCTATGATGCAACTAGTGAATATTGTGCACGAA
ATGTCCTCATCATTTCCGTTCATCATCAACATGACCCACCACCGCAGCGGGCTCGCGGTG
ATGCAGAACATCATAACACAACCGCAGTTTAAAGAACTGAGGCAGAGTCTGATGGGAAAC
TTCTCGGCTCCGGACATTAACGTGGATAGTATGCTCGATCAACTTGGAGATTGGCTCGGT
GGGTTGTTGTCCCGTTCGTCAGCTGCTCTGCGCTGTGTGACGCTGCAGCGCTTCATTCCC
GCAGCCGCTGAACATGACCTCGCCCTGGAGGCCGCACGCCTCACTATGATCAACGAATTC
TCTGCTGGTCTGGTTTTTTTGAATGTGAGTGAAACAGAGCAATTTCCGTCCAACATATCC
TACAAGATTCGTATGGACATAGAGAACGCACCCACCACCAGAAGAATTAAGGATTTCTTC
TGGGTTCCGGGACCAAAAGCCAGTTTTCTCGAAAACATGAGATACTTCCGAGGCTTCGTT
CAAATCCAAGATATGATTGACAAGGCCATAATAGAAATATCTATGGAAAATTCTGGAAAA
GTTCAAAAGAGAGAAATAAAAGAGCAGAATGATTGGTCGATATACACGCAGCAGTTGCCG
TACCCTTGTTACACCAAAGATTTCTTCCAGACGTCTCTGTACGAGTCTCAGGCCCTGATC
GTGGCGTTCTACTTCTCTTTCCTGTTCAGTGTGTGTTCGGCTGTGAGGTTCATCGTGAGG
GACAAAGAAACCGGAAACACTATGTTGATGTCAGTGATGGGTGTTGATCTCCGCTGCCAT
ACTCTATCCTGGTTCATATCATCATTCTTGGAACTGGCGGTGACCATGGTGTGCGTGTGT
GTGGTTCTCTGCGCTGGTGGAGTACTGCCGCGGTCGGACCCCTCGCTCATATTCGTCCTG
CTAATGCTGTATGCATTCTCAGTTCTTACGTTCTGCTACATGATGTCTAAGATGTTCAGT
GGTGCGGGTTCCGCGGCGGTGGTGTCAGGTCTGTCGTACTTGCTGAGCTTCATGCCGTTC
GTTCTCATACTCTCACTGGAGGCCGTAATGACCAGCTCGTTGAAGATATTTGTGAGCCTC
TCGATGTCTTCGTCTCTGTGCTACGCGTTCCTATTCATCACTCGTCTAGAGGCGACCGGT
ACCGGTGCGGGCTGGTCTCAGCTCTGGGACACTCCTGAAGGATCCCCTGACATGAGCATC
GGCATCGCTGCACTCATGGTCATTGCTGATGGAGTTTTGTACCTCATCGTAGGATTGGTG
TTGGACAGGTTCTATGGTATAAAAACCACGAGTAATATAACTATTCTGGAGACACGTAAC
GAGAAAGCCGGCGTGAGTATCGTGAATGTGTCCAAGGTATATGACGAGGGTTCAAGGCGC
GCTAAGAGAGCTCTGGACGGAGTGTCCATGGAACTGCATCAGGGACAGATCACCACTCTA
CTGGGACACAACGGGGCAGGGAAGACTACGCTTATTAAAATCCTGACTGGTATGTTGAAG
CCGTCCAAGGGTCATGTGGTGGTGCGATGTGATAGTGGTGGGGGCGCAGCCCTGGGCGTG
TGTCCTCAACACGACGTACTCCTGGACCAGCTAACGGCCCGGGAACACGTGCAGTTGTAC
GCTCAACTCAAGACGGGGAAAAAGTTGGAACATGTTAGAGATGAGGTGGAAAGCATGTTG
TCGGTGTTATCCCTGGGCCCGTTCCAGGAGAAGATGGTGGCCCAGTTGTCCGGGGGGACA
CGGCGGAGACTTTGCGTGGCGCTCGCCTTCGTAGGAGGTCCCGCCCTGGTGTCACTCGAC
GAACCAACCGCTGGCGTTGATCCCGCTGCTAGACGGTGA

Protein sequence:

MAAPLQARLLLWKDYLIRKRKPITLSGVAWATLVMLSLYVVRINVDNTEYPTWNGLHVND
LFRDPKRVERYLAKRLAVTEDTINSVLMSEIGLNSIMKGGAMRCEIDSIKNILRTNESDH
LDVFVDKLCSLSKKDVQSLVTDLVFEADLGKYIKMLGDMYFKLSGDQSFLTLGDMATALF
RMMTPNSFVPIELSSQDGFSYVNMSMLTKLMDLFEPTFGETDSYKSMRDLVDTAVLGSQY
LHKFLASEDTDSIDTAVSGMSFMTGFTKLKKIYDKVFTAIQESNSTDVTDRFFNIASRIT
NFVFKWLPDNQKHDILFYSTLLIKLVESCQHVVIINTDIESVALNVTLRNPKGVEILLNL
PPSLIGNGLEALADAERSQILTSTLTDPGKIFCDTEGITKIFLISENDAKKYKNQLCSDV
WQNFINDFVSSFGVYEVKKNINSMASLFVLQTIGKDISDQLYTIDKDFDILKQFIETLKS
LEDKATVHVDWAKAWNISEQSELLQVMKSKEHLGKHMLITVHGALAKEVVRQNPLLEYKI
SPFLKDVVIMVDAMNHQLDVAPKDLQKMAKKMYPDIVQTMLATVKDEKKTYKMLSTPCSD
MVCDGLDNALVYLNFPDSVKKEQLVPVMCNITLAIEEGLKNNSIIGQAISKMKTMKHSVL
DEINWTQLITGLNKLYSNLKDDYTYLFDRTFGMDDALKKKVLSEMEEVKEYWFSFKNLNR
VMHLCVKLGFRVLDLLNHGVFNMSHPVWTELKLRLYSAIGPIEVVDDILQTIGGVSIRAE
LPPEASSLVTLMSGAPQLITDTVDLIIRDNTDIQQIISILNGATPWPCETITTSLELSPS
SVEALKAIERFMCLDENLQEQWRTYLEQKRVFPENWNTTELPKDIFLMFSAGFDTLVNDL
DIVNRLLNEAFEESENGTKNLAFAIKYSIDAFNSSNKETIIGNFLTKVDTVLNSINTSSI
SETVPLNILWKEYLNCSTALKGQIIDDSCKTLGRATWKHTLKFISVAFENVTEDLTTYLK
ESREQNATLIQKLGFTSKTGIFMIYDRLPDYIAVLINSYFDYGFLSKIRRASQTQFWDCE
EVVNALVPFPPSRMGSLPPSPRVLLPLLCPSLLYWVSMPRGDNSLIDLLTKPQHLLFSLE
VANLTSDYSKVYTNFKELTTILNQTSYKNVTLIKDIQLSTLRKDLETALDTVLSYKIKNT
DPSYLKFSEDNKKQYLSMIYLTKVVTMVNKLTTALGNVNITDDTEEKILESELAIVRKAF
KRRPSEVIALHFDLITDVLWKNDNSYKLVEALSNACDRLKNKDTSQDILLDLDRIKTQVC
AKQYKVFYKELENVVDEDFTATRNSLLKMVRAMEDDRVTDIFAFFNKRKVLVDSLKTSVR
YAYNLGTAVYLKYLQNNLKHYDVILTFLSGGNWWEELRKLYNGPLASEFFDTVEQVFDVS
EDILTHLDKIHLVKLLRDVNVNNTEALCRLSLADYVPDGTGALSALHSRACNINRTALFK
ELPPFMFASQGYDGNLVISSEVDYNTLYSDILHTESMVDLIEEEPKSPLRPPWVTDEILS
KFRAVAVNLLSRESLIKISFGVFGNVVDAGTLYLNNSECKLCSTLTTWIKQLNLQLYKRQ
EYDTLLCALDTMNVDDIHTTLQNNFHWDMAITELISTRNYTKYELNKSVNELLEQIKLQL
LDDVTANGTKLYHCLANNVTRNHFGNAALFAKVLSRTAKLLRAMLPHLKDIPGVTELKFF
KQLYTNVAHKLHANDTLSKYTIDNFSTKIMEEIKNKKIVKEIQNAKVDLVMIKDGNISRD
SVFINWDEICNKHDCDNVMVIINSHINNTLVKENLLLKQKTEFWKLNFISTIVKHIETFV
EHVAGVVGGVSEIDIQGVKEGKLATLLDTALVIMRDDMLDHLVYSVLGILKELEPILHRT
TLQFDITSITSGLKILQRFKNLLIEQDYKINVQPMFPHADLIEWSLSSLGLNNTNFWSVA
APRIQTGQISIKNILNHRGSIADFVCHLENMSSVLLLGGGPVPRDDVLAAVSEQFCGIGD
QLAKDVLLVLLENLDYEQILGLVKTEVLSKLYTLSNLTQSEGDAVLSQLGEIATYLPIMR
DRMANVGDTLANEPLIARLKGGSVGDVLSSPEFFSDAGNMVCGAPLQVRLARLFRSVVQT
PDLKDTPDQKQLDALPTDFCRSLYKDIVSMEGGKILWSFVKPLVMGRILYTPNNPTVNRI
IEKANETFGPMMQLVNIVHEMSSSFPFIINMTHHRSGLAVMQNIITQPQFKELRQSLMGN
FSAPDINVDSMLDQLGDWLGGLLSRSSAALRCVTLQRFIPAAAEHDLALEAARLTMINEF
SAGLVFLNVSETEQFPSNISYKIRMDIENAPTTRRIKDFFWVPGPKASFLENMRYFRGFV
QIQDMIDKAIIEISMENSGKVQKREIKEQNDWSIYTQQLPYPCYTKDFFQTSLYESQALI
VAFYFSFLFSVCSAVRFIVRDKETGNTMLMSVMGVDLRCHTLSWFISSFLELAVTMVCVC
VVLCAGGVLPRSDPSLIFVLLMLYAFSVLTFCYMMSKMFSGAGSAAVVSGLSYLLSFMPF
VLILSLEAVMTSSLKIFVSLSMSSSLCYAFLFITRLEATGTGAGWSQLWDTPEGSPDMSI
GIAALMVIADGVLYLIVGLVLDRFYGIKTTSNITILETRNEKAGVSIVNVSKVYDEGSRR
AKRALDGVSMELHQGQITTLLGHNGAGKTTLIKILTGMLKPSKGHVVVRCDSGGGAALGV
CPQHDVLLDQLTAREHVQLYAQLKTGKKLEHVRDEVESMLSVLSLGPFQEKMVAQLSGGT
RRRLCVALAFVGGPALVSLDEPTAGVDPAARR