Protein Info for Psyr_2608 in Pseudomonas syringae pv. syringae B728a

Annotation: Amino acid adenylation

These analyses and tools can help you predict a protein's function, but be skeptical. For enzymes, over 10% of annotations from KEGG or SEED are probably incorrect. For other types of proteins, the error rates may be much higher. MetaCyc and Swiss-Prot have low error rates, but the best hits in these databases are often quite distant, so this protein's function may not be the same. TIGRFam has low error rates. Finally, many experimentally-characterized proteins are not in any of these databases. To find relevant papers, use PaperBLAST.

Protein Families and Features

1 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 6500 7000 7500 8000 8500 9000 9498 transmembrane" amino acids 4347 to 4365 (19 residues), see Phobius details amino acids 4629 to 4647 (19 residues), see Phobius details amino acids 6152 to 6157 (6 residues), see Phobius details amino acids 6752 to 6771 (20 residues), see Phobius details PF00668: Condensation" amino acids 54 to 499 (446 residues), 247.5 bits, see alignment 6.3e-77 amino acids 1149 to 1589 (441 residues), 184.1 bits, see alignment 1e-57 amino acids 2242 to 2673 (432 residues), 158.3 bits, see alignment 6.9e-50 amino acids 3329 to 3761 (433 residues), 156.8 bits, see alignment 2.1e-49 amino acids 4384 to 4829 (446 residues), 368.9 bits, see alignment 9.2e-114 amino acids 5450 to 5896 (447 residues), 366 bits, see alignment 6.8e-113 amino acids 6509 to 6950 (442 residues), 364.6 bits, see alignment 1.9e-112 amino acids 7610 to 8052 (443 residues), 174.4 bits, see alignment 9e-55 amino acids 8666 to 9101 (436 residues), 348.1 bits, see alignment 1.8e-107 PF00501: AMP-binding" amino acids 520 to 874 (355 residues), 320.2 bits, see alignment (E = 4.2e-99) amino acids 1610 to 1964 (355 residues), 321.4 bits, see alignment (E = 1.9e-99) amino acids 2694 to 3052 (359 residues), 292.1 bits, see alignment (E = 1.4e-90) amino acids 3781 to 4139 (359 residues), 289.8 bits, see alignment (E = 7.2e-90) amino acids 4849 to 5203 (355 residues), 295.8 bits, see alignment (E = 1.1e-91) amino acids 5916 to 6261 (346 residues), 281.7 bits, see alignment (E = 2.2e-87) amino acids 6974 to 7334 (361 residues), 293 bits, see alignment (E = 7.7e-91) amino acids 8072 to 8422 (351 residues), 288.1 bits, see alignment (E = 2.4e-89) TIGR01733: amino acid adenylation domain" amino acids 541 to 949 (409 residues), 470.3 bits, see alignment (E = 2e-144) amino acids 1631 to 2039 (409 residues), 470.7 bits, see alignment (E = 1.5e-144) amino acids 2715 to 3127 (413 residues), 472.1 bits, see alignment (E = 5.8e-145) amino acids 3802 to 4214 (413 residues), 464.5 bits, see alignment (E = 1.1e-142) amino acids 4870 to 5276 (407 residues), 415.7 bits, see alignment (E = 7.7e-128) amino acids 5937 to 6336 (400 residues), 436.4 bits, see alignment (E = 3.8e-134) amino acids 6995 to 7409 (415 residues), 440 bits, see alignment (E = 3e-135) amino acids 8093 to 8497 (405 residues), 414.7 bits, see alignment (E = 1.6e-127) PF13193: AMP-binding_C" amino acids 933 to 1009 (77 residues), 45.1 bits, see alignment (E = 3.9e-15) amino acids 2023 to 2099 (77 residues), 45.1 bits, see alignment (E = 3.9e-15) amino acids 3111 to 3186 (76 residues), 46.4 bits, see alignment (E = 1.6e-15) amino acids 4198 to 4273 (76 residues), 48.1 bits, see alignment (E = 4.5e-16) amino acids 6320 to 6396 (77 residues), 37.7 bits, see alignment (E = 8e-13) amino acids 7393 to 7468 (76 residues), 35.4 bits, see alignment (E = 4.2e-12) amino acids 8481 to 8556 (76 residues), 42 bits, see alignment (E = 3.8e-14) PF00550: PP-binding" amino acids 1039 to 1099 (61 residues), 46.7 bits, see alignment (E = 7.9e-16) amino acids 2128 to 2188 (61 residues), 42.3 bits, see alignment (E = 1.9e-14) amino acids 3215 to 3275 (61 residues), 48.5 bits, see alignment (E = 2.1e-16) amino acids 4303 to 4362 (60 residues), 46.6 bits, see alignment (E = 8.4e-16) amino acids 5369 to 5432 (64 residues), 55.5 bits, see alignment (E = 1.3e-18) amino acids 6424 to 6487 (64 residues), 53.7 bits, see alignment (E = 5.2e-18) amino acids 7497 to 7558 (62 residues), 37.8 bits, see alignment (E = 4.6e-13) amino acids 8585 to 8647 (63 residues), 49.8 bits, see alignment (E = 8.6e-17) amino acids 9143 to 9204 (62 residues), 37.9 bits, see alignment (E = 4.5e-13) PF00975: Thioesterase" amino acids 9227 to 9467 (241 residues), 102.3 bits, see alignment (E = 1.2e-32)

Best Hits

Predicted SEED Role

"Non-ribosomal peptide synthetase modules, pyoverdine??" in subsystem Siderophore Pyoverdine

Sequence Analysis Tools

PaperBLAST (search for papers about homologs of this protein)

Search CDD (the Conserved Domains Database, which includes COG and superfam)

Search structures

Predict protein localization: PSORTb (Gram-negative bacteria)

Predict transmembrane helices and signal peptides: Phobius

Check the current SEED with FIGfam search

Find homologs in fast.genomics or the ENIGMA genome browser

See Q4ZT75 at UniProt or InterPro

Protein Sequence (9498 amino acids)

>Psyr_2608 Amino acid adenylation (Pseudomonas syringae pv. syringae B728a)
MDALFFFNVFNPPADWQSSSAMPRRPSTGDEPIDFANRCFEMNSLIDNLCTQGQELLPLA
SVQQGIWLDQLAYPHLPYYNIGMTLEIKGDIDIALFEKAIQRVIDSHDALRLSFSHERGM
GGQRVLSKAPFKLEVTDFPEVDGDTEQAIAHLRESFRHPFESMTGQLWESRLVRCGPQLH
YWFNRLHHLVADGIGAVLIAHAVGDTYSGLLEGKETLAEGPSYLSFLEEDRAYMASCRYE
RDRLFWEQSYAQLPPVLLQRRADFKAGLTNVPAPSDQVQAMLPRALYNALTQFASECNLS
VAHVLVGVISTYFCRTVGVDEIVVGMPVHNRTNARQKATIGMFSSVSPIRVGFDPHETLI
DLMNNIGTQLRRTYRHQRFPIAELNRSLRLAQNGRHQLFDVSLSFESFDGDVTFGSEDPA
RVLMLDNGYEQTPMAIFVRDYHPSEDIHLDFNFNTAYFTFEEAQRVQQRIFAMLEAVLNQ
HDTPLAHFPLMSTSEHQQLATFNETALAYPRDVLIHQLIEQQAAQRPDACAVRGDSGPLL
TYAELNQQANQLAHRLIELGVEPDTRVAVSLRRGAEMVVALLGILKAGGAYVPIDPDLPS
ARQAYMLEDSSPQAVLTTRDLSDNLPASDHPVLVLDGHDDRAQLASQPTGNPDAKALGLQ
PNHLAYVLYTSGSTGTPKGVMNEHLGVVNRLLWARDAYQVNSQDRVLQKTPFGFDVSVWE
FFLPLLTGAELVMARPGGHQDPDYLAQVMSDAGITLLHFVPSMLDVFLEHRSTRDFPQLR
RVLCSGEALPRALQRRFEQHLKGVELHNLYGPTEAAIDVTAWECRPTDPGESVPIGRPIA
NIQMHVLDTLGQLQPLGVAGELHIGGIGVARGYLNQPDLSAERFIADPFSSDPQARLYKT
GDVGRWLANGALEYLGRNDFQVKIRGLRIEIGEIEAALAKHPAVHEAVVTAREDIPGDKR
LVAYYTQSAEHTAVDLEILRSHLQQQLPEYMVPAIYVLLEAMPLTSNGKLDRKALPAPDG
DALISRGYEAPQGEVETLLASIWADVLKVEQVGRHDHFFELGGHSLLAVKLIERMRQVGL
SADVHVLFGQPTVAALAAAAGGGSEVVVPTNLIPEHCDRITPQMLALINLSQAQIDHVVK
DMPGGVANVQDIYPLAPLQAGILYHHISAEQGDPYTLKALFALSDRARLDDFSGALQGVI
NRHDILRTAVLWEDLDEPVQVVLRQAELHVTELFLDPADGPVDEQLHQRFDRRHYRLDVR
TAPLMRIVFSHDPVNDRWLAMLLCHHLVSDATSLSVILQEIQAHLLGQGNALGEAVPYRN
YVAQARLGVSEAQHEAFFRDMLGDIDEPTLPFGLQDVQDRGRNLEEASVTLAAELNLRLR
AQARQAGVSVASLMHLAWARVLGNVSACEQVVFGTVLLGRMQAGDGADRALGMFINTLPL
RVDIGATTVAEGLKATHERLTALLGHEHAPLVLAQRCSGVAAPTPLFSALLNYRHSVVSD
VSAEAASAWGGIESFGTEDHTNYPLTLNVDDLGDAFTLTIQAVQQISATRIGEYMQVALR
SLVDALEHTPQAALNSLSILPDDERELLLTGFNDTAHPYPRDVLIHQLIEQQAAQRPDAC
AVRGDSGPLLTYAELNQQANQLAHRLIELGVEPDTRVAVSLRRGPEMVVALLGILKAGGA
YVPIDPDLPSARQAYMLEDSSPQAVLTTRDLSDNLPASDLPVLVLDGHDDRAQLARQQSV
NPDAKALGLQPNHLAYVLYTSGSTGTPKGVMNEHLGVVNRLLWARDAYQVNSQDRVLQKT
PFGFDVSVWEFFLPLLTGAELVMARPGGHQDPDYLAQVMSDAGITLLHFVPSMLDVFLEH
RSTRDFPQLRRVLCSGEALPRALQRRFEQQLKGVELHNLYGPTEAAIDVTAWECRPTDPG
DSVPIGRPIANIQMHVLDALGQLQPLGVAGELHIGGIGVARGYLNQPDLSAERFIADPFS
EDRQARLYKTGDVGRWLANGALEYLGRNDFQVKIRGLRIEIGEIEAALAKHPAVHEAVVT
AREDIPGDKRLVAYYTQSAEHTAVDLEILRSHLQQQLPEYMVPAIYVLLEAMPLTSNGKL
DRKALPAPDGDALISRGYEAPQGEIEEQIAIIWQDLLGVEQVGRHDHFFELGGHSLLAVS
LIDRLRKQDLNLNVNTVFTAPSVREMALAISQEKQALFRAPANRIPAHCTQLTPDMLPLV
ELSVAQIELIASAVPGGAANIQDIYPLAPLQEGILFHYLLNLERDAYLVRSTIEFDSRAR
LDAFLEGLQTVIDRHDVLRSSVHWVGLPQAVQVVHRQAQLPIHTLTLRPDEDALSQLDRL
SDPGRLRLDLRQAPLLLAYIARDPDSERWLLALIDHHMISDHVTLELILEEIRLLMRGQS
ADLLPPQPYREFVAQTLASPSSAHEAYFTRRLADVDSPTAPFELLEVQGDGNDVEESELA
LSSDLCARIRTQARERGMSPAVLFHVAWAQVLARCTGRDDVVFGTAVTGRLQGTLGAERA
MGMFMNTLPVRVQLATQSVQELVMATHRDLSELLSHEQASLALAQRCSSVATGVPLFSSL
LNYRHQNEDSQLQWPGLRLLDSAERTNYPLCLSVNDYGSDLGLLIHSVQPADPQRLCAMM
QCALEQLTDALAHTPQKEVTQLDVLPAAERNLLLETFNQTRQDYPTDLCIQHLFEAQVRT
QPDAIAVAFQAQRLSYAELNRQANRLAHHLIGLGIGPDDRVAICVERGVEMMVGLLGVLK
AGAAYVPLDPAYPAERLAYMIEDSQPAALLTQRHLQEYLPTLTLPLVLLDDDQRKTFTER
DDNPVVEALGVRNLAYVIYTSGSTGNPKGVMIEHRGLVNYSVDAARLFGLSQSDTVLQQN
TLNFDLSVEEIFPALLAGATLTPSREIFGSEGTENHGIDPTVLHLTAAHWHTLVAEWHKQ
PQVAEQRLQHVRLINVTGDALSAQKLKLWDEVRPAHTRLINTYGPTEATVSCTAAYVSHD
AAAGSEGSGNATIGKPMANTRIYLLDAHQQPVPYGVAGEIYIGGDGVARGYLNLEEVNAE
RFLADPFSESPDARMYKTGDLARYMADGRIEYLGRNDFQVKVRGFRIELGEIEARLGNCT
GVKEAVVIAREDNPGDKRLVAYVVAQPQSQLTAADLRAELAPQLAEYMLPSAFVLLDELP
LTPNRKLDRKALPAPDADALISRGYEAPQGETETQIVAIWQDLLGIEQVGRHDHFFELGG
HSLLAVSLIERLRKQGLNLNVKTVFTAPTVREMALAISQDKHVLFQVPANRIPAHCTQLT
PDMLPLVELSVAQIELITSAVAGGAANIQDIYPLAPLQDGILFHYLLNRERDAYLMRSMI
EFDSRARLDAFLEGLQTVIDRHDILRSSVHWIGLPQAVQVVHRQAQLPVHTLTLTPEEDA
LSQLDRLSDPGRLRLDLRQAPLLLAYIARDPNSERWLLALIDHHMISDHVTVELILEEIR
LLMRGQSADLLPPQPYRDFVAQTLASPSSAHEAYFTRRLADVDSPTAPFELLEVQGDGND
VEEAKLALNSDLCIRIRTQARERGMSPAVLFHVAWAQVMARCTGRDDVVFGTVVTGRLQG
TAGAERAMGMFMNTLPVRVQLTTQGAQELVMATHRDLSELLSHEQASLALAQRCSSVATG
VPLFSSLLNYRHQGEDSRLQWPGMRLLDGTERTNYPLCLSVNDYGSELDLIIHSMQPANP
QRLCAMMQCALEQLTDALAHTPQMAVTQLDVLPAAERNLLLETFNQTRQDYPTDLCIQHL
FEAQVRTQPDAIAVAVQGQRLSYADLNRQANRLAHHLISLGIVPDDRVAICVERGVEMMI
GLLGVLKAGAAYVPLDPAYPAERLAYMITDSQPAALLTQRGLQERLPALSMPLVLLDDEQ
YQGLAECDDNPVVPTLGVRNLAYVIYTSGSTGNPKGVMIEHRGLVNYSVDAARLFDLSQS
DTVLQQNTLNFDLSVEEIFPALLAGATLAPSREIFGSEGTETHGIQPTVLHLTTAHWHTL
VAEWHNQPQAAEQRLQHVRLINVTGDALSAQKLKLWDEVRPAHTRLINTYGPTEATVSCT
AAYVSYDAAAGSEGSGNATIGKPMANTRIYLLDAHQQPVPYGVAGEIYIGGDGVARGYLN
LEEVNAERFLADPFSESPDARMYKTGDLARYMADGRIEYLGRNDFQVKVRGFRIELGEIE
ARLGNCKGVKEAVVIAREDNPGEKRLVAYVVAQPQTQITAAELRAELAPQLAEYMLPSAF
VLLDELPLTPNRKLDRKALPAPADDAFASREHVEPQGATEIALAQIWQNLLDLERVGRHD
QFFELGGHSLLAMRLISQVRHQLGVELGLAALFAHPELSALAVAIAQAGRSKLPDIVPVA
RDQAWPLSFGQQRLWFLAQMEGASAAYHIPAGLSLHGNLNLKALQRALERIVARHEGLRT
TFMQGDDGQPVQRISPADTGFNLQMHDLQGLADAEEKLQALASEESLQSFDLQQGPLIRG
RLIRMAEDHHVLLLTLHHIVSDGWSVDVLTRELSALYAAFSQDQDDPLAPLELQYLDYAV
WQRRWLSGDVLQQQSNFWQQTLADAPALLMLPTDRARPALQDYAGAALPVVFDKDLTRGL
KALSQRRGSTLFMTVMAAWAGLLGRLAGQDDVVIGTPVANRTRSEVEGLVGLFVNTLAIR
VDLSDKPTAETLLARVKQQTLDAQAHQDLPFEQVVEVINPLRSLSHSPIFQAMLSWENNE
ASDLTLGDMTLKSIELAADTAQFDLTLDMAEVDEQLVGTLEYATALFDESTMRRYLGYFQ
RVLEAMVADDQQVLEHVALLGADEREHLLAGLNATEAPFPQDRTIHQLFEERVQAQPDAI
AVAFGAQRLSYAELNRQANRVAHHLISLGIKPDDRVAICVERGVEMLIGVLGVLKAGAAY
VPLDPAYPAERLAYMIEDSTPSALLAQRDVQAHLPTLDLPLVLLDEDQRTTLSERGDNPV
VETLGAHNLAYVIYTSGSTGVPKGVMVEHRGLFAVSAAWEQLYALHAPLNHLQMAGFSFD
VFSADLIRSLAFGGTLVLCPRETLMDPPALYRLLSEESIGFADFVPAVLNALLGWVEETG
HDLSFMRTVVCGSDIWTAHSARQLRKLCGDHVQIVQAYGVTEASIDSTCFEFEATSQVDG
VLPIGRALANTRIYLLDELGQAVPPGVAGELYIGGAGIARGYLNLQQLTAERFMDNPFVA
GERLYRSGDMARYRADGNIEFLGRNDSQAKLRGLRLELGEIEARLAEVAGVRESLVVIRE
DSGGTPKLIAYFVEYATRDESGPALTPRALRQQLQLNLPEYMIPAAFVRMAALPLSANGK
LDRRALPEPDADAFDQHDFEAADGPLETAIAAIWADVLGVAQVGRHDDFFALGGHSLLVM
RVLAQVRQQLNLEVSPSVFFAAPVLRQFAERLGNTQDNARVAIKPVQRSGALPLSFAQQR
LWFLAQLEGGSAAYHIPAGLRLRGNLDQASLQRALDRIVARHEALRTTFVQEQGQPAEQR
ISAAETGFRLQLQVLAGQTDAEDKLLAIAAQEASEHFDLVNGPLVRGRLVRMADDDHVLL
VTMHHIVSDGWSTGVLNRELGALYDAFRQGADDPLPALPVQYVDYALWQRDWLSGDVLQQ
QRQYWQQALAGAPALLTLPTDRPRPAQQDYSGQTLELVLDTQLTRGLKTLSQRHGSSLFM
TVMGAWAALLGRLSGQDDVVIGTPVANRMSAEVENLIGFFVNTLAIRVDLSGTPSVEALV
RQVKQRTLAAQANQDLPFEQVVEVVQPQRSLSHSPIFQAMLSWQNNEDTALVLGDLTLQG
VAVAGDTAKFDLALDIGEVDGQLIGTLEYATALFDESTMRRYRGYFLRLLEAMAADDQQV
LEQVPLLDTAEREYLLKDINATERTYPVGQLMHRLFEAHAEAAPQAIAVRQGEQTLTYAE
LDSRANALAQHLRKHGVGPGTRVAILLDRSVELLASMLATLKCGAAYLALDRLAPEERLR
FMLEDSEAIMLLSRSDLTAPDMTPRLDLDTLELSALNQEPVVPATEVAGETPACIIYTSG
STGVPKGVIVTHNGIVRLVQDNGYYDFSAEDRVAFSSNPAFDASTPEIWGALLNGGQSVI
IEPQVLLEPVAFAALLKRHGVTAMISSTALFNLYAGLIPEALAGLRMIMCGGERADPASF
RRVREHSAQVRLFNGYGPTEGTTCATSYEIFDVLPDTLSLPIGKPNANVRVYVLDARREP
VPMGVVGEIYIGGTGVALGYLNRPELTAERFSEDPFSQQAGARLYRTGDLARWLPDGNLE
YLARNDGQVKVRGFRVELGEIESVLHLCDGVRNSVVVAHEASPGDTRLVAYYTVHAGVDA
PDPEDLRAQLSADLAEYMVPSVFVRLDALPLTLNGKVDQKALPVPDLNAMFERTYVAPEG
ATEQALAEIFQELLGLERVGRHDGFFELGGHSLLAAQLVSRVRQQLNGDMALRQLFNHPT
VAELAKVVDGLQTVDSDSIEPIERNAPLALSFSQQRLWFLDRLDPGASSAYHMPMSLLLR
GELDHRALKAALDRLVARHESLRTTFELHGEQPVQVIAAADSGFALAEDDLRSQPYEQAS
LNASRIADSEAAAPFDLRQGPLIRGRLLRLADDEHMLLITQHHIISDGWSVGVLINEFTA
LYQAFTEQRSDPLPALSIQYADYAAWQRRTFTGERLAEQADFWREHLGGAPTLLSLPTDR
PRPAVQSYRGGAVPVTIDAALHQRLERFCQAHNVTLFMGLLSAWSVLMARLGNERDVVIG
VPSANRGRTETENLIGFFVNTLALRVDLTQNPSVAQLLEQVRQTTLAANEHQDIPFEQVI
EALQPPRSMSHSPLCQVALSLDNTSIGGELKLPGLSLHPVLQAHETAQFDLMLTLASENG
ALNGVIEYASDLFDRSTVERFAQHFHTLLEAMVEDVAQPVLGLPLLSPAQRLASPALLQP
KAVFASGLMVHQRFEQFAAAHPQNIALVFGRHEVSYQALNRRANRLAHELLAQGVRPDDR
VAILAERGTQMICAVLAVLKSGAAYVPLDPTYPTERLGYLLTDSAPVALLAQSACLDVLP
AHSVPVLTLGADNDSADLADESLDRNPEPAALGLSREHLAYVIYTSGSTGLPKGVLVEHG
NVARLFDATAGQFNFGHEDVWTLFHSFAFDFSVWEIWGALCYGGKLVIVPSEVARSPDDF
YALVCEQQVTVLNQTPSAFRQFIQARERSPQEHALREVVFGGEALDFRSLQPWTARTPLS
RTRLVNMYGITEITVHATYYPISQSEIDTAMPSLIGPALDDLCLRILDDYQQPVPVGVNG
EIYIGGAGVARHYLNRTELNAERFIADPYALQSGARLYRTGDVAHYRSDGGVVYVGRNDS
QIKIRGFRIELGEIEAQLLACPDVREAMVIVREDRPGDKRLVAYLIAEDGAAPESALLRS
QLASVLAEHMLPSAFVTLETWPLTTNGKLDRAALPAPDQFATVSRDYEAPLGAIETTLAA
AWQELLGVERVGRQDHFFELGGHSFLVISLIERLRQIGLLLDVSTVFSAPTLQAMAAVLA
GGTAAERVAPANLIPVDCTALTPDMLPLVKLTRQELEHIVADVPGGVANVQDIYPLSSLQ
EGILFHHLLQSEGDAYLMRTLATFDSRALLDKFLGALQVVINRHDIMRSSLRWQGLPQPV
QVVHRQAQLPVIQLDTAPGEDALQMLRERTNTYHMRLDLQQAPLIAAYITYDTRQEKWLM
ALLDHHLISDNVTLRLIMGEIQAVMDGRADALPPSQPYRNFIARAACVSQAEHEAYFRQL
LGDVDTTTAPYGVLDVRGGDATILRSVQDLSDDLSARIHSTARAQGVPTSVLFHAAWGLV
VAATSGCDDGIFGTVLSGRSQGTSGANHALGMFINTLPMRIRLQQNSVRDIVQDAYQQLS
GLLTHEQAPLALAQRCSAVDASLPMFTVILNCRHGDLVNTAGENIEDMGEEQEGVHFLGS
ETRTNYPIEIAVANEANGFSLTAQSIDGIDPHRIAAYLGQAVAELVNALEQDPARLASSL
EVIPQAERQLLLNDFNDTASDFAPAVPIHALFEDQVRRNPDAVALVYEDRQLSYRQLNRR
ANHVARQLLQLGVQPDERVAICAERSLDMIVGLLGVLKSGAAYVPIDPAHPADRMAFMLQ
DSQPRALLTQGALSLPVGDTPLMLLDSAESLLAADDQAFDANPVVDGLTAENLAYVIYTS
GSTGQSKGVMVEHRSVFNFWNVLTRTTHQHCPTPATVALNAGFFFDMSIKGISQLFSGHK
LVIIPQLLRANGSELLDFLEAHQVHAFDSTPSQLDTLLSAGLLERSSYQPVSVLLGGEAI
NASTWEKLRNCPTIRFYNMYGPTECTVDATIDLIRDLGEKPSIGRPIANVQVHVLDARGE
PAPLGVAGEIHIGGSGVARGYLNRDELSAERFIVDPFSDVANARLYKTGDLGRWLADGTL
EYMGRNDFQVKVRGFRIELGEIENVLLAVPGIREAIVIARNDSQGDSDSQRLVAYVCGES
VAAEHLRSELLRHLPEYMVPSAFVQLDALPLTANGKLDRRALPAPGQDALASKAYEAPQG
ETEEAIAEIWKALLHLDQVGRNDGFLELGGHSLLAVQLLSRLRRKLGTRITLRELFDAPT
VLGLASLVNAAAPGEAQSIPRANRSGRLPLSFSQQRLWFLDHLDHAAGAAYHLPMALRLT
GSLDTAALEATLDRLVARHETLRTRFELVDGEPVQKIAPADSRFPLLKQDLRDLSGDERT
STLARLDQENATQLFDLTKGPMLRGHLLRVADAEHVLLITLHHIVSDGWSNSVLAQEVSA
LYAAFSQGQKDPLPALPLQYVDYAAWQRQSLDGPALQAQIDFWRKHLEGAPSVLNLPLDR
PRPAIQSYTGGMVEHVFSPALSADLRAFSQAQGSTPFMVLLAGWSMLMSHLSGQTDVVVG
TPVANRQHPELEPMIGFFANTLALRVATDRETRLNDMLDRIKSLTLAAYNHQDLPFEQVV
SALQPTRNMSHSPLFQVMLSLDNTPPSLLQLPDLEVELLDSEHHTTQFDLSLSLVDSSES
LSGGLQYSSDLFDKTTAQAIMQLFARVLENMVSDARQSIGQVLDNTPALPRSAHTATIAA
TVEDEQPEALPYEAPEGETEIALANLWKELLKLEKVSRHDDFFKLGGISLMAVQMASRLR
KVLGKPIAVRDLFIEPTIAGFARTLDGQARPGQHSNLVPVRRTGSQRPLFLVHPLGGEVQ
YVRDLAAAIDPQVPLYGLAASGLAAGETPLFEVPAMAARYLAAIRQVQPKGPYRIGGWSA
GGLIAYEMARQLQSSGEKLEFLGIIDTSARLEQQAPEALSEGQFLMDWLPEQLDPEVFRQ
LTELAGTDAIDEMLALCMAHRLLPEELPQDVDATLLRSHLAVAHATHIAIGNYVSPPAPL
TVTLFTASAEERDDPLLGWTALLDSPVNVTELPGTHETLVRAPQVSALGQAISRALNKEP
NQEPRREEVLRSITAPAE