Protein Info for AMB_RS17310 in Magnetospirillum magneticum AMB-1

Annotation: tandem-95 repeat protein

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 9595 PF04773: FecR" amino acids 159 to 243 (85 residues), 32.8 bits, see alignment (E = 5.3e-11) PF17963: Big_9" amino acids 1649 to 1737 (89 residues), 33 bits, see alignment (E = 5.8e-11) amino acids 4741 to 4824 (84 residues), 42.8 bits, see alignment (E = 5.2e-14) amino acids 4848 to 4921 (74 residues), 42.9 bits, see alignment (E = 4.8e-14) amino acids 5326 to 5404 (79 residues), 32.1 bits, see alignment (E = 1.1e-10) amino acids 5876 to 5956 (81 residues), 47.1 bits, see alignment (E = 2.4e-15) amino acids 6404 to 6485 (82 residues), 44.5 bits, see alignment (E = 1.5e-14) amino acids 7175 to 7256 (82 residues), 33.7 bits, see alignment (E = 3.7e-11) amino acids 7923 to 8007 (85 residues), 37.1 bits, see alignment (E = 3.3e-12) amino acids 8915 to 8981 (67 residues), 28.7 bits, see alignment (E = 1.4e-09) PF00353: HemolysinCabind" amino acids 2302 to 2315 (14 residues), 7.7 bits, see alignment (E = 0.0025) amino acids 2500 to 2533 (34 residues), 36.8 bits, see alignment (E = 1.9e-12) amino acids 2508 to 2540 (33 residues), 32.9 bits, see alignment (E = 3.2e-11) amino acids 2823 to 2848 (26 residues), 9.3 bits, see alignment (E = 0.00082) amino acids 3007 to 3035 (29 residues), 13.2 bits, see alignment (E = 4.9e-05) amino acids 3037 to 3063 (27 residues), 18.3 bits, see alignment (E = 1.2e-06) amino acids 3152 to 3179 (28 residues), 21.6 bits, see alignment (E = 1.1e-07) amino acids 3750 to 3783 (34 residues), 21.2 bits, see alignment (E = 1.4e-07) amino acids 4276 to 4295 (20 residues), 15.8 bits, see alignment (E = 7.5e-06) amino acids 4387 to 4418 (32 residues), 20.1 bits, see alignment (E = 3.2e-07) amino acids 9423 to 9454 (32 residues), 7.5 bits, see alignment (E = 0.003) PF13385: Laminin_G_3" amino acids 2622 to 2769 (148 residues), 40.7 bits, see alignment (E = 1.8e-13) amino acids 4538 to 4691 (154 residues), 66.5 bits, see alignment (E = 2e-21) amino acids 5662 to 5823 (162 residues), 80.1 bits, see alignment (E = 1.3e-25) amino acids 5984 to 6145 (162 residues), 76.9 bits, see alignment (E = 1.3e-24) amino acids 6209 to 6354 (146 residues), 87.9 bits, see alignment (E = 5.2e-28) amino acids 6512 to 6663 (152 residues), 69.6 bits, see alignment (E = 2.3e-22) amino acids 6722 to 6900 (179 residues), 32.5 bits, see alignment (E = 5.9e-11) amino acids 6967 to 7121 (155 residues), 78.1 bits, see alignment (E = 5.6e-25) amino acids 7279 to 7439 (161 residues), 75.3 bits, see alignment (E = 3.9e-24) amino acids 7492 to 7649 (158 residues), 63 bits, see alignment (E = 2.5e-20) amino acids 7722 to 7872 (151 residues), 61 bits, see alignment (E = 1e-19) amino acids 8031 to 8181 (151 residues), 79.9 bits, see alignment (E = 1.5e-25) amino acids 8265 to 8415 (151 residues), 77.6 bits, see alignment (E = 7.7e-25) amino acids 8457 to 8615 (159 residues), 93.3 bits, see alignment (E = 1.1e-29) PF08548: Peptidase_M10_C" amino acids 4379 to 4444 (66 residues), 31.5 bits, see alignment (E = 1e-10) PF17892: Cadherin_5" amino acids 4856 to 4924 (69 residues), 26.6 bits, see alignment (E = 2.8e-09) amino acids 5911 to 5961 (51 residues), 30.6 bits, see alignment (E = 1.6e-10) amino acids 6426 to 6488 (63 residues), 30.9 bits, see alignment (E = 1.3e-10) PF16184: Cadherin_3" amino acids 5446 to 5506 (61 residues), 25.9 bits, see alignment (E = 5.2e-09) PF02210: Laminin_G_2" amino acids 6030 to 6135 (106 residues), 38.6 bits, see alignment (E = 9.4e-13) amino acids 7329 to 7430 (102 residues), 34.9 bits, see alignment (E = 1.3e-11) amino acids 7529 to 7639 (111 residues), 27.6 bits, see alignment (E = 2.3e-09) PF17803: Cadherin_4" amino acids 6393 to 6457 (65 residues), 25.5 bits, see alignment (E = 1e-08) amino acids 8892 to 8959 (68 residues), 29.4 bits, see alignment (E = 6.3e-10) PF00054: Laminin_G_1" amino acids 7333 to 7428 (96 residues), 27.3 bits, see alignment (E = 2.4e-09)

Best Hits

Predicted SEED Role

"Alkaline phosphatase (EC 3.1.3.1)" in subsystem Phosphate metabolism (EC 3.1.3.1)

MetaCyc Pathways

KEGG Metabolic Maps

Isozymes

Compare fitness of predicted isozymes for: 3.1.3.1

Use Curated BLAST to search for 3.1.3.1

Sequence Analysis Tools

PaperBLAST (search for papers about homologs of this protein)

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

Compare to protein 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 Q2W1P9 at UniProt or InterPro

Protein Sequence (9595 amino acids)

>AMB_RS17310 tandem-95 repeat protein (Magnetospirillum magneticum AMB-1)
MAPRDERPSNSGGEVGAGAKGVEGSHGGGVKPQPATIIEAAGLSKILVPGGNLLVDAEYV
RQGSDLVLVGADGSRVVIKGYFGSENPPPLLNDSGAVIDAALAGKLAGPLAPGQYAQAGG
GSGATAIGKVETLNGTVSVKHADGTTSELHKGDNVLEGDVLQTAQGSAVGVTFADGTTMS
LGEKGRLVLDHLAYDPGAKTGDAQMSLVSGSFALVSGQIAKASPDAMSLKTPTMTVGIRG
TGVAGNGNTIAMMAEKNGVTGEVSVTSSSGQTMTLNSAGAAAVMSATGTMVAQQMSPLQV
MQVAGNAGAALPNAANSLAAAFNAAAQAVQQQLQQQQQQQVPPPPPITPPATGQQGATAA
DQMKALQEAMVQQVTKQVQGLKEALVGLVKDARDAGIRVAEQVFHDLVNNTAAKEAAAAA
QAQSDFAQVLADRLVVIDHATKAQTAATGGDTYTATYELALAKAALTQLTTDAAKVTADG
SGQGSEALAWVTALTTANDKSSVTPVTDANAKYSTAEALVNGLNDTNAAGWSDGSLITAR
GLKDAALASDTALLPGLKALAEAAITSAHQALLNIETPLVNAASAEAAFTVQAGGLLDVV
TNYLNAAKALITTMPTDWTADQAYSALTAASAAGLTGKVLDLYNALQQADASANPLVVLW
HDAVADIQAGYAAAKADYETAAQALTDARTAYQTAQAASVTAASNYATQQDTVATDSALD
GSAIGAERAGEAAWQAKLEAIASAALTTVNSALTSATSAAGRATADAATALANASATGFN
AASAAKLAADAEVTSALSAQTSAANAVTDALKVLHSLGIGTDGNAWTGVDANVTQGLPSN
FTSALSTNQAAVTAARQSALGTYQQATAVKAQVDQQVAVAQQEDAIAIQAMTQAQALKQQ
LDQANAASVADAQGYAATADASAHTSAKSAADAATAAAASRDAIKAVLDALNAATPPSNV
TGAALATYNATKASLISAVQGYYSTAASAADDATNASATAGAKVGLADTAKAAADLDVDL
TSAKSHSSAAAAAAADASAQATTANAKASTAAAQLLLAANAKATLTLAASEASAAQVRAD
DVAAALAAKTDVHAIVNSSTAATSGTLVDMKTAIEAKYSALVAKLGNVNSTDLGTLYGMW
NAAKAAKDAALADATASPAAQSAYDAALAAYNTINTALGNASTVGTALYAKSQMETIQAA
LATQITNAQTAFAAVDSAYDAAVAAQAAKSSTATALAQAIQADQAAQSALSKVTAASDSA
TTQASGFDKQLQVVKDNIAAALNNAAKADDLAAAADVSAAQTLAAAAATAAADARSHSTD
SSSVVRASTQADYNTVVAKLGSVAAAFDDVIVQVGQGLGLAGSSVLGTPAAVLTALSTVK
ADAVAYQGALQAYASTASAANLASVTSTLAKLNTDLAAAQAAINTANATTNAVGVAASET
FRAEQLVVTAGNSYLQAIQSKNDAAAALSLSQTYNPATQIAYWKSVYDAALQTVLDSKTA
AAAAFATGVAAQAKAAAAGADANNYLTNILPALPHGATDSAGKALAAATQAAAKALSALG
TNADLATANTIYGQKLAVDNAYTAAAGIAFNSADVATAQAAAQAVAAQATNAANASSLVQ
QLTTLVSQVSNTAVAQDNTIHNLGLQYSTPTAVADSVYTQAGAHTFDVLANDKRGGDNTS
LTTLAGYTLTAGTAAHGSVSVVTVGGHQQIQYTATAGYTGKDSFSYTVSYTDATTATTVS
ANAAVSVVVEGAAITVPSSLTILENASASFSLAVSDGNTHETVDQVVISGAPSGSVLKVG
STVITAVGNNFTLTAGQAASATITVIPPTDYSGQIVLTVTATANNTDDGGTILGVDTSKQ
VTLTVTPVTQGATITAPTTLSGLENQAFDLALNVADTHTGEAVSSVSISGFQTGSTVVLS
GQTLTPSASGVLTLTAAQAANATLSVRMPQNWYGDRTLLISATAQNGTAAAVTTNQAVSI
HVDVTALSVADALTVAAGSGHTRVSDTAAHIAAAGIATLQSHGITSFVVTDSGTLPITAV
QGLTLSFSTTGGGHIQVVDTPANVNTATIAALAAHGITEIALSNSGTVSLTSGSGSASLI
GGSGNDTYVAAATASGTLTIIDTAGSNILDGSKVGDAGFKGARQVGNDLVIDLSANAGGG
QLVVKDQYAGTGAGIGSILTGSTHSPSSAVATSLTGGTLTGSIGDDIFAYNAAVTTMVGN
GGEDTFFAGGANQTITGDSLAGGKVSFVYAAGPVTASLVGGVATLTGGTATYTDTLTYIT
ELEGSNFADVLSGAASGQSGLEGGAGSDTLTGGTGFVTASYKHAAAGIIANLSGSSYLGV
AAGKAVDSYYVNGTLTAGTDTLVNIQGVRGSSFADHIKGGDTAAYYDIVGGGGADVLVAG
NSAVNFRVSTTDGATVTGGAGIDSIAFDDFTSGTLNNATAFAHVTGVETLRLSGGSLSQA
VNLDSTGNVASITRVDASGDTGDLLVNAASRTGAVTVASGSGADTLVGGSGNDVLSGGSG
ADTFTGGLGNDIINGGSGADKAIFSGAAADYRISMTNGTVTVVDTNPTLNGNDGTDTLSG
IETLQFSDRSFTLGSGSGQSAGGGLALVGAAGSGISLVDSHTAHVTLEVWVKFNTLPTSG
LPGNVFGRTNAWNNATQMEDTVGGYTYTVAVDPTTHTLISYVAGGGSSTGSQVVQAGQWY
HITQTVDYLGVSQLYVNGVADGAALSVPNNYTDEVNVIFGSAHHTMAPMDSEYGPIAIWD
SARSPTQIQADMASTLVPTTGLVGLWNPATASGGIIPDLSGSNNSAFTSNATVVAPALQA
LNGSALADTLDVGGGFVSINAGDGNDVIKMSAADLAAATTVIGGQGTDRLTLSGIGVISP
TDQAKLSGIEELALTGAGNLGLSLVGGSGLSTIDASTNSGTVSLDASAVSSGVTLLAGTG
TTSMMGGAGTDTISLQMAEGAATFNGSGGSLSITGGGSAYLYGVEQVAFSDAKTVSVDNK
GGYLTLTGGTGADVINVGSGISSVLGGAGNDTLTATGTSSVTTLDGGSGSDTLTGGAGND
IFILSDFSSTDSVNGGAGNDVLRLTFTTTGVVADSAFTNIHGVEVLTLAASGAPLSVAMG
TVSSGAGFSILDALNTDAGVAVDATGRGAPLTVIGGFGADTFTGGSGNDVFDGGFGADQA
RFHGNLDGYRISTGTGGVTVTDINTVGGNDGTDTLSGVETLVFADRTLTLSGTVGALGTF
VPTGAPVTVNTVLPNNQTDAKIALLPDGGYVVTWQGYDGGAGVFAQRFNSAGTPIGSEFA
VNTTINGDQYGQQVAVLSNGSFVILWHSDGQDGSNWGTIGRVFPSTWPTSGTPGAEFVVP
STTVGYQAWPVVTATPNGGFFAAWESDQSGGTALGSNYPFGRMFNADGTPAGAEIRLSSS
HDVWGSGYGMNAAVALPGGDVVVLWTGLSSSDVFGQRISAAGTLLGEFTVNATTSGAQAG
ATMAPLAGGGFVVLWHSQGQDNADGNWGTYGRIFPAGYPASGTAGTEFLVTTVTAGYQAW
PSVVALADGGFLAVWDDDTAVSGTRVIMGRRFDSQGQQTQADFAIGAGAAGGDSHPSATL
LSDGSVEVVWQADDGSGMGVFSQRIALTGYSASTTALNGTVAADTLDVGSGFATIDAGDG
NDIVKMNVVDLSQAATVIGGLGTDKLVLSGTGAASLSKLSGVESVELTGSGAVALSLGAG
SGVSTLDASASTGSLALDASAATGALNVIAGSGATSLLGGVGNDTFTGGSGNDLFNGGTG
TDTAKFHGNAAGYSIRAASGGVVVQDTNTVDGNDGTDSLAGVETLVFADRTLTLSGSSLS
PVATVGTATQVNVMDAGNQAPNAITALADGGYLVSWQSLDQDAVGNWGNIAQRYNAAGNK
VGAEFVVNGTVAGEQWAAQLAQLADGRIVAVWHSNGQAGNPDWGVYGRVFPADYPTSGTP
GTEFLVTANGSVSTTLGYQAWPVVTATSDGGFFVAWQSEYSGTTFLGSHYTFGQRYNAAG
VAVGNQVQLSTVVTGEPLGGLCALADGSVVAVWHSNDANSWGVFGRKIDASGNMSAEFQL
NSFTTGDQSGVSIAALSGGGFVATWHSSGQDGANYGVYGRVYGANGTPLTNAEFQVSNTN
GIWHGYPAVTALPDGGFLAVWEQSAGGAVPHSHWGQRFDASGGKIGTEFQISATGYTGDT
QPQIATLANGDVVVTYVGTGTSGDDVFRQVIDLSYDSVVLTGTSAADTLNVGDGIASVDG
GAGNDIITTTSGGGVTLNGGAGSDTLTGGTGNDTFILSDISSADSVNGGAGKDILSLNFT
SGGVVVDSAFTNVGNVETLMLGVSGSPLSLTMGPLASGSGITTVDAHLSTANVTLSALAD
SAVQTLIGGMANDTLIAGAGGDVLTGNAGADTFVFSAGTVSTQAAPAVITDFATGLDHVD
LSAAGGLAYAPSIAWMGSVENSAAMVSSLGQNVVGFFTDGTDGWLAVGGSTLNGTVIKLA
GVTTAPAQSDITGASSLYVAPAPTVVAETAAVRFSGANNIHTTTNVSTAIDNVTLEAWVK
WDGTNSGGAQFIAYNGNASYSGYGLYVDSASGHLGVMAGSNTVTVSSTAILTAGQWQHVA
LTRSSGVFSVDIDGTSYSFPNGTLGVSQISGNAYPGTTIIGHAGDGGTEGFRGEIADVRL
WNTVRSSAEIAANAHRVITSSDPDWSALAANWTLGQGTGTVATDSSSYARDATLSATGGL
PVWADDRVAMMDQNIEGRLLFSSPLPLTLTVGTGALAPQHGTVLLNTNTGRWVYDPDPAF
TGHDKFVVQADDGHGGITTQTISVAVSNSGVFNQSPVSGGTLLLEGSYGMTLSQSAATTD
PDGDSLSYSIVGGSLTAHGTATVNGSGMVSYTGNTGFGGSETLTLRTSDGFGGTTDRTVV
VHINDAPALTQAGTLTASYDFNALNAGTIGGQDGWVSNRATDNAIATVSSSGAYVGSKAF
TNALIGGNQDVEISRLSGGGFVIPTLVNGGTLTLEYDFTPTYWGSFMRIGADLDGDGNIL
ATSSNHLTTLDANEGAIGVEYNLVNQQAILRLADGSTQVASLNLTGAWERFQIVLDTNAY
GGQGSISLYYKDLTNSGAWTQVTGLQNLNANLLWTGTTAQNASLWNGILYHAEADASMLD
NISVSVSGPPVLKTIVEDVSEAANTGTLVSDLVAGHYVDTSIVAGGMGIAVTNANSTSGK
WQFNLNGGGGWVDIDTNVNSVNALVLAASAKVRFWPHDNFNGNVFLDFRAWDGTDGATSG
TVVNTNVGSSAYSAYSTSQATGTLTITSVQDVPVWQGLMTGTSTVTSFSVANGSMVSGTL
MATDGDISDMLTYSLSGSTRTAHGTVSVTGSSLNYQADTGYVGADTFTVNVDDGQGHVVA
QSFTANMGYDAHGIALALPTLSVAQSGTITLNEAYLNPNPSIQVGDSKLVYTVGSLAHQG
TLMKGTTVLGTGATFTQADVAADIIKFVAAGTTGPDAFNFTLSDGIGGTMTGMNTMSFTV
GVSNTGPTLTVGTAFITSQGSVTSIMGGASGLQGTDTESAFANQLSYIISDLPDYGALVI
NGRVLAVGDAVNASDLNMGGTMGLRYFNDGSTHTSDSFQVQLSDGQTLSALQTVSIAVQP
VNQAPVAGAGSGYALYATGSTASTVTVNDSMGKLAFADAVTLEAWVKPLASETSGQLHAV
VARGTTGGSVEYGLFVKEVSGSPGTFTLAVVVGGAEVTLAGTPATFTGTWHHVAASISSS
GAVTLYLDGASYASGTIATAPLAVTDTGTLGLGASIGTTGNALNGLLDDVRVWHGVRTQA
EIAANMSATLHGYEAGLSGYWRFDGLQTNPVDGSVNGLMSTSGGNVAYTFSERAAPTFTL
NTDGTLSGTLTGSDVEGGALTYALYNTGTISGQPSHGVLTLGTNGAFTYTPDYGFYGTDT
IKYTVSDGSLTSTPAVAKLVVQSPGHAPVLGGLSANNSAVYLNGGTGFAATSSLSSTLGD
FSLEAWINTRDTTTGTRIIIGQGTTATGNVGTTFALALVDGKLTFLSPDTYSGAMWSLQS
ASSYNDGAWHHVAVVREGGVYKLYADNQQIDTVSVGTVSAQPSATDLMIGAMHYGGTGTV
DTNTAFNGQIDDVRVWNVARTGAQIVNGKGLEPTGAETGLVGAWNFNNIAGTEPVSSLNA
NGPSLIPIGNSMPSPTDGQAMHFNGSSSAAVAFGGTIGQGSGPLTFEAWIKTSSATNQTI
VYIGQDGANTGMSLYVAANGKLGIGQSQNGAITLGTANVANGQWHHVAGVVNGNGTVTYY
VDGQLDGTATINAYNLSGPVYLGNSAAPGTAAQNFTGEIADVRVWNTARTSQNILADMAP
VSWNSQAGLIGAWTMSEGQVVNMAGPDATATGNVTASVGPYGSAPVGSDHVSTYAGHAIS
GTVSIFDQEGSGLTLSQTGTAPAHGTLSLGANGAFTYTPTSGYVGSDTFTLQLSDGTSSS
TKSYTVDVANPITVAGATERTSVLFANGTSKAASIYLPGEEFAGGQLSVEFDVNLGNANL
AQTLFSLGVGANAMLKATVSASGELGLYVDRDASGAGFSQFPGVSTITSSSWHHVAVTYD
HGTAKIYLDGSLSATVTDTSGTASVMSSLNTMTLGAELNSSFFTKGMFDNLKIWNTKLSA
DQIEAGDIDGLGTGTGAGLIGHWTFDADHGNGSNNDTNYDAYMQLGSGSHVGTPPLRAAV
FGDTQAVELAGANASTNVTHFTVEAKINWAGTSPGDGGVIFSNGDWGSSGYALLLDNSGR
IVIQGNGVGAAVVQNANHQDILVAANQWTDIALVNDNGAWSVVVDGVRYTHFSDGNGANS
TTSIVPAVNNISGAAHTGETVIGAGFDQTNLSGALASTTHFQGQIAEVRLWNEARGLSEI
GADQNGNLSGHEYGLAGYWKLDEGTGTTAYDLTGLHNGTFSSAATWATTDHADLAVSVKQ
TQAFSFDGSSKYLSAGDVLDPGADDFTLEAWINPTTSLSGTHMIVAKEGAGSTEPGMALY
LSGGVPTLRLNGAVILQAGSVTLDTWSHIAVTRGGDQYTLYINGVAVKSVSALDADISNA
YDLTIGARSDLAGTGLDSSTAFNGQIADVRLWSVERDAQNVHDSMPGNNADHEGLLAAWV
GTDLTDATGNGYDLLLPAGVTNVVQTAASGLNVFNDGVDVARNGQYHGMLVAHDATGATL
SYSATGLTSGSLTAHGTLVVHSDGSFVYTPNTGYEGMDSFTLTATANGVSSSKLVAVRVD
DPTEILGATQHMGQLVLDGSNHAVVTNANQLAYFGGNDFTMEAWIEPTAAALLGHATILS
KQFGDSLGTAQIRLELVGGHLQFVGADSSASPAYTLQASSALAADQWAHVAVTRSGDTIT
LFVNGEAVASGSHTFSNYSLSSNADLWVGQSVSNSVAVNGFEGAISDVRLWSYGRNAHDM
ASSYNQVLDGTESGLVGYWNGAGGATDLSGHGHDFVLPVASGVMPITGATFDGATDYVKT
ASPISLTSHTVSAWIRTTDNAAGLDGGIFSTYSPGATAWAQMAVYDGKLAAEVTTNGTTG
KSYLGTTNIADGQWHYVTYAVDSAANTLKLYVDGVLESTTVQSGWNSSISGLTISAGAQI
GAAHATDNFFTGDIADVQVWNGGLSNTQIVQTMRNEPAGNESNLLAAWNLNEASAAATVI
DAHGALNGTVYGSLTSVSGTISVSSSPAVMAVVPETALHFNGSAAINLGSSVGQGNGPLT
FEAWIRTSDTSQAQMIFTAGTTSTGQGLWIYSGVDGKIHLTTAGDAGPVAGNGVVADGLW
HHVAVTLNNIDATMAAYRIYVDGTLDGTGVIGDYNIAGAVKLATSYSTSTPQFVGDMAEA
RIWTTALSQVQVVSAMNMEQTGAETALGGYWRLDEAPVAAVVQDATIGNHDGSVTGALTV
IHNDAPLYDDVVVAQAGVPYHGTLAAIAPDSSGGVVNWTAGTSPTHGTLVVNTDGTFTYT
PNTGWYGVDSFNVVATGIGDGNTTTKLLSIRTESPVEFVGSGAAGGSLQFDGTGYASSTA
VMLSNKSFSWEFWANKAAGYVNGQTLLSQGTAGSGTDLFVGFDASGNLRFSLDGRSGGTA
VTYPASADTGAWHHWAGTYDAVSNTLTLYRDGVAVGNSAAASDYSGSGNFYVGGTPAAGG
SYVGQLDQVRLFDDVRTPLEIWKNWHRTEELSSDHLIAEWNMDRVYNANSTGVLLDNSSY
GHDLTLAVSTGLNDFSGNGHSLTLPGGGANLATIGGRTAVQLSASTGINVANQSDLATGT
GAFTYAAWIRVGSGVTVRGDIFDNGADGVGQTACFYVENGKLHFDGQSVTGPQSTASVND
GAWHHVAVTYDGAGHAVLYIDGGPDGAATLSQNLNIGAGAAVIGNLNYQWTQMAFNGEIS
DMAVWKSALTQTQIQSAATLGGNEVSTSTLAADWTFGTGAAPVNVNTMGKVADFNGSTSV
IAGGNSKMDYSGDFTLEAWIRPDTATAHQSIVSATSSLGGNTVNLFNLEIANGQLVFSMQ
GNAGSNVASQGLTLSGPSASLGLWSHVAVVVHNDVATLYVNGQSVGTSSAFIGSRLSTWS
NFEIGHDANVSGSYFDGQMSDVRVWKDARTASEISSYMTTRVNGEDDKLVGNWRLDDISG
GFAIDSSGNGSAIVTAVSLTGAKASLFDDAVVTREDTELRAGLFDVDHLNYSQPTWATVA
QGPQHGTLSLVGTTVLGTTTLSAGSVFLTGGSMSAGASGYSYTPDANYFGSDYFVVAIND
GSGNLTYGTVGIGVRSVRDAPAIVGGADFSVVKNGSETLNLQVVDEVGALGGDQYSVALT
VGIGSLSLHTTGGISFTAGSNGSHSMVFTGSLDRINAALMEVVYQSDPASTGENINLTVT
DLSNGSITVSKTMAVTVSPANLAPEITGGDIGESVAGAVYNGMLLATDPEGGQLTFTKTG
NPSHGTATVTDAATGAYTYTGTAGYSGWDSFTWSVGDGVTTTIGGIEHIAVYDHNRTWAG
GASGTWGTAASWNTTLVPDSDARAVIGNATVDHLSGSDSVAGLSLSGATLNLSGGTLALG
LEGRLDGPSQLNVAGGVLSLASGAILSDFGGFDLSTGGSLAGSGYLGISGAAVMSGTVGI
GGNTLAVYNGGAMTSTSLSGTGTMRVQGGSFIMKGADYIGSYLEVAAAAVLYMDSNLTVG
TDSVSASVHLAHAFNNYGDIQMTGGSGFVGTSLMVADALTNHGSIEVGGFNGAGTIAATS
FSNYGEVNVGHALNLVADAFDNHATLTLSNNHMLTVSDTSATSHALIDNLGKIAGSGTIN
ATDADFINHGYINPGDSSSAGTLGVTGSLSLAESSHLVLDYWNGSFDRMNVSGSLTLDGT
LDIYSHGTISGNPTATLLTWGTGGLSGAFEVIHGIDSGTGWIWDPTLNGTSLSVTAHAAT
TVNGNSTYNGGATADYVIGLGQNEMVHLGGGADVYAGHGSYNTIGVSDMNFHFLDGGAGG
GNTLQWENLNNQAFDLTGLWNNAVQNFDVLDLSHANNNNAVLDLAHLQSMLNGTNAVTGT
GNALVVIGGNSVTLAGSGWQANGTAELTVNGQHDSYTQYSNGDTHVYVENHTHVG