Protein Info for MPMX19_05208 in Azospirillum sp. SherDot2

Annotation: hypothetical 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 6514 PF00353: HemolysinCabind" amino acids 14 to 49 (36 residues), 38.4 bits, see alignment (E = 2.9e-13) amino acids 42 to 76 (35 residues), 27.9 bits, see alignment (E = 5.6e-10) amino acids 51 to 85 (35 residues), 29.9 bits, see alignment (E = 1.3e-10) amino acids 77 to 103 (27 residues), 18.2 bits, see alignment (E = 6.2e-07) amino acids 108 to 142 (35 residues), 30.8 bits, see alignment (E = 6.8e-11) amino acids 154 to 189 (36 residues), 16.3 bits, see alignment (E = 2.3e-06) amino acids 197 to 211 (15 residues), 11.7 bits, see alignment (E = 6.4e-05) amino acids 505 to 540 (36 residues), 8.3 bits, see alignment (E = 0.00074) amino acids 525 to 558 (34 residues), 18.2 bits, see alignment (E = 6.2e-07) amino acids 542 to 576 (35 residues), 32.7 bits, see alignment (E = 1.7e-11) amino acids 551 to 585 (35 residues), 34.1 bits, see alignment (E = 6.3e-12) amino acids 560 to 594 (35 residues), 30.5 bits, see alignment (E = 8.7e-11) amino acids 577 to 612 (36 residues), 29.3 bits, see alignment (E = 2.1e-10) amino acids 595 to 630 (36 residues), 24.2 bits, see alignment (E = 7.9e-09) amino acids 604 to 639 (36 residues), 23.4 bits, see alignment (E = 1.4e-08) amino acids 632 to 666 (35 residues), 29.3 bits, see alignment (E = 2e-10) amino acids 640 to 675 (36 residues), 31 bits, see alignment (E = 6.1e-11) amino acids 667 to 701 (35 residues), 25.4 bits, see alignment (E = 3.5e-09) amino acids 707 to 741 (35 residues), 29.6 bits, see alignment (E = 1.6e-10) amino acids 750 to 770 (21 residues), 15.3 bits, see alignment (E = 5e-06) amino acids 763 to 796 (34 residues), 31.6 bits, see alignment (E = 3.9e-11) amino acids 826 to 858 (33 residues), 20.1 bits, see alignment (E = 1.5e-07) amino acids 851 to 884 (34 residues), 26.9 bits, see alignment (E = 1.1e-09) amino acids 915 to 946 (32 residues), 16.9 bits, see alignment (E = 1.6e-06) amino acids 929 to 963 (35 residues), 22.4 bits, see alignment (E = 2.8e-08) amino acids 993 to 1025 (33 residues), 19.6 bits, see alignment (E = 2.2e-07) amino acids 1008 to 1042 (35 residues), 16.3 bits, see alignment (E = 2.4e-06) amino acids 1088 to 1120 (33 residues), 13.5 bits, see alignment (E = 1.8e-05) amino acids 1151 to 1183 (33 residues), 18.7 bits, see alignment (E = 4.1e-07) amino acids 1166 to 1200 (35 residues), 19.8 bits, see alignment (E = 1.9e-07) amino acids 1231 to 1262 (32 residues), 12.9 bits, see alignment (E = 2.8e-05) amino acids 1245 to 1279 (35 residues), 23.8 bits, see alignment (E = 1e-08) amino acids 1309 to 1341 (33 residues), 24.4 bits, see alignment (E = 7.1e-09) amino acids 1324 to 1358 (35 residues), 28.1 bits, see alignment (E = 4.7e-10) amino acids 1389 to 1420 (32 residues), 14.8 bits, see alignment (E = 7.2e-06) amino acids 1403 to 1437 (35 residues), 19.4 bits, see alignment (E = 2.6e-07) amino acids 1467 to 1499 (33 residues), 16.4 bits, see alignment (E = 2.3e-06) amino acids 1491 to 1516 (26 residues), 21.6 bits, see alignment (E = 5.3e-08) amino acids 1552 to 1586 (35 residues), 28.9 bits, see alignment (E = 2.7e-10) amino acids 1616 to 1648 (33 residues), 25.8 bits, see alignment (E = 2.5e-09) amino acids 1631 to 1665 (35 residues), 30.2 bits, see alignment (E = 1e-10) amino acids 1701 to 1736 (36 residues), 22.7 bits, see alignment (E = 2.4e-08) amino acids 1859 to 1892 (34 residues), 12.1 bits, see alignment (E = 4.8e-05) amino acids 1961 to 1975 (15 residues), 7.7 bits, see alignment (E = 0.0011) amino acids 3260 to 3294 (35 residues), 20.7 bits, see alignment (E = 9.8e-08) amino acids 3278 to 3311 (34 residues), 32.3 bits, see alignment (E = 2.3e-11) amino acids 3287 to 3317 (31 residues), 22.4 bits, see alignment (E = 2.9e-08) amino acids 3417 to 3447 (31 residues), 30.7 bits, see alignment (E = 7.4e-11) amino acids 3422 to 3456 (35 residues), 31 bits, see alignment (E = 6.1e-11) amino acids 3466 to 3498 (33 residues), 23.3 bits, see alignment (E = 1.5e-08) amino acids 3500 to 3533 (34 residues), 25.5 bits, see alignment (E = 3.1e-09) amino acids 3646 to 3678 (33 residues), 23.4 bits, see alignment (E = 1.5e-08) amino acids 3689 to 3720 (32 residues), 21.3 bits, see alignment (E = 6.3e-08) amino acids 3713 to 3747 (35 residues), 30.2 bits, see alignment (E = 1.1e-10) amino acids 3749 to 3783 (35 residues), 27.6 bits, see alignment (E = 6.9e-10) amino acids 3776 to 3810 (35 residues), 27.5 bits, see alignment (E = 7.7e-10) amino acids 3785 to 3817 (33 residues), 20.3 bits, see alignment (E = 1.3e-07) amino acids 3908 to 3942 (35 residues), 24.7 bits, see alignment (E = 5.5e-09) amino acids 3944 to 3976 (33 residues), 27.8 bits, see alignment (E = 5.8e-10) amino acids 3971 to 4005 (35 residues), 22.1 bits, see alignment (E = 3.6e-08) amino acids 3979 to 4014 (36 residues), 33.9 bits, see alignment (E = 7.4e-12) amino acids 4007 to 4041 (35 residues), 35 bits, see alignment (E = 3.2e-12) amino acids 4043 to 4077 (35 residues), 11.8 bits, see alignment (E = 6.1e-05) amino acids 4161 to 4191 (31 residues), 29.5 bits, see alignment (E = 1.7e-10) amino acids 4184 to 4218 (35 residues), 32.6 bits, see alignment (E = 1.9e-11) amino acids 4192 to 4227 (36 residues), 29.4 bits, see alignment (E = 1.9e-10) amino acids 4220 to 4254 (35 residues), 36.6 bits, see alignment (E = 1e-12) amino acids 4267 to 4296 (30 residues), 19.1 bits, see alignment (E = 3.1e-07) amino acids 4289 to 4323 (35 residues), 35.7 bits, see alignment (E = 2e-12) amino acids 4325 to 4359 (35 residues), 22.9 bits, see alignment (E = 2.1e-08) amino acids 4452 to 4482 (31 residues), 28 bits, see alignment (E = 5e-10) amino acids 4483 to 4518 (36 residues), 34.3 bits, see alignment (E = 5.7e-12) amino acids 4519 to 4554 (36 residues), 31.1 bits, see alignment (E = 5.7e-11) amino acids 4647 to 4677 (31 residues), 25.1 bits, see alignment (E = 4.2e-09) amino acids 4679 to 4713 (35 residues), 29.8 bits, see alignment (E = 1.4e-10) amino acids 4847 to 4870 (24 residues), 14.9 bits, see alignment (E = 6.4e-06) amino acids 4872 to 4906 (35 residues), 36 bits, see alignment (E = 1.6e-12) amino acids 4915 to 4948 (34 residues), 21.1 bits, see alignment (E = 7.4e-08) amino acids 4922 to 4957 (36 residues), 28.3 bits, see alignment (E = 4.3e-10) amino acids 4949 to 4984 (36 residues), 35.8 bits, see alignment (E = 1.9e-12) amino acids 4967 to 5002 (36 residues), 38.5 bits, see alignment (E = 2.6e-13) amino acids 4976 to 5008 (33 residues), 28.8 bits, see alignment (E = 2.9e-10) amino acids 5005 to 5027 (23 residues), 10.5 bits, see alignment (E = 0.00016) amino acids 5092 to 5127 (36 residues), 30.1 bits, see alignment (E = 1.1e-10) amino acids 5128 to 5163 (36 residues), 30.1 bits, see alignment (E = 1.2e-10) amino acids 5165 to 5199 (35 residues), 32.2 bits, see alignment (E = 2.6e-11) amino acids 5203 to 5225 (23 residues), 11.9 bits, see alignment (E = 5.8e-05) amino acids 5306 to 5340 (35 residues), 25.5 bits, see alignment (E = 3.2e-09) amino acids 5348 to 5379 (32 residues), 29.2 bits, see alignment (E = 2.2e-10) amino acids 5381 to 5415 (35 residues), 37.3 bits, see alignment (E = 6.1e-13) amino acids 5416 to 5451 (36 residues), 27.9 bits, see alignment (E = 5.4e-10) amino acids 5453 to 5486 (34 residues), 25.6 bits, see alignment (E = 2.9e-09) amino acids 5491 to 5510 (20 residues), 13.1 bits, see alignment (E = 2.4e-05) amino acids 5582 to 5610 (29 residues), 22.1 bits, see alignment (E = 3.7e-08) amino acids 5593 to 5628 (36 residues), 36.9 bits, see alignment (E = 8.2e-13) amino acids 5635 to 5667 (33 residues), 25.3 bits, see alignment (E = 3.5e-09) amino acids 5668 to 5702 (35 residues), 23.9 bits, see alignment (E = 9.7e-09) amino acids 5704 to 5739 (36 residues), 34.5 bits, see alignment (E = 4.7e-12) amino acids 5741 to 5774 (34 residues), 34.2 bits, see alignment (E = 6e-12) amino acids 5778 to 5798 (21 residues), 15.2 bits, see alignment (E = 5.1e-06) amino acids 5863 to 5889 (27 residues), 10.3 bits, see alignment (E = 0.00018) amino acids 5891 to 5918 (28 residues), 22.8 bits, see alignment (E = 2.1e-08) amino acids 5924 to 5958 (35 residues), 26.1 bits, see alignment (E = 2e-09) amino acids 5960 to 5994 (35 residues), 23.1 bits, see alignment (E = 1.8e-08) amino acids 5995 to 6027 (33 residues), 26.6 bits, see alignment (E = 1.4e-09) amino acids 6373 to 6400 (28 residues), 21 bits, see alignment (E = 7.8e-08) PF17963: Big_9" amino acids 278 to 359 (82 residues), 64 bits, see alignment (E = 5.1e-21) PF17803: Cadherin_4" amino acids 279 to 338 (60 residues), 43.9 bits, see alignment (E = 8.4e-15) PF17892: Cadherin_5" amino acids 283 to 370 (88 residues), 50.2 bits, see alignment (E = 5.7e-17) PF06594: HCBP_related" amino acids 1926 to 1958 (33 residues), 22.1 bits, see alignment (E = 3.5e-08) amino acids 2014 to 2057 (44 residues), 28.4 bits, see alignment (E = 3.9e-10) amino acids 2205 to 2243 (39 residues), 28.1 bits, see alignment (E = 4.8e-10) amino acids 3213 to 3250 (38 residues), 21.8 bits, see alignment (E = 4.4e-08) amino acids 3351 to 3393 (43 residues), 21.7 bits, see alignment (E = 4.9e-08) amino acids 6436 to 6472 (37 residues), 28.5 bits, see alignment (E = 3.7e-10)

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)

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

Find the best match in UniProt

Protein Sequence (6514 amino acids)

>MPMX19_05208 hypothetical protein (Azospirillum sp. SherDot2)
MTSTVTTDSDDLLTGDWRADTLSGGAGNDTLIGGDGNDWLDGGAGNDVISGGTGNDLIRG
GDGADSIDGGENDDSIDGGSGNDTIVGGGGRDVVTAGDGDDLVTDGAGVWSDDRFDGGAG
NDTLEGGYGSDTLIGGAGNDRLTVGDDYSGDYLDGGDGDDTLTGGMGADRLADGAGTDLV
RAGGGDDLLDHVLSDQAGNDTLDGGAGYDRLRVALTAGQVTAAVAADLVQLADFIRRHGD
DGQSFTGQAIRLVANNWNALEVTVDGRTVAVADLAGMVVAAPNRAPAAADQALSGTEDMP
VTGSVGAVDPDGDALTYGVGAGPGHGRLVLEADGRFTYRPDADYAGTDSFRIDVADGRGG
VTSQTVTVTLAGVNDAPSGVMLDGVAVAEHASAGTVVGTAHGSDPDGDTLTYSLTDDAGG
RFAIDVATGVLSVAAGAEFDYAQAPAHAVTVRVTDAGGLSTDRVFHIGVTAVRNDGAADI
DGLSPADEQAFEAGEAQVGGNDALTGDWRAETLDGGAGNDTLGSGGGGGTLLGGAGDDLL
NGDWGEDSLRGGSGADTLRGGSQSDRLFGGSGNDLLDGGSEDDTLDGGTGNDSLDGGSGA
DLLYGGMGDDLLDGGTDANRLYGGSGNDTLLGGDVSDTLDGGSGDDVISGGTGADVISGG
AGNDSIDGGENDDSIEGGSGNDTIIGGGGRDIVLAGDGDDLVSDGDGVWSDDRFDGGAGN
DTLDGGLGSDTLIGGAGNDRLAVGADYTGDYLDGGDGDDTLVGGLGADTLLGGAGNDVLK
GGGGNDVLDGGDGIDIADYSAATGAISIDLATGEVHHGGWMADRVSGIETILAGGGADTL
AGDGGDNSLSGGAGDDSLSGGAGDDLLDGGSGADRLDGGDGIDTATYAASGAGVTVDLAA
GTGAGGDAEGDRLTGIETVVGSAHDDRLTGDAAANRLEGGDGDDLLAGAGGADTLIGGEG
TDTADYSTSEAGVTVDLAAGIGLGGDAEGDVLSGVENLTGSARDDRLTGDGGANVLDGGV
GDDTLAGAGGDDSLIGGDGIDTADYSASAAGVSVDLAAGTAAGGDAEGDVLSDIENLTGS
DHDDLLVGDANGNLLDGRGGNDTLIGLGGADTLIGGDGVDLADYSASADGVTVDLSSGTG
IGGDADGDRLSGIENLTGSAFGDRLTGDAGANRLDGAGGNDTLIGLGGADTLIGGDGIDL
ADYSASDAGVAVDLSSGVGLGGDAEGDVLSGIENLTGSGHDDRLTGDGGANLLDGGTGDD
LLAGGAGADTLLGGEGTDTADYAASAGGVAVDLAAGTGAGGDAEGDLLSGIENVIGSAGA
DRLTGDAGANRLDGGAGDDWLSGGAGADTLTGGDGIDSADYAASADGVAVTLTGGSGSGG
DAEGDVLSGIENLSGSDHDDRLTGDATANRLDGRGGNDTLVGLGGADTLIGGDGIDTAEY
LASATAVSVSLASGTGSGGDAQGDRLSGIENLTGSAFGDRLTGDGGANVLDGAGGNDTLV
GGAGSDTLIGGAGSDTADYSASGAAVTVDLSAGTGLGGTAEGDVLIGVENLFGSTRADLL
TGDAQDNILRGGAGADTLIGGAGSDTADYTGSAVGVTVSLADGTATGGDATGDVLSGIEN
LTGSAAADQLTGDAGANRLRGGSGNDTLIGGIGADSLSGGAGIDTADYSASDAAVSVNLA
TGIGRGGHAEGDRLDGVENLIGTGGADSLTGDAAANYLDGRGGADSLSGGAGDDTLRVLD
DGFASIDGGSGFDTLRFEGERLVVTGADAGGVHGVEMIDLGHPGRQTLILNEQGIVADTG
GAPLYVTGDRNDLVTFKESGWRRGGSQTVGSVLYNLYSRGPTTVYVQDGVRMFGDLVVTG
TAGDDVLTAPSGAGHVVVFGEGGNDTVRLGSGFRHEIAHLVRIDDDLHVLFDAQGGPAGE
DGYARDRITIMGHFAPNGAAGAGDGSVRQIQFADGVVWPVWGDDLLLGSTGDDTIALEPG
FASHSLHADAGVNVIRFGADVSADDLRLSRKGDDLEIRIAGTDRSILLFNHFSAEALAGA
GNGGVEAIELADGSRWRVRGNDIRIGSSGDDRMVFGLDGGQTILYGSAGADTIAFASNID
PDRMRLTREGDDLRISYDGSGASWLIKQQFDGNADGYRTIRFGDGTEWSIDNTRLIVGTA
ADERVEVAAGLGERVLATGGGHDGLVLGAGILPSQVALRRDGDKLVIQIGNADDRVVLLN
HFNDAGAGNGVLRSLTFADGTVWPLDGGAGFRMGGDTADVFAFKPGDGAVTLFAGKGIDT
LNVASTIGADRLGFTRQGDDLVISVKGSTDKVTVLNHFASGWGASLLENVYAGGRFWNLS
DPALLIGGAGDDSYTLTVGGGAKSILPGGGNDQIVIGPGIDKASVTMQRVGDDLVIGLRT
LPDKLTVLNHFSGGASGGVHTLRFIDGDTWNIWGASIMVGTSATDTFTAAPGIGHVSLYP
GGGSDRLRLGTGFDSLDTLVRRVGDDLEIVMRDGSDTVKVLNHFLNNEARDIAFADGKIW
TVGGPGARIGTDGADRFLLSPGSGAVVVYGGGGQGGGDRIEVAPGIDPSTVRLTRVGNDL
RVTAGADSMTIVNQFATGGVVAIPEIVFSNGVVWPIIGTNIFISGGGAETIPAGPMYIYP
GASGQHLAIDADPGKTRIVRVGNDLHLTIVGQPNEMIIVNHFAMNGIGDLVFNNGTTWNI
QGGKVLIGGTGHDQFVIQRGMGDVIVYPDSAGDDSLRFVDTVDGSKIRVARIGDNLRITI
DGTADALTIVNHFAGTPMDSLTRPDGSVLPLTGDNLLIGGQGGTVFLVGPDSGSKTIYAE
GGDRVVFEDIDSTEVRLIRTGSDLQVFIDRTQQVVTVLNYFGGVGQLDFSDGRVFDLNSP
YTLIGGGGGDRFTIGKTGPAIQFIHAGGGGSQIVFGPDVSPGDVTLRQDGVDLVVAFIGS
GRVVRVVNHFTAPTDGLARGLDAITFSGGLTLNLQGDSVMFGEQGTDDFTILPGQGQRYL
FPGGGSDRLYFGPGIDPALVRMERDGVNLHIFTDDGSVDLTVVNHFGPTGLAGSGSGLST
VRYDDGQSWAVAGNGILIGSRGNNSFSVGSGSGPVTIHPAGGDNRLVFGAGIPPANLRLV
REHDDLRIVSADGTINVLVVNHFLNQLDEINFAAGVPWVLGAGNVFIGGDGPSVFRFGSI
DTDLIVFPGSGDTVGLPDGLDWKDVVLTRSGGDLIVQVRATGRQIRIVNHFSASDGTSGL
AGLIFSDGTTMPLGELAMLGGTGGDLLTGAATDDLLLGQDGDDRLSGGGGNDTLIGGIGN
DTLDGGAGNDVYVYRIGDGRDYILDSAGFDRIEFGPGIGRGDLYFARFGNDLYIRFRGRP
TDEIVVTGRFNGAGDGTSYVERLAFADGTSFDLTRTDIALETVATAAAEYLQGYTVGDRI
EGTAGNDTILGYAGNDTLIGGTGSDSIDGGTGDDLIDGRDDPGTDGASDVIQGRDGNDTV
LGGGGSDIIFGGTGDDSLSGGGGNDSIDGEDGDDTIDGGTGADSIRGGGGNDVYVYRIGD
GRDTIIDAAGLDRIEFGPGIGRGDLYFARFGNDLHIRFRGRSTDEIVVTGRFNGAGDGAS
FVERLAFADGTGFDLTRTDIALETDATNASEYLQGYNVGDWINSRGGDDTIFGYGGDDTL
IGDTGWEVMYGGDGNDLIDSRGDSGTDGRFDRSYGEAGNDTILGGGGSDALSGGTGDDSI
EGGGGNDSIYGDEGTDTLSGGDGADFLSGGDGNDGLSGGAGADTLDGGAGNDLLEGGDGD
DSLLAGDGDDTLIGGGGTDRLFTGAGDDTIRFDGGRETITNEAGADTLEIGGGLTRAHMY
YARFGNDLYLRFRNRSDEVVLTGRFDKAGDGASYVQTVLFANGDRADLSDPALVLETVAN
EFNETLEGYNANDTISGLGGTDTILGYGGDDLLDGGAGNDVLLGGTGNDRLLGGAGADRL
EGGDGDDTLEGGDDADLHYGGAGNDLIVGGAGTDYMEGGEGDDHLSGDAGNDTLYGDAGN
DSLQGGDGDDFLSGGDGADTLEGGTGTNTILTGLGDDVIRHADGRDTITNEGGNDVLEIR
SGLRREDLYYARFGNDLYLRFRGAADEIVLKNRFNGAGDGASYVQTLLFADGQRADLTDP
TLTLETLATAGSEKLEGYNVGDLIQGVGGNDTIYGYGGNDTLEGGAGNDQLYGGSGDDTL
IGGAGDDRLNGDDGDDLLQGGDGNDSLTGGAGADTLIGGAGADQIYGGDGNDLIDNRDDI
GSGASLNVAYGEAGNDTILGGDAAETFSGGDGNDRLEGNAGNDWLEGNAGNDSLSGGTGD
DSIQGGDGADTLEGGAGVNTILTGLGDDVIRHAGGRDTITNEGGSDVLEIRSGLRREDVY
YARFGNDLYLRFRGAADEIVLKNRFNGAGDGASYVQTLLFADGQRADLTDPTLTLETLAT
AGSEKLEGYNVGDLIQGVEGNDSIYGYGGNDTLDGGTGNDQLYGGSGDDTLSGGAGADRL
EGGDGLDTLDGGEGDDTLYGDAGDDTLIGGAGNNTLYGGTGNNVIRFDGGQDIVYNTGGT
DVIELDASFDKTALYFSRFGNDLYVRFTGRTDQIVVKDRFNGAADGAAYAQTLRFADGSL
EDLTRQDLAIQTTGGAGSEKLEGYNVGDSIDGQAGNDTIYGYGGNDTLTGGADNDDLRGG
AGADRLDGGTGNDFAYGGSGDDTVAGGDGEDRLWGDAVSTTGNEAITIRIRAQTYGLLSS
VLRVWLDNSVVAETTVTAVGVYNHIDYGQWQDVVFTVRDRDSASSLRLETVATFPYSGTT
FIGLWFAGAEINGTPVPSVPGAQIKFGQSASFGVSTVLPAYSADEPTGDDSLTGGAGNDA
LGGGQGDDRLSGDSGNDTILGGAGNDTILGGSGSDEMHGGAGDDLIDNRDDPSAGGINDA
SYGGSGNDTVYGGGGVDVAYGGAGDDLIDGGGGTDYLYGEDGADSIFGGAGADYLYGQAG
NDTLDGGAGNDTIDGGAGDDVIRFTSGDGVDSITGGGGNDVLLLGAGLSRERMYLSRIGT
DLHLNFRDTGDRIVLAGRFSGEGDGANFVQTVTFADGSTVHLSAQTIVMETYGQSTAETI
YGYRANDTIDGAGGNDTLYGYAGDDMLIGGDGNDALYGGTGADRLDGGAGADSLEGGEGD
DSLSGGADNDTLNGGAGNDTLNGGTGANTIDGGAGNDSIVYEGGADTVTGGGGTDELVFG
EGYDQAGLRLERFGKDLHLVFDDLGKRIVVANRFNGNGEGANYVQTLRFADGGTVDLSRT
DLFIATRDSDVGHVLEGYNAGDVIRGNGGTDAIYGYGGNDTLYGGTGADALYGGDGDDLI
DSRDDTASGDSAYGEAGNDTLYGGAANDALYGGDGNDLIEGNAGNDFIRGDAGRDSLHGG
AGVDTVYGGADNDTLYGDDGNDLLYGDAGEDSLLGGSGSDTLYGGASADILSGGDDADSL
YGEDGNDTLAGGAGANWIVTGAGDDLVLYQGGADTVTGGGGNDTLSFGEGYSSDDLGFER
YGNDLHVRFNGKTNRIVVANRFSGAGNGANYLQTLLFADGRTVDLSNPGLIIDTWDDAAA
RTLEGYAASDTIHGGGGSDTIYGYGGDDSLYGGAGSDQVFGGAGNDLLDNSDDMSGNDTL
SGDDGDDTLRGGAGGETLYGAAGDDLLDGGAGNDALSGGDGADTLSGGTGNDALAGNNGA
DELYGGDGIDTLNGGAGNDFLYGEAGDDSIQGGDGDDVIQGGAGNDLLYGEAGNDTIQGG
DGDDNIDGGAGDDLVIYGGGRDTIIGGAGNDTLLFGEGFAADQLQIKRLDNNLVLSFRDR
PEQVVISNRFSGGGDGSNYLETVRFQDGTEVRLSDPALRLEFSGGTGNDALFGYANGDLL
DGRGGNDVLAGYAGNDTLIGGTGRDELHGGDGDDLLDSRADVVGSGDFDVAYGEGGNDTL
LGGGGNDSLSGGEGNDSLSGGDGSDALSGGNGNDTMDGGAGADVLAGDDDDDLLTGGAGA
DTLVGGNGRDVLEGGDGNDSLIGDAGAGGAYDMFEPATTAFTQNYTRSLGWSIDGYTPRL
LGDVNGDGRADVVGFSGTTVQVSLGQGDGTFGPTLQAYNGSFTESYGWRLQSENVRQLAD
VNGDGRADIVGFGKNEVLIALGQADGTFAQAKTALSGIFTNNSGWTSAEQYPRLLGDVNG
DGRADIVGFSGGAVLTALGQADGTFGSAQVAYQGGFTTGTGWPQEFYNPRQLGDVDGDGM
TDIIGFGDNRVYVARGRADGTFAPAIVANDGSFSRYAGDYPNGNDYPRQVADINGDGRAD
IVGFHVSGYYVSLGQADGTFSRVFRGRNEFGHDNWNAYSTMPRELADVDGNGSADIVGFG
SYSVMVARSVLNDDTLSGGAGDDTLVGGLGSDVYRFGRGDGRDRIVENSGDIDRDRLVFD
AGIDAHQLWFTKSGTDLEVQVVGTADKVTVAGWYSGAEHHMDSIETADGSVLLDSMVDRL
VQAMAGFAPPAAGTMSIDPDAFPQVETAITAAWR