Protein Info for IAI47_06490 in Pantoea sp. MT58

Annotation: Ig-like domain-containing 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 5899 transmembrane" amino acids 5617 to 5632 (16 residues), see Phobius details amino acids 5649 to 5669 (21 residues), see Phobius details PF19077: Big_13" amino acids 514 to 595 (82 residues), 28.4 bits, see alignment (E = 5.9e-10) amino acids 1364 to 1432 (69 residues), 31.8 bits, see alignment (E = 5.2e-11) amino acids 1471 to 1530 (60 residues), 30.7 bits, see alignment (E = 1.1e-10) amino acids 1558 to 1627 (70 residues), 32.8 bits, see alignment (E = 2.6e-11) amino acids 2049 to 2120 (72 residues), 34.3 bits, see alignment (E = 8.6e-12) amino acids 2143 to 2217 (75 residues), 32.2 bits, see alignment (E = 4e-11) amino acids 2243 to 2313 (71 residues), 30.7 bits, see alignment (E = 1.2e-10) amino acids 2651 to 2719 (69 residues), 27.2 bits, see alignment (E = 1.4e-09) amino acids 2731 to 2815 (85 residues), 29.9 bits, see alignment (E = 2e-10) amino acids 2839 to 2916 (78 residues), 31.5 bits, see alignment (E = 6.5e-11) amino acids 3051 to 3118 (68 residues), 29.8 bits, see alignment (E = 2.2e-10) amino acids 3146 to 3216 (71 residues), 29.6 bits, see alignment (E = 2.5e-10) amino acids 3245 to 3317 (73 residues), 29.3 bits, see alignment (E = 3e-10) amino acids 3653 to 3723 (71 residues), 35.3 bits, see alignment (E = 4.3e-12) amino acids 4067 to 4132 (66 residues), 29.9 bits, see alignment (E = 2e-10) amino acids 4170 to 4239 (70 residues), 28.1 bits, see alignment (E = 7.4e-10) amino acids 4272 to 4339 (68 residues), 28.9 bits, see alignment (E = 4e-10) amino acids 4570 to 4642 (73 residues), 34.4 bits, see alignment (E = 7.9e-12) amino acids 5470 to 5545 (76 residues), 32.7 bits, see alignment (E = 2.7e-11) PF17936: Big_6" amino acids 4373 to 4431 (59 residues), 28.7 bits, see alignment (E = 4e-10)

Best Hits

Predicted SEED Role

"T1SS secreted agglutinin RTX"

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 (5899 amino acids)

>IAI47_06490 Ig-like domain-containing protein (Pantoea sp. MT58)
MAELTQSRVDIISRENGTLLSQTTGGSSQSINLTEPSVVRISGTRDMVTQFERQGNDLVL
KMRDGSTVRYQKFFLDDADGQHSELVFDDGVNPPEHALFPQTAEGAELASRSITPTYESL
DSVEPLLLADNANTSMGVITAGGLGVLGLAGLAVGIGGGGGGGGGNGGGNAGGTDPGTPV
TPGTPAITLNAFAGDNVLDNAEKTTDQALSGTTSNVEAGQIVTVTLGGQTYNTTVGTDGS
WSVTIPAAALAGLPAGTTTIDVSVSNAVGTGATGSLPVTVAAADPGTPATPVISLNPFAG
DNLLDNSEKTTPQTLSGSTSNVEAGQVVTVTLGGQSYSSSVAADGSWSITVPVDALSALA
TGNATLTATVTNQAGTAASGSLTFNVEPPLTEPGTPVITINQFAGDDVLSNSEKATDQLL
SGSTSNVEAGQVVTITLGNQTFSAVVDAQGNWSVTLSPAALNALNAGSLAISAVVTNQAG
IEASENRAISVDTPVVTGPPAVTVDEFTGDNQLSNAEKTTDQTVTGSTSNIEPGQVVTVT
LGGQTYSGSVDAQGNWSITLPSAALSALAAGETTLTVSVSNAAGNTVTSSLPISVEAPVT
QPGEPTVTINEFAGDDILSNDEKGTAQTLSGTTTNVEAGQTVTITFGGQTYAGIVDGSGN
WSVTVPAGALGNLPAGSNVISATVSNVDGVSAGETRDISVEAPVTEPGVPALTLNEFAGD
NDLSNAEKASDQPVSGTVTNVEAGQIVTVTLGGQTYSASVQGDGSWSVTVPSAALNALAA
GTTTLTASVSNAAGDTATTSESITVEAPATQPGEATVTINAFAGDDILSNSEKATDQLLS
GTTTNIAEGQQVTITLNGETFTATVGADGNWSVSIPASSLAALAAGSTTLNATVTDTLGA
AVSETRDFLVASAGTSPNAPTLTVNAFAEDNILSNDEKLEAQAVSGSTTNIEAGQIVTVT
LGGERYSGTVNPDGSWNIAIPADALGALAAGSASLVVTVSNAAGTSVGDTLPITVEPPVT
EPGQPTLIINQFAGDDVLSNDEKTSDQLLSGSSTNVEVGQIVTVTLGDQTYSATVGADGS
WSLNVPASALAALAAGSATIAATVSSQAGIIASEDRAIVVDTPAQPETPTVAIALFAGDD
LVDNSEKALDQTLSGTTSNVEAGQTVTISLGGQNYSATVNPDGSWSTQIPSAALSALAAG
STAIAVSVTTVAGAVATDTRDINVAPAAGEPGIVSINEPVSADGFLNLQELSSDLIISGS
AVGVNPGQTVQLNFNGGNYSAVVSSNGVWSVTVPASALTDITDGVKQISVTTVDASNTLL
TASAPLNVVASALPQITLNESAITDGILNRTDADSDLLIGGSTGKAVAGQQVEVELNGKT
YSTTVNADGSWSLPVPASDLALLAQGANSLIITAIDEAGNRADQTVNFSVDTLPPTLIVA
EVAGGDGILNSSEVTAGVPVSGSGALPGERVSVSLNNQSYSATVDEQGNWTVDLPPAALQ
ALSDGSSYTLTVTLTDASGNIATQTQPLLVNTQLPVAAVTAPGGDGVLTSNELTQPLLIS
GTGTTGDTVTVGLNGKTYNAVVDENGTWSASVPVADLGPLTNQTYPVTVTVTDPAGNSSS
QDTSLRVATSVPALTINDLTNDGAINNSDAQQPLIVSGTGDEGDIIRVTLNNVTYSAVVA
QGGNWSVNIPASDLANVPNGTQTVTVVATDADGNTTQTGSPLIFATTPPLLEVSTPGSDG
YINIAEHTQDLTLDGRGGAQGDTVTVTFNNETYTATVDTNGAWSVTVPAAIVSQLGDEIY
PINVAISDAYGNTTTQLTSVTVLAATSPALTIDPVTSDNQVDSAEQLSDILVTGNVTGVP
AGSPVLLTINGQSYDGEVLANGSWSVTLPAGSLGGLGEKTFTVAITDQAGNPALPAEGQF
SVVILPEPSLSISPISGDNALNGLEAQSDLTVSGGSANLPANSPISVTLEPNGTVYTTTT
DINGSWTLTVPAADLANLPQGNTTVTVSSGDVQINQPLLVATTPLADPEINTPFTDGILN
TDEASVAQTLTGSVQPGQAVSVTLGGISYPATVAANGEWRVTLPPDALQALPQGSNPVTV
TVSDVAGNSTSISEPLIVDTGLPALTVNPIAIDGIINATETTTDLNLSGTVAPGGSVSLV
LNNQTYEAVVAADGSWTATVPAASLQLLPEGRYDLNVTVTTLSGNVATTPFPVTVDTTPP
DFSFDTPAGDGVLNIAEQANGFSFSGAGTEGDSVSVTLNGVTYTGTVEAGGNWTLAVPPA
ALAGLTNGISYPVVITVTDEAGNSNSQNSALTVATTPPPLVVAPISGDNALNTGELAEPL
VVSGSGQNGDIVTVQLNDQIYSTTVGVNGQWTLQIASEALAALPSGSNLVTVTETSANGN
QSSQVIDLNVATSPEIQPALTIDSSTFAGDGIVTAAEQLQPITVRGSSSNVEAGQQVIIS
LNGTEYSGVVAASGNWSIILPAGALAELGEGNQTLNVSVINVVGNTASSPLNFSVDNTLP
SIALAPISDDNYLNAQEVNGAIVVSGSTSGLPDGSIVTVVANGTPVSVTVAAEGSWSLTL
PAGTFTGTADGPQIITVTASDANGTELATSDATLTVVASALPVATPGVAFNDGILNGEEA
SAGGVITGSTGVTGDGQTVVVTLGGSNYSGTVDATGNWQVAVPADILAALPQGNAPYTVV
VSDVAGNTSQANGNIVVDTVPPVLNFITPSDGIINAAESQQPLTLTGSSEANALIVASFN
GTTLSTTADVNGSWSLALPATVYTGLGNGSYPLTVTASDAAGNATTTSRDLALKVEPGTL
PTLTLDAFAGNNVVDGAERLTDQRLSGTTTNVEAGQLVTVNIEGTVYSATVQASGAWSLT
VPAGALAAINDGSASFTVAVSDVAGNTTSRDLNFDVNSNASGLAMDAISQDNYLNAQELG
QSLIVTGTSVNVPEGSTVTLLFNNISYTAQVSATGRWSAIVPAEALTALADGPYTVTVTA
TDSGGSTLSSEATLNVLATTLPAPQILSAFGDGVLNSSEIATAQTLGGTTGVTGDGQRVS
VQLNGVTYNGTVDSNGNWQINVPATALADLPEDVISYTVTVQDAAGNTGSTPGSVTVDLT
PPTLTLNAVAGDNSVNIAESLAPIVLSGSSNAEAGQQVTITLNNQLWTTTVTQEGDWSLT
LPAGSLAGIQAGAYILTVTVSDAAGNPVTETREITVATGALSVSINTPFGDGYLNLAEQG
VGQTLTGSTGVPGDGQTVTVTLGGNDYPATVDAQGNWILNLTPAQVQTLDEGINTLVVNA
SDAAGNSGLLTSAVTVDLTPPVLSVNPIGGDNIINSLEVLEAVAISGSATVADAGQTVTV
SFQNVDYTTLVLSDGTWQVTLPASVVQGLADNTYPVIVSMTDAAGNPAVAVQTTLTRDAD
SLNLPTLTLGTLSEDNFLNQAESQQDLSIGGTSTNLAEGQLVAVTLNGLQYSGTVTANGS
WAVTVPAAALGNLPDGDQLVQVVATDASGNPASASGSLVVLASAQVQPTLTMNVVAGDDV
INATESTAEVAVSGSSTLLAAGTVLTVSLSGTDYTTTTLLDANGNWTVNVPSAAFADVVP
GSSQTFTVSATDVAGNPAIATKEVDFITTRPVLTDITVSAGDTLNLSESLQDLTISGTTT
GAIPVTVTLNNVSYTATADADGNWTITVPTADVQQLADGPNAIIVSVTDAAGNITTDTTT
SLDVAFNTLPALTLNTPFGDSLLSLAETEGPITLSGDSTNLPEGSVVNIALGGLTFSTTT
DVSGSWTLNLASGALTGLDDGLTQVVVTAVDAAGNLAQATAGVEILQTPPVSADFAVTQF
GDNVINISEAASVQQVTGTSTVVAGQTLSVTAGDDAIPLSVTVDASGNWTASLTPEVIAS
LGSGEHTLTLTTTDRAGNTTEATKTFISAITPIADPSLDTPFIDGRINAAEAAAGGSLTG
AVNVDNAAGVTVTLNGTVYSATLSQDGSRWSLDLPPAVLQPLPDGNWPVTVTVTDVNGNT
GSFGGTVLVAINSLPDVSLNLPFGDGALNAAEAGTEQILTGTTGISGAGQTVSVLISGFN
NDQPLAATVQTDGSWSLALSPAQLATFTSGTHTITVTATDIAGNSDNTALNVVTEVAVPV
PGFNPGAFGGDNLLNISEASAGVTLTGTTGSVGANQAVSITVDVNGSRYSGSVDGDGNWT
VDIPPDALSSLGSGPQTLTVNVVDAAGNSASAQLPFTADLTAPQPAVNPEFLGSYVNSSD
VAAGITLSGTTGEVGANQTVGLTLDGTTYTATVDANGNWTVPLTQAQLSALPDATYPVSV
TATDAAGNSTTITSSLVLDKTPPVLSFTDFTGDNVVNYAESIQPQILSGTTTGAETGAVV
TVSLNTNILGTAIVDGNGNWSVTLTPEQMATFTPSTTLTLAVTDLAGNTATVPVSLTVDL
TPPPGPLVTLDTVSGDNIISTQDVAGGVAVSGTSANLGANGSVEVVINGVPYTTTLDASG
NWSTGALPVTAFGNADGSVGITVTGTDGTTPVTTSGNVLIDLTAPTLSINTFAGDNQVNG
NESTLSQAITGTADIAEAGRTVVVTFNGQTYNAVVQSNGTWSATVPASAMQALTDGTTPI
TAQLTDAAGNVGTATQTVTVDTAAPLVLVDAFLGDNVVNAADLVLGQVLTGSAQGAEGQT
ISLYLGDASPIATATVGADGRWSIDLAPNVLSSLNDGALVFGVRVNDLAGNQTDATLTVN
KVVNSALTLVVDSVFGDGTLSALDTTVAQTISGTALSAGVGATVSVVLGGTTLSASVGQD
GKWAIVVPPSVLGLLTDGQLDIDVTLTDAAGNTRTVGETATAIVDAVPVVGPLTGLFGGD
NLLNIAEAAAGQLVGGVISNAAAGSQVTVTFGSKTYSTTVQAGGRWSVNLPGSDLTSLLD
GNLTLGVSVRDAVGNVASNSASIGIFTQTPSISLTSLFGDGVLNLADIATGQVISGVVNN
VAQGSVVTLSVGNSQLSATVGAGGAFSTTVTPDILGTLAQGNVTVGASVTDAAGNTASTS
AGVRVDTLLPTITVNPLFGDGLLNVADALSTQIISGVVGGAETGSRVVVSVGAQQFVTAT
DANGNFTVSLTPALLQGIADGNLTVGFSVTDSAGNTTSTTAGALVGIHNLPKVTLNPLFG
DGVLNLAESLVTQTISGTVSGLAAGSSVRLAIGNTNVTAQVNADGTFSTAVSPAVLSTLL
NGNFTVSASVTDTVGNVSSTSAGVSLGLVQPTLTVNTVFGDGVLSALDLASSQTLSGTSS
LSAGSVVSATLNGQTYTTKVVSGGNWSISVPKADLALITDGIKTVTVTGTDAYGNVVNSS
GTLNAISQSTPVVAITSLFGDGALSAVDVKTAQTISGTASNAEGSVVRVTLGGQTYSTTV
SSNGNWSLSVPAANLAAIADGLQTVTASVINGAGTSGSTSASLGVVSHTTPTVSVNSFFG
GDGYLNISEANAPETIRGTSTNAAGGTVTVNVAGNILTTTIGANGAWSISVPSATLKGIP
DGSHPLTVTVADIGGNTATSTSSFTALSHNQPLVGVDPVLSIVGSLLSGLVVQGGSLNAA
QGSKVSVTLLLANGNNGPTLNTTTDALGRYAVNFSPSLLSVGGLLLSLSTLAKVSITDAA
GNSYTTTNTLLLGAVLPVTLAASESLALFSIADDSATVASASTETQHNTSTSSDDNSAHV
AVTSTLITEADTVTPVSSETATASDTAVAAAPAEEAGYTIGGVVITLADGTTAEGASVTG
SSGADTVTVSDLNFTHIDGGAGTDTLVLNGEYLSLDLTALGLKVEHIEVLDLGKTGTNSV
KLDLNEALNITDKQSDDLMIKGADGSQVTLANSNGGIWEVTGERTVEGRVFEIYHNSALT
SENTLGDVLVQQNLQVHVV