Protein Info for Shewana3_0382 in Shewanella sp. ANA-3

Annotation: putative outer membrane adhesin like proteiin (RefSeq)

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 5839 PF18200: Big_11" amino acids 187 to 268 (82 residues), 52.4 bits, see alignment (E = 1.2e-17) amino acids 287 to 369 (83 residues), 55.6 bits, see alignment (E = 1.3e-18) amino acids 389 to 470 (82 residues), 56.5 bits, see alignment (E = 6.5e-19) amino acids 490 to 571 (82 residues), 57.4 bits, see alignment (E = 3.4e-19) PF19077: Big_13" amino acids 690 to 771 (82 residues), 31.1 bits, see alignment (E = 8.6e-11) amino acids 786 to 879 (94 residues), 53.1 bits, see alignment (E = 1.2e-17) amino acids 895 to 988 (94 residues), 51.9 bits, see alignment (E = 2.9e-17) amino acids 1002 to 1096 (95 residues), 51.7 bits, see alignment (E = 3.3e-17) amino acids 1112 to 1205 (94 residues), 53.1 bits, see alignment (E = 1.2e-17) amino acids 1221 to 1314 (94 residues), 53.1 bits, see alignment (E = 1.2e-17) amino acids 1330 to 1423 (94 residues), 53.1 bits, see alignment (E = 1.2e-17) amino acids 1439 to 1532 (94 residues), 53.7 bits, see alignment (E = 7.9e-18) amino acids 1548 to 1641 (94 residues), 53.1 bits, see alignment (E = 1.2e-17) PF00353: HemolysinCabind" amino acids 4991 to 5009 (19 residues), 10.2 bits, see alignment (E = 0.00019) amino acids 5011 to 5030 (20 residues), 8.2 bits, see alignment (E = 0.00079) amino acids 5035 to 5063 (29 residues), 26 bits, see alignment (E = 2.1e-09) amino acids 5566 to 5582 (17 residues), 13.8 bits, see alignment (E = 1.4e-05) amino acids 5632 to 5665 (34 residues), 32.6 bits, see alignment (E = 1.9e-11) amino acids 5640 to 5674 (35 residues), 36.9 bits, see alignment (E = 8.3e-13) amino acids 5675 to 5709 (35 residues), 37.9 bits, see alignment (E = 4.1e-13) PF13519: VWA_2" amino acids 5291 to 5407 (117 residues), 27 bits, see alignment (E = 1.7e-09)

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)

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 A0KS56 at UniProt or InterPro

Protein Sequence (5839 amino acids)

>Shewana3_0382 putative outer membrane adhesin like proteiin (RefSeq) (Shewanella sp. ANA-3)
MHLWINTIRCWELIMGSIITTKKGLLKLVKGQIEVEVNGSNQPAKDGEQLPKGAVLHIGE
NATYEITFDDGTKLSNEVEPSIAATPNAGGQATQDEIQALQDLIASGEDPTQNLPETAAG
NAPAGRDGNSGYVTLARDGTEALATSGYSTSGQTLTAATTAAPEQTVATDSPSVLVNDSI
TVDEDTVASGNVLDNDSDADNVLSVVGFNINGTDFAAGTVVTLEGGSFILNADGSYSFTP
NENWNGQVPVITYTTNTGSTATLTINVTPVDDPSVLANDTNTVDEDTIATGNVLDNDTDV
DSSLSVVSFTVSGSTFAAGTTVALEGGSLLLNADGSYSFTPNENWNGQVPVITYTTNTGS
TATLTINVTPVDDPSVLANDTNTVAEDTVATGNVLDNDTDVDSSLSVVSFTVSGSTFAAG
TTVALEGGSLVLNADGSYSFTPNENWNGQVPVITYTTNTGSTATLTINVTPVDDPSVLAN
DTNTVAEDTVATGNVLDNDTDVDSSLSVVSFTVSGSTFAAGTTVTLEGGSLVLNADGSYS
FTPNENWNGQVPVITYTTNTGSTATLTINITPVADGAPSVTITTDTNDDGFISNAELGGA
TEVSVTIGLGGTGANAGDTLTVNGVDYVLTQEDINNGYVNLTLPAPAEGETITVVATITD
PAGNTSPEGSDSALLDTTAPTITVSAPDDTRDTTPTITGTTDAAPGSVITIVVTDSNGVQ
QTLTTTVNPDGTYAVDVINPIPHGGYTATATVTDPAGNTGNATDNGNVDIKIDEDGDGNT
VAITSITQDTGSSSSDFITNDNTLVFHGTVDLDDNSTLAVTINGVTYTTANGLVIDAQGN
WSVDLTGTVLPDGTYPVVATVTDVAGNSKTVTQDVVIDTKIDEDGDGNTVAITSITQDTG
SSSSDFITNDNTLVFHGTVDLDDNSTLAVTINGVTYTTANGLVIDAQGNWSVDLTGTVLP
DGTYPVVATVTDIAGNTTSATQDVIVDTQIGLGRDNAVTITSITEDTGSSNTDFITNDNT
LVFQGTVELDGNSNLVVTINGVEYTIGNGLVIDANGHWSVDLTGTVLPDGTYPVVATVTD
VAGNSKTVTQDVVIDTKIDEDGDGNTVAITSITQDTGSSSSDFITNDNTLVFHGTVDLDD
NSTLAVTINGVTYTTANGLVIDAQGNWSVDLTGTVLPDGTYPVVATVTDVAGNSKTVTQD
VVIDTKIDEDGDGNTVAITSITQDTGSSSSDFITNDNTLVFHGTVDLDDNSTLAVTINGV
TYTTANGLVIDAQGNWSVDLTGTVLPDGTYPVVATVTDVAGNSKTVTQDVVIDTKIDEDG
DGNTVAITSITQDTGSSSSDFITNDNTLVFHGTVDLDDNSTLAVTINGVTYTTANGLVID
AQGNWSVDLTGTVLPDGTYPVVATVTDVAGNSKTVTQDVVIDTKIDEDGDGNTVAITSIT
QDTGSSSSDFITNDNTLVFHGTVDLDDSSTLAVTINGVTYTTANGLVIDAQGNWSVDLTG
TVLPDGTYPVVATVTDVAGNSKTVTQDVVIDTKIDEDGDGNTVAITSITQDTGSSSSDFI
TNDNTLVFHGTVDLDDNSTLAVTINGVTYTTANGLVIDAQGNWSVDLTGTVLPDGTYPVV
ATVTDVAGNSKTVTQDVVIDTAAPSATISVDNITADDILNAQEAAGNVLVTGTVGGDAAV
GDTVTMVINGTTYSTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSAST
TSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYS
TQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATI
SVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFS
VNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNITADDILNAQ
EAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVNVAGSDLAVDTEF
TATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGG
DAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSDDAGNPF
SASTTSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVING
TTYSTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSA
SATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGG
LGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNITADDI
LNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVSVAGSDLAV
DTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTG
TVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSDDA
GNPFSASTTSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTM
VINGTTYSTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTV
DTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIAL
VGGGLGFSVNVAGSDLTVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNIT
ADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVNVAGS
DLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISVDNITADDILNAQEAAGNV
LVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTG
SDDAGNPFSASTTSTHTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGD
TVTMVINGTTYSTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTS
THTVDTSASATISVDNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQ
VIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATISV
DNITADDILNAQEAAGNVLVTGTVGGDAAVGDTVTMVINGTTYSTQVIALVGGGLGFSVS
VAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSDDILNAQEA
AGDVTVTGTVGGDAAIGDTVTMVINGTTYTTQVIALVGGGLGFSVSVAGSDLAVDTEFTA
TVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTVTGTVGGDA
AIGDTVTMVINGTTYTTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSDDAGNPFSA
STTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTT
YTTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASA
TITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYTTQVIALVGGGLG
FSVSVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSDDILN
AQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYTTQVIALVGGGLGFSVSVAGSDLAVDT
EFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTVTGTV
GGDAAIGDTVTMVINGTTYTTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGN
PFSASTTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVI
NGTTYTTQVIALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDT
SASATITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYTTQVIALVG
GGLGFSVSVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSD
DILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYTTQVIALVGGGLGFSVSVAGSDL
AVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTV
TGTVGGDAAIGDTVTMVINGTTYTTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSD
DAGNPFSASTTSTHTVDTSASATITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTV
TMVINGTTYTTQVIALVGGGLGFSVSVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTH
TVDTSASATITVDNITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYSTQVI
ALVGGGLGFSVNVAGSDLAVDTEFTATVTGSDDAGNPFSASTTSTHTVDTSASATITVDN
ITSDDILNAQEAAGDVTVTGTVGGDAAIGDTVTMVINGTTYSTQVIALVGGGLGFSVNVA
GSDLAVDTEFTATVTGSDDAGNPFSASTTSTHSVDNSAPNAPTVLIVDDGNPGDGLLTQG
EINSNGAGVQLTVDINATDFSAGGHVSLTIVNAGVTTDVELTLVNGVLYANGSPTTSFSY
NNGVISWTETRPADGALLKVEATQTDKAGNTSDKGSDQATVIYANDDSFTKQEDQLVTGQ
LLTNDHSSNTSIVSFTFMYNGTLTSFNAGQTVALSIGSLLIQANGEFKFIPNQHWSGDVP
TVTYTTNTGDTATLNITVQPVADKPLVDVILTANGTPLYSGFISSGITTEQFRNGDFTHQ
PFNTGAKQTDASSGQDTVYGSNGNDHIVSTNGGGDHLLGYAGNDVLVGGDAIQGDTINGG
TGNDILVAGLGQDSLYGGEGNDIAVLMGNRADYIITKDYRYSQWDNWFNFTTIEHGQTIT
KALHDIEYIQFDDGIYELDKNTGELVMVQPTYVDYPVEIHASLTDRDGSELLDSIELSGL
PAGTQVFYNGQLLGVADNDGKLLLDYDGPDGWTGGNLWAENALDATLTGVTIRVPGTSAG
QVDLVVEAVAREKGTDLTNSATGEDTIRLDYFKGTEGEPGDQNVNFGSEHNIVVGDLDGS
IVLPGQNYNIAFMVDSSGSINADTLETMKLQLAQVLETLKDSASGQQSGTVKIFLVDFDT
HAKGSISVDLSDPNALDILQDALDDMSSGGGTNYEDVFTTTANWFANGDAQNNSGATNLA
FFITDGKPTYYNAVPGGNPLVYDTWGSNNDRSLSQLIGSGYVFGQVYTVNGHVVIDENGN
VFSVDVFNSVSRSPVGAMRPDAQGNYQYYALAGNGRDSSADTISNSQAGFALLSSLGVTV
QAIGMGSNIDEDDLLPYDSDDNVQTNVDADDLADAILGDQVNAIPGADRFDGGAGDDVIF
GDAIHFTGISGQGFAAIKAYVADKLGIADASDAQVHRYISEHSDEFDQSGANDKADIILG
GAGNDILFGQGGNDYLDGGAGKDTLYGGNGNDTLIGGAGNDTLIGGAGNDTLIGGLGDDV
LRGDSGNDTFVWRYADADKGTDHIMDFNVSEDKLDLSDLLQGETAGTLESYLNFSLDSNG
STVIDIDANKDGVFDQHIVLDGVNLYSQYGATDNAGIINGLLGTNGNGPLIIDAAPVTPD
APQGVTPLIDPHNNGTMIP