Protein Info for AZOBR_RS32085 in Azospirillum brasilense Sp245

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

1 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 2691 PF00353: HemolysinCabind" amino acids 53 to 88 (36 residues), 31.9 bits, see alignment (E = 2.6e-11) amino acids 81 to 114 (34 residues), 26.1 bits, see alignment (E = 1.7e-09) amino acids 216 to 245 (30 residues), 23.4 bits, see alignment (E = 1.2e-08) amino acids 226 to 260 (35 residues), 35.3 bits, see alignment (E = 2.2e-12) amino acids 261 to 295 (35 residues), 27.1 bits, see alignment (E = 8.4e-10) amino acids 401 to 436 (36 residues), 31.3 bits, see alignment (E = 3.9e-11) amino acids 428 to 462 (35 residues), 35.9 bits, see alignment (E = 1.5e-12) amino acids 554 to 588 (35 residues), 37.3 bits, see alignment (E = 5.2e-13) amino acids 581 to 614 (34 residues), 31.9 bits, see alignment (E = 2.5e-11) amino acids 718 to 753 (36 residues), 26.4 bits, see alignment (E = 1.4e-09) amino acids 754 to 789 (36 residues), 32.7 bits, see alignment (E = 1.5e-11) amino acids 781 to 815 (35 residues), 31.1 bits, see alignment (E = 4.6e-11) amino acids 791 to 817 (27 residues), 27.5 bits, see alignment (E = 6.2e-10) amino acids 919 to 954 (36 residues), 32.7 bits, see alignment (E = 1.4e-11) amino acids 946 to 980 (35 residues), 34.4 bits, see alignment (E = 4.2e-12) amino acids 1085 to 1120 (36 residues), 26.6 bits, see alignment (E = 1.2e-09) amino acids 1113 to 1147 (35 residues), 30.9 bits, see alignment (E = 5.4e-11) amino acids 1122 to 1156 (35 residues), 33.9 bits, see alignment (E = 6.2e-12) amino acids 1149 to 1181 (33 residues), 20.2 bits, see alignment (E = 1.2e-07) amino acids 2464 to 2497 (34 residues), 24.7 bits, see alignment (E = 4.5e-09) amino acids 2499 to 2533 (35 residues), 31.3 bits, see alignment (E = 4e-11) amino acids 2525 to 2560 (36 residues), 32.9 bits, see alignment (E = 1.2e-11) amino acids 2534 to 2569 (36 residues), 31.1 bits, see alignment (E = 4.5e-11) amino acids 2562 to 2596 (35 residues), 26.6 bits, see alignment (E = 1.1e-09) amino acids 2589 to 2622 (34 residues), 36 bits, see alignment (E = 1.4e-12) PF06119: NIDO" amino acids 1288 to 1462 (175 residues), 75.8 bits, see alignment 1.1e-24 PF03160: Calx-beta" amino acids 1474 to 1569 (96 residues), 31.5 bits, see alignment (E = 4.1e-11) amino acids 1882 to 1976 (95 residues), 19.7 bits, see alignment (E = 1.9e-07) amino acids 1992 to 2099 (108 residues), 26.6 bits, see alignment (E = 1.3e-09) amino acids 2138 to 2219 (82 residues), 19.2 bits, see alignment (E = 2.7e-07) PF00094: VWD" amino acids 1609 to 1765 (157 residues), 49.4 bits, see alignment 1.6e-16

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

See G8B0D8 at UniProt or InterPro

Protein Sequence (2691 amino acids)

>AZOBR_RS32085 hypothetical protein (Azospirillum brasilense Sp245)
VRSVISGGVTRVEVSYSGFGWINTYFTIVGEHDLKVDPNAPGVLVRIPTQALTGTDGNDS
LTGGPSRDTLSGGAGNDTLVGLGSNDLLQGGTGDDALIGGDGADTLEGGTGNDRFVVGSA
SEMNYDRILDFGPGDQLDLSALNARFLGEGAFTGSVSNPGGAELRVYYSADTTTVVLDSN
GDGIADVGMWLNGVVPLVELAGTPGVLITEYGKALTGTPDDDSLTGASGPDTLIGGDGND
TLSGDYGNDLIIGGAGNDTLIGGDGIDTLEGGDGDDTLNGGPGGDLMTGGAGRDSFRFNR
AGHIDGDRITDFGPNDRIDLRDMNVTFIGTAAFTGSVAQPGPAQVNAVIVGSGPLAETRL
VFDMNGDGIGERMIILSGTHTLMARPDNAAILIRVDDLVLTGTDAGETLEGGAGRDSLSG
GGGNDSLTGGVGNDTLSGGDGDDTLVGGAGTDRLTGGAGNDTFVFTADDIAGDRITDFSD
GDRIDLSALINPNGFAITFSAVGEPGFRNTLLEIDLNADGVTDRIIEIAGEHVFQGDPEA
PGVLVRAASQRLEGTAAADTLIGGRGDDTLTGGAGNDSLNGEEGRDRLDGGDGDDTLLGG
DGADTLTGGAGNDTFRVLTVGDAAGDRITDFADGDRLDLSALNATFIGGNAFTGSSVNLG
PAQIRVAVTGAEGQQRTRVEIDGDGDGIADSVIELAGAHALREDGTGVLVRVSNRTLTGT
AAAETLTGGDGADSLSGLGGDDRLEGLGGDDRLDGGDGNDTLDGGEGSDTLTGGAGSDSL
TGGAGGDTLSGGDGDDTLVGSEGRDELTGGAGNDTFVFARATDINGDLITDFATGDRIDI
SGLSASFLGTTPLSQRFGSGVAVNYVNSGTGAFATTDLQFDIDGDGVADRVIHLAGTHAL
AADPSNSGVLVRVTAISSTGGDGADTLTGGAASDTLTGGAGDDRLDGLGGADFLYGGAGD
DTLAGGAGEDVLSGGEGNDTFRYASVAEANGDRITDFAAGDRIDLSGIPFTFVGSGPFTG
TVAQPGGAQVGFRFVTSGGATTQLLFDANGDGVADATLTLAGFHELQEAEGSAGVLVRSN
GLDLTGTADADTLSGGDTPDRLMGQAGDDRLSGNGGNDSLSGGLGNDSLDGGQGNDLLSG
DAGDDTLNGGAGDDTLNGGDGNDLFQASGGTDDINGGAGLDAVVFTDAKANYDIVNNGGT
ITVTHARGTKADGVARITAVEELRFTDQTVDLTPASAIGARLIGGLGGTAGFGENELDRS
NDGSSAFIDIRSVFADGINVFGKVYTGFYINTNGSISFDAPLAAGPSAGALSATAPAMIA
PFLSDVDTRGGTGAATPGGTSQGTNRVYYDLDPVTGTIVITWDDVAANGGTDGGRNAFQL
VLTNAADATGRKAGDFDAEFRYESVNWAQTAGNTVARAGYTAGNGDTAGLFILPQSGSEA
GMLALDTTAGNTGVNGLWRFEMTGGTASNVLPAVVAIEPGQLSKAEGNSGTTRFTFTVTR
SGDTTSAVSVGYTVAGTGSNPVGAGDLAGGFLPYDGTVTFAAGETSKTISVDVLGDTVAE
ANETFAVTLANPADGSNIKLGNRQATGTVLNDDNQAPPLPPGFRPGANWGDPHLVTFDGF
YYSFQAVGEFTYVNAKSGDERIVQLRTAALGDAVSINTAVATKIGAARVSINAKDSAHPL
RIDGVATDIPDATGSLAVGDGHIFRSGNVYTIVYSNQEQLIVTVEADRVDLQLYLSPSRA
AGSIEGLMGNLDGDASNDLALADGTVLSQPIDYAVLYGSYADGWRVTQQTSLFDYGQGET
TATYTDRSFPRQVLSVDALPEALRQRAEALLDAAGITDPALRQAALLDVALTGDASFLKG
ATQTNAPTQQSNTSNAPPAAPVITIAARTATVTERNSGSTNVVFDVYRTGDPSADLVLDF
AVTGFGTWAADAADFGGQLPSGTVTLAAGQTSATITVAVAGDAVAETDETFAVTLSQQAG
AATQAVIAAPRATVTIENDDGALTPRLDIAAASAIVQEGANAKATFTITRSDNALDPVSV
TYTVAGSGPNAASAADFLGNAFPTGTVSLAAGETTKTVEIAIATDALNEGDETFTVTLSN
PNGATLGTAVATGVIKNTAPPPPSLSIAAENGSALEGNDGTTALIFLVTRTGDTSGLTTA
YYVVAGSGGAPTSASDFAGSTLPYGTVTFAAGEQTARITVNVQGDRDVESDETFTVTLSN
ASGGTIGTASATGTIRNDDVATGGSNGNPTGTQPIGRETVGLLWVETTPSAPPSGLGVAF
VQTQPYSMLAGEFGRATFTLMQGAGSGPLLQAQVVDGSSVNAYGPQSTVESSQTAGVFAG
MLAMVLPESRSAAIRTELAGFVAGTSEQVILRTLTPTGPGPVTITGTATAGAPREALIIN
MGSNPGGSVVLNQVDFAVLVGQGTFTGGEGNSLTIGDDSAQVINLGPGDDTTRGGGGNDV
VASTTGRDLLAGDAGNDTLHGGDDDDTLLGGDDDDVVGGGNGNDLLSGDAGNDWLMGEDG
NDTAIGGEGNDVVFGMNGDDLLTGDAGNDTIVGGDGNDSILGGMGNDLIGGGAGNDLIDG
GDGNDALVGEDGNDTLFGGAGDDVLWGFGGDDWLIGGAGKDIFAFTLGGGNDYVFEFNPD
EDILGFAIAGISIADIKASAQTVGKNTVFTLSDKSTITVVGLTGVTDSWFS