Protein Info for Dsui_1207 in Dechlorosoma suillum PS

Annotation: putative calcium-binding 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 2421 PF00353: HemolysinCabind" amino acids 215 to 242 (28 residues), 15.1 bits, see alignment (E = 1.9e-06) amino acids 303 to 336 (34 residues), 16.7 bits, see alignment (E = 6.1e-07) amino acids 406 to 440 (35 residues), 31.6 bits, see alignment (E = 1.3e-11) amino acids 492 to 526 (35 residues), 23.2 bits, see alignment (E = 5.3e-09) amino acids 574 to 607 (34 residues), 19.8 bits, see alignment (E = 6.3e-08) amino acids 678 to 711 (34 residues), 28.8 bits, see alignment (E = 9.3e-11) amino acids 774 to 808 (35 residues), 29.7 bits, see alignment (E = 5e-11) amino acids 860 to 894 (35 residues), 23.2 bits, see alignment (E = 5.3e-09) amino acids 942 to 975 (34 residues), 19.8 bits, see alignment (E = 6.3e-08) amino acids 1046 to 1079 (34 residues), 28.8 bits, see alignment (E = 9.3e-11) amino acids 1142 to 1176 (35 residues), 29.7 bits, see alignment (E = 5e-11) amino acids 1228 to 1262 (35 residues), 23.2 bits, see alignment (E = 5.3e-09) amino acids 1310 to 1343 (34 residues), 19.8 bits, see alignment (E = 6.3e-08) amino acids 1414 to 1447 (34 residues), 28.8 bits, see alignment (E = 9.3e-11) amino acids 1501 to 1535 (35 residues), 24.4 bits, see alignment (E = 2.3e-09) amino acids 1591 to 1625 (35 residues), 38.3 bits, see alignment (E = 1e-13) amino acids 1673 to 1707 (35 residues), 24.1 bits, see alignment (E = 2.8e-09) amino acids 1778 to 1811 (34 residues), 30.9 bits, see alignment (E = 2.1e-11) amino acids 1864 to 1898 (35 residues), 31.5 bits, see alignment (E = 1.3e-11) amino acids 1881 to 1914 (34 residues), 32.1 bits, see alignment (E = 8.7e-12) amino acids 2292 to 2318 (27 residues), 15.1 bits, see alignment (E = 1.9e-06) PF08548: Peptidase_M10_C" amino acids 2190 to 2246 (57 residues), 28.3 bits, see alignment (E = 1.6e-10) amino acids 2278 to 2343 (66 residues), 39.9 bits, see alignment (E = 4.5e-14)

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

No predicted isozymes

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 G8QLL8 at UniProt or InterPro

Protein Sequence (2421 amino acids)

>Dsui_1207 putative calcium-binding protein (Dechlorosoma suillum PS)
MATLELSFQNSNTLDAGLNTADSMSVSFSDTLNQIDSNFQEFDYGTPYVWSASNTRIDGS
ISTGGNFVITGSNLLGSVATINYLSYTDNYPAATLQLFGSVTSTDSWTNGTLTKITYSTS
NLSFELIGTIPINSYGTANSFTASKISYTYTSGGHTVTETFEGSLTFNNDSISGTVKSAF
FSIDGQYVKLSGLNLSFSFFDTNISADYLFNTVLAGNDTITGTVANQFLYGYAGNDSLIS
GGVATTMSGGTGNDTYTVDDVSDVVTEAENEGIDTVLSSISYTLGANVENLTLTGTAHLA
GTGNELKNTIIGNSGNNAIDGGGDIDILKGGKGNDTYTVDIVQSGSGDTATAIMQDTVTE
LLGEGTDTIVLRGTISGLTNATTLLVGANIENLDASATGSTKLNITGNALNNTLTGNDGN
NVLNGGAGADTLIGGLGDDTYVIDNAADAITELSGEGTDTVQVAIATAGGTYTLGANLDN
ATLTNAVAYNLTGNALANTLTGNAAANTLTGVGGNDTLIGGNGNDTYVVTAGDTVVENGL
ASDIDTVSADFSYSLGANLENLTLSGSANIDGTGNALKNTITGNIGNNAIDGGDGVDILK
GGKGDDTYTVDIVKVGTGATATAALQDTVTELASEGNDTVVLRGTVNDLTNPTTLIVGAN
IENLDASNTGSTKLNLSGSAVANTLTGNDADNLIDGGAGNDTLVGGKGNDTYVIDSLADT
VTEAASEGTDTVRVAVTSVAGGNTYNLDDNVENATLTNTIAFNLTGNDLDNTLTGNAAAN
TLNGGIGNDTLNGGAGADTLIGGLGDDTYVIDNAADAITELSGEGTDTVQVAIATAGGTY
TLGANLDNATLTNAVAYNLTGNALANTLTGNAAANTLTGVGGNDTLIGGNGNDTYVVTAG
DTVVENGLASDIDSVSADFSYSLGANLENLTLSGSANIDGTGNALKNTITGNIGNNAIDG
GDGVDILKGGKGDDTYTVDIVKVGTGATATAALQDTVTELASEGNDTVVLRGTVNDLTNP
TTLIVGANIENLDASNTGSTKLNLSGSAVANTLTGNDADNLIDGGAGNDTLVGGKGNDTY
VIDSLADTVTEAASEGTDTVRVAVTSVAGGNTYNLDDNVENATLTNAIAFNLTGNDLDNT
LTGNAAANTLNGGIGNDTLNGGAGADTLIGGLGDDTYVIDNAADAITELSGEGTDTVQVA
IATAGGTYTLGANLDNATLTNAVAYNLTGNALANTLTGNAAANTLTGVGGNDTLIGGNGN
DTYVVTAGDTVVENGLASDIDSVSADFSYSLGANLENLTLSGSANIDGTGNALKNTITGN
IGNNAIDGGDGVDILKGGKGDDTYTVDIVKVGTGATATAALQDTVTELASEGNDTVVLRG
TIADLTNPTTLIVGANIENLDASNTGSTKLNLSGSAVANTLTGNDADNLIDGGAGNDTLV
GGKGNDTYVIDSLADTVTEAASEGTDTVRVAVTSVAGGNTYTLDDNVENATLTNTIAFNL
TGNDLDNTLTGNAAANRIDGGAGSDAMAGGAGNDIYVVDDLGDTVTEILNGGIDTVESSI
TFSLGNHLENLTLTGAAGINGTGNELANTLIGNSGANTLTGGAGNDILDGGAGVDTLVGG
NGNDTYYVDESLDVIDEQGPATDIDSVIATASYSLGANLENLTLSGSANINGTGNALNNT
IIGNDGNNAIDGGAGVDILKGGKGDDTYTVDIVKVGTGSTATAAFQDSVTEVAGQGNDSL
VLRGVVGDLSNATTINLDVNIENLDVSATGITKLNLTGNVSDNILTGNSGDNIINGGAGN
DQMSGGAGNDTYVVDSAGDSVSESAGQGIDTVQINISTAGGSYTLSENVENGTLGNSVAF
DLAGNALDNVLTGNDKANLLTGGAGADTLNGGAGNDTLNGGIGNDTLNGGAGAGDIAVFS
GNHGDYTVSYNNGIFTVAGADGTDTLQGVEFLKFDDSIDVIPIQTMLGSVATEIDSTPPQ
HAIDALDSGYTWQPTTIGQPLVISYSFMTSIPAYYSGSGADPIYSFQALDAAHQAAIEKA
LGIYASLLNVTFQEVASGGTLQFGSNYQGFYNSAGYAYLPWGTGTNNGTDIGGDVWLAND
QSTFNQLADGEYGLATIIHEIGHALGLKHPGDYGAGEPGPFLPTAEDNYLYSIMSYNADS
YTVSYDGTYIYLNPLSPSTPQVFDVAALQDMYGANTATNNSNTTYTFSNDPFIKTLWDGG
GNDTISLAGLSHGSVLDLHAGSFSDINYDATGASALPDGFIKSDIPVGWWNYLYTGDDNF
NIAYGVTIENAIGSSNADTIIGNETANVLTGGLGADKFVFEDNPVMGVIDTITDFVSGTD
KLVFENSVFTALGTATGTLAATMFASGDNLAGGLDASDRFVFDSSDGSLYYDVDGSGAAD
AILIAQLTGVTNLKASDIQII