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PR01652

Identifier
SHAPEPROTEIN  [View Relations]  [View Alignment]  
Accession
PR01652
No. of Motifs
5
Creation Date
23-DEC-2001
Title
Bacterial cell shape determinant MreB/Mbl protein signature
Database References

PDB; 1JCE
SCOP; 1JCE
CATH; 1JCE
Literature References
1. JONES, L.J., CARBALLIDO-LOPEZ, R. AND ERRINGTON, J.
Control of cell shape in bacteria: helical, actin-like filaments in 
Bacillus subtilis.
CELL 104 913-922 (2001).
 
2. VAN DEN ENT, F., AMOS, L.A. AND LOWE, J.
Prokaryotic origin of the actin cytoskeleton.
NATURE 413 39-44 (2001).
 
3. VAN DEN ENT, F., AMOS, L.A. AND LOWE, J.
Bacterial ancestry of actin and tubulin.
CURR.OPIN.MICROBIOL. 4 634-638 (2001).

Documentation
Bacterial cell shape varies greatly between species, and characteristic
morphologies are used for identification purposes. In addition to individual
cell shape, the way in which groups of cells are arranged is also typical of
some bacterial species, especially Gram-positive coccoids [1]. Microscopy
has proved its value in the classification and diagnosis of species based
on cell shape.
 
For many years, it was believed that micro-organisms with other than
spheroidal cell shapes maintained morphology by means of their external cell 
walls. Recently, however, studies of the Gram-positive rod Bacillus subtilis
have revealed two related genes that are essential for the integrity of cell
morphogenesis [1]. Termed mreB and mbl, the gene products localise close to
the cell surface, forming filamentous helical structures [1,2]. Many 
homologues have been found in diverse bacterial groups, suggesting a common 
ancestor [2].
 
The crystal structure of MreB from Thermotoga maritima has been resolved 
using X-ray crystallography [2]. It consists of 19 beta-strands and 15 alpha-
helices, and shows remarkable structural similarity to eukaryotic actin [2].  
MreB crystals also contain proto-filaments, with individual proteins 
assembling into polymers like F-actin, in the same orientation. It is 
hypothesised therefore, that MreB was the forerunner of actin in early 
eukaryotes [2,3].
 
Another bacterial protein involved in morphogenesis and cell division, FtsZ,
shows structural and functional resemblance to another eukaryotic cell 
cytoskeletal moiety, tubulin. [3]. This indicates a prokaryotic origin for 
tubulin as well as actin [3].
 
SHAPEPROTEIN is a 5-element fingerprint that provides a signature for the
bacterial cell shape determinant MreB/Mbl proteins. The fingerprint was 
derived from an initial alignment of 7 sequences: the motifs were drawn
from conserved regions spanning virtually the full alignment length - motif
1 spans alpha-helix 1 and the N-terminus of beta-strand 6; motif 2 spans
strands 7, 8 and the N-terminus of helix 2; motif 3 encompasses strand 10 
and helix 4; motif 4 spans helix 5 and strand 14; and motif 5 spans helices
12 and 13, and strand 18. Three iterations on SPTR40_18f were required to 
reach convergence, at which point a true set comprising 34 sequences was
identified.
Summary Information
  34 codes involving  5 elements
0 codes involving 4 elements
0 codes involving 3 elements
1 codes involving 2 elements
Composite Feature Index
53434343434
400000
300000
200011
12345
True Positives
MBL_BACCE     MBL_BACSU     MREB_BACSU    MREB_ECOLI    
MREB_HAEIN MREH_BACSU O25925 O27103
O33619 O51657 O54484 O67013
O83510 O84715 Q97F83 Q97JN1
Q9A821 Q9HVU0 Q9K6J0 Q9K8H5
Q9KEK9 Q9L095 Q9L1G6 Q9L6A3
Q9PDS0 Q9PIL9 Q9PLL7 Q9RH83
Q9WZ57 Q9X1N0 Q9Z756 Q9ZA92
Q9ZCH4 Q9ZJL9
True Positive Partials
Codes involving 2 elements
DNAK_METTH
Sequence Titles
MBL_BACCE   MreB-like protein (MBL protein) - Bacillus cereus. 
MBL_BACSU MreB-like protein (MBL protein) - Bacillus subtilis.
MREB_BACSU Rod shape-determining protein mreB - Bacillus subtilis.
MREB_ECOLI Rod shape-determining protein mreB - Escherichia coli.
MREB_HAEIN Rod shape-determining protein mreB - Haemophilus influenzae.
MREH_BACSU MreBH protein - Bacillus subtilis.
O25925 ROD SHAPE-DETERMINING PROTEIN (MREB) - Helicobacter pylori (Campylobacter pylori).
O27103 ROD SHAPE-DETERMINING PROTEIN - Methanothermobacter thermautotrophicus.
O33619 MERB PROTEIN - Streptomyces coelicolor.
O51657 ROD SHAPE-DETERMINING PROTEIN (MREB-1) - Borrelia burgdorferi (Lyme disease spirochete).
O54484 ROD SHAPE-DETERMINING PROTEIN - Helicobacter pylori (Campylobacter pylori).
O67013 ROD SHAPE DETERMINING PROTEIN MREB - Aquifex aeolicus.
O83510 ROD SHAPE-DETERMINING PROTEIN (MREB) - Treponema pallidum.
O84715 ROD SHAPE PROTEIN-SUGAR KINASE - Chlamydia trachomatis.
Q97F83 SHAPE-DETERMINING PROTEIN ENVB (HSP70 FAMILY CHAREPONES) - Clostridium acetobutylicum.
Q97JN1 MREB - Clostridium acetobutylicum.
Q9A821 ROD SHAPE-DETERMINING PROTEIN MREB - Caulobacter crescentus.
Q9HVU0 ROD SHAPE-DETERMINING PROTEIN MREB - Pseudomonas aeruginosa.
Q9K6J0 CELL SHAPE DETERMINING PROTEIN (MREB-LIKE PROTEIN) - Bacillus halodurans.
Q9K8H5 CELL-SHAPE DETERMINING PROTEIN - Bacillus halodurans.
Q9KEK9 CELL-SHAPE DETERMINING PROTEIN - Bacillus halodurans.
Q9L095 PUTATIVE ROD SHAPE-DETERMINING PROTEIN - Streptomyces coelicolor.
Q9L1G6 ROD SHAPE-DETERMINING PROTEIN - Streptomyces coelicolor.
Q9L6A3 ROD SHAPE-DETERMINING PROTEIN (MREB) - Pasteurella multocida.
Q9PDS0 ROD SHAPE-DETERMINING PROTEIN - Xylella fastidiosa.
Q9PIL9 HOMOLOG OF E. COLI ROD SHAPE-DETERMINING PROTEIN - Campylobacter jejuni.
Q9PLL7 CELL SHAPE-DETERMINING PROTEIN MREB - Chlamydia muridarum.
Q9RH83 ROD SHAPE DETERMINING PROTEIN MREB - Pseudomonas fluorescens.
Q9WZ57 ROD SHAPE-DETERMINING PROTEIN MREB - Thermotoga maritima.
Q9X1N0 ROD SHAPE-DETERMINING PROTEIN MREB - Thermotoga maritima.
Q9Z756 ROD SHAPE PROTEIN-SUGAR KINASE - Chlamydia pneumoniae (Chlamydophila pneumoniae).
Q9ZA92 MREB (ROD SHAPE-DETERMINING PROTEIN MREB) - Vibrio cholerae.
Q9ZCH4 ROD SHAPE-DETERMINING PROTEIN MREB (MREB) - Rickettsia prowazekii.
Q9ZJL9 ROD SHAPE-DETERMINING PROTEIN - Helicobacter pylori J99 (Campylobacter pylori J99).

DNAK_METTH Chaperone protein dnaK (Heat shock protein 70) (Heat shock 70 kDa protein) (HSP70) - Methanobacterium thermoautotrophicum.
Scan History
SPTR40_18f 3  50   NSINGLE    
Initial Motifs
Motif 1  width=19
Element Seqn Id St Int Rpt
VAAVGHDAKQMLGRTPGNI MREB_ECOLI 52 52 -
IAAVGKEAKLMLGRTPKSI MREB_HAEIN 53 53 -
ILAVGSEAKEMLGKTPNSI O25925 54 54 -
ILAVGKEAKDMVGKTPGNI Q9PIL9 53 53 -
IVAVGNDAKNMIGRTPGNV MREB_BACSU 44 44 -
VLAVGEEARRMVGRTPGNI MBL_BACSU 41 41 -
LIAVGDFAEKMTGRTPGYI Q9L095 54 54 -

Motif 2 width=24
Element Seqn Id St Int Rpt
AIRPMKDGVIADFFVTEKMLQHFI MREB_ECOLI 72 1 -
AIRPMKDGVIADFFVTEKMLQYFI MREB_HAEIN 73 1 -
AIRPMKDGVIADYDITAKMIRYFI O25925 74 1 -
AIRPMKDGVIADFDMTEKMIRYFI Q9PIL9 73 1 -
ALRPMKDGVIADYETTATMMKYYI MREB_BACSU 64 1 -
AIRPLKDGVIADFEVTEAMLKHFI MBL_BACSU 61 1 -
VVRPVSGGTVVDIEMAQRMLRHLL Q9L095 74 1 -

Motif 3 width=20
Element Seqn Id St Int Rpt
REVFLIEEPMAAAIGAGLPV MREB_ECOLI 136 40 -
REVYLIEEPMAAAIGAKLPV MREB_HAEIN 137 40 -
REVFLIEEPMAAAIGAGLPV O25925 137 39 -
REVFLIEEPMAAAIGASLPI Q9PIL9 136 39 -
RDAYPIEEPFAAAIGANLPV MREB_BACSU 129 41 -
KHVYLEEEPKVAAIGAGMEI MBL_BACSU 124 39 -
RRVELVDTLIAAAVGCGLPV Q9L095 139 41 -

Motif 4 width=21
Element Seqn Id St Int Rpt
GDRFDEAIINYVRRNYGSLIG MREB_ECOLI 191 35 -
GDRFDEAIISYVRRTFGSVIG MREB_HAEIN 192 35 -
GDKLDQSIVEYIRKKFNLLIG O25925 192 35 -
GDKLDMSIVNYVKEKYNLIIG Q9PIL9 191 35 -
GDEMDDAIINYIRKTYNLMIG MREB_BACSU 184 35 -
GDKFDMEILNYIKREYKLLIG MBL_BACSU 179 35 -
GEAVDHAIVQLLRHQHELVLP Q9L095 194 35 -

Motif 5 width=27
Element Seqn Id St Int Rpt
DRLLMEETGIPVVVAEDPLTCVARGGG MREB_ECOLI 304 92 -
DILLSKESGVPVIIAEDPLTCVARGGG MREB_HAEIN 307 94 -
DKYLSDMVKLPVYVGDEPLLAVAKGTG O25925 305 92 -
DKYLSEIVRLPVYIADEPLLAVAKGTG Q9PIL9 304 92 -
DKVISEETKMPVLIAEDPLDCVAIGTG MREB_BACSU 297 92 -
DQLLAEELKVPVLVAENPMDCVAIGTG MBL_BACSU 292 92 -
DQMLRQATGMPVHIAERPDVCAVQGLG Q9L095 308 93 -
Final Motifs
Motif 1  width=19
Element Seqn Id St Int Rpt
VVAVGTEAKRMLGRTPGNI Q9RH83 51 51 -
VAAVGHDAKQMLGRTPGNI MREB_ECOLI 52 52 -
VVAVGTEAKRMLGRTPGNI Q9HVU0 50 50 -
VAAVGHAAKQMLGRTPGNI Q9ZA92 52 52 -
IAAVGRDAKLMLGRTPKSI Q9L6A3 53 53 -
IAAVGKEAKLMLGRTPKSI MREB_HAEIN 53 53 -
VLAVGNEAKQMIGRTPGNI Q97JN1 45 45 -
VAAVGVEAKQMLGRTPGNI Q9PDS0 75 75 -
ILAVGSEAKEMLGKTPNSI O25925 54 54 -
ILAVGSEAKEMLGKTPNSI O54484 54 54 -
ILAVGSEAKEMLGKTPNSI Q9ZJL9 54 54 -
ILAVGKEAKDMVGKTPGNI Q9PIL9 53 53 -
PYAYGHEAKMMLGRTPTDI Q9ZCH4 50 50 -
IEAVGNDAKNMIGRTPGNI Q9K8H5 44 44 -
VLAVGHKAKAMLGKTPRKI O84715 71 71 -
VLAVGHKAKAMLGKTPRKI Q9PLL7 71 71 -
VLAVGHKAKAMLGKTPRKI Q9Z756 71 71 -
VHAVGIEAKQMLGRTPGHM Q9A821 50 50 -
ILAVGAEAKKMIGRTPGNI Q9L1G6 47 47 -
IVAVGNDAKNMIGRTPGNV MREB_BACSU 44 44 -
VLAVGEEARRMVGRTPGNI MBL_BACSU 41 41 -
VLAVGEEARQMIGRTPGNI Q97F83 44 44 -
VLAVGLEAKNMVGKTPGNI Q9KEK9 42 42 -
VLAVGEEARSMVGRTPGNI MBL_BACCE 41 41 -
ILAVGKEAKEMVGKTPENI O67013 49 49 -
VLAVGDEAFRMVGRTPGNI Q9K6J0 41 41 -
ILKVGLEAKNMIGKTPATI Q9WZ57 41 41 -
ILAVGAEAKKMIGARRNIV O33619 47 47 -
VVAVGRNAKKMLWKTPENI O51657 59 59 -
VLAIGADAKNMIGKTPGKI MREH_BACSU 42 42 -
VVAVGSDAKRMLWKTPGNI O83510 46 46 -
IVAIGEEAKKMLGKTPEGL Q9X1N0 41 41 -
VLAVGEEAKMMLGRTPEDI O27103 60 60 -
LIAVGDFAEKMTGRTPGYI Q9L095 54 54 -

Motif 2 width=24
Element Seqn Id St Int Rpt
AIRPMKDGVIADFSVCEKMLQYFI Q9RH83 71 1 -
AIRPMKDGVIADFFVTEKMLQHFI MREB_ECOLI 72 1 -
AIRPMKDGVIADFSVCEKMLQYFI Q9HVU0 70 1 -
AIRPMKDGVIADFYVTEKMLQHFI Q9ZA92 72 1 -
AIRPMKDGVIADFFVTEKMLQYFI Q9L6A3 73 1 -
AIRPMKDGVIADFFVTEKMLQYFI MREB_HAEIN 73 1 -
AIRPLKDGVIADFDITESMLKNFI Q97JN1 65 1 -
TIRPMKDGVIADFTYTEAMLKHFI Q9PDS0 95 1 -
AIRPMKDGVIADYDITAKMIRYFI O25925 74 1 -
AIRPMKDGVIADYDITAKMIRYFI O54484 74 1 -
AIRPMKDGVIADYDITAKMIRYFI Q9ZJL9 74 1 -
AIRPMKDGVIADFDMTEKMIRYFI Q9PIL9 73 1 -
AKRPLKDGVIADFKGAEEMIKYFI Q9ZCH4 70 1 -
ATRPMKDGVIADFETTATMLKYFI Q9K8H5 64 1 -
AVRPMKDGVIADFEIAEGMLKALI O84715 91 1 -
AVRPMKDGVIADFEIAEGMLKALI Q9PLL7 91 1 -
AVRPMKDGVIADFEIAEGMLKALI Q9Z756 91 1 -
AIRPMRDGVIADFEVAEEMIKYFI Q9A821 70 1 -
AVRPLKDGVIADFEITERMLRYFI Q9L1G6 67 1 -
ALRPMKDGVIADYETTATMMKYYI MREB_BACSU 64 1 -
AIRPLKDGVIADFEVTEAMLKHFI MBL_BACSU 61 1 -
AIRPLRNGVISDYDVTEKMLKHFI Q97F83 64 1 -
AMRPLKDGVIADFDVTATMLKHIM Q9KEK9 62 1 -
AIRPLKDGVIADFEITEAMLKYFI MBL_BACCE 61 1 -
AIRPLRHGVISDFEVTQAMLTYFI O67013 69 1 -
AVRPLKDGVIANFELTESMLKHFL Q9K6J0 61 1 -
AIRPMRDGVIADYTVALVMLRYFI Q9WZ57 61 1 -
AVRPLKDGVIADFEITERMLRYFI O33619 66 0 -
AVRPLRDGVIADIENTEKMIKYFI O51657 79 1 -
AVRPMKDGVIADYDMTTDLLKHIM MREH_BACSU 62 1 -
AIRPLKDGVIADMDTTEKMIRYFI O83510 66 1 -
AIRPMKDGVIADYRMIEAIIRNFL Q9X1N0 61 1 -
AVRPLRKGVIESVAQAEALLVYAM O27103 80 1 -
VVRPVSGGTVVDIEMAQRMLRHLL Q9L095 74 1 -

Motif 3 width=20
Element Seqn Id St Int Rpt
REVFLIEEPMAAAIGAGLPV Q9RH83 135 40 -
REVFLIEEPMAAAIGAGLPV MREB_ECOLI 136 40 -
REVFLIEEPMAAAIGAGLPV Q9HVU0 134 40 -
REVYLIDEPMAAAIGAGLRV Q9ZA92 136 40 -
REVYLIEEPMAAAIGAKLPV Q9L6A3 137 40 -
REVYLIEEPMAAAIGAKLPV MREB_HAEIN 137 40 -
REVKVMEEPMAAAIGAGLPV Q97JN1 128 39 -
RDVYLIEEPMAAAIGAGMPV Q9PDS0 159 40 -
REVFLIEEPMAAAIGAGLPV O25925 137 39 -
REVFLIEEPMAAAIGAGLPV O54484 137 39 -
REVFLIEEPMAAAIGAGLPV Q9ZJL9 137 39 -
REVFLIEEPMAAAIGASLPI Q9PIL9 136 39 -
RDVYLIEEPMAAAIGAGLPV Q9ZCH4 133 39 -
KYAYTLEEPFAAAIGADLPV Q9K8H5 129 41 -
QEVILIEEPMAAAIGVDLPV O84715 154 39 -
QEVILIEEPMAAAIGVDLPV Q9PLL7 154 39 -
QEVILIEEPMAAAIGVDLPV Q9Z756 154 39 -
RRVGLIDEPMAAAIGAGLPI Q9A821 133 39 -
RQVHIIEEPMAAAIGSGLPV Q9L1G6 130 39 -
RDAYPIEEPFAAAIGANLPV MREB_BACSU 129 41 -
KHVYLEEEPKVAAIGAGMEI MBL_BACSU 124 39 -
KKVSLIEEPLAAAIGAGLDI Q97F83 127 39 -
KQVEIIEEPVAAAIGADLPV Q9KEK9 127 41 -
KTVFLEEEPKVAAVGAGMEI MBL_BACCE 124 39 -
REVYLVAEPMAAAIGAGLPV O67013 133 40 -
KNVYLEEEPKVAAIGAGMDI Q9K6J0 124 39 -
SKVFLIEEPMAAAIGSNLNV Q9WZ57 124 39 -
RQVHIIEEPMAAAIGSGLPV O33619 129 39 -
REVKVIEESLAAAIGSDIPI O51657 143 40 -
KNVHLIEEPVAAAIGADLPV MREH_BACSU 127 41 -
GEVEVLEESLAAAIGANIPI O83510 129 39 -
RRVHIVSEPIAAAIGAGIDV Q9X1N0 124 39 -
NYVLVISEGLAAAIGAGLPI O27103 142 38 -
RRVELVDTLIAAAVGCGLPV Q9L095 139 41 -

Motif 4 width=21
Element Seqn Id St Int Rpt
GDRFDEAIITYVRRNYGSLIG Q9RH83 190 35 -
GDRFDEAIINYVRRNYGSLIG MREB_ECOLI 191 35 -
GDRFDEAIVTYVRRNYGSLIG Q9HVU0 189 35 -
GDRFDEAIINYVRRNYGSLIG Q9ZA92 191 35 -
GDRFDEAIISYVRKTFGSIIG Q9L6A3 192 35 -
GDRFDEAIISYVRRTFGSVIG MREB_HAEIN 192 35 -
GDELDQAIISYIKKEYNLMIG Q97JN1 183 35 -
GDRFDESITNYVRRNHGMLIG Q9PDS0 214 35 -
GDKLDQSIVEYIRKKFNLLIG O25925 192 35 -
GDKLDQSIVEYIRKKFNLLIG O54484 192 35 -
GDKLDQSIVEYIRKKFNLLIG Q9ZJL9 192 35 -
GDKLDMSIVNYVKEKYNLIIG Q9PIL9 191 35 -
GDKMDEAIISYIRRHYNLLIG Q9ZCH4 188 35 -
GDEMDEAIIQYIKKTYNLMIG Q9K8H5 184 35 -
GDEFDECIINYMRRTYNLMIG O84715 209 35 -
GDEFDECIINYMRRTYNLMIG Q9PLL7 209 35 -
GDEFDECIINYMRRTYNLMIG Q9Z756 209 35 -
GDKMDEAIISYMRRHHNLLIG Q9A821 188 35 -
GDELDNAIIQHVKKEYSLLLG Q9L1G6 185 35 -
GDEMDDAIINYIRKTYNLMIG MREB_BACSU 184 35 -
GDKFDMEILNYIKREYKLLIG MBL_BACSU 179 35 -
GDTFDESIIKYIRKKHKLMIG Q97F83 182 35 -
GDKIDEDIIQYIRKNYNVLIG Q9KEK9 182 35 -
GDKFDMEILNYIKRKYKLLIG MBL_BACCE 179 35 -
GDEMNEAIIQYIKRKLHLLIG O67013 188 35 -
GDRMDSEILNYVKKEYKLLIG Q9K6J0 179 35 -
GDEMDEAIVQYVRETYRVAIG Q9WZ57 179 35 -
GDELDNAIIQHVKKEYSLLLG O33619 183 34 -
GDEFDESIIKYMRNSHNIIIG O51657 198 35 -
GDQLDEDIVSFVRKKYNLLIG MREH_BACSU 182 35 -
GDEFDQAIIKHVRSVHNLIIG O83510 184 35 -
GDAMDEAIVKFIRKKYGLIIG Q9X1N0 179 35 -
GDDIDSNIVELVKEKFNVEIG O27103 197 35 -
GEAVDHAIVQLLRHQHELVLP Q9L095 194 35 -

Motif 5 width=27
Element Seqn Id St Int Rpt
DKLLAQETGLPVIVAEDPLTCVARGGG Q9RH83 303 92 -
DRLLMEETGIPVVVAEDPLTCVARGGG MREB_ECOLI 304 92 -
DKLLAQETGLPVIVAEEPLTCVARGGG Q9HVU0 302 92 -
DRLLMEETGIPVVIADDPLTCVARGGG Q9ZA92 304 92 -
DVLLSKETGVPVIIADDPLTCVARGGG Q9L6A3 307 94 -
DILLSKESGVPVIIAEDPLTCVARGGG MREB_HAEIN 307 94 -
DMLISKETNISVHIAESPLDCVALGAG Q97JN1 297 93 -
DRLISDETGLYVQVADDPLTCVARGGG Q9PDS0 327 92 -
DKYLSDMVKLPVYVGDEPLLAVAKGTG O25925 305 92 -
DKYLSDMVKLPVYVGDEPLLAVAKGTG O54484 305 92 -
DKYLSDMVKLPVYVGDEPLLAVAKGTG Q9ZJL9 305 92 -
DKYLSEIVRLPVYIADEPLLAVAKGTG Q9PIL9 304 92 -
DFVLSEATKLPVIVADDALSCVALGTG Q9ZCH4 303 94 -
DKVLSDETNMPVIVAEEPLDCVAIGTG Q9K8H5 297 92 -
DKALSKNTGLSVITAPHPLLAVCLGTG O84715 323 93 -
DKALSKNTGLSVITAPHPLLAVCLGTG Q9PLL7 323 93 -
DKALSKNTGLSVITAPHPLLAVCLGTG Q9Z756 323 93 -
DAEIRDHTGLPVTVADDPLSCVALGCG Q9A821 303 94 -
DERLRRETGMPIHIAEDPLDSVALGSG Q9L1G6 298 92 -
DKVISEETKMPVLIAEDPLDCVAIGTG MREB_BACSU 297 92 -
DQLLAEELKVPVLVAENPMDCVAIGTG MBL_BACSU 292 92 -
DKFIQEVTQVPVYVAEDPVSCVALGTG Q97F83 295 92 -
QEWLTDEIDVPVHLAPSPLEAVAIGTG Q9KEK9 295 92 -
DMLLAEELKVPVLIAENPMHCVAVGTG MBL_BACCE 292 92 -
DKKIEQETGIKARYADEPLTSVAKGLG O67013 300 91 -
DQLLSEELRVPVLVAEDPMDCVAKGTG Q9K6J0 292 92 -
DTLLQKETGISVIRSEEPLTAVAKGAG Q9WZ57 294 94 -
DERLRRETGMPIHIAEDPLDSVALGSG O33619 297 93 -
NRLLSKETGVPVYVADNPLLSVAVGAG O51657 314 95 -
KEWLTEEIVVPVHVAQNPLESVAIGTG MREH_BACSU 295 92 -
PKLISKETHVPVILAENPMNCVAIGAG O83510 297 92 -
DRTIYDEIHVKTIVADDPITCVARGTG Q9X1N0 292 92 -
KERIYDEVGIPVEISDDPMTVVAKGAA O27103 311 93 -
DQMLRQATGMPVHIAERPDVCAVQGLG Q9L095 308 93 -