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PR00723

Identifier
SUBTILISIN  [View Relations]  [View Alignment]  
Accession
PR00723
No. of Motifs
3
Creation Date
31-OCT-1996  (UPDATE 28-JUN-1999)
Title
Subtilisin serine protease family (S8) signature
Database References

PROSITE; PS00136 SUBTILASE_ASP; PS00137 SUBTILASE_HIS; PS00138 SUBTILASE_SER

INTERPRO; IPR000209
PDB; 1SBT
SCOP; 1SBT
CATH; 1SBT
Literature References
1. RAWLINGS, N.D. AND BARRETT, A.J.
Families of serine peptidases.
METHODS ENZYMOL. 244 19-61 (1994).
 
2. RAWLINGS, N.D. AND BARRETT, A.J.
Evolutionary familes of peptidases.
BIOCHEM.J. 290 205-218 (1993).
  
3. SIEZEN, R.J. AND LEUNISSEN, J.A.M.
Subtilases: The superfamily of subtilisin-like serine proteases.
PROTEIN SCI. 6 501-523 (1997).

Documentation
Proteolytic enzymes that exploit serinein their catalytic activity are
ubiquitous, being found in viruses, bacteria and eukaryotes [1]. They 
include a wide range of peptidase activity, including exopeptidase, endo-
peptidase, oligopeptidase and omega-peptidase activity. Over 20 families
(denoted S1 - S27) of serine protease have been identified, these being
grouped into 6 clans (SA, SB, SC, SE, SF and SG) on the basis of structural
similarity and other functional evidence [1]. Structures are known for four
of the clans (SA, SB, SC and SE): these appear to be totally unrelated,
suggesting at least four evolutionary origins of serine peptidases and
possibly many more [1].
 
Notwithstanding their different evolutionary origins, there are similarities
in the reaction mechanisms of several peptidases. Chymotrypsin, subtilisin
and carboxypeptidase C clans have a catalytic triad of serine, aspartate and 
histidine in common: serine acts as a nucleophile, aspartate as an
electrophile, and histidine as a base [1]. The geometric orientations of
the catalytic residues are similar between families, despite different 
protein folds [1]. The linear arrangements of the catalytic residues
commonly reflect clan relationships. For example the catalytic triad in 
the chymotrypsin clan (SA) is ordered HDS, but is ordered DHS in the
subtilisin clan (SB) and SDH in the carboxypeptidase clan (SC) [1,2].
 
The subtilisin family (S8) is the second largest serine protease family
characterised to date. It is widespread, being found in eubacteria,
archaebacteria, eukaryotes and viruses [1]. The vast majority of the
family are endopeptidases, although there is an exopeptidase, tri-
peptidyl peptidase [1,2]. Structures have been determined for several 
members of the subtilisin family: they exploit the same catalytic triad as
the chymotrypsins, although the residues occur in a different order (HDS in
chymotrypsin and DHS in subtilisin), but the structures show no other
similarity [1,2]. Some subtilisins are mosaic proteins, and others 
contain N- and C-terminal extensions that show no sequence similarity to 
any other known protein [1].
 
The proprotein-processing endopeptidases kexin, furin and related enzymes
form a distinct subfamily known as the kexin subfamily. These preferentially
cleave C-terminally to paired basic amino acids. Members of this subfamily
can be identified by subtly different motifs around the active site [1,2].
Members of the kexin family, along with endopeptidases R, T and K from the
yeast Tritirachium and cuticle-degrading peptidase from Metarhizium, require
thiol activation. This can be attributed to the presence of Cys-173 near to
the active histidine [2].
 
Only 1 viral member of the subtilisin family is known, a 56kDa protease
from herpes virus 1, which infects the channel catfish [1]. The virus  
possesses a unique open reading frame insert, within which the protease
is found [1]; this has almost certainly been `captured' from another host. 
 
SUBTILISIN is a 3-element fingerprint that provides a signature for the
subtilisin-like family of serine proteases. The fingerprint was derived
from an initial alignment of 18 sequences: the motifs were drawn from 
conserved regions surrounding the active site - motif 1 includes the
region encoded by PROSITE pattern SUBTILASE_ASP (PS00136), which contains
the active Asp; motif 2 spans the region encoded by PROSITE pattern
SUBTILASE_HIS (PS00137), which contains the active His; and motif 3
includes the region encoded by PROSITE pattern SUBTILASE_SER (PS00138),
which contains the active Ser. Two iterations on OWL28.2 were required to
reach convergence, at which point a true set comprising 201 sequences was
identified. Three partial matches were also found: NRL_2SBT2 is a fragment
that lacks the first motif; ASPA_AERSA is a subtilase-like protease from
Aeromonas salmonicida that fails to make a significant match with motif 2,
although the catalytic histidine is present; and PRCA_ANAVA is calcium-
dependent protease from Anabaena variabilis that matches poorly with motif 3
and lacks the catalytic serine.
 
An update on SPTR37_9f identified a true set of 235 sequences, and 5
partial matches.
Summary Information
 235 codes involving  3 elements
5 codes involving 2 elements
Composite Feature Index
3235235235
2442
123
True Positives
AEP_YARLI     ALP_CEPAC     ALP_TRIHA     AQL1_THEAQ    
BLI4_CAEEL BPRV_BACNO BPRX_BACNO CUDP_METAN
ELY1_BACSP ELY2_BACSP ELYA_BACAO ELYA_BACSP
EPIP_STAEP FUR1_XENLA FUR2_DROME FURI_BOVIN
FURI_HUMAN FURI_MOUSE FURI_RAT FURL_DROME
FURS_DROME HLY_HAL17 ISP1_BACSU ISP6_SCHPO
ISP_BACSP ISP_PAEPO KEX1_KLULA KEX2_CANAL
KEX2_YEAST KRP1_SCHPO NEC1_HUMAN NEC1_MOUSE
NEC1_RAT NEC2_HUMAN NEC2_MOUSE NEC2_PIG
NEC2_RAT NEC3_MOUSE NECA_HYDAT NECB_HYDAT
NISP_LACLA O04190 O04678 O05458
O05461 O06316 O07613 O13304
O13305 O13464 O17797 O17798
O31788 O33076 O42797 O44762
O44763 O44764 O44765 O44766
O48798 O49607 O52767 O53695
O53945 O54327 O61142 O64481
O64495 O65351 O65834 O65835
O65836 O66153 O67764 O74236
O76251 O81324 O81899 O82006
O82007 O82777 O86642 O86650
O87655 O87811 O88064 O93577
O93583 ORYZ_ASPFL ORYZ_ASPFU ORYZ_ASPOR
P1P_LACLC P2P_LACLA P2P_LACPA P3P_LACLC
P70765 P71402 P72186 P74937
P87184 P87203 P91863 P93204
P93205 P93221 P95684 P96091
P97097 PAC4_HUMAN PAC4_RAT PAC6_MOUSE
PAC6_RAT PEPC_ASPNG PROA_VIBAL PROA_XANCP
PRTB_YEAST PRTK_TRIAL PRTM_BACSP PRTR_TRIAL
PRTS_SERMA PRTT_SERMA Q00206 Q00208
Q00226 Q00296 Q01707 Q05817
Q07213 Q07214 Q08845 Q10575
Q14703 Q14927 Q15099 Q15100
Q16549 Q16926 Q16944 Q16962
Q16966 Q16970 Q16971 Q16972
Q16973 Q17123 Q17124 Q17325
Q24301 Q25409 Q26352 Q26489
Q27235 Q27436 Q28959 Q38708
Q39547 Q40764 Q44684 Q45299
Q45300 Q45301 Q45464 Q45466
Q45467 Q45510 Q45521 Q45522
Q45523 Q45616 Q45621 Q45669
Q45670 Q45681 Q46540 Q46541
Q46547 Q48545 Q48674 Q51846
Q52055 Q52407 Q53294 Q53401
Q53521 Q53637 Q53863 Q54400
Q54437 Q54483 Q54484 Q55477
Q56365 Q56700 Q60424 Q60425
Q60426 Q61139 Q62094 Q62849
Q64560 Q91000 Q91065 Q92532
Q92824 Q94595 Q94977 Q96478
SCPA_STRPY SEPR_THESP SSA1_PASHA SUBB_BACLE
SUBE_BACSU SUBF_BACSU SUBN_BACNA SUBS_BACLE
SUBT_BACAM SUBT_BACLI SUBT_BACMS SUBT_BACS9
SUBT_BACSA SUBT_BACSD SUBT_BACST SUBT_BACSU
SUBV_BACSU TAGB_DICDI TAGC_DICDI THET_THEVU
TPP2_HUMAN TPP2_MOUSE WPRA_BACSU XPR6_YARLI
YCT5_YEAST YQS6_CAEEL YSP3_YEAST
True Positive Partials
Codes involving 2 elements
ASPA_AERSA O23358 O28620 PRCA_ANAVA
Q18772
Sequence Titles
AEP_YARLI   ALKALINE EXTRACELLULAR PROTEASE PRECURSOR (EC 3.4.21.-) (AEP) - YARROWIA LIPOLYTICA (CANDIDA LIPOLYTICA). 
ALP_CEPAC ALKALINE PROTEINASE PRECURSOR (EC 3.4.21.-) (ALP) - CEPHALOSPORIUM ACREMONIUM (ACREMONIUM CHRYSOGENUM).
ALP_TRIHA ALKALINE PROTEINASE PRECURSOR (EC 3.4.21.-) (ALP) - TRICHODERMA HARZIANUM.
AQL1_THEAQ AQUALYSIN I PRECURSOR (EC 3.4.21.-) - THERMUS AQUATICUS.
BLI4_CAEEL ENDOPROTEASE BLI-4 PRECURSOR (EC 3.4.21.-) (BLISTERASES A, B, C AND D) - CAENORHABDITIS ELEGANS.
BPRV_BACNO EXTRACELLULAR BASIC PROTEASE PRECURSOR (EC 3.4.21.-) - BACTEROIDES NODOSUS (DICHELOBACTER NODOSUS).
BPRX_BACNO EXTRACELLULAR SUBTILISIN-LIKE PROTEASE PRECURSOR (EC 3.4.21.-) - BACTEROIDES NODOSUS (DICHELOBACTER NODOSUS).
CUDP_METAN CUTICLE-DEGRADING PROTEASE PRECURSOR (EC 3.4.21.-) (PR1) (CHYMOELASTASE) - METARHIZIUM ANISOPLIAE.
ELY1_BACSP ALKALINE PROTEASE PRECURSOR (EC 3.4.21.-) - BACILLUS SP. (STRAIN 221).
ELY2_BACSP THERMOSTABLE ALKALINE PROTEASE PRECURSOR (EC 3.4.21.-) - BACILLUS SP. (STRAIN AH-101).
ELYA_BACAO ALKALINE PROTEASE PRECURSOR (EC 3.4.21.-) - BACILLUS ALCALOPHILUS.
ELYA_BACSP ALKALINE ELASTASE YAB PRECURSOR (EC 3.4.21.-) - BACILLUS SP. (STRAIN YAB).
EPIP_STAEP Epidermin leader peptide processing serine protease EPIP precursor (EC 3.4.21.-) - Staphylococcus epidermidis.
FUR1_XENLA FURIN 1 PRECURSOR (EC 3.4.21.75) (PAIRED BASIC AMINO ACID RESIDUE CLEAVING ENZYME) (PACE) (DIBASIC PROCESSING ENZYME) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
FUR2_DROME FURIN-LIKE PROTEASE 2 PRECURSOR (EC 3.4.21.75) (FURIN 2) - DROSOPHILA MELANOGASTER (FRUIT FLY).
FURI_BOVIN FURIN PRECURSOR (EC 3.4.21.75) (PAIRED BASIC AMINO ACID RESIDUE CLEAVING ENZYME) (PACE) (DIBASIC PROCESSING ENZYME) (TRANS GOLGI NETWORK PROTEASE FURIN) - BOS TAURUS (BOVINE).
FURI_HUMAN FURIN PRECURSOR (EC 3.4.21.75) (PAIRED BASIC AMINO ACID RESIDUE CLEAVING ENZYME) (PACE) (DIBASIC PROCESSING ENZYME) - HOMO SAPIENS (HUMAN).
FURI_MOUSE FURIN PRECURSOR (EC 3.4.21.75) (PAIRED BASIC AMINO ACID RESIDUE CLEAVING ENZYME) (PACE) (DIBASIC PROCESSING ENZYME) - MUS MUSCULUS (MOUSE).
FURI_RAT FURIN PRECURSOR (EC 3.4.21.75) (PAIRED BASIC AMINO ACID RESIDUE CLEAVING ENZYME) (PACE) (DIBASIC PROCESSING ENZYME) - RATTUS NORVEGICUS (RAT).
FURL_DROME FURIN-LIKE PROTEASE 1, LONG-FORM PRECURSOR (EC 3.4.21.75) (FURIN 1) (KEX2-LIKE ENDOPROTEASE 1) (DKLIP-1) (FURIN1-CRR) - DROSOPHILA MELANOGASTER (FRUIT FLY).
FURS_DROME FURIN-LIKE PROTEASE 1, SHORT-FORM PRECURSOR (EC 3.4.21.75) (FURIN 1) (KEX2-LIKE ENDOPROTEASE 1) (DKLIP-1) - DROSOPHILA MELANOGASTER (FRUIT FLY).
HLY_HAL17 HALOLYSIN PRECURSOR (EC 3.4.21.-) - HALOPHILIC BACTERIA STRAIN 172P1.
ISP1_BACSU MAJOR INTRACELLULAR SERINE PROTEASE (EC 3.4.21.-) (ISP-1) - BACILLUS SUBTILIS.
ISP6_SCHPO SEXUAL DIFFERENTIATION PROCESS PUTATIVE SUBTILASE-TYPE PROTEINASE ISP6 (EC 3.4.21.-) - SCHIZOSACCHAROMYCES POMBE (FISSION YEAST).
ISP_BACSP INTRACELLULAR ALKALINE PROTEASE (EC 3.4.21.-) - BACILLUS SP. (STRAIN 221).
ISP_PAEPO INTRACELLULAR SERINE PROTEASE (EC 3.4.21.-) - PAENIBACILLUS POLYMYXA (BACILLUS POLYMYXA).
KEX1_KLULA KEX1 PROTEASE PRECURSOR (EC 3.4.21.-) - KLUYVEROMYCES LACTIS (YEAST).
KEX2_CANAL KEXIN PRECURSOR (EC 3.4.21.61) (KEX2 PROTEASE) - CANDIDA ALBICANS (YEAST).
KEX2_YEAST KEXIN PRECURSOR (EC 3.4.21.61) (KEX2 PROTEASE) (PROTEINASE YSCF) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
KRP1_SCHPO DIBASIC PROCESSING ENDOPROTEASE PRECURSOR (EC 3.4.21.-) (KEX2-RELATED PROTEASE) - SCHIZOSACCHAROMYCES POMBE (FISSION YEAST).
NEC1_HUMAN NEUROENDOCRINE CONVERTASE 1 PRECURSOR (EC 3.4.21.93) (NEC 1) (PC1) (PROHORMONE CONVERTASE 1) (PROPROTEIN CONVERTASE 1) - HOMO SAPIENS (HUMAN).
NEC1_MOUSE NEUROENDOCRINE CONVERTASE 1 PRECURSOR (EC 3.4.21.93) (NEC 1) (PC1) (PROHORMONE CONVERTASE 1) (PROPROTEIN CONVERTASE 1) (PC3) (FURIN HOMOLOG) (PROPEPTIDE PROCESSING PROTEASE) - MUS MUSCULUS (MOUSE), AND MUS COOKII.
NEC1_RAT NEUROENDOCRINE CONVERTASE 1 PRECURSOR (EC 3.4.21.93) (NEC 1) (PC1) (PROHORMONE CONVERTASE 1) (PROPROTEIN CONVERTASE 1) - RATTUS NORVEGICUS (RAT).
NEC2_HUMAN NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.94) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (PROPROTEIN CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - HOMO SAPIENS (HUMAN).
NEC2_MOUSE NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.94) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (PROPROTEIN CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - MUS MUSCULUS (MOUSE).
NEC2_PIG NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.94) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (PROPROTEIN CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - SUS SCROFA (PIG).
NEC2_RAT NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.94) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (PROPROTEIN CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - RATTUS NORVEGICUS (RAT).
NEC3_MOUSE NEUROENDOCRINE CONVERTASE 3 PRECURSOR (EC 3.4.21.61) (NEC 3) (PC4) (PROHORMONE CONVERTASE 3) (KEX2-LIKE ENDOPROTEASE 3) - MUS MUSCULUS (MOUSE).
NECA_HYDAT PC3-LIKE ENDOPROTEASE VARIANT A PRECURSOR (EC 3.4.21.-) (SPC3) - HYDRA ATTENUATA (HYDRA) (HYDRA VULGARIS).
NECB_HYDAT PC3-LIKE ENDOPROTEASE VARIANT B PRECURSOR (EC 3.4.21.-) (SPC3) - HYDRA ATTENUATA (HYDRA) (HYDRA VULGARIS).
NISP_LACLA Nisin leader peptide processing serine protease NISP precursor (EC 3.4.21.-) - Lactococcus lactis (subsp. lactis) (Streptococcus lactis).
O04190 PUTATIVE CUCUMISIN SERINE PROTEASE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O04678 SUBTILISIN-LIKE PROTEASE - LYCOPERSICON ESCULENTUM (TOMATO).
O05458 HYPOTHETICAL 55.6 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
O05461 HYPOTHETICAL 45.1 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
O06316 HYPOTHETICAL 46.0 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
O07613 SUBTILISIN E PRECURSOR - BACILLUS SUBTILIS.
O13304 PROTEASE 1 - PNEUMOCYSTIS CARINII F. SP. CARINII.
O13305 PROTEASE 1 - PNEUMOCYSTIS CARINII F. SP. CARINII.
O13464 PROTEASE - EPICHLOE TYPHINA.
O17797 F11A6.1A PROTEIN - CAENORHABDITIS ELEGANS.
O17798 F11A6.1B PROTEIN - CAENORHABDITIS ELEGANS.
O31788 ALKALINE SERINE PROTEASE - BACILLUS SUBTILIS.
O33076 HYPOTHETICAL 45.7 KD PROTEIN - MYCOBACTERIUM LEPRAE.
O42797 SUBTILISIN-LIKE SERINE PROTEASE - PODOSPORA ANSERINA.
O44762 ALTERNATIVELY SPLICE FORM OF C. ELEGANS BLI-4 (PID: G459701) - CAENORHABDITIS ELEGANS.
O44763 ALTERNATIVELY SPLICED FORM OF C. ELEGANS BLI-4 (PID: G459701) - CAENORHABDITIS ELEGANS.
O44764 ALTERNATIVELY SPLICED FORM OF C. ELEGANS BLI-4 (PID: G459701) - CAENORHABDITIS ELEGANS.
O44765 ALTERNATIVELY SPLICED FORM OF C. ELEGANS BLI-4 (PID: G459701) - CAENORHABDITIS ELEGANS.
O44766 ALTERNATIVELY SPLICED FORM OF C. ELEGANS BLI-4 (PID: G459701) - CAENORHABDITIS ELEGANS.
O48798 F24O1.6 - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O49607 SUBTILISIN PROTEINASE - LIKE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O52767 EXTRACELLULAR ALKALINE SERINE PROTEASE - SHEWANELLA SP. AC10.
O53695 PUTATIVE PROTEASE - MYCOBACTERIUM TUBERCULOSIS.
O53945 HYPOTHETICAL 60.0 KD PROTEIN - MYCOBACTERIUM TUBERCULOSIS.
O54327 TOXIN DEGRADING PROTEASE - BACILLUS SPHAERICUS.
O61142 SUBTILISIN-LIKE PROTEASE PRECURSOR (PFSUB-1) - PLASMODIUM FALCIPARUM.
O64481 PUTATIVE SERINE PROTEINASE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O64495 F20D22.12 PROTEIN - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O65351 CUCUMISIN-LIKE SERINE PROTEASE - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O65834 P69C PROTEIN - LYCOPERSICON ESCULENTUM (TOMATO).
O65835 P69E PROTEIN - LYCOPERSICON ESCULENTUM (TOMATO).
O65836 P69F PROTEIN - LYCOPERSICON ESCULENTUM (TOMATO).
O66153 APRN - BACILLUS SP.
O67764 SERINE PROTEASE - AQUIFEX AEOLICUS.
O74236 SERINE PROTEASE PRECURSOR - FUSARIUM OXYSPORUM F. SP. LYCOPERSICI.
O76251 TRIPEPTIDYL PEPTIDASE II - DROSOPHILA MELANOGASTER (FRUIT FLY).
O81324 F6N15.3 PROTEIN - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O81899 HYPOTHETICAL 189.0 KD PROTEIN - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O82006 SUBTILISIN-LIKE PROTEASE - LYCOPERSICON ESCULENTUM (TOMATO).
O82007 SERINE PROTEASE - LYCOPERSICON ESCULENTUM (TOMATO).
O82777 SUBTILISIN-LIKE PROTEASE - LYCOPERSICON ESCULENTUM (TOMATO).
O86642 SERINE PROTEASE - STREPTOMYCES COELICOLOR.
O86650 PUTATIVE SECRETED SERINE PROTEASE - STREPTOMYCES COELICOLOR.
O87655 SUBTILISIN - BACILLUS SUBTILIS.
O87811 SERINE PROTEASE - PSEUDOMONAS TOLAASII.
O88064 PUTATIVE SECRETED SERINE PROTEASE - STREPTOMYCES COELICOLOR.
O93577 PROPROTEIN CONVERTASE PC2 PRECURSOR - RANA RIDIBUNDA (LAUGHING FROG) (MARSH FROG).
O93583 PROHORMONE CONVERTASE 1 PRECURSOR - RANA RIDIBUNDA (LAUGHING FROG) (MARSH FROG).
ORYZ_ASPFL ORYZIN PRECURSOR (EC 3.4.21.63) (ALKALINE PROTEINASE) (ALP) (ELASTASE) (ELASTINOLYTIC SERINE PROTEINASE) - ASPERGILLUS FLAVUS.
ORYZ_ASPFU ORYZIN PRECURSOR (EC 3.4.21.63) (ALKALINE PROTEINASE) (ALP) (ELASTASE) (ELASTINOLYTIC SERINE PROTEINASE) - ASPERGILLUS FUMIGATUS (SARTORYA FUMIGATA).
ORYZ_ASPOR ORYZIN PRECURSOR (EC 3.4.21.63) (ALKALINE PROTEINASE) (ALP) (ASPERGILLUS PROTEINASE B) (ASPERGILLOPEPTIDASE B) - ASPERGILLUS ORYZAE.
P1P_LACLC PI-TYPE PROTEINASE PRECURSOR (EC 3.4.21.-) (WALL-ASSOCIATED SERINE PROTEINASE) - LACTOCOCCUS LACTIS (SUBSP. CREMORIS) (STREPTOCOCCUS CREMORIS).
P2P_LACLA PII-TYPE PROTEINASE PRECURSOR (EC 3.4.21.96) (LACTOCEPIN) (CELL WALL- ASSOCIATED SERINE PROTEINASE) (LP151) - LACTOCOCCUS LACTIS (SUBSP. LACTIS) (STREPTOCOCCUS LACTIS).
P2P_LACPA PII-TYPE PROTEINASE PRECURSOR (EC 3.4.21.96) (LACTOCEPIN) (CELL WALL- ASSOCIATED SERINE PROTEINASE) (LP151) - LACTOBACILLUS PARACASEI.
P3P_LACLC PIII-TYPE PROTEINASE PRECURSOR (EC 3.4.21.96) (LACTOCEPIN) (CELL WALL- ASSOCIATED SERINE PROTEINASE) - LACTOCOCCUS LACTIS (SUBSP. CREMORIS) (STREPTOCOCCUS CREMORIS).
P70765 SERINE PROTEASE PRECURSOR - ALTEROMONAS SP.
P71402 SERINE PROTEASE HALOLYSIN R4 - HALOBACTERIUM MEDITERRANEI (HALOFERAX MEDITERRANEI).
P72186 PYROLYSIN - PYROCOCCUS FURIOSUS.
P74937 INTRACELLULAR ALKALINE PROTEASE - THERMOACTINOMYCES SP.
P87184 INTRACELLULAR VACUOLAR SERINE PROTEINASE PRECURSOR - ASPERGILLUS FUMIGATUS (SARTORYA FUMIGATA).
P87203 SERINE PROTEINASE PRECURSOR - AGARICUS BISPORUS (COMMON MUSHROOM).
P91863 F32A7.6 PROTEIN - CAENORHABDITIS ELEGANS.
P93204 SERINE PROTEASE, SBT1 - LYCOPERSICON ESCULENTUM (TOMATO).
P93205 SERINE PROTEASE, SBT2 - LYCOPERSICON ESCULENTUM (TOMATO).
P93221 PROTEINASE TMP - LYCOPERSICON ESCULENTUM (TOMATO).
P95684 SUBTILISIN-LIKE PROTEASE - STREPTOMYCES ALBOGRISEOLUS.
P96091 SERINE PROTEASE (DENTILISIN) FROM TREPONEMA DENTICOLA PRECURSOR (DENTILISIN) - TREPONEMA DENTICOLA.
P97097 PROTEASE - BACILLUS SP.
PAC4_HUMAN SUBTILISIN-LIKE PROTEASE PACE4 PRECURSOR (EC 3.4.21.-) - HOMO SAPIENS (HUMAN).
PAC4_RAT SUBTILISIN-LIKE PROTEASE PACE4 PRECURSOR (EC 3.4.21.-) - RATTUS NORVEGICUS (RAT).
PAC6_MOUSE SERINE PROTEASE PC6 PRECURSOR (EC 3.4.21.-) (SUBTILISIN/KEXIN-LIKE PROTEASE PC5) (CONVERTASE PC5) - MUS MUSCULUS (MOUSE).
PAC6_RAT SERINE PROTEASE PC6 PRECURSOR (EC 3.4.21.-) (SUBTILISIN/KEXIN-LIKE PROTEASE PC5) (CONVERTASE PC5) - RATTUS NORVEGICUS (RAT).
PEPC_ASPNG SUBTILISIN-LIKE SERINE PROTEASE PEPC PRECURSOR (EC 3.4.21.-) - ASPERGILLUS NIGER.
PROA_VIBAL ALKALINE SERINE EXOPROTEASE A PRECURSOR (EC 3.4.21.-) - VIBRIO ALGINOLYTICUS.
PROA_XANCP EXTRACELLULAR PROTEASE PRECURSOR (EC 3.4.21.-) - XANTHOMONAS CAMPESTRIS (PV. CAMPESTRIS).
PRTB_YEAST CEREVISIN PRECURSOR (EC 3.4.21.48) (VACUOLAR PROTEASE B) (PROTEINASE YSCB) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
PRTK_TRIAL PROTEINASE K PRECURSOR (EC 3.4.21.64) (TRITIRACHIUM ALKALINE PROTEINASE) (ENDOPEPTIDASE K) - TRITIRACHIUM ALBUM.
PRTM_BACSP M-PROTEASE (EC 3.4.21.-) - BACILLUS SP. (STRAIN KSM-K16).
PRTR_TRIAL PROTEINASE R PRECURSOR (EC 3.4.21.-) - TRITIRACHIUM ALBUM.
PRTS_SERMA EXTRACELLULAR SERINE PROTEASE PRECURSOR (EC 3.4.21.-) - SERRATIA MARCESCENS.
PRTT_SERMA EXTRACELLULAR SERINE PROTEASE PRECURSOR (EC 3.4.21.-) - SERRATIA MARCESCENS.
Q00206 SUBTILISIN-LIKE PROTEASE (EC 3.4.21.14) - ASPERGILLUS NIGER.
Q00208 ALKALINE PROTEASE - EMERICELLA NIDULANS (ASPERGILLUS NIDULANS).
Q00226 CUTICLE-DEGRADING SERINE PROTEASE PRECURSOR - ARTHROBOTRYS OLIGOSPORA.
Q00296 SUBTILISIN-LIKE PROTEASE PRECURSOR - BEAUVERIA BASSIANA (TRITIRACHIUM SHIOTAE).
Q01707 NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.61) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
Q05817 FURIN 1, ISOFORM DFURIN1-X PRECURSOR (EC 3.4.21.61) (FURIN 1-X) (KEX2-LIKE ENDOPROTEASE 1-X) - DROSOPHILA MELANOGASTER (FRUIT FLY).
Q07213 NEUROENDOCRINE CONVERTASE 3-A PRECURSOR (EC 3.4.21.61) (NEC 3-A) (PC4-A) (PROHORMONE CONVERTASE 3-A) (KEX2-LIKE ENDOPROTEASE 3-A) - RATTUS NORVEGICUS (RAT).
Q07214 NEUROENDOCRINE CONVERTASE 3-B PRECURSOR (EC 3.4.21.61) (NEC 3-B) (PC4-B) (PROHORMONE CONVERTASE 3-B) (KEX2-LIKE ENDOPROTEASE 3-B) - RATTUS NORVEGICUS (RAT).
Q08845 NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.61) (NEC 2) (PC2) (PROHORMONE CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q10575 NEUROENDOCRINE CONVERTASE 2 PRECURSOR (EC 3.4.21.94) (NEC2) (PC2) (PROHORMONE CONVERTASE 2) (KEX2-LIKE ENDOPROTEASE 2) - CAENORHABDITIS ELEGANS.
Q14703 KIAA0091 PROTEIN - HOMO SAPIENS (HUMAN).
Q14927 NEUROENDOCRINE CONVERTASE 2 - HOMO SAPIENS (HUMAN).
Q15099 PACE4C - HOMO SAPIENS (HUMAN).
Q15100 PACE4D - HOMO SAPIENS (HUMAN).
Q16549 PC8 PRECURSOR - HOMO SAPIENS (HUMAN).
Q16926 VITELLOGENIN CONVERTASE - AEDES AEGYPTI (YELLOWFEVER MOSQUITO).
Q16944 PROHORMONE CONVERTASE 1 - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16962 FURIN-LIKE PROHORMONE CONVERTASE - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16966 FUR - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16970 PC1A - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16971 PC1B - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16972 PREPRO-HORMONE CONVERTASE 2 PRECURSOR - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q16973 PC2 - APLYSIA CALIFORNICA (CALIFORNIA SEA HARE).
Q17123 SPC2 - BRANCHIOSTOMA CALIFORNIENSIS (CALIFORNIA LANCELET) (AMPHIOXUS).
Q17124 SPC3 - BRANCHIOSTOMA CALIFORNIENSIS (CALIFORNIA LANCELET) (AMPHIOXUS).
Q17325 CELFURPC PROTEIN - CAENORHABDITIS ELEGANS.
Q24301 DFURIN2 - DROSOPHILA MELANOGASTER (FRUIT FLY).
Q25409 STAGNALIS LPC2 - LYMNAEA STAGNALIS (GREAT POND SNAIL).
Q26352 LFUR2 - LYMNAEA STAGNALIS (GREAT POND SNAIL).
Q26489 ENDOPROTEASE FURIN - SPODOPTERA FRUGIPERDA (FALL ARMYWORM).
Q27235 DFURIN1-CRR - DROSOPHILA MELANOGASTER (FRUIT FLY).
Q27436 FURIN1 - DROSOPHILA MELANOGASTER (FRUIT FLY).
Q28959 PROHORMONE CONVERTASE PRECURSOR - SUS SCROFA (PIG).
Q38708 SUBTILISIN-LIKE PROTEASE - ALNUS GLUTINOSA (ALDER).
Q39547 PREPRO-CUCUMISIN PRECURSOR - CUCUMIS MELO (MUSKMELON).
Q40764 ANTIFREEZE-LIKE PROTEIN (AF70) - PICEA ABIES (NORWAY SPRUCE) (PICEA EXCELSA).
Q44684 PRECURSOR SUBTILISIN - BACILLUS AMYLOLIQUEFACIENS.
Q45299 SUBSTILISIN CARLSBERG PRECURSOR - BACILLUS LICHENIFORMIS.
Q45300 SUBSTILISIN CARLSBERG PRECURSOR - BACILLUS LICHENIFORMIS.
Q45301 SUBSTILISIN CARLSBERG PRECURSOR - BACILLUS LICHENIFORMIS.
Q45464 SPRB - BACILLUS SP.
Q45466 SPRC - BACILLUS SP.
Q45467 SPRD - BACILLUS SP.
Q45510 PARA - BACILLUS SUBTILIS.
Q45521 PREPRO APRM PRECURSOR - BACILLUS SP.
Q45522 PREPRO-SUBTILISIN SENDAI PRECURSOR - BACILLUS SP.
Q45523 PREPRO-SUBTILISIN ALP I PRECURSOR - BACILLUS SP.
Q45616 90K-PROTEASE (BACILLOPEPTIDASE F) PRECURSOR (BACILLOPEPTIDASE F) - BACILLUS SUBTILIS.
Q45621 A INTRACELLULAR SERINE PROTEASE - BACILLUS SP.
Q45669 ALKALINE SERINE PROTEINASE - BACILLUS SMITHII.
Q45670 SERINE PROTEINASE - BACILLUS SP.
Q45681 MICROBIAL SERINE PROTEINASES (EC 3.4.21.14) - BACILLUS SUBTILIS.
Q46540 V2 PROTEASE PRECURSOR - BACTEROIDES NODOSUS (DICHELOBACTER NODOSUS).
Q46541 ACIDIC PROTEASE V5 - BACTEROIDES NODOSUS (DICHELOBACTER NODOSUS).
Q46547 SERINE PROTEASE PRECURSOR - BACTEROIDES NODOSUS (DICHELOBACTER NODOSUS).
Q48545 PROTEINASE (PRTB) PRECURSOR (PRTB) - LACTOBACILLUS DELBRUECKII.
Q48674 NISP (NISP PROTEIN) - Lactococcus lactis.
Q51846 SEROTYPE-1-SPECIFIC ANTIGEN - PASTEURELLA HAEMOLYTICA.
Q52055 CLYA PROTEIN - Enterococcus faecalis (Streptococcus faecalis).
Q52407 ALKALINE SERINE PROTEASE PRECURSOR - PSEUDOMONAS SP.
Q53294 THERMOSTABLE ALKALINE SERINE PROTEASE - BACILLUS SP. AH-101.
Q53401 ALKALINE SERINE PROTEASE II - ALTEROMONAS SP.
Q53521 KERATINASE - BACILLUS LICHENIFORMIS.
Q53637 SCPB - STREPTOCOCCUS AGALACTIAE.
Q53863 SERINE PROTEASE - STREPTOMYCES COELICOLOR.
Q54400 SUBTILISIN-LIKE PROTEASE PRECURSOR - STREPTOMYCES LIVIDANS.
Q54437 STABLE PROTEASE PRECURSOR - STAPHYLOTHERMUS MARINUS.
Q54483 SSP-H1 - SERRATIA MARCESCENS.
Q54484 SSP-H2 - SERRATIA MARCESCENS.
Q55477 SERINE PROTEINASE - SYNECHOCYSTIS SP. (STRAIN PCC 6803).
Q56365 THERMOSTABLE ALKALINE PROTEASE - THERMOACTINOMYCES SP.
Q56700 ALKALINE SERINE PROTEASE (VAPT) (EC 3.4.21.14) - VIBRIO METSCHNIKOVII.
Q60424 TRUNCATED FURIN ENDOPROTEASE - CRICETULUS GRISEUS (CHINESE HAMSTER).
Q60425 TRUNCATED FURIN ENDOPROTEASE - CRICETULUS GRISEUS (CHINESE HAMSTER).
Q60426 FURIN ENDOPROTEASE - CRICETULUS GRISEUS (CHINESE HAMSTER).
Q61139 PROPROTEIN CONVERTASE SUBTILISIN/KEXIN TYPE 7 PRECURSOR (SUBTILISIN-LIKE PROTEASE SPC7) (EC 3.4.21.-) (SERINE PROTEASE SPC7) (CONVERTASE SPC7) - MUS MUSCULUS (MOUSE).
Q62094 PROPROTEIN CONVERTASE 4 - MUS MUSCULUS (MOUSE).
Q62849 SERINE PROTEASE PC7 PRECURSOR (EC 3.4.21.-) (SUBTILISIN/KEXIN-LIKE PROTEASE PC7) (CONVERTASE PC7) - RATTUS NORVEGICUS (RAT).
Q64560 TRIPEPTIDYLPEPTIDASE II (EC 3.4.14.10) (TRIPEPTIDYL-PEPTIDASE II) (TRIPEPTIDYL AMINOPEPTIDASE) (TRIPEPTIDYL PEPTIDASE) - RATTUS NORVEGICUS (RAT).
Q91000 TRANS GOLGI NETWORK PROTEASE FURIN - GALLUS GALLUS (CHICKEN).
Q91065 ENDOPEPTIDASE PC1 - LOPHIUS AMERICANUS (AMERICAN GOOSEFISH) (ANGLERFISH).
Q92532 PROHORMONE CONVERTASE 3 - HOMO SAPIENS (HUMAN).
Q92824 PC6A PROTEASE - HOMO SAPIENS (HUMAN).
Q94595 KEX2-LIKE PROTEASE - TACHYPLEUS TRIDENTATUS (JAPANESE HORSESHOE CRAB).
Q94977 PC2-LIKE PROHORMONE CONVERTASE - LUCILIA CUPRINA (GREENBOTTLE FLY) (AUSTRALIAN SHEEP BLOWFLY).
Q96478 SUBTILISIN-LIKE ENDOPROTEASE - LYCOPERSICON ESCULENTUM (TOMATO).
SCPA_STRPY C5A PEPTIDASE PRECURSOR (EC 3.4.21.-) (SCP) - STREPTOCOCCUS PYOGENES.
SEPR_THESP EXTRACELLULAR SERINE PROTEINASE PRECURSOR (EC 3.4.21.-) - THERMUS SP. (STRAIN RT41A).
SSA1_PASHA SEROTYPE-SPECIFIC ANTIGEN 1 PRECURSOR (EC 3.4.21.-) - PASTEURELLA HAEMOLYTICA.
SUBB_BACLE SUBTILISIN BL (EC 3.4.21.62) (ALKALINE PROTEASE) - BACILLUS LENTUS.
SUBE_BACSU MINOR EXTRACELLULAR PROTEASE EPR PRECURSOR (EC 3.4.21.-) - BACILLUS SUBTILIS.
SUBF_BACSU BACILLOPEPTIDASE F PRECURSOR (EC 3.4.21.-) (ESTERASE) (RP-I PROTEASE) (90 KD SERINE PROTEINASE) - BACILLUS SUBTILIS.
SUBN_BACNA SUBTILISIN NAT PRECURSOR (EC 3.4.21.62) - BACILLUS SUBTILIS VAR. NATTO.
SUBS_BACLE SUBTILISIN SAVINASE (EC 3.4.21.62) (ALKALINE PROTEASE) - BACILLUS LENTUS.
SUBT_BACAM SUBTILISIN BPN' PRECURSOR (EC 3.4.21.62) (SUBTILISIN NOVO) (ALKALINE PROTEASE) - BACILLUS AMYLOLIQUEFACIENS.
SUBT_BACLI SUBTILISIN CARLSBERG PRECURSOR (EC 3.4.21.62) - BACILLUS LICHENIFORMIS.
SUBT_BACMS SUBTILISIN (EC 3.4.21.62) (ALKALINE MESENTERICOPEPTIDASE) - BACILLUS MESENTERICUS.
SUBT_BACS9 SUBTILISIN PRECURSOR (EC 3.4.21.62) - BACILLUS SP. (STRAIN TA39).
SUBT_BACSA SUBTILISIN AMYLOSACCHARITICUS PRECURSOR (EC 3.4.21.62) - BACILLUS SUBTILIS VAR. AMYLOSACCHARITICUS.
SUBT_BACSD SUBTILISIN (EC 3.4.21.62) - BACILLUS SUBTILIS (STRAIN DY).
SUBT_BACST SUBTILISIN J PRECURSOR (EC 3.4.21.62) - BACILLUS STEAROTHERMOPHILUS.
SUBT_BACSU SUBTILISIN E PRECURSOR (EC 3.4.21.62) - BACILLUS SUBTILIS.
SUBV_BACSU MINOR EXTRACELLULAR PROTEASE VPR PRECURSOR (EC 3.4.21.-) - BACILLUS SUBTILIS.
TAGB_DICDI PRESTALK-SPECIFIC PROTEIN TAGB PRECURSOR (EC 3.4.21.-) - DICTYOSTELIUM DISCOIDEUM (SLIME MOLD).
TAGC_DICDI PRESTALK-SPECIFIC PROTEIN TAGC PRECURSOR (EC 3.4.21.-) - DICTYOSTELIUM DISCOIDEUM (SLIME MOLD).
THET_THEVU THERMITASE (EC 3.4.21.66) - THERMOACTINOMYCES VULGARIS.
TPP2_HUMAN TRIPEPTIDYL-PEPTIDASE II (EC 3.4.14.10) (TPP II) (TRIPEPTIDYL AMINOPEPTIDASE) - HOMO SAPIENS (HUMAN).
TPP2_MOUSE TRIPEPTIDYL-PEPTIDASE II (EC 3.4.14.10) (TPP II) (TRIPEPTIDYL AMINOPEPTIDASE) - MUS MUSCULUS (MOUSE).
WPRA_BACSU CELL WALL-ASSOCIATED PROTEASE PRECURSOR (EC 3.4.21.-) [CONTAINS: CELL WALL-ASSOCIATED POLYPEPTIDES CWBP23 AND CWBP52] - BACILLUS SUBTILIS.
XPR6_YARLI DIBASIC PROCESSING ENDOPROTEASE PRECURSOR (EC 3.4.21.-) - YARROWIA LIPOLYTICA (CANDIDA LIPOLYTICA).
YCT5_YEAST HYPOTHETICAL SUBTILASE-TYPE PROTEINASE IN TSM1-ARE1 INTERGENIC REGION PRECURSOR (EC 3.4.21.-) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
YQS6_CAEEL HYPOTHETICAL SUBTILASE-TYPE PROTEINASE F21H12.6 IN CHROMOSOME II (EC 3.4.21.-) - CAENORHABDITIS ELEGANS.
YSP3_YEAST SUBTILISIN-LIKE PROTEASE III PRECURSOR (EC 3.4.24.-) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).

ASPA_AERSA MICROBIAL SERINE PROTEINASE PRECURSOR (EC 3.4.21.-) - AEROMONAS SALMONICIDA.
O23358 CUCUMISIN - ARABIDOPSIS THALIANA (MOUSE-EAR CRESS).
O28620 ALKALINE SERINE PROTEASE (APRM) - ARCHAEOGLOBUS FULGIDUS.
PRCA_ANAVA CALCIUM DEPENDENT PROTEASE PRECURSOR (EC 3.4.21.-) - ANABAENA VARIABILIS.
Q18772 C51E3.7B PROTEIN - CAENORHABDITIS ELEGANS.
Scan History
OWL28_2    2  250  NSINGLE    
SPTR37_9f 2 350 NSINGLE
Initial Motifs
Motif 1  width=20
Element Seqn Id St Int Rpt
GKGIKVAIIDTGVEYNHPDL SUBV_BACSU 180 180 -
GENVTVAFVDDGIDFKHPDL KRP1_SCHPO 153 153 -
GTGTVVASIDTGVEWNHPAL SUBF_BACSU 218 218 -
GEGTYAYVVDSGVNVDHEEF ORYZ_ASPOR 153 153 -
GSNVKVAVIDSGIDSSHPDL NRL_1SBT 23 23 -
GRGVKVAVLDTGCDADHPDL ISP_BACPO 40 40 -
GKGVKVAVIDTGIASNHPDL BACSEPR 123 123 -
SKKISVGIIDSGIMEEHPDL NISP_LACLA 250 250 -
KHPTVSYVVDSGIRTTHSEF AEP_YARLI 191 191 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACAM 130 130 -
GSGVKVAVLDTGISTHPDLN SUBB_BACLE 23 23 -
GKGVVVTILDDGLESDHPDI FURL_DROME 363 363 -
GNGARVAVLDTGIASHPDLR ELY2_BACSP 115 115 -
GRGVNVYVIDTGIRTTHREF AQL1_THEAQ 157 157 -
GSGAKIAIVDTGVQSNHPDL THET_THEVU 29 29 -
GKNIVVTILDDGIERTHPDL PAC6_RAT 164 164 -
GKGVTIGIMDDGIDYLHPDL NEC2_HUMAN 158 158 -
GRGVTSYVIDTGVNINHKDF PRTB_YEAST 316 316 -

Motif 2 width=14
Element Seqn Id St Int Rpt
EATDHGTHVAGTVA SUBV_BACSU 229 29 -
DDNGHGTHVAGIIG BACSEPR 161 18 -
DYNGHGTHVAGTIA ISP_BACPO 82 22 -
DDNSHGTHVAGTVA NRL_1SBT 60 17 -
DNNSHGTHVAGTVA SUBT_BACAM 167 17 -
DGNGHGTHVAGTIA SUBB_BACLE 58 15 -
DSNRHGTRCAGEVA FURL_DROME 409 26 -
DNNGHGTHVAGTIA ELY2_BACSP 150 15 -
DCNGHGTHVAGTIG AQL1_THEAQ 193 16 -
NGNGHGTHCAGIAA THET_THEVU 67 18 -
NENKHGTRCAGEVA PAC6_RAT 210 26 -
WFNSHGTRCAGEVS NEC2_HUMAN 204 26 -
DGNGHGTHCAGTIA PRTB_YEAST 353 17 -
SDDQHGTRCAGEVA KRP1_SCHPO 196 23 -
DDLAHGTHVTGTMV SUBF_BACSU 270 32 -
DSIGHGTHVSGTIA ORYZ_ASPOR 189 16 -
DLLGHGTHVAGTVG AEP_YARLI 227 16 -
DKMGHGTEVAGQIT NISP_LACLA 302 32 -

Motif 3 width=17
Element Seqn Id St Int Rpt
SGTSMATPHIVGLSLYL ORYZ_ASPOR 346 143 -
SGTSMACPHVAGLASYY AEP_YARLI 394 153 -
YGNSFATPKVSGALALV NISP_LACLA 509 193 -
NGTSMASPHVAGAAALI SUBT_BACAM 325 144 -
NGTSMASPHVAGAAALI NRL_1SBT 218 144 -
SGTSMATPHVAGALALI ISP_BACPO 241 145 -
NGTSMATPHVAGAAALV SUBB_BACLE 212 140 -
TGTSASAPLAAGIAALV FURL_DROME 584 161 -
SGTSMATPHVAGVAALV ELY2_BACSP 304 140 -
NGTSMATPHVAGVAALY AQL1_THEAQ 346 139 -
SGTSMATPHVAGVAGLL THET_THEVU 222 141 -
TGTSASAPMAAGIIALA PAC6_RAT 385 161 -
SGTSAAAPEAAGVFALA NEC2_HUMAN 381 163 -
SGTSMASPHVAGLLTYF PRTB_YEAST 516 149 -
QGTSMASPHIAGAVAVI SUBV_BACSU 531 288 -
SGTSMALPHLYTGALAA BACSEPR 328 153 -
GGTSAAAPLASAVYALA KRP1_SCHPO 368 158 -
DGTSMAGPHVSAVAALL SUBF_BACSU 449 165 -
Final Motifs
Motif 1  width=20
Element Seqn Id St Int Rpt
GSGVKVAVLDTGIDASHEDL Q45467 126 126 -
GSGVKVAILDTGIDANHADL Q45466 126 126 -
GRGVKVAVLDTGCDADHPDL ISP_PAEPO 40 40 -
GANVKVAVLDTGIQASHPDL Q45300 128 128 -
GANVKVAVLDTGIQASHPDL SUBT_BACLI 128 128 -
GANVKVAVLDTGIQASHPDL Q45301 128 128 -
GANVKVAVLDTGIQASHPDL Q45299 128 128 -
GANVKVAVLDTGIQASHPDL Q53521 128 128 -
GSGVVVAVLDTGVDPNHPFL P72186 170 170 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACAM 130 130 -
GSNVKVAVIDSGIDSSHPDL Q44684 124 124 -
GSNVKVAVIDSGIDSSHPDL O87655 130 130 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACSU 129 129 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACST 129 129 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACSA 129 129 -
GSNVKVAVIDSGIDSSHPDL SUBT_BACMS 23 23 -
GSNVKVAVIDSGIDSSHPDL SUBN_BACNA 129 129 -
GSNVKVAVIDSGIDSSHPDL O07613 129 129 -
GTGVRVAVLDTGISTHPDLN Q45522 136 136 -
GKNIKVAVLDTGCDTSHPDL ISP1_BACSU 41 41 -
GANVKVGIIDTGIAASHTDL SUBT_BACSD 23 23 -
GSGVKVAVLDTGISTHPDLN PRTM_BACSP 23 23 -
GKGIVVAVLDDGIEKDHPDL Q17124 165 165 -
GSGVKVAVLDTGISTHPDLN SUBS_BACLE 23 23 -
GSGVKVAVLDTGISTHPDLN SUBB_BACLE 23 23 -
GSGVKVAVLDTGISTHPDLN ELYA_BACAO 134 134 -
GSGVKVAVLDTGISTHPDLN ELY1_BACSP 134 134 -
GKGVVVTILDDGLESDHPDL Q16926 259 259 -
GAGQIIGVIDTGCQVDHPDL ISP_BACSP 40 40 -
GKGVKIAVLDTGVDATHPDL P95684 215 215 -
GTGVRVAVLDTGISNHADLR O66153 133 133 -
GKGVVVTILDDGLESDHPDI FURL_DROME 363 363 -
GKGVVVTILDDGLESDHPDI FURS_DROME 363 363 -
GKGVVVTILDDGLESDHPDI Q05817 363 363 -
GKGVVVTILDDGLESDHPDI Q27235 363 363 -
GKGVVVTILDDGLESDHPDI Q27436 363 363 -
SSTQTVAVLDSGVDYNHPDL P97097 147 147 -
GKGIVVSILDDGIEKNHPDL Q91000 145 145 -
GKGIVVSILDDGIEKNHPDL FUR1_XENLA 142 142 -
GNGARVAVLDTGIASHPDLR ELY2_BACSP 115 115 -
GNGARVAVLDTGIASHPDLR Q53294 115 115 -
GNGARVAVLDTGIASHPDLR Q45521 115 115 -
GKGVVVSILDDGIQTNHPDL Q26489 170 170 -
GKGVVVSILDDGIQTNHPDL Q24301 408 408 -
GKGVVVSILDDGIQTNHPDL FUR2_DROME 409 409 -
GNGVKVAVLDTGVAPHPDLH Q45523 124 124 -
GKGVVVTILDDGLERTHPDI Q17325 212 212 -
GKGVVVTILDDGLERTHPDI O17798 212 212 -
GKGVVVTILDDGLERTHPDI O17797 212 212 -
GRGVVVSILDDGIEKDHPDL Q07214 146 146 -
GRGVVVSILDDGIEKDHPDL Q07213 146 146 -
GRGVNVYVIDTGIRTTHREF AQL1_THEAQ 157 157 -
GTGVRVAVLDTGISNHADLR ELYA_BACSP 132 132 -
GRGIVVSILDDGIEKNHPDL FURI_RAT 144 144 -
GQGSCVYVIDTGIEASHPEF PRTK_TRIAL 135 135 -
GHGIVVSILDDGIEKNHPDL Q60426 144 144 -
GHGIVVSILDDGIEKNHPDL Q60425 144 144 -
GHGIVVSILDDGIEKNHPDL Q60424 144 144 -
GHGIVVSILDDGIEKNHPDL FURI_MOUSE 144 144 -
GHGIVVSILDDGIEKNHPDL FURI_HUMAN 144 144 -
GEGVTVAVIDTGVTRVPDLR Q55477 139 139 -
GSGAKIAIVDTGVQSNHPDL THET_THEVU 29 29 -
GKNVVVTILDDGIERNHPDL PAC4_HUMAN 196 196 -
GKNVVVTILDDGIERNHPDL PAC4_RAT 177 177 -
GKNVVVTILDDGIERNHPDL Q15099 196 196 -
GKNVVVTILDDGIERNHPDL Q15100 29 29 -
GAGTTVYVIDTGIRISHDEF Q00226 154 154 -
SSGQEIAVIDTGVDYTHPDL Q45670 151 151 -
GQGTCVYVIDTGVEASHPEF PRTR_TRIAL 138 138 -
GKGIVVAVLDTGCDVEHYEL P74937 40 40 -
GVGVIIGVLDTGILPDHPSF O65836 137 137 -
GRGVVISILDDGIEKDHPDL NEC3_MOUSE 146 146 -
GRGVVISILDDGIEKDHPDL Q62094 146 146 -
GKGVTVAVVDTGIYPHPDLE O31788 146 146 -
SSSTVIAIVDTGVQTNHPDL Q56365 134 134 -
GRGIVVSILDDGIEKNHPDL FURI_BOVIN 144 144 -
GKGVVVTILDDGLEKDHPDI Q94595 156 156 -
GKGIVVTILDDGIERTHPDL Q16971 184 184 -
GKGIVVTILDDGIERTHPDL Q16944 175 175 -
GKNIVVTILDDGIERTHPDL PAC6_MOUSE 164 164 -
GKNIVVTILDDGIERTHPDL Q92824 164 164 -
GKNIVVTILDDGIERTHPDL PAC6_RAT 164 164 -
GRNVSVSILDDGIQRDHPDL O44766 193 193 -
GRNVSVSILDDGIQRDHPDL O44765 193 193 -
GRNVSVSILDDGIQRDHPDL O44764 193 193 -
GRNVSVSILDDGIQRDHPDL O44763 193 193 -
GRNVSVSILDDGIQRDHPDL O44762 193 193 -
GRNVSVSILDDGIQRDHPDL BLI4_CAEEL 193 193 -
GTGVTAYVIDTGVNNAHVEF PROA_VIBAL 171 171 -
GKGVTIAIMDDGIDYLHPDL O93577 156 156 -
GSGINIAVLDTGVNISHPDL O54327 149 149 -
GTGVTAYVIDTGVRISHNEF Q53401 152 152 -
GQGVVVAVLDTGYRPHLDLD P70765 182 182 -
GKGVVVTILDDGIEIDHPDL Q16966 139 139 -
GKGVVITVLDDGLEWNHTDI NEC1_HUMAN 158 158 -
GKGVVITVLDDGLEWNHTDI Q92532 158 158 -
GKGVVITVLDDGLEWNHTDI Q28959 158 158 -
GKGVVITVLDDGLEWNHTDI NEC1_RAT 158 158 -
GKGVVITVLDDGLEWNHTDI NEC1_MOUSE 158 158 -
GRGVTIAIMDDGIDYLHPDL Q01707 159 159 -
GKGVTIGIMDDGIDYLHPDL Q14927 158 158 -
GKGVTIGIMDDGIDYLHPDL NEC2_RAT 157 157 -
GKGVTIGIMDDGIDYLHPDL NEC2_PIG 158 158 -
GKGVTIGIMDDGIDYLHPDL NEC2_MOUSE 157 157 -
GKGVTIGIMDDGIDYLHPDL NEC2_HUMAN 158 158 -
GKNVTTAIMDDGVDYMHPDL Q94977 208 208 -
GAGVHAYVVDTGILLSHQEF SEPR_THESP 160 160 -
GNGVVITVLDDGLEWNHTDI Q91065 165 165 -
GKGSVVTVLDDGLEWNHTDI O93583 159 159 -
GRGVTSYVIDTGVNINHKDF PRTB_YEAST 316 316 -
GSGVDIFIVDTGILTTHSQF P87203 139 139 -
GQGTCVYIIDTGIEASHPEF CUDP_METAN 139 139 -
GKNIVVAILDDGLEHNHPDL Q16962 141 141 -
GKNIVVAILDDGLEHNHPDL Q16970 141 141 -
GEGVTIAIMDDGVDYLHPDL Q17123 165 165 -
GKGVTSYVLDTGIDTEHEDF YSP3_YEAST 204 204 -
GRGIVISVLDDGLDWTHPDL NECA_HYDAT 193 193 -
GRGIVISVLDDGLDWTHPDL NECB_HYDAT 193 193 -
GKGACVYVIDTGVDDRHPVR O13464 165 165 -
SRKVTVAVIDTGVDDTHPDI Q54400 175 175 -
GKGVIIGVLDTGILPDHPSF O65835 137 137 -
GGNTVVAVLDTGCETTHIEF Q45621 40 40 -
GAGINIAVLDTGVNTNHPDL Q45681 135 135 -
GAGVTTAIMDDGIDYLHEDL Q25409 178 178 -
GAGVTTAIMDDGIDYLHEDL Q16973 178 178 -
GAGVTTAIMDDGIDYLHEDL Q16972 178 178 -
GAGVTTAIMDDGIDYLHEDL Q08845 178 178 -
AANRKVCVIDSGYLRNHVDL Q52407 160 160 -
GKNIVVTILDDGLERTHPDL Q26352 159 159 -
GGGINIAVLDTGVNTNHPDL SUBT_BACS9 136 136 -
GKGVRVAVIDTGVDDDNPQL O86642 78 78 -
GKGVRVAVIDTGVDDDNPQL Q53863 55 55 -
GKGVIIGVIDTGILPDHPSF O82007 137 137 -
GKGIKVAIIDTGVEYNHPDL SUBV_BACSU 180 180 -
GKGVKVAVIDTGIASNHPDL Q45669 123 123 -
GKGVIIGVLDTGIIPDHPSF O65834 137 137 -
GSGTVVAVIDTGITSHADLN PROA_XANCP 168 168 -
GKGVIIGVIDTGIIPDHPSF O04678 137 137 -
GRGVTVVVVDDGVETHRQDI Q61139 177 177 -
GEGTCAYVIDTGIQLQDFDG O74236 141 141 -
GDNITAYVVDTGVSIHHVEF ISP6_SCHPO 212 212 -
GRGVTVVVVDDGVEHTVQDI Q62849 177 177 -
GRGVTVVVVDDGVEHTIQDI Q16549 178 178 -
GKGVIIGVIDTGILPDHPSF Q96478 137 137 -
GKGVTVAVVDTGIVNHPDLN BPRX_BACNO 162 162 -
GKGVTVAVVDTGIVNHPDLN Q46541 162 162 -
GEGVDAYVIDTGTNVDHVDF O42797 182 182 -
GEGVDAYTIDTGINVDHVDF P87184 173 173 -
DHNVIVGVLDTGIWPESPSF P93205 142 142 -
GNGIGVVVNDSGVDGTHKDH Q45464 151 151 -
GKNITTAIMDDGVDYMHPDI Q10575 165 165 -
GAGVVIGMIDTGINPFHPSF P93221 139 139 -
GEGVDAYTIDTGINVDHVDF PEPC_ASPNG 172 172 -
GWGVVTAVVDDGLDMNAEDI XPR6_YARLI 302 302 -
GQNVVVAVVDTGILHHRDLN Q46540 161 161 -
GENVTVAFVDDGIDFKHPDL KRP1_SCHPO 153 153 -
GQDVIVAVLDSGIWPESASF O82777 135 135 -
GSGTYAYVVDTGILESHNEF ALP_CEPAC 151 151 -
GQGVVVSVVDTGILDHVDLN Q46547 164 164 -
GQGVVVSVVDTGILDHVDLN BPRV_BACNO 164 164 -
GAGVVAAIVDDGLDYENEDL KEX2_YEAST 166 166 -
GKNIKIAVIDSGISPHDDLS SUBE_BACSU 133 133 -
GQDVNAYIMDTGIFADHPEF YCT5_YEAST 165 165 -
GANVRVAVFDTGLSEKHPHF Q14703 209 209 -
GAGITVAVLDTGVEADHPDL O88064 55 55 -
GEGTVVSVIDTGIDPTHKDM P2P_LACPA 208 208 -
GKGVTVAIADNGLDYTNKDL O13304 205 205 -
GEGTYAYVVDTGILATHNEF Q00206 153 153 -
GAGQRVAVIDTGVARHRRLP O06316 89 89 -
SSSVKIAVVDQGVKYDHPDL P71402 145 145 -
AGNRTICIIDSGYDRSHNDL O52767 164 164 -
GEGTYAYVVDTGINADHEEF Q00208 152 152 -
GYGVVAALVDDGLDYENEDL KEX1_KLULA 155 155 -
GEGTVVSVIDSGIDPTHKDM P1P_LACLC 208 208 -
GEGTVVSVIDSGIDPTHKDM P2P_LACLA 208 208 -
GEGTVVSVIDSGIDPTHKDM P3P_LACLC 208 208 -
GQDMIIGVLDSGIWPESASF O82006 143 143 -
GEGMVISIIDTGIDSSHQDL Q48545 213 213 -
GKNVTVAIVDDGLDYTNKDL O13305 199 199 -
GEDIVIGFVDTGINPTHPSF O48798 95 95 -
LNDTLIAVVDTGVDSTLADL WPRA_BACSU 453 453 -
GEDVIIGVIDSGVWPESDSF Q38708 136 136 -
GEDIVIGFVDSGIYPHHPSF O64481 151 151 -
GTGTVVASIDTGVEWNHPAL SUBF_BACSU 218 218 -
AGNQTICIIDSGYDLAHNDL Q56700 140 140 -
GQGTIIGVLDTGVWPESPSF O64495 137 137 -
SQEVYVAVFDTGVDYNHPDL O67764 99 99 -
GEGQLVAIIDTGVQPGPRLP O53695 86 86 -
VMSTRICVIDSGIDYNHPDL O61142 365 365 -
GEGIVVGIVDTGIDLSNPDL Q54437 203 203 -
GAGTCVYVIDTGVDASHPNF Q00296 131 131 -
GAGTYAYVVDSGINVNHVEF ORYZ_ASPFU 153 153 -
DKTVVAGIIDTGINMKHKDF P96091 194 194 -
GSDVIIGVFDTGIWPERRSF O49607 122 122 -
GSGAIIGVIDSGIWSESGSF O81899 473 473 -
GRGVLIAVLDTGVDPGAPGM Q64560 35 35 -
GRGVLIAVLDTGVDPGAPGM TPP2_MOUSE 35 35 -
GRGVLIAVLDTGVDPGAPGM TPP2_HUMAN 35 35 -
GNGVKIGALDSGFDPAHPEA O87811 65 65 -
RSEVIIGVLDTGVWPESKSF P93204 130 130 -
ERDVIIGVLDTGITPDSESF O81324 80 80 -
ESNIVVGVLDTGIWPESPSF Q39547 131 131 -
GAGTFAYVVDSGINTSHQQF ALP_TRIHA 152 152 -
GKGITIGVIDNAILSHSEFS PRTS_SERMA 67 67 -
GQGIVTALVDDGVDAESDDI KEX2_CANAL 204 204 -
GTGTVVASIDTGVEWNHPAL Q45616 218 218 -
YSDVVVGVLDTGVWPESKSY O65351 130 130 -
GEGTYAYVVDSGVNVDHEEF ORYZ_ASPOR 153 153 -
KHPTVSYVVDSGIRTTHSEF AEP_YARLI 191 191 -
GAGTVVAVIDAGFDKNHEAW Q53637 121 121 -
GAGTVVAVIDAGFDKNHEAW SCPA_STRPY 121 121 -
GAGVTVAVIDTGVDASPRVP O05461 81 81 -
GRGITVAVIDTGVDDSLPDL O86650 57 57 -
DPGVTISVVDQGIQYDHEDL HLY_HAL17 148 148 -
GDGVKVAVIDTGVTPHPRLP O53945 100 100 -
GEGTYAYVVDIGINVDHEEF ORYZ_ASPFL 153 153 -
ESDLVVAVIDSGIWPYSELF O04190 126 126 -
GKGIKLGIFDQPVYAKHPEF Q54483 83 83 -
RKKAKVALVDSGVNSSHTDL EPIP_STAEP 140 140 -
SKKISVGIIDSGIMEEHPDL Q48674 250 250 -
SKKISVGIIDSGIMEEHPDL NISP_LACLA 250 250 -
GKDITIALIDSGIDRLHPNL Q52055 133 133 -
GRDVTIAIFDSGVDPRATGL O76251 35 35 -
GAGVTVAVIDTGVEASPRVP O33076 81 81 -
GNKVKIAVLDSGVSKIKGLD Q45510 39 39 -
GNGVPVAVIDTGVSPNPRLP O05458 94 94 -
GRDILIAILDTGVDPSLPGM YQS6_CAEEL 84 84 -
GKGQILSIADTGLDGSHCFF TAGB_DICDI 378 378 -
ASRVTVAVVDDGVDIKHVDL P91863 130 130 -
GTDIILGFLDTGIWPEAASF Q40764 133 133 -
GKGQKVGIFDTPVNRHPEFA Q54484 76 76 -
GKGVTIGVIDDAILSHPEFA PRTT_SERMA 67 67 -
GKGQILSIADTGLDGSHCFF TAGC_DICDI 316 316 -
GKGVKLGVMDEGFMVKHPRH SSA1_PASHA 49 49 -
GKGVKLGVMDEGFMVKHPRH Q51846 49 49 -

Motif 2 width=14
Element Seqn Id St Int Rpt
DGNGHGTHVAGTIA Q45467 163 17 -
DGNGHGTHVAGTVA Q45466 163 17 -
DYNGHGTHVAGTIA ISP_PAEPO 82 22 -
DGNGHGTHVAGTVA Q45300 164 16 -
DGNGHGTHVAGTVA SUBT_BACLI 164 16 -
DGNGHGTHVAGTVA Q45301 164 16 -
DGNGHGTHVAGTVA Q45299 164 16 -
DGNGHGTHVAGTVA Q53521 164 16 -
DGHGHGTHVAGTVA P72186 361 171 -
DNNSHGTHVAGTVA SUBT_BACAM 167 17 -
DNNSHGTHVAGTVA Q44684 161 17 -
DNNSHGTHVAGTVA O87655 167 17 -
DGSSHGTHVAGTIA SUBT_BACSU 166 17 -
DGSSHGTHVAGTIA SUBT_BACST 166 17 -
DGSSHGTHVAGTIA SUBT_BACSA 166 17 -
DGSSHGTHVAGTIA SUBT_BACMS 60 17 -
DGSSHGTHVAGTIA SUBN_BACNA 166 17 -
DGSSHGTHVAGTIA O07613 166 17 -
DGNGHGTHVAGTIA Q45522 171 15 -
DYNGHGTHVAGTIA ISP1_BACSU 83 22 -
DGNGHGTHVAGTVA SUBT_BACSD 59 16 -
DGNGHGTHVAGTIA PRTM_BACSP 58 15 -
NENKHGTRCAGEIA Q17124 211 26 -
DGNGHGTHVAGTIA SUBS_BACLE 58 15 -
DGNGHGTHVAGTIA SUBB_BACLE 58 15 -
DGNGHGTHVAGTIA ELYA_BACAO 169 15 -
DGNGHGTHVAGTIA ELY1_BACSP 169 15 -
DSNRHGTRCAGEVA Q16926 305 26 -
DNNGHGTHVAGTVA ISP_BACSP 82 22 -
DVVGHGTHVASIAA P95684 252 17 -
DGNGHGTHVAGTIA O66153 168 15 -
DSNRHGTRCAGEVA FURL_DROME 409 26 -
DSNRHGTRCAGEVA FURS_DROME 409 26 -
DSNRHGTRCAGEVA Q05817 409 26 -
DSNRHGTRCAGEVA Q27235 409 26 -
DSNRHGTRCAGEVA Q27436 409 26 -
DLNGHGTHVAGTVA P97097 185 18 -
NDNRHGTRCAGEVA Q91000 191 26 -
NDNRHGTRCAGEVA FUR1_XENLA 188 26 -
DNNGHGTHVAGTIA ELY2_BACSP 150 15 -
DNNGHGTHVAGTIA Q53294 150 15 -
DNNGHGTHVAGTIA Q45521 150 15 -
GDNKHGTRCAGEVA Q26489 214 24 -
GDNKHGTRCAGEVA Q24301 452 24 -
GDNKHGTRCAGEVA FUR2_DROME 453 24 -
DYNGHGTHVAGTVA Q45523 159 15 -
DENRHGTRCAGEVA Q17325 258 26 -
DENRHGTRCAGEVA O17798 258 26 -
DENRHGTRCAGEVA O17797 258 26 -
DENRHGTRCAGEVS Q07214 192 26 -
DENRHGTRCAGEVS Q07213 192 26 -
DCNGHGTHVAGTIG AQL1_THEAQ 193 16 -
DGNGHGTQVAGTIA ELYA_BACSP 167 15 -
NDNRHGTRCAGEVA FURI_RAT 190 26 -
DGNGHGTHCAGTVG PRTK_TRIAL 170 15 -
NDNRHGTRCAGEVA Q60426 190 26 -
NDNRHGTRCAGEVA Q60425 190 26 -
NDNRHGTRCAGEVA Q60424 190 26 -
NDNRHGTRCAGEVA FURI_MOUSE 190 26 -
NDNRHGTRCAGEVA FURI_HUMAN 190 26 -
DYNGHGTHVAGTIA Q55477 177 18 -
NGNGHGTHCAGIAA THET_THEVU 67 18 -
NENKHGTRCAGEVA PAC4_HUMAN 242 26 -
NENKHGTRCAGEVA PAC4_RAT 223 26 -
NENKHGTRCAGEVA Q15099 242 26 -
NENKHGTRCAGEVA Q15100 75 26 -
DGNGHGTHCAGTIA Q00226 195 21 -
DLNNHGTHVAGIAA Q45670 189 18 -
DGNGHGTHCAGTIG PRTR_TRIAL 173 15 -
DQNGHGTHVCGTIA P74937 82 22 -
DDNGHGTHTAGTAA O65836 199 42 -
DENRHGTRCAGEVS NEC3_MOUSE 192 26 -
DENRHGTRCAGEVS Q62094 192 26 -
DDNGHGTHCAGDVA O31788 183 17 -
DGNGHGTHCAGIAA Q56365 172 18 -
NDNRHGTRCAGEVA FURI_BOVIN 190 26 -
NSNRHGTRCAGEVA Q94595 202 26 -
NENKHGTRCAGEVS Q16971 230 26 -
NENKHGTRCAGEVS Q16944 221 26 -
NENKHGTRCAGEVA PAC6_MOUSE 210 26 -
NENKHGTRCAGEVA Q92824 210 26 -
NENKHGTRCAGEVA PAC6_RAT 210 26 -
GDNKHGTRCAGEVA O44766 237 24 -
GDNKHGTRCAGEVA O44765 237 24 -
GDNKHGTRCAGEVA O44764 237 24 -
GDNKHGTRCAGEVA O44763 237 24 -
GDNKHGTRCAGEVA O44762 237 24 -
GDNKHGTRCAGEVA BLI4_CAEEL 237 24 -
DCNGHGTHVAGTIG PROA_VIBAL 209 18 -
WFNSHGTRCAGEVS O93577 202 26 -
DRNGHGTHVAGTAL O54327 191 22 -
DCNGHGTHVAGTIG Q53401 190 18 -
DSSWHGTHVAGTVA P70765 254 52 -
NENRHGTRCAGVVA Q16966 185 26 -
NENKHGTRCAGEIA NEC1_HUMAN 204 26 -
NENKHGTRCAGEIA Q92532 204 26 -
NENKHGTRCAGEIA Q28959 204 26 -
NENKHGTRCAGEIA NEC1_RAT 204 26 -
NENKHGTRCAGEIA NEC1_MOUSE 204 26 -
WFNSHGTRCAGEVS Q01707 205 26 -
WFNSHGTRCAGEVS Q14927 204 26 -
WFNSHGTRCAGEVS NEC2_RAT 203 26 -
WFNSHGTRCAGEVS NEC2_PIG 204 26 -
WFNSHGTRCAGEVS NEC2_MOUSE 203 26 -
WFNSHGTRCAGEVS NEC2_HUMAN 204 26 -
WFNSHGTRCAGEVA Q94977 254 26 -
DCNGHGTHVAGTIG SEPR_THESP 198 18 -
NENKHGTRCAGEIA Q91065 211 26 -
NENKHGTRCAGEVA O93583 205 26 -
DGNGHGTHCAGTIA PRTB_YEAST 353 17 -
DGNGHGTHVAGTAA P87203 175 16 -
DGHGHGTHCAGTIG CUDP_METAN 175 16 -
NENRHGTRCAGEVS Q16962 187 26 -
NENRHGTRCAGEVS Q16970 187 26 -
WFNSHGTRCAGEVV Q17123 211 26 -
DLNGHGTHCAGIIG YSP3_YEAST 241 17 -
ADNCHGTRCAGEAA NECA_HYDAT 238 25 -
ADNCHGTRCAGEAA NECB_HYDAT 238 25 -
DDNGHGTHVAGTIG O13464 228 43 -
AESPHGTHVAGEIA Q54400 223 28 -
DGDGHGTHTASTAA O65835 199 42 -
DSNGHGTHVCGPVA Q45621 82 22 -
DRQGHGTHVAGSAL Q45681 177 22 -
WFNSHGTRCAGEVS Q25409 224 26 -
WFNSHGTRCAGEVS Q16973 224 26 -
WFNSHGTRCAGEVS Q16972 224 26 -
WFNSHGTRCAGEVS Q08845 224 26 -
DGNGHGTHVAGTIV Q52407 198 18 -
NENRHGTRCAGEVS Q26352 205 26 -
DRQGHGTHVAGSAL SUBT_BACS9 178 22 -
DEVGHGTKVAGIIA O86642 121 23 -
DEVGHGTKVAGIIA Q53863 98 23 -
DDDGHGTHTASTAA O82007 199 42 -
EATDHGTHVAGTVA SUBV_BACSU 229 29 -
DDNGHGTHVAGIIG Q45669 161 18 -
DNDGHGTHTASTAA O65834 199 42 -
SSSWHGTHVAGTVA PROA_XANCP 233 45 -
DSIGHGTHTASTAA O04678 199 42 -
NGNHHGTRCAGEIA Q61139 223 26 -
DGQGHGTHVAGTIG O74236 175 14 -
DNNGHGTHVAGTIA ISP6_SCHPO 249 17 -
NGNHHGTRCAGEIA Q62849 223 26 -
NGNHHGTRCAGEIA Q16549 224 26 -
DDDGHGTHTASTAA Q96478 199 42 -
NSSWHGSHVAGTIA BPRX_BACNO 233 51 -
NSSWHGSHVAGTIA Q46541 233 51 -
DGNGHGTHCSGTIA O42797 219 17 -
DGNGHGTHCSGTIA P87184 210 17 -
DQDGHGTHTAGTVA P93205 220 58 -
TNSGHGTHVAGTVG Q45464 206 35 -
WFNSHGTRCAGEIV Q10575 211 26 -
DADGHGSHTASTAA P93221 223 64 -
DGNGHGTHCSGTMA PEPC_ASPNG 209 17 -
HDDYHGTRCAGEIA XPR6_YARLI 345 23 -
DSSWHGSHVAGTIA Q46540 230 49 -
SDDQHGTRCAGEVA KRP1_SCHPO 196 23 -
DTDGHGTHCASITA O82777 211 56 -
DTNGHGTHVAGTIG ALP_CEPAC 187 16 -
FSTWHGSHVAGTIA Q46547 233 49 -
FSTWHGSHVAGTIA BPRV_BACNO 233 49 -
SDDYHGTRCAGEIA KEX2_YEAST 209 23 -
DDNGHGTHVAGIIG SUBE_BACSU 168 15 -
DQNGHGTHVAGLVG YCT5_YEAST 201 16 -
DGLGHGTFVAGVIA Q14703 245 16 -
SWARHGTAMAGIIA O88064 95 20 -
VDEQHGMHVAGIIG P2P_LACPA 277 49 -
SSDTHGTRCAGEVA O13304 248 23 -
DGVGHGTHVAGTIG Q00206 189 16 -
DCDAHGTLVAGIIA O06316 125 16 -
SDEYHGTHVAGIAA P71402 189 24 -
NNNAHGTHVAGTIA O52767 204 20 -
DSVGHGTHVAGTIG Q00208 188 16 -
KDDYHGTRCAGEIA KEX1_KLULA 198 23 -
VDEQHGMHVAGIIG P1P_LACLC 277 49 -
VDEQHGMHVAGIIG P2P_LACLA 277 49 -
VDEQHGMHVAGIIG P3P_LACLC 277 49 -
DTNGHGTHSASIAA O82006 219 56 -
CGEMHGQHVAGIAG Q48545 282 49 -
PSDTHGTKCAGEVA O13305 241 22 -
DASGHGSHVASIAA O48798 178 63 -
DDQGHGTHVAGIIA WPRA_BACSU 493 20 -
DTLGHGTHTASTAA Q38708 212 56 -
DGDGHGSHTAAIAA O64481 230 59 -
DDLAHGTHVTGTMV SUBF_BACSU 270 32 -
SNNAHGTHVAGTIA Q56700 180 20 -
DSTGHGTHTASTVG O64495 218 61 -
DDDGHGTLIAGIIG O67764 172 53 -
DCDGHGTLVAGIVA O53695 122 16 -
DDNYHGTHVSGIIS O61142 426 41 -
DFHGHGTSVATVIA Q54437 455 232 -
DGHGHGTHCAGTIG Q00296 166 15 -
DSIGHGTHVAGTIG ORYZ_ASPFU 189 16 -
DKGAHGTHCSGTIA P96091 254 40 -
DADGHGTHTSSTAA O49607 201 59 -
DHNGHGTQVSSTAA O81899 552 59 -
SGGAHGTHVASIAA Q64560 260 205 -
SGGAHGTHVASIAA TPP2_MOUSE 260 205 -
SGGAHGTHVASIAA TPP2_HUMAN 260 205 -
NNDSHGTHVTGTMG O87811 113 28 -
DDEGHGTHTATTAA P93204 208 58 -
DIDGHGTHTSSTVA O81324 150 50 -
DTNGHGTHTASTAA Q39547 200 49 -
DTLGHGTHVSGTIG ALP_TRIHA 188 16 -
SFGDHGTHVAGIAA PRTS_SERMA 108 21 -
FDDYHGTRCAGEIA KEX2_CANAL 247 23 -
DDLAHGTHVTGTMV Q45616 270 32 -
DDDGHGTHTSSTAA O65351 208 58 -
DSIGHGTHVSGTIA ORYZ_ASPOR 189 16 -
DLLGHGTHVAGTVG AEP_YARLI 227 16 -
VDQEHGTHVSGILS Q53637 189 48 -
VDQEHGTHVSGILS SCPA_STRPY 189 48 -
DCDAHGTLTASIIA O05461 117 16 -
DHEGHGTGMAALIA O86650 96 19 -
ASENHGTHVGGIAA HLY_HAL17 194 26 -
DCDAHGTLVASMIA O53945 137 17 -
DGVGHGTHVSGTIG ORYZ_ASPFL 189 16 -
DVTGHGTHVASIVA O04190 191 45 -
TLGSHGTHVGGIAA Q54483 145 42 -
DKLNHGTLVAGQIG EPIP_STAEP 190 30 -
DKMGHGTEVAGQIT Q48674 302 32 -
DKMGHGTEVAGQIT NISP_LACLA 302 32 -
DEYGHGTQVAGVID Q52055 169 16 -
MSSPHGTHVSSIAS O76251 268 213 -
DCDAHGTLTASIIG O33076 117 16 -
DEFGHGTIVASLIA Q45510 76 17 -
DCDAHGTVVSSIIA O05458 129 15 -
PSGAHGSHVAGIAA YQS6_CAEEL 310 206 -
YVNGHGTHVCGSAA TAGB_DICDI 428 30 -
KEFEHGTQCAGLVA P91863 174 24 -
DYQGHGTYTAATAA Q40764 215 62 -
MLSNHGVHVAGISA Q54484 140 44 -
SFGTHGTHVAGIAA PRTT_SERMA 108 21 -
KVDGHGTHICGSAA TAGC_DICDI 368 32 -
SLETHGAGVAGIIA SSA1_PASHA 112 43 -
SLETHGAGVAGIIA Q51846 112 43 -

Motif 3 width=17
Element Seqn Id St Int Rpt
NGTSMASPHVAGAAALL Q45467 322 145 -
NGTSMAAPHVAGAAALI Q45466 321 144 -
SGTSMATPHVAGALALI ISP_PAEPO 241 145 -
NGTSMASPHVAGAAALI Q45300 322 144 -
NGTSMASPHVAGAAALI SUBT_BACLI 322 144 -
NGTSMASPHVAGAAALI Q45301 322 144 -
NGTSMASPHVAGTSALI Q45299 322 144 -
NGTSMVSPHVAGAAALI Q53521 322 144 -
SGTSMATPHVSGVVALL P72186 587 212 -
NGTSMASPHVAGAAALI SUBT_BACAM 325 144 -
NGTSMASPHVAGAAALI Q44684 319 144 -
NGTSMASPHVAGAAALI O87655 325 144 -
NGTSMATPHVAGAAALI SUBT_BACSU 324 144 -
NGTSMATPHVAGAAALI SUBT_BACST 324 144 -
NGTSMATPHVAGAAALI SUBT_BACSA 324 144 -
NGTSMATPHVAGAAALI SUBT_BACMS 218 144 -
NGTSMATPHVAGAAALI SUBN_BACNA 324 144 -
NGTSMATPHVAGAAALI O07613 324 144 -
SGTSMATPHVAGVAALV Q45522 325 140 -
TGTSMAAPHVSGALALI ISP1_BACSU 243 146 -
NGTSMASPHVAGAAALI SUBT_BACSD 217 144 -
NGTSMATPHVAGVAALV PRTM_BACSP 212 140 -
TGTSAAAPLAAGVLALA Q17124 386 161 -
NGTSMATPHVAGAAALV SUBS_BACLE 212 140 -
NGTSMATPHVAGAAALV SUBB_BACLE 212 140 -
NGTSMATPHVAGAAALV ELYA_BACAO 323 140 -
NGTSMATPHVAGAAALV ELY1_BACSP 323 140 -
TGTSASAPLAAGIAALV Q16926 480 161 -
SGTSMAAPHVAGALALI ISP_BACSP 247 151 -
SGTSMATPHVAGAAALL P95684 430 164 -
NGTSMATPHVAGVAALV O66153 322 140 -
TGTSASAPLAAGIAALV FURL_DROME 584 161 -
TGTSASAPLAAGIAALV FURS_DROME 584 161 -
TGTSASAPLAAGIAALV Q05817 584 161 -
TGTSASAPLAAGIAALV Q27235 584 161 -
TGTSASAPLAAGIAALV Q27436 584 161 -
SGTSMASPHVAGLAALL P97097 340 141 -
TGTSASAPLAAGIIALA Q91000 366 161 -
TGTSASAPLAAGIIALA FUR1_XENLA 363 161 -
SGTSMATPHVAGVAALV ELY2_BACSP 304 140 -
SGTSMATPHVAGVAALV Q53294 304 140 -
SGTSMATPHVAGVAALV Q45521 304 140 -
TGTSASAPLAAGICALA Q26489 396 168 -
TGTSASAPLAAGICALA Q24301 634 168 -
TGTSASAPLAAGICALA FUR2_DROME 635 168 -
NGTSMASPHVAGVAALV Q45523 317 144 -
TGTSASAPLAAGIVALA Q17325 433 161 -
TGTSASAPLAAGIVALA O17798 433 161 -
TGTSASAPLAAGIVALA O17797 433 161 -
TGTSASAPLAAGMIALA Q07214 367 161 -
TGTSASAPLAAGMIALA Q07213 367 161 -
NGTSMATPHVAGVAALY AQL1_THEAQ 346 139 -
NGTSMATPHVAGVAALV ELYA_BACSP 321 140 -
TGTSASAPLAAGIIALT FURI_RAT 365 161 -
SGTSMATPHVAGLAAYL PRTK_TRIAL 326 142 -
TGTSASAPLAAGIIALT Q60426 365 161 -
TGTSASAPLAAGIIALT Q60425 365 161 -
TGTSASAPLAAGIIALT Q60424 365 161 -
TGTSASAPLAAGIIALT FURI_MOUSE 365 161 -
TGTSASAPLAAGIIALT FURI_HUMAN 365 161 -
QGTSMAAPHVAGTAALI Q55477 344 153 -
SGTSMATPHVAGVAGLL THET_THEVU 222 141 -
TGTSVSAPMVAGIIALA PAC4_HUMAN 417 161 -
TGTSVSAPMVAGIIALA PAC4_RAT 398 161 -
TGTSVSAPMVAGIIALA Q15099 417 161 -
TGTSVSAPMVAGIIALA Q15100 250 161 -
SGTSMACPHVAGLAAYY Q00226 349 140 -
SGTSMASPHVAGLAALL Q45670 344 141 -
SGTSMATPHVAGLAAYL PRTR_TRIAL 329 142 -
TGTSMATPHVTGAAALL P74937 246 150 -
SGTSMSCPHLSGVAALL O65836 529 316 -
TGTSASAPLAAGMIALA NEC3_MOUSE 367 161 -
TGTSASAPLAAGMIALA Q62094 357 151 -
SGTSMATPICAGIAALI O31788 381 184 -
SGTSMATPHVAGLAALL Q56365 327 141 -
TGTSAFAPLAAGIIALT FURI_BOVIN 365 161 -
TGTSASAPLAAGICALA Q94595 377 161 -
SGTSAAAPMAAGLFALL Q16971 405 161 -
SGTSAAAPMAAGLFALL Q16944 396 161 -
TGTSASAPMAAGIIALA PAC6_MOUSE 385 161 -
TGTSASAPMAAGIIALA Q92824 385 161 -
TGTSASAPMAAGIIALA PAC6_RAT 385 161 -
TGTSASAPLAAGIIALA O44766 412 161 -
TGTSASAPLAAGIIALA O44765 412 161 -
TGTSASAPLAAGIIALA O44764 412 161 -
TGTSASAPLAAGIIALA O44763 412 161 -
TGTSASAPLAAGIIALA O44762 412 161 -
TGTSASAPLAAGIIALA BLI4_CAEEL 412 161 -
SGTSMATPHVAGVAALY PROA_VIBAL 360 137 -
SGTSAAAPEAAGVFALA O93577 379 163 -
SGTSMATPHVSGLAAKI O54327 371 166 -
SGTSMAAPHVAGAVALY Q53401 343 139 -
QGTSMAAPHVAGVAALI P70765 435 167 -
TGTSASAPIVVGLLALA Q16966 360 161 -
TGTSASAPLAAGIFALA NEC1_HUMAN 379 161 -
TGTSASAPLAAGIFALA Q92532 379 161 -
TGTSASAPLAAGIFALA Q28959 379 161 -
TGTSASAPLAAGIFALA NEC1_RAT 379 161 -
TGTSASAPLAAGIFALA NEC1_MOUSE 379 161 -
SGTSAAAPEAAGVFALA Q01707 382 163 -
SGTSAAAPEAAGVFALA Q14927 381 163 -
SGTSAAAPEAAGVFALA NEC2_RAT 380 163 -
SGTSAAAPEAAGVFALA NEC2_PIG 381 163 -
SGTSAAAPEAAGVFALA NEC2_MOUSE 380 163 -
SGTSAAAPEAAGVFALA NEC2_HUMAN 381 163 -
SGTSAAAPEAAGVFALA Q94977 430 162 -
SGTSMATPHVTGAAALY SEPR_THESP 351 139 -
TGTSASAPLAAGIFALA Q91065 386 161 -
TGTSASAPLAAGIFALA O93583 380 161 -
SGTSMASPHVAGLLTYF PRTB_YEAST 516 149 -
SGTSMATPHIAGLVAYL P87203 331 142 -
SGTSMATPHIAGLAAYL CUDP_METAN 331 142 -
TGTSASAPLAAGIVALV Q16962 362 161 -
TGTSASAPLAAGIVALV Q16970 363 162 -
SGTSAAAPEAAGVFALA Q17123 388 163 -
SGTSMASPHVAGILSYF YSP3_YEAST 404 149 -
KGTSASAPLAAGIIALT NECA_HYDAT 416 164 -
KGTSASAPLAAGIIALT NECB_HYDAT 416 164 -
TGTSMATPHIAGLGAYL O13464 405 163 -
AGTSMASPHVAGVAALI Q54400 432 195 -
SGTSMSCPHLSGVAALL O65835 529 316 -
SGTSMATPHVSGAAALL Q45621 247 151 -
SGTSMASPHAAGLAAKI Q45681 356 165 -
SGTSAAAPEAAGVFALA Q25409 401 163 -
SGTSAAAPEAAGVFALA Q16973 401 163 -
SGTSAAAPEAAGVFALA Q16972 401 163 -
SGTSAAAPEAAGVFALA Q08845 401 163 -
SGTSMASPHVAGVAALV Q52407 355 143 -
TGTSASAPLAAGIVALI Q26352 380 161 -
SGTSMASPHAAGLAAKI SUBT_BACS9 357 165 -
SGTSFSAPFVAGVAVLL O86642 282 147 -
SGTSFSAPFVAGVAVLL Q53863 259 147 -
SGTSMSCPHLSGVAALL O82007 529 316 -
QGTSMASPHIAGAVAVI SUBV_BACSU 531 288 -
SGTSMALPHLYTGALAA Q45669 328 153 -
SGTSMSCPHLSGVAALL O65834 529 316 -
NGTSMASPHVAGVVALV PROA_XANCP 406 159 -
SGTSMSCPHLSGVAALL O04678 528 315 -
TGTSAAAPLAAGMIALM Q61139 402 165 -
SGTSMASPHVAGLAALT O74236 333 144 -
SGTSMATPHVAGLSAYY ISP6_SCHPO 406 143 -
TGTSAAAPLAAGMIALM Q62849 402 165 -
TGTSAAAPLAAGMIALM Q16549 403 165 -
SGTSMSCPHLSGVRALL Q96478 529 316 -
DGTSMATPHVAGVAALV BPRX_BACNO 406 159 -
DGTSMATPHVAGVAALV Q46541 406 159 -
SGTSMASPHIAGLLAYY O42797 386 153 -
SGTSMASPHIAGLLAYF P87184 377 153 -
SGTSMSCPHVSGIAALL P93205 553 319 -
SGTSMATPHVAGIVALM Q45464 406 186 -
SGTSAAAPEAAGVFALA Q10575 387 162 -
SGTSMATPHIAGIAALI P93221 579 342 -
SGTSMASPHIAGLLAYF PEPC_ASPNG 376 153 -
GGTSAAAPLAAGVFALA XPR6_YARLI 525 166 -
AGTSMATPHVSGVAALV Q46540 403 159 -
GGTSAAAPLASAVYALA KRP1_SCHPO 368 158 -
SGTSMAAPHAAGIAAML O82777 535 310 -
SGTSMATPHVTGVVLYL ALP_CEPAC 344 143 -
AGTSMAAPHVSGVAALV Q46547 406 159 -
AGTSMAAPHVSGVAALV BPRV_BACNO 406 159 -
GGTSAAAPLAAGVYTLL KEX2_YEAST 382 159 -
SGTSQATPHAAAMFALL SUBE_BACSU 323 141 -
SGTSMSTPIVTGVAAIL YCT5_YEAST 362 147 -
SGTSVASPVVAGAVTLL Q14703 411 152 -
WGTSAASAFVSGAAALV O88064 267 158 -
SGTSMASPFIAGSQALL P2P_LACPA 617 326 -
TGASASTPLAAGIIALV O13304 420 158 -
SGTSMATPHVTGLILYL Q00206 346 143 -
SGTSYAAPVVSGLAALI O06316 326 187 -
SGTSMATPVVSGVAGLA P71402 344 141 -
NGTSMATPHVSGVATLV O52767 509 291 -
SGTSMATPHVVGLSLYL Q00208 345 143 -
GGTSAAAPLAAGIYTLV KEX1_KLULA 370 158 -
SGTSMASPFIAGSQALL P1P_LACLC 617 326 -
SGTSMASPFIAGSQALL P2P_LACLA 617 326 -
SGTSMASPFIAGSQALL P3P_LACLC 617 326 -
SGTSMAAPHAAGIAAML O82006 548 315 -
SGTSMASPFVAGSEALI Q48545 614 318 -
TGSSASTPLAAGVIALL O13305 413 158 -
SGTSMATPHIAGIGALI O48798 545 353 -
SGTSMATPYAAAAAGLL WPRA_BACSU 647 140 -
SGTSMACPHASGVAALL Q38708 534 308 -
SGTSMAAPHIAGIAALV O64481 593 349 -
DGTSMAGPHVSAVAALL SUBF_BACSU 449 165 -
NGTSMATPHVSGVAGLV Q56700 485 291 -
SGTSMSCPHVSGITALI O64495 549 317 -
AGTSLSAPFVTGAVALL O67764 344 158 -
SGTSYAAGYVSGVAALV O53695 339 203 -
NGTSMAAPHVAAIASLI O61142 605 165 -
GGTSEATPYTSGTLALV Q54437 678 209 -
SGTSMATPPELRRDPLD Q00296 322 142 -
SGTSMATPHIVGLSVYL ORYZ_ASPFU 346 143 -
SGTSMATPFVTGTIAYL P96091 444 176 -
SGTSMACPHVSGAAALL O49607 535 320 -
SGTSMATPVIAGIVALL O81899 864 298 -
NGTSMSSPNACGGIALV Q64560 446 172 -
NGTSMSSPNACGGIALV TPP2_MOUSE 446 172 -
NGTSMSSPNACGGIALI TPP2_HUMAN 446 172 -
SGTSMSAPHATGALALV O87811 300 173 -
SGTSMSCPHVSGLAALL P93204 539 317 -
SGTSMACPHVAGVAAYV O81324 490 326 -
SGTSMSCPHITGIATYV Q39547 522 308 -
SGTSMATPHVVGLALYL ALP_TRIHA 350 148 -
SGTSMAAPHVTGVAAVL PRTS_SERMA 338 216 -
GGTSAAAPLASGIYSLI KEX2_CANAL 419 158 -
DFTSMAGPHVSAVAALL Q45616 449 165 -
SGTSMSCPHVSGLAALL O65351 539 317 -
SGTSMATPHIVGLSLYL ORYZ_ASPOR 346 143 -
SGTSMACPHVAGLASYY AEP_YARLI 394 153 -
SGTSMSAPLVAGIMGLL Q53637 509 306 -
SGTSMSAPLVAGIMGLL SCPA_STRPY 509 306 -
AGTSFAAAYVSGLAALL O05461 329 198 -
SGTSDATAIASASAALV O86650 270 160 -
SGTSMASPVVAGVAGFT HLY_HAL17 348 140 -
AGTSFSAAIVSGVAALV O53945 463 312 -
SGTSMATPHIVGLSIYL ORYZ_ASPFL 346 143 -
SGTSMACPHATGLALYL O04190 556 351 -
SGTSMAAPHVAGSVAVL Q54483 364 205 -
SGTSLAAPKVSGALALE EPIP_STAEP 399 195 -
YGNSFAAPKVSGALALV Q48674 509 193 -
YGNSFATPKVSGALALV NISP_LACLA 509 193 -
FGTSLATPEVSAALAAI Q52055 356 173 -
NGTSMAAPHVAGAVALL O76251 459 177 -
AGTSFATAYVSGLAALL O33076 329 198 -
SGTSFATPYVTGVISLY Q45510 228 138 -
WGTSFSAAYVSGVAALV O05458 432 289 -
NGTSMSSPNAAGNVACM YQS6_CAEEL 496 172 -
SGTSMATPLATAATTIL TAGB_DICDI 692 250 -
SGSSASAAIASGIISLV P91863 343 155 -
SGTSVAVPHVTGAAAFV Q40764 558 329 -
NGTSMATPHVTGAVAVL Q54484 362 208 -
SGTSMAPDVTGFAAVLM PRTT_SERMA 338 216 -
SGTSMATSFAAAATTIL TAGC_DICDI 634 252 -
QGTSFSAPAITASLAVL SSA1_PASHA 348 222 -
QGTSFSAPAITASLAVL Q51846 348 222 -