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PR00241

Identifier
ANGIOTENSINR  [View Relations]  [View Alignment]  
Accession
PR00241
No. of Motifs
8
Creation Date
15-JUL-1994  (UPDATE 13-JUN-1999)
Title
Angiotensin II receptor signature
Database References
PRINTS; PR90007 7TM; PR90006 GPCRCLAN; PR00237 GPCRRHODOPSN
PRINTS; PR00635 ANGIOTENSN1R; PR00636 ANGIOTENSN2R
INTERPRO; IPR000248
GCRDB; GCR_0296; GCR_0384; GCR_0421; GCR_0447
Literature References
1. ATTWOOD, T.K. AND FINDLAY, J.B.C. 
Fingerprinting G protein-coupled receptors.
PROTEIN ENG. 7(2) 195-203 (1994).
 
2. ATTWOOD, T.K. AND FINDLAY, J.B.C. 
G protein-coupled receptor fingerprints.
7TM, VOLUME 2, EDS. G.VRIEND AND B.BYWATER (1993).
 
3. BIRNBAUMER, L.
G proteins in signal transduction.
ANNU.REV.PHARMACOL.TOXICOL. 30 675-705 (1990).
 
4. CASEY, P.J. AND GILMAN, A.G.
G protein involvement in receptor-effector coupling.
J.BIOL.CHEM. 263(6) 2577-2580 (1988).
 
5. ATTWOOD, T.K. AND FINDLAY, J.B.C. 
Design of a discriminating fingerprint for G protein-coupled receptors.
PROTEIN ENG. 6(2) 167-176 (1993).
 
6. WATSON, S. AND ARKINSTALL, S.
Angiotensin.
IN THE G PROTEIN-LINKED RECEPTOR FACTSBOOK, ACADEMIC PRESS, pp55-59.

Documentation
G protein-coupled receptors (GPCRs) constitute a vast protein family that 
encompasses a wide range of functions (including various autocrine, para-
crine and endocrine processes). They show considerable diversity at the 
sequence level, on the basis of which they can be separated into distinct 
groups. We use the term clan to describe the GPCRs, as they embrace a group
of families for which there are indications of evolutionary relationship, 
but between which there is no statistically significant similarity in 
sequence [1]. The currently known clan members include the rhodopsin-like 
GPCRs, the secretin-like GPCRs, the cAMP receptors, the fungal mating
pheromone receptors, and the metabotropic glutamate receptor family.
 
The rhodopsin-like GPCRs themselves represent a widespread protein family 
that includes hormone, neurotransmitter and light receptors, all of
which transduce extracellular signals through interaction with guanine
nucleotide-binding (G) proteins. Although their activating ligands vary 
widely in structure and character, the amino acid sequences of the 
receptors are very similar and are believed to adopt a common structural 
framework comprising 7 transmembrane (TM) helices [3-5]. 
 
Angiotensin II is the principal mediator of the renin-angiotensin system;
it circulates in the bloodstream, stimulating vasoconstriction and
retention of salt and water [6]. It also stimulates increased fluid intake
and regulates the neuroendocrine system. Many of its actions are mediated
by release of hormones from endocrine glands, e.g. vasopressin, catechol-
amines, aldosterone, growth-hormone, etc.. Molecular cloning studies have
identifed 2 major receptor subtypes, designated AT1 and AT2. 
 
ANGIOTENSINR is an 8-element fingerprint that provides a signature for the
angiotensin II receptors. The fingerprint was derived from an initial
alignment of 15 sequences: the motifs were drawn from conserved sections
largely within loop or TM regions, focusing on those areas of the alignment
that characterise the angiotensin receptors but distinguish them from the
rest of the rhodopsin-like superfamily - motif 1 lies at the N-terminus of
TM domain 1; motif 2 spans the C-terminus of TM domain 2, leading into the
first external loop; motif 3 lies within TM domain 3; motif 4 spans the
C-terminal portion of TM domain 4, leading into the second external loop;
motifs 5 and 6 lie at the N- and C-termini of TM domain 5; motif 7 lies in
the third external loop; and motif 8 spans part of the third external loop,
leading into the N-terminus of TM domain 7. Two iterations on OWL29.0 were
required to reach convergence, at which point a true set comprising 21
sequences was identfied. Several partial matches were also found, including
several angiotensin II receptor fragments and 2 platelet activating factor
receptors.
 
An update on SPTR37_9f identified a true set of 18 sequences, and 5
partial matches.
Summary Information
  18 codes involving  8 elements
0 codes involving 7 elements
0 codes involving 6 elements
0 codes involving 5 elements
0 codes involving 4 elements
0 codes involving 3 elements
5 codes involving 2 elements
Composite Feature Index
81818181818181818
700000000
600000000
500000000
400000000
300000000
225200010
12345678
True Positives
AG22_HUMAN    AG22_MOUSE    AG22_RAT      AG2R_BOVIN    
AG2R_CANFA AG2R_CHICK AG2R_HUMAN AG2R_MELGA
AG2R_MERUN AG2R_MOUSE AG2R_PIG AG2R_RABIT
AG2R_RAT AG2R_XENLA AG2S_HUMAN AG2S_MOUSE
AG2S_RAT AG2S_XENLA
True Positive Partials
Codes involving 2 elements
BRB2_RABIT P70058 P79960 PAFR_CAVPO
PAFR_RAT
Sequence Titles
AG22_HUMAN  TYPE-2 ANGIOTENSIN II RECEPTOR (AT2) - HOMO SAPIENS (HUMAN). 
AG22_MOUSE TYPE-2 ANGIOTENSIN II RECEPTOR (AT2) - MUS MUSCULUS (MOUSE).
AG22_RAT TYPE-2 ANGIOTENSIN II RECEPTOR (AT2) - RATTUS NORVEGICUS (RAT).
AG2R_BOVIN TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - BOS TAURUS (BOVINE).
AG2R_CANFA TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - CANIS FAMILIARIS (DOG).
AG2R_CHICK TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - GALLUS GALLUS (CHICKEN).
AG2R_HUMAN TYPE-1A ANGIOTENSIN II RECEPTOR (AT1A) (AT1AR) - HOMO SAPIENS (HUMAN).
AG2R_MELGA TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - MELEAGRIS GALLOPAVO (COMMON TURKEY).
AG2R_MERUN TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) (GKAT1) - MERIONES UNGUICULATUS (MONGOLIAN JIRD).
AG2R_MOUSE TYPE-1A ANGIOTENSIN II RECEPTOR (AT1A) - MUS MUSCULUS (MOUSE).
AG2R_PIG TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - SUS SCROFA (PIG).
AG2R_RABIT TYPE-1 ANGIOTENSIN II RECEPTOR (AT1) - ORYCTOLAGUS CUNICULUS (RABBIT).
AG2R_RAT TYPE-1A ANGIOTENSIN II RECEPTOR (AT1A) - RATTUS NORVEGICUS (RAT).
AG2R_XENLA TYPE-1-LIKE ANGIOTENSIN II RECEPTOR 1 (AT1) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
AG2S_HUMAN TYPE-1B ANGIOTENSIN II RECEPTOR (AT1B) (AT1BR) - HOMO SAPIENS (HUMAN).
AG2S_MOUSE TYPE-1B ANGIOTENSIN II RECEPTOR (AT1B) (AT3) - MUS MUSCULUS (MOUSE).
AG2S_RAT TYPE-1B ANGIOTENSIN II RECEPTOR (AT1B) (AT3) - RATTUS NORVEGICUS (RAT).
AG2S_XENLA TYPE-1-LIKE ANGIOTENSIN II RECEPTOR 2 (AT1) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).

BRB2_RABIT B2 BRADYKININ RECEPTOR (BK-2 RECEPTOR) - ORYCTOLAGUS CUNICULUS (RABBIT).
P70058 ANGIOTENSIN RECEPTOR RELATED PROTEIN - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
P79960 MESENCHYME-ASSOCIATED SERPENTINE RECEPTOR - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
PAFR_CAVPO PLATELET ACTIVATING FACTOR RECEPTOR (PAF-R) - CAVIA PORCELLUS (GUINEA PIG).
PAFR_RAT PLATELET ACTIVATING FACTOR RECEPTOR (PAF-R) - RATTUS NORVEGICUS (RAT).
Scan History
OWL29_0    2  50   NSINGLE    
SPTR37_9f 2 50 NSINGLE
Initial Motifs
Motif 1  width=9
Element Seqn Id St Int Rpt
LYSIIFVVG AG2R_BOVIN 34 34 -
LYSIIFVVG AG2S_MOUSE 34 34 -
VYSIIFIIG AG2R_MELGA 34 34 -
IYSTIFVVG AG2S_XENLA 36 36 -
IYSTIFVVG AG2R_XENLA 35 35 -
LYYMIFVIG AG22_RAT 50 50 -
LYYMIFVIG AG22_MOUSE 50 50 -
LYYIIFVIG AGG2_HUMAN 50 50 -
LYSIIFVVG AG2R_MOUSE 34 34 -
LYSIIFVVG AG2R_PIG 34 34 -
LYSIIFVVG AG2R_RABIT 34 34 -
LYSIIFVVG AG2R_CANFA 34 34 -
LYSIIFVVG AG2R_HUMAN 34 34 -
LYSIIFVVG AG2R_RAT 34 34 -
LYSIIFVVG AG2S_RAT 34 34 -

Motif 2 width=13
Element Seqn Id St Int Rpt
PLWAVYTAMEYRW AG2R_BOVIN 82 39 -
PLWAAYTAMEYQW AG2R_MELGA 82 39 -
PLWAVYTAMHYHW AG2S_XENLA 84 39 -
PLWAAYTAMHYHW AG2R_XENLA 83 39 -
PLWATYYSYRYDW AG22_RAT 98 39 -
PLWATYYSYRYDW AG22_MOUSE 98 39 -
PLWATYYSYRYDW AGG2_HUMAN 98 39 -
PLWAVYTAMEYRW AG2R_MOUSE 82 39 -
PLWAVYTAMEYRW AG2R_PIG 82 39 -
PLWAVYTAMEYRW AG2R_RABIT 82 39 -
PLWAVYTAMEYRW AG2R_CANFA 82 39 -
PLWAVYTAMEYRW AG2R_HUMAN 82 39 -
PLWAVYTAMEYRW AG2R_RAT 82 39 -
PLWAVYTAMEYRW AG2S_RAT 82 39 -
PLWAVYTAMEYQW AG2S_MOUSE 82 39 -

Motif 3 width=8
Element Seqn Id St Int Rpt
FLLTCLSI AG2S_MOUSE 117 22 -
FLLTCLSI AG2S_XENLA 119 22 -
FFITCMSV AGG2_HUMAN 133 22 -
FFITCMSV AG22_MOUSE 133 22 -
FFITCMSV AG22_RAT 133 22 -
FLLTCLSI AG2R_XENLA 118 22 -
FLLTCLSI AG2R_MOUSE 117 22 -
FLLTCLSI AG2R_PIG 117 22 -
FLLTCLSI AG2R_RABIT 117 22 -
FLLTCLSI AG2R_CANFA 117 22 -
FLLTCLSI AG2R_HUMAN 117 22 -
FLLTCLSI AG2R_RAT 117 22 -
FLLTCLSI AG2S_RAT 117 22 -
FLLTCLSI AG2R_BOVIN 117 22 -
FLLTCLSI AG2R_MELGA 117 22 -

Motif 4 width=12
Element Seqn Id St Int Rpt
LASLPSVIYRQI AG2S_XENLA 160 33 -
LSSLPTFYFRDV AGG2_HUMAN 173 32 -
LASLPAVIHRNV AG2R_MOUSE 158 33 -
LASLPTIIHRNV AG2R_PIG 158 33 -
LASLPAIIHRNV AG2R_RABIT 158 33 -
LASLPTIIHRNV AG2R_CANFA 158 33 -
LASLPAIIHRNV AG2R_HUMAN 158 33 -
LASLPAVIHRNV AG2R_RAT 158 33 -
LASLPAVIYRNV AG2S_RAT 158 33 -
LASLPTIIHRNV AG2R_BOVIN 158 33 -
LASLPAVIHRNV AG2S_MOUSE 158 33 -
VASLPVIIHRNI AG2R_MELGA 158 33 -
LASMPSIIYRQI AG2R_XENLA 159 33 -
LSSLPTFYFRDV AG22_RAT 173 32 -
LSSLPTFYFRDV AG22_MOUSE 173 32 -

Motif 5 width=11
Element Seqn Id St Int Rpt
VGMSLAKNIVG AG2R_XENLA 194 23 -
AGIALMKNILG AGG2_HUMAN 209 24 -
AGIALMKNILG AG22_MOUSE 209 24 -
AGIALMKNILG AG22_RAT 209 24 -
IGLGLTKNILG AG2R_MOUSE 193 23 -
VGLGLTKNILG AG2R_PIG 193 23 -
IGLGLTKNILG AG2R_RABIT 193 23 -
IGLGLTKNILG AG2R_CANFA 193 23 -
IGLGLTKNILG AG2R_HUMAN 193 23 -
IGLGLTKNILG AG2R_RAT 193 23 -
IGLGLTKNILG AG2S_RAT 193 23 -
VGLGLTKNILG AG2R_BOVIN 193 23 -
IGLGLTKNILG AG2S_MOUSE 193 23 -
VGLGLSKNLLG AG2R_MELGA 193 23 -
VGMSLVKNIVG AG2S_XENLA 195 23 -

Motif 6 width=12
Element Seqn Id St Int Rpt
ILTSYTLIWKAL AG2R_RAT 211 7 -
ILTSYTLIWKAL AG2R_MOUSE 211 7 -
ILTSYTLIWKAL AG2R_PIG 211 7 -
ILTSYTLIWKAL AG2R_RABIT 211 7 -
ILTSYTLIWKTL AG2R_CANFA 211 7 -
ILTSYTLIWKAL AG2R_HUMAN 211 7 -
ILTSYTLIWKAL AG2S_RAT 211 7 -
ILTSYTLIWKTL AG2R_BOVIN 211 7 -
ILTSYTLIWKAL AG2S_MOUSE 211 7 -
ILTSYTLIWKTL AG2R_MELGA 211 7 -
ILTSYTLIGKTL AG2S_XENLA 213 7 -
ILTSYTLIGKTL AG2R_XENLA 212 7 -
IATCYFGIRKHL AG22_RAT 227 7 -
IATCYFGIRKHL AG22_MOUSE 227 7 -
IATCYFGIRKHL AGG2_HUMAN 227 7 -

Motif 7 width=11
Element Seqn Id St Int Rpt
PFHVLTFLDAL AG22_MOUSE 271 32 -
PHQIFTFLDVL AG2R_MOUSE 255 32 -
PHQIFTFLDVL AG2R_PIG 255 32 -
PHQIFTFLDVL AG2R_RABIT 255 32 -
PHQIFTFLDVL AG2R_CANFA 255 32 -
PFHVLTFLDAL AGG2_HUMAN 271 32 -
PHQIFTFLDVL AG2R_HUMAN 255 32 -
PHQIFTFLDVL AG2R_RAT 255 32 -
PHQIFTFLDVL AG2S_RAT 255 32 -
PHQIFTFMDVL AG2R_BOVIN 255 32 -
PHQIFSFLDVL AG2S_MOUSE 255 32 -
PHQVFTFLDVL AG2R_MELGA 255 32 -
PHQVFTFLDVL AG2S_XENLA 255 30 -
PYQVFTFLDVL AG2R_XENLA 254 30 -
PFHVLTFLDAL AG22_RAT 271 32 -

Motif 8 width=18
Element Seqn Id St Int Rpt
IRDCKIEDIVDTAMPITI AG2R_BOVIN 271 5 -
ITDCKITDIVDTAMPFTI AG2R_MELGA 271 5 -
INSCEVIAVIDLALPFAI AG22_MOUSE 287 5 -
INSCEVIAVIDLALPFAI AG22_RAT 287 5 -
IHDCKIADIVDTAMPITI AG2R_MOUSE 271 5 -
INSCEVIAVIDLALPFAI AGG2_HUMAN 287 5 -
IQNCKMYDIVDTGMPITI AG2S_XENLA 271 5 -
IHDCKIADIVDTAMPITI AG2R_PIG 271 5 -
IQNCKMYDIVDTGMPITI AG2R_XENLA 270 5 -
IHDCRIADIVDTAMPITI AG2R_RABIT 271 5 -
IHDCKIADIVDTAMPITI AG2R_CANFA 271 5 -
IRDCRIADIVDTAMPITI AG2R_HUMAN 271 5 -
IHDCKISDIVDTAMPITI AG2R_RAT 271 5 -
IRDCEIADIVDTAMPITI AG2S_RAT 271 5 -
IHDCEIADVVDTAMPITI AG2S_MOUSE 271 5 -
Final Motifs
Motif 1  width=9
Element Seqn Id St Int Rpt
LYSIIFVVG AG2R_MOUSE 34 34 -
LYSIIFVVG AG2R_PIG 34 34 -
LYSIIFVVG AG2R_RABIT 34 34 -
LYSIIFVVG AG2R_CANFA 34 34 -
LYSIIFVVG AG2S_HUMAN 34 34 -
LYSIIFVVG AG2R_HUMAN 34 34 -
LYSIIFVVG AG2R_RAT 34 34 -
LYSIIFVVG AG2S_RAT 34 34 -
LYSIIFVVG AG2R_MERUN 34 34 -
LYSIIFVVG AG2R_BOVIN 34 34 -
LYSIIFVVG AG2S_MOUSE 34 34 -
VYSIIFIIG AG2R_CHICK 34 34 -
VYSIIFIIG AG2R_MELGA 34 34 -
IYSTIFVVG AG2S_XENLA 36 36 -
IYSTIFVVG AG2R_XENLA 35 35 -
LYYIIFVIG AG22_HUMAN 50 50 -
LYYMIFVIG AG22_RAT 50 50 -
LYYMIFVIG AG22_MOUSE 50 50 -

Motif 2 width=13
Element Seqn Id St Int Rpt
PLWAVYTAMEYRW AG2R_MOUSE 82 39 -
PLWAVYTAMEYRW AG2R_PIG 82 39 -
PLWAVYTAMEYRW AG2R_RABIT 82 39 -
PLWAVYTAMEYRW AG2R_CANFA 82 39 -
PLWAVYTAMEYRW AG2S_HUMAN 82 39 -
PLWAVYTAMEYRW AG2R_HUMAN 82 39 -
PLWAVYTAMEYRW AG2R_RAT 82 39 -
PLWAVYTAMEYRW AG2S_RAT 82 39 -
PVWAVYTAMEYRW AG2R_MERUN 82 39 -
PLWAVYTAMEYRW AG2R_BOVIN 82 39 -
PLWAVYTAMEYQW AG2S_MOUSE 82 39 -
PLWAAYTAMEYQW AG2R_CHICK 82 39 -
PLWAAYTAMEYQW AG2R_MELGA 82 39 -
PLWAVYTAMHYHW AG2S_XENLA 84 39 -
PLWAAYTAMHYHW AG2R_XENLA 83 39 -
PLWATYYSYRYDW AG22_HUMAN 98 39 -
PLWATYYSYRYDW AG22_RAT 98 39 -
PLWATYYSYRYDW AG22_MOUSE 98 39 -

Motif 3 width=8
Element Seqn Id St Int Rpt
FLLTCLSI AG2R_MOUSE 117 22 -
FLLTCLSI AG2R_PIG 117 22 -
FLLTCLSI AG2R_RABIT 117 22 -
FLLTCLSI AG2R_CANFA 117 22 -
FLLTCLSI AG2S_HUMAN 117 22 -
FLLTCLSI AG2R_HUMAN 117 22 -
FLLTCLSI AG2R_RAT 117 22 -
FLLTCLSI AG2S_RAT 117 22 -
FLLTCLSI AG2R_MERUN 117 22 -
FLLTCLSI AG2R_BOVIN 117 22 -
FLLTCLSI AG2S_MOUSE 117 22 -
FLLTCLSI AG2R_CHICK 117 22 -
FLLTCLSI AG2R_MELGA 117 22 -
FLLTCLSI AG2S_XENLA 119 22 -
FLLTCLSI AG2R_XENLA 118 22 -
FFITCMSV AG22_HUMAN 133 22 -
FFITCMSV AG22_RAT 133 22 -
FFITCMSV AG22_MOUSE 133 22 -

Motif 4 width=12
Element Seqn Id St Int Rpt
LASLPAVIHRNV AG2R_MOUSE 158 33 -
LASLPTIIHRNV AG2R_PIG 158 33 -
LASLPAIIHRNV AG2R_RABIT 158 33 -
LASLPTIIHRNV AG2R_CANFA 158 33 -
LASLPAIIHRNV AG2S_HUMAN 158 33 -
LASLPAIIHRNV AG2R_HUMAN 158 33 -
LASLPAVIHRNV AG2R_RAT 158 33 -
LASLPAVIYRNV AG2S_RAT 158 33 -
LASLPAVIHRNV AG2R_MERUN 158 33 -
LASLPTIIHRNV AG2R_BOVIN 158 33 -
LASLPAVIHRNV AG2S_MOUSE 158 33 -
VASLPVIIHRNI AG2R_CHICK 158 33 -
VASLPVIIHRNI AG2R_MELGA 158 33 -
LASLPSVIYRQI AG2S_XENLA 160 33 -
LASMPSIIYRQI AG2R_XENLA 159 33 -
LSSLPTFYFRDV AG22_HUMAN 173 32 -
LSSLPTFYFRDV AG22_RAT 173 32 -
LSSLPTFYFRDV AG22_MOUSE 173 32 -

Motif 5 width=11
Element Seqn Id St Int Rpt
IGLGLTKNILG AG2R_MOUSE 193 23 -
VGLGLTKNILG AG2R_PIG 193 23 -
IGLGLTKNILG AG2R_RABIT 193 23 -
IGLGLTKNILG AG2R_CANFA 193 23 -
IGLGLTKNILG AG2S_HUMAN 193 23 -
IGLGLTKNILG AG2R_HUMAN 193 23 -
IGLGLTKNILG AG2R_RAT 193 23 -
IGLGLTKNILG AG2S_RAT 193 23 -
VGLGLTKNILG AG2R_MERUN 193 23 -
VGLGLTKNILG AG2R_BOVIN 193 23 -
IGLGLTKNILG AG2S_MOUSE 193 23 -
VGLGLSKNLLG AG2R_CHICK 193 23 -
VGLGLSKNLLG AG2R_MELGA 193 23 -
VGMSLVKNIVG AG2S_XENLA 195 23 -
VGMSLAKNIVG AG2R_XENLA 194 23 -
AGIALMKNILG AG22_HUMAN 209 24 -
AGIALMKNILG AG22_RAT 209 24 -
AGIALMKNILG AG22_MOUSE 209 24 -

Motif 6 width=12
Element Seqn Id St Int Rpt
ILTSYTLIWKAL AG2R_MOUSE 211 7 -
ILTSYTLIWKAL AG2R_PIG 211 7 -
ILTSYTLIWKAL AG2R_RABIT 211 7 -
ILTSYTLIWKTL AG2R_CANFA 211 7 -
ILTSYTLIWKAL AG2S_HUMAN 211 7 -
ILTSYTLIWKAL AG2R_HUMAN 211 7 -
ILTSYTLIWKAL AG2R_RAT 211 7 -
ILTSYTLIWKAL AG2S_RAT 211 7 -
ILTSYTLIWKAL AG2R_MERUN 211 7 -
ILTSYTLIWKTL AG2R_BOVIN 211 7 -
ILTSYTLIWKAL AG2S_MOUSE 211 7 -
ILTSYTLIWKTL AG2R_CHICK 211 7 -
ILTSYTLIWKTL AG2R_MELGA 211 7 -
ILTSYTLIGKTL AG2S_XENLA 213 7 -
ILTSYTLIGKTL AG2R_XENLA 212 7 -
IATCYFGIRKHL AG22_HUMAN 227 7 -
IATCYFGIRKHL AG22_RAT 227 7 -
IATCYFGIRKHL AG22_MOUSE 227 7 -

Motif 7 width=11
Element Seqn Id St Int Rpt
PHQIFTFLDVL AG2R_MOUSE 255 32 -
PHQIFTFLDVL AG2R_PIG 255 32 -
PHQIFTFLDVL AG2R_RABIT 255 32 -
PHQIFTFLDVL AG2R_CANFA 255 32 -
PHQIFTFLDVL AG2S_HUMAN 255 32 -
PHQIFTFLDVL AG2R_HUMAN 255 32 -
PHQIFTFLDVL AG2R_RAT 255 32 -
PHQIFTFLDVL AG2S_RAT 255 32 -
PHQIFTFLDVL AG2R_MERUN 255 32 -
PHQIFTFMDVL AG2R_BOVIN 255 32 -
PHQIFSFLDVL AG2S_MOUSE 255 32 -
PHQVFTFLDVL AG2R_CHICK 255 32 -
PHQVFTFLDVL AG2R_MELGA 255 32 -
PHQVFTFLDVL AG2S_XENLA 255 30 -
PYQVFTFLDVL AG2R_XENLA 254 30 -
PFHVLTFLDAL AG22_HUMAN 271 32 -
PFHVLTFLDAL AG22_RAT 271 32 -
PFHVLTFLDAL AG22_MOUSE 271 32 -

Motif 8 width=18
Element Seqn Id St Int Rpt
IHDCKIADIVDTAMPITI AG2R_MOUSE 271 5 -
IHDCKIADIVDTAMPITI AG2R_PIG 271 5 -
IHDCRIADIVDTAMPITI AG2R_RABIT 271 5 -
IHDCKIADIVDTAMPITI AG2R_CANFA 271 5 -
IRDCRIADIVDTAMPITI AG2S_HUMAN 271 5 -
IRDCRIADIVDTAMPITI AG2R_HUMAN 271 5 -
IHDCKISDIVDTAMPITI AG2R_RAT 271 5 -
IRDCEIADIVDTAMPITI AG2S_RAT 271 5 -
IRDCKIADVVDTAMPITI AG2R_MERUN 271 5 -
IRDCKIEDIVDTAMPITI AG2R_BOVIN 271 5 -
IHDCEIADVVDTAMPITI AG2S_MOUSE 271 5 -
ITDCKITDIVDTAMPFTI AG2R_CHICK 271 5 -
ITDCKITDIVDTAMPFTI AG2R_MELGA 271 5 -
IQNCKMYDIVDTGMPITI AG2S_XENLA 271 5 -
IQNCKMYDIVDTGMPITI AG2R_XENLA 270 5 -
INSCEVIAVIDLALPFAI AG22_HUMAN 287 5 -
INSCEVIAVIDLALPFAI AG22_RAT 287 5 -
INSCEVIAVIDLALPFAI AG22_MOUSE 287 5 -