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PR02001

Identifier
GCR1CAMPR  [View Relations]  [View Alignment]  
Accession
PR02001
No. of Motifs
5
Creation Date
24-JUN-2009
Title
GCR1-cAMP receptor family signature
Database References
PRINTS; PR90007 7TM; PR90006 GPCRCLAN; PR02000 GCR1PLANT
PRINTS; PR00247 GPCRCAMP
PFAM; PF05462 Dicty_CAR
INTERPRO; IPR000848
Literature References
1. JOSEFSSON,L.G. AND RASK, L.
Cloning of a putative G-protein-coupled receptor from Arabidopsis thaliana.
EUR.J.BIOCHEM. 249 415-420 (1997).
 
2. PLAKIDOU-DYMOCK, S., DYMOCK, D. AND HOOLEY, R.
A higher plant seven-transmembrane receptor that influences sensitivity to
cytokinins.
CURR.BIOL. 8 315-324 (1998).
 
3. KLEIN, P.S., SUN, T.J., SAXE, C.L., KIMMEL, A.R., JOHNSON, R.L. AND
DEVREOTES, P.N.
A chemoattractant receptor controls development in Dictyostelium discoideum.
SCIENCE 241 1467-1472 (1988).
 
4. SAXE, C.L., GINSBURG, G.T., LOUIS, J.M., JOHNSON, R., DEVREOTES, P.N.
AND KIMMEL, A.R.
CAR2: A prestalk cAMP receptor required for normal tip formation and late
development of Dictyostelium discoideum.
GENES DEV. 7 262-272 (1993).
 
5. JOHNSON, R.L., SAXE, C.L., GOLLOP, R., KIMMEL, A.R. AND DEVREOTES, P.N.
Identification and targeted gene disruption of cAR3, a cAMP receptor
subtype expressed during multicellular stages of Dictyostelium development.
GENES DEV. 7 273-282 (1993).

Documentation
Heterotrimeric G protein-mediated signalling via activated 7-transmembrane
(7TM) serpentine receptors is well known in a range of organisms, but 
evidence for the existence of this pathway in plants has been elusive.
Over the years, however, evidence that G proteins are involved in signal 
transduction in plants has been accumulating, leading several researchers
to seek plant 7TM receptors.
 
The first tangible evidence for a plant 7TM receptor came through an
analysis of the expresssed sequence tag database, dbEST. This revealed 
an Arabidopsis thaliana gene (GCR1) that encodes a protein with 7 predicted
TM domains, and other features characteristic of known 7TM receptors [1,2].
The amino acid sequence of GCR1, however, is unusual in that it shows
similarity to receptors from three different 7TM families [1,2], sharing
greatest levels of similarity with the Dictyostelium cAMP receptors.
 
It has been suggested that the cAMP receptors coordinate aggregation of 
individual cells into a multicellular organism, and regulate the expression
of a large number of developmentally-regulated genes [3-5]. 
 
GCR1 is expressed at low levels in the roots, stems and leaves of
Arabidopsis. Studies using transgenic Arabidopsis have suggested a 
functional role for GCR1 in cytokinin signal transduction [2].
 
GCR1CAMPR is a 5-element fingerprint that provides a signature for the
GCR1-cAMP receptor family. The fingerprint was derived from an initial
alignment of 19 sequences: the motifs were drawn from conserved regions
spanning virtually the full alignment length. Four iterations on SPTR57_40f
were required to reach convergence, at which point a true set comprising 27
sequences was identified. Several partial matches were also found, all of 
which are related proteins that fail to make significant matches with
1 or more motifs.
Summary Information
  27 codes involving  5 elements
2 codes involving 4 elements
5 codes involving 3 elements
25 codes involving 2 elements
Composite Feature Index
52727272727
420222
342324
214319104
12345
True Positives
A0D4P1_PARTE  A0E441_PARTE  A7P4V2_VITVI  A9SH56_PHYPA  
A9U1I7_PHYPA B3VSF1_9MYCE B6GV49_LOTJA B6SHE2_MAIZE
B8B3R3_ORYSI B9HMQ6_POPTR B9S014_RICCO CAR1_DICDI
CAR2_DICDI CAR4_DICDI O04214_ARATH O04714_ARATH
Q22KB1_TETTH Q22W70_TETTH Q22X36_TETTH Q23WQ7_TETTH
Q24HN4_TETTH Q4ZH52_PEA Q54MC6_DICDI Q69K53_ORYSJ
Q6R2K8_9MYCE Q8LPG0_ARATH Q9NDL2_POLPA
True Positive Partials
Codes involving 4 elements
B3VSF0_POLPA CAR3_DICDI
Codes involving 3 elements
A0E132_PARTE Q22CP7_TETTH Q22E09_TETTH Q23WV8_TETTH
Q86D86_DICDI
Codes involving 2 elements
A0BZW7_PARTE A0CUI5_PARTE A0D9W5_PARTE A0DKL9_PARTE
A1CZQ4_NEOFI A4DA13_ASPFU A7RV25_NEMVE B0Y319_ASPFC
B4F750_XENTR B4HFU6_DROSE B4HMZ9_DROSE B4R1A8_DROSI
B6GZN6_PENCH B6HSY3_PENCH B6L2M7_BRAFL B6MSM8_BRAFL
B6QNA7_PENMA CRLA_DICDI CRLB_DICDI MTH6_DROME
Q0CE84_ASPTN Q498W7_DANRE Q54GG1_DICDI Q5ATW8_EMENI
Q6GQ05_XENLA
Sequence Titles
A0D4P1_PARTE Chromosome undetermined scaffold_38, whole genome shotgun sequence - Paramecium tetraurelia. 
A0E441_PARTE Chromosome undetermined scaffold_77, whole genome shotgun sequence - Paramecium tetraurelia.
A7P4V2_VITVI Chromosome chr4 scaffold_6, whole genome shotgun sequence; - Vitis vinifera (Grape).
A9SH56_PHYPA Predicted protein; - Physcomitrella patens subsp. patens.
A9U1I7_PHYPA Predicted protein; - Physcomitrella patens subsp. patens.
B3VSF1_9MYCE cAMP receptor cAR - Dictyostelium aureostipes.
B6GV49_LOTJA Putative G-protein coupled receptor; - Lotus japonicus.
B6SHE2_MAIZE G protein-coupled receptor; - Zea mays (Maize).
B8B3R3_ORYSI Putative uncharacterized protein; - Oryza sativa subsp. indica (Rice).
B9HMQ6_POPTR Predicted protein; - Populus trichocarpa (Western balsam poplar) (Populus balsamifera subsp. trichocarpa).
B9S014_RICCO Cyclic AMP receptor, putative; - Ricinus communis (Castor bean).
CAR1_DICDI Cyclic AMP receptor 1 - Dictyostelium discoideum (Slime mold).
CAR2_DICDI Cyclic AMP receptor 2 - Dictyostelium discoideum (Slime mold).
CAR4_DICDI Cyclic AMP receptor 4 - Dictyostelium discoideum (Slime mold).
O04214_ARATH Putative G protein coupled receptor; - Arabidopsis thaliana (Mouse-ear cress).
O04714_ARATH Putative G-protein-coupled receptor (F11A17.17 protein); - Arabidopsis thaliana (Mouse-ear cress).
Q22KB1_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q22W70_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q22X36_TETTH 7 transmembrane receptor secretin family protein; - Tetrahymena thermophila SB210.
Q23WQ7_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q24HN4_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q4ZH52_PEA G-protein coupled receptor; - Pisum sativum (Garden pea).
Q54MC6_DICDI G-protein-coupled receptor (GPCR) family protein - Dictyostelium discoideum (Slime mold).
Q69K53_ORYSJ Os06g0199800 protein; Putative uncharacterized protein; cDNA clone:J033046K12, full insert sequence; G protein coupled receptor-related-like; - Oryza sativa subsp. japonica (Rice).
Q6R2K8_9MYCE CAMP receptor 1 - Dictyostelium minutum.
Q8LPG0_ARATH Putative G protein-coupled receptor; - Arabidopsis thaliana (Mouse-ear cress).
Q9NDL2_POLPA CAMP receptor TasA - Polysphondylium pallidum (Cellular slime mold).

B3VSF0_POLPA cAMP receptor TasB - Polysphondylium pallidum (Cellular slime mold).
CAR3_DICDI Cyclic AMP receptor 3 - Dictyostelium discoideum (Slime mold).

A0E132_PARTE Chromosome undetermined scaffold_72, whole genome shotgun sequence - Paramecium tetraurelia.
Q22CP7_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q22E09_TETTH Putative uncharacterized protein - Tetrahymena thermophila SB210.
Q23WV8_TETTH Oxidoreductase, zinc-binding dehydrogenase family protein - Tetrahymena thermophila SB210.
Q86D86_DICDI RpkA (G-protein-coupled receptor (GPCR) family protein) - Dictyostelium discoideum (Slime mold).

A0BZW7_PARTE Chromosome undetermined scaffold_14, whole genome shotgun sequence - Paramecium tetraurelia.
A0CUI5_PARTE Chromosome undetermined scaffold_28, whole genome shotgun sequence - Paramecium tetraurelia.
A0D9W5_PARTE Chromosome undetermined scaffold_42, whole genome shotgun sequence - Paramecium tetraurelia.
A0DKL9_PARTE Chromosome undetermined scaffold_54, whole genome shotgun sequence - Paramecium tetraurelia.
A1CZQ4_NEOFI Putative uncharacterized protein - Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / NRRL 181) (Aspergillus fischerianus (strain ATCC 1020 / DSM 3700 / NRRL 181)).
A4DA13_ASPFU CAMP receptor-like protein, putative - Aspergillus fumigatus (Sartorya fumigata).
A7RV25_NEMVE Predicted protein - Nematostella vectensis (Starlet sea anemone).
B0Y319_ASPFC Putative uncharacterized protein - Aspergillus fumigatus (strain CEA10 / CBS 144.89 / FGSC A1163) (Sartorya fumigata).
B4F750_XENTR Gpr157 protein - Xenopus tropicalis (Western clawed frog) (Silurana tropicalis).
B4HFU6_DROSE GM24102 - Drosophila sechellia (Fruit fly).
B4HMZ9_DROSE GM21235 - Drosophila sechellia (Fruit fly).
B4R1A8_DROSI GD18901 - Drosophila simulans (Fruit fly).
B6GZN6_PENCH Pc12g05710 protein - Penicillium chrysogenum Wisconsin 54-1255.
B6HSY3_PENCH Pc22g21700 protein - Penicillium chrysogenum Wisconsin 54-1255.
B6L2M7_BRAFL Putative uncharacterized protein - Branchiostoma floridae (Florida lancelet) (Amphioxus).
B6MSM8_BRAFL Putative uncharacterized protein - Branchiostoma floridae (Florida lancelet) (Amphioxus).
B6QNA7_PENMA cAMP receptor-like protein, putative - Penicillium marneffei ATCC 18224.
CRLA_DICDI Cyclic AMP receptor-like protein A - Dictyostelium discoideum (Slime mold).
CRLB_DICDI Cyclic AMP receptor-like protein B - Dictyostelium discoideum (Slime mold).
MTH6_DROME Probable G-protein coupled receptor Mth-like 6 - Drosophila melanogaster (Fruit fly).
Q0CE84_ASPTN Putative uncharacterized protein - Aspergillus terreus (strain NIH 2624).
Q498W7_DANRE G protein-coupled receptor 157 - Danio rerio (Zebrafish) (Brachydanio rerio).
Q54GG1_DICDI G-protein-coupled receptor (GPCR) family protein - Dictyostelium discoideum (Slime mold).
Q5ATW8_EMENI Putative uncharacterized protein - Emericella nidulans (Aspergillus nidulans).
Q6GQ05_XENLA MGC80528 protein - Xenopus laevis (African clawed frog).
Scan History
SPTR57_40f 4  300  NSINGLE    
Initial Motifs
Motif 1  width=19
Element Seqn Id St Int Rpt
SAVGATLMILTYFKFKELQ A0E441_PARTE 25 25 -
SLILSILVIFAYFKFKKIK Q24HN4_TETTH 18 18 -
SIVGSFLTIFTFMLYPKLR Q54MC6_DICDI 21 21 -
SIISTACLILIYTFKKSSR Q23WQ7_TETTH 16 16 -
SIIGCTLVLLGFWRLKLLR CAR3_DICDI 34 34 -
GIVGALFIIVSFFLFKAAR CRLA_DICDI 81 81 -
SFVGSAFIVLCYCLFKELR O04714_ARATH 30 30 -
SFVGSAFIVLCYCLFKELR Q8LPG0_ARATH 30 30 -
SFVGSAFIVLCYCLFKELR O04214_ARATH 30 30 -
SLAGSSFIVLCYLLFRELR Q69K53_ORYSJ 32 32 -
SFIGTFFIVMCYVLFKDLR A9U1I7_PHYPA 24 24 -
SFVGTFFIVMCYVLFKDLR A9SH56_PHYPA 24 24 -
SFVGSAFIVLCYCIYKDIN Q4ZH52_PEA 30 30 -
SLIGSTFIVLMYLCNKDLH Q22W70_TETTH 27 27 -
SIIGCSLVLIGFWRLKLLR CAR2_DICDI 21 21 -
SIFGCLLVLIAFKKLKLLR CAR4_DICDI 21 21 -
SIIGCIIVLVGFWRLKLLR Q6R2K8_9MYCE 22 22 -
SLLGAIFIIGIFLSFKKLR Q22X36_TETTH 24 24 -
SMLGCMAVLIGFWRLKLLR CAR1_DICDI 24 24 -

Motif 2 width=16
Element Seqn Id St Int Rpt
TFAFRIVLYLNISDVI A0E441_PARTE 44 0 -
SYPIKLIIYLCMSIVF Q54MC6_DICDI 40 0 -
TFATKMIFFLSLSDLF CRLA_DICDI 100 0 -
TYAFKLVLPLFIFDLI Q23WQ7_TETTH 35 0 -
KFSFKLVFYLALSDML O04714_ARATH 49 0 -
KFSFKLVFYLALSDVL Q8LPG0_ARATH 49 0 -
KFSFKLVFYLALSDML O04214_ARATH 49 0 -
KFSFKLVYFLAVSDMF Q69K53_ORYSJ 51 0 -
SFAFKLVFYLSLSDML A9U1I7_PHYPA 43 0 -
SFAFKLVFYLSLSDML A9SH56_PHYPA 43 0 -
KYTFKLVFYLALSDML Q4ZH52_PEA 49 0 -
TFAFKLVFLLSISDII Q22W70_TETTH 46 0 -
NHITKIISLFCATSLF CAR2_DICDI 40 0 -
NHITRVIACFCVSSLL CAR4_DICDI 40 0 -
NHVTKVISCFCLTSIC Q6R2K8_9MYCE 41 0 -
VFPFIYVFWLSVSDLI Q22X36_TETTH 43 0 -
NHVTKVIACFCATSFC CAR1_DICDI 43 0 -
SFPFKLIMLLCVADSF Q24HN4_TETTH 37 0 -

Motif 3 width=19
Element Seqn Id St Int Rpt
CRIQATIKLFTMLGSFFTT Q23WQ7_TETTH 75 24 -
CYLYATVITYGSLACWLWT CAR3_DICDI 90 37 -
CYAQGYTTHFFCVASFLWT O04714_ARATH 80 15 -
CYAQGYTTHFFCVASFLWT Q8LPG0_ARATH 80 15 -
CYAQGYTTHFFCVASFFWT O04214_ARATH 80 15 -
CFAHDYSAHFFCVASFLWT Q69K53_ORYSJ 82 15 -
CYAQGYSSQFFSIASFLWT A9U1I7_PHYPA 74 15 -
CYAQGYSSQFFSIASFLWT A9SH56_PHYPA 74 15 -
SFAQGYTTHFFCVASFLWT Q4ZH52_PEA 80 15 -
CQVQSFLVTFGGLSTIVTT Q22W70_TETTH 86 24 -
CYLHAIVITFGSLACWLWT CAR2_DICDI 78 22 -
CYLYAITITYGSLACWLWT CAR4_DICDI 80 24 -
CYFYSIVITYGSLSCWLWT Q6R2K8_9MYCE 78 21 -
CKTQALMINFGQLASICWT Q22X36_TETTH 84 25 -
CYLYAIVITYGSFACWLWT CAR1_DICDI 79 20 -
CLIQAYLINASQLSSIIWT A0E441_PARTE 80 20 -
CQVQGFFIQYSNVSSFVVT Q24HN4_TETTH 71 18 -
CIPAAILVHYFFLANFFWT Q54MC6_DICDI 72 16 -

Motif 4 width=19
Element Seqn Id St Int Rpt
YPIVLFLSWIWIIIERVTE Q23WQ7_TETTH 215 121 -
YIIVFLLCWVFAVINRIVN CAR3_DICDI 222 113 -
YPLILIGSWAFGTINRIHD O04714_ARATH 221 122 -
YPLILIGSWAFGTINRIHD Q8LPG0_ARATH 221 122 -
YPLILIGSWAFGTINRIHD O04214_ARATH 221 122 -
YPLILIGSWAFATINRVHD Q69K53_ORYSJ 223 122 -
YPLILIGSFTFGTINRIYG A9U1I7_PHYPA 221 128 -
YPLILIGSFTFGTINRIYG A9SH56_PHYPA 216 123 -
YPLILIGSWAFGTINRIHE Q4ZH52_PEA 221 122 -
YPLIMVICYLFATINRVYQ Q22W70_TETTH 225 120 -
YIVVFLVCWVFAIVNRILN CAR2_DICDI 210 113 -
YIIVFLLCWVFAIVNRILN CAR4_DICDI 212 113 -
YIIVFLICWVFAVVNRIVN Q6R2K8_9MYCE 210 113 -
YPLILLVCWSAGTVERVFD Q22X36_TETTH 217 114 -
YIIVFLVCWVFAVVNRIVN CAR1_DICDI 211 113 -
YPLILIICWIFTAFNRTYE A0E441_PARTE 210 111 -
FPVIMMICWLPSTINRIID Q24HN4_TETTH 202 112 -
IFVSIGSSWIFGFIYMFSD Q54MC6_DICDI 201 110 -

Motif 5 width=20
Element Seqn Id St Int Rpt
LFSISTSLQGFFIFISYCLN Q54MC6_DICDI 231 11 -
LDVGTAALMGLFNSIAYGFN O04714_ARATH 253 13 -
LHTYLSVSHGFYASVTFIYN CAR3_DICDI 252 11 -
LDVGTAALMGLFNSIAYGFN Q8LPG0_ARATH 253 13 -
LDVGTAALMGLFNSIAYGFN O04214_ARATH 253 13 -
LDVGFAGLMGLFNSIAYGLN Q69K53_ORYSJ 255 13 -
LDIASASLMGFFNSIAYGYN A9U1I7_PHYPA 253 13 -
LDIASASLMGFFNSIAYGYN A9SH56_PHYPA 248 13 -
LDVGTAALMGLFNSIAYAFR Q4ZH52_PEA 253 13 -
LHICLAGLQGFFNSLVYGFN Q22W70_TETTH 256 12 -
LHTYFSVSHGFYASITFIYN CAR2_DICDI 240 11 -
LHTYFSVSHGFFASVTFIYN CAR4_DICDI 242 11 -
LHTYLSVSHGFFASMVFVYN Q6R2K8_9MYCE 240 11 -
LHIFFGGLQGFFNACVYGLN Q22X36_TETTH 247 11 -
LHTYLSVSHGFWASVTFIYN CAR1_DICDI 241 11 -
LSKALSGLMGFFNYLGYGFT A0E441_PARTE 241 12 -
MHICFDILASILNVCIYGFN Q24HN4_TETTH 235 14 -
IDLSFATLNGCLNALVYGYI Q23WQ7_TETTH 246 12 -
Final Motifs
Motif 1  width=19
Element Seqn Id St Int Rpt
SLAGSSFIVLCYLLFKELR B6GV49_LOTJA 30 30 -
SFVGSAFIVLCYCLFKELR O04714_ARATH 30 30 -
SFVGSSFIVLCYVLFKELR B9S014_RICCO 29 29 -
SFVGSAFIVLCYCLFKELR Q8LPG0_ARATH 30 30 -
SFVGSGFIVLCYLLFKELR A7P4V2_VITVI 25 25 -
SFVGSAFIVLCYCLFKELR O04214_ARATH 30 30 -
SFLGSSFIVLCYLLFKELR B9HMQ6_POPTR 26 26 -
SLAGSSFIVICYLLFRELR B6SHE2_MAIZE 34 34 -
SLAGSSFIVLCYLLFRELR B8B3R3_ORYSI 32 32 -
SLAGSSFIVLCYLLFRELR Q69K53_ORYSJ 32 32 -
SFIGTFFIVMCYVLFKDLR A9U1I7_PHYPA 24 24 -
SFVGTFFIVMCYVLFKDLR A9SH56_PHYPA 24 24 -
SFVGSAFIVLCYCIYKDIN Q4ZH52_PEA 30 30 -
SLIGSTFIVLMYLCNKDLH Q22W70_TETTH 27 27 -
SIIGCSLVLIGFWRLKLLR CAR2_DICDI 21 21 -
SIIGTFIVLIGFWRLKLLR Q9NDL2_POLPA 42 42 -
SIFGCLLVLIAFKKLKLLR CAR4_DICDI 21 21 -
SIIGCIIVLVGFWRLKLLR Q6R2K8_9MYCE 22 22 -
SLLGAIFIIGIFLSFKKLR Q22X36_TETTH 24 24 -
SIIGCFCVLVGFWRLKLLR B3VSF1_9MYCE 24 24 -
SMLGCMAVLIGFWRLKLLR CAR1_DICDI 24 24 -
SAVGATLMILTYFKFKELQ A0E441_PARTE 25 25 -
SILCCLIITIGFIAFKNLR Q22KB1_TETTH 23 23 -
SLIGSLFIVVVYFKMGMRN A0D4P1_PARTE 17 17 -
SLILSILVIFAYFKFKKIK Q24HN4_TETTH 18 18 -
SIVGSFLTIFTFMLYPKLR Q54MC6_DICDI 21 21 -
SIISTACLILIYTFKKSSR Q23WQ7_TETTH 16 16 -

Motif 2 width=16
Element Seqn Id St Int Rpt
KFSFKLVFYLALSDML B6GV49_LOTJA 49 0 -
KFSFKLVFYLALSDML O04714_ARATH 49 0 -
KFSFKLVFYLALSDML B9S014_RICCO 48 0 -
KFSFKLVFYLALSDVL Q8LPG0_ARATH 49 0 -
KFSFKLVFYLALSDML A7P4V2_VITVI 44 0 -
KFSFKLVFYLALSDML O04214_ARATH 49 0 -
KFSFKLVFYLALSDML B9HMQ6_POPTR 45 0 -
KFSFKLVFYLAVSDMF B6SHE2_MAIZE 53 0 -
KFSFKLVYFLAVSDMF B8B3R3_ORYSI 51 0 -
KFSFKLVYFLAVSDMF Q69K53_ORYSJ 51 0 -
SFAFKLVFYLSLSDML A9U1I7_PHYPA 43 0 -
SFAFKLVFYLSLSDML A9SH56_PHYPA 43 0 -
KYTFKLVFYLALSDML Q4ZH52_PEA 49 0 -
TFAFKLVFLLSISDII Q22W70_TETTH 46 0 -
NHITKIISLFCATSLF CAR2_DICDI 40 0 -
NHVTRVISCFCLTSFL Q9NDL2_POLPA 61 0 -
NHITRVIACFCVSSLL CAR4_DICDI 40 0 -
NHVTKVISCFCLTSIC Q6R2K8_9MYCE 41 0 -
VFPFIYVFWLSVSDLI Q22X36_TETTH 43 0 -
NHITRIISCFCLTSFF B3VSF1_9MYCE 43 0 -
NHVTKVIACFCATSFC CAR1_DICDI 43 0 -
TFAFRIVLYLNISDVI A0E441_PARTE 44 0 -
KSALKLVLFLCISEMI Q22KB1_TETTH 42 0 -
NFALKLIMCLTISDII A0D4P1_PARTE 36 0 -
SFPFKLIMLLCVADSF Q24HN4_TETTH 37 0 -
SYPIKLIIYLCMSIVF Q54MC6_DICDI 40 0 -
TYAFKLVLPLFIFDLI Q23WQ7_TETTH 35 0 -

Motif 3 width=19
Element Seqn Id St Int Rpt
CYAQGYSTHFFCVASFLWT B6GV49_LOTJA 80 15 -
CYAQGYTTHFFCVASFLWT O04714_ARATH 80 15 -
CIAQGYTTHFFCVASFLWT B9S014_RICCO 79 15 -
CYAQGYTTHFFCVASFLWT Q8LPG0_ARATH 80 15 -
CYAQGYTTHFFCVASFLWT A7P4V2_VITVI 75 15 -
CYAQGYTTHFFCVASFFWT O04214_ARATH 80 15 -
CYAQGYSTHFFCVASFLWT B9HMQ6_POPTR 76 15 -
CFAHDYSAHFFCVASFLWT B6SHE2_MAIZE 84 15 -
CFAHDYSAHFFCVASFLWT B8B3R3_ORYSI 82 15 -
CFAHDYSAHFFCVASFLWT Q69K53_ORYSJ 82 15 -
CYAQGYSSQFFSIASFLWT A9U1I7_PHYPA 74 15 -
CYAQGYSSQFFSIASFLWT A9SH56_PHYPA 74 15 -
SFAQGYTTHFFCVASFLWT Q4ZH52_PEA 80 15 -
CQVQSFLVTFGGLSTIVTT Q22W70_TETTH 86 24 -
CYLHAIVITFGSLACWLWT CAR2_DICDI 78 22 -
CYLYSIVITYGSLSCWLWT Q9NDL2_POLPA 97 20 -
CYLYAITITYGSLACWLWT CAR4_DICDI 80 24 -
CYFYSIVITYGSLSCWLWT Q6R2K8_9MYCE 78 21 -
CKTQALMINFGQLASICWT Q22X36_TETTH 84 25 -
CYLFAIAINYGSLSCWLWT B3VSF1_9MYCE 79 20 -
CYLYAIVITYGSFACWLWT CAR1_DICDI 79 20 -
CLIQAYLINASQLSSIIWT A0E441_PARTE 80 20 -
CAAQIFFGNLGHLLSLFWT Q22KB1_TETTH 75 17 -
CTIQGFLIQYSSIACFIFC A0D4P1_PARTE 72 20 -
CQVQGFFIQYSNVSSFVVT Q24HN4_TETTH 71 18 -
CIPAAILVHYFFLANFFWT Q54MC6_DICDI 72 16 -
CRIQATIKLFTMLGSFFTT Q23WQ7_TETTH 75 24 -

Motif 4 width=19
Element Seqn Id St Int Rpt
YPLILIGSWAFGTINRIHD B6GV49_LOTJA 221 122 -
YPLILIGSWAFGTINRIHD O04714_ARATH 221 122 -
YPLILIGSWAFGTINRIHD B9S014_RICCO 221 123 -
YPLILIGSWAFGTINRIHD Q8LPG0_ARATH 221 122 -
YPLILIGSWAFGTINRVHD A7P4V2_VITVI 204 110 -
YPLILIGSWAFGTINRIHD O04214_ARATH 221 122 -
YPLILIGSWAFGTINGIHD B9HMQ6_POPTR 217 122 -
YPLILIGSWAFATINRLYD B6SHE2_MAIZE 225 122 -
YPLILIGSWAFATINRVHD B8B3R3_ORYSI 223 122 -
YPLILIGSWAFATINRVHD Q69K53_ORYSJ 223 122 -
YPLILIGSFTFGTINRIYG A9U1I7_PHYPA 221 128 -
YPLILIGSFTFGTINRIYG A9SH56_PHYPA 216 123 -
YPLILIGSWAFGTINRIHE Q4ZH52_PEA 221 122 -
YPLIMVICYLFATINRVYQ Q22W70_TETTH 225 120 -
YIVVFLVCWVFAIVNRILN CAR2_DICDI 210 113 -
YIIVFLVCWIFAVINRILN Q9NDL2_POLPA 229 113 -
YIIVFLLCWVFAIVNRILN CAR4_DICDI 212 113 -
YIIVFLICWVFAVVNRIVN Q6R2K8_9MYCE 210 113 -
YPLILLVCWSAGTVERVFD Q22X36_TETTH 217 114 -
YIIVFLVCWIFAVVNRIIN B3VSF1_9MYCE 211 113 -
YIIVFLVCWVFAVVNRIVN CAR1_DICDI 211 113 -
YPLILIICWIFTAFNRTYE A0E441_PARTE 210 111 -
YPFIIPICQIFALIYQVYV Q22KB1_TETTH 216 122 -
YPIIMLICYSGMTVYAIGK A0D4P1_PARTE 238 147 -
FPVIMMICWLPSTINRIID Q24HN4_TETTH 202 112 -
IFVSIGSSWIFGFIYMFSD Q54MC6_DICDI 201 110 -
YPIVLFLSWIWIIIERVTE Q23WQ7_TETTH 215 121 -

Motif 5 width=20
Element Seqn Id St Int Rpt
LDVGTAALMGLFNSIAYGLN B6GV49_LOTJA 253 13 -
LDVGTAALMGLFNSIAYGFN O04714_ARATH 253 13 -
LDVGTAALMGLFNSIAYGLN B9S014_RICCO 253 13 -
LDVGTAALMGLFNSIAYGFN Q8LPG0_ARATH 253 13 -
LDVGMAALMGLFNSIAYGLN A7P4V2_VITVI 236 13 -
LDVGTAALMGLFNSIAYGFN O04214_ARATH 253 13 -
LDVGTAALMGLSNSIAYGLN B9HMQ6_POPTR 249 13 -
LDVGFAGLMGLFNSIAYGLN B6SHE2_MAIZE 257 13 -
LDVGFAGLMGLFNSIAYGLN B8B3R3_ORYSI 255 13 -
LDVGFAGLMGLFNSIAYGLN Q69K53_ORYSJ 255 13 -
LDIASASLMGFFNSIAYGYN A9U1I7_PHYPA 253 13 -
LDIASASLMGFFNSIAYGYN A9SH56_PHYPA 248 13 -
LDVGTAALMGLFNSIAYAFR Q4ZH52_PEA 253 13 -
LHICLAGLQGFFNSLVYGFN Q22W70_TETTH 256 12 -
LHTYFSVSHGFYASITFIYN CAR2_DICDI 240 11 -
LHTYLSLSHGFYASVAFIYN Q9NDL2_POLPA 259 11 -
LHTYFSVSHGFFASVTFIYN CAR4_DICDI 242 11 -
LHTYLSVSHGFFASMVFVYN Q6R2K8_9MYCE 240 11 -
LHIFFGGLQGFFNACVYGLN Q22X36_TETTH 247 11 -
LHTYLSISHGFYASLVFIYN B3VSF1_9MYCE 241 11 -
LHTYLSVSHGFWASVTFIYN CAR1_DICDI 241 11 -
LSKALSGLMGFFNYLGYGFT A0E441_PARTE 241 12 -
LNIIFSCSQGAVNSIVYGFN Q22KB1_TETTH 248 13 -
LRFIMADCLGLCNSIAYGYN A0D4P1_PARTE 268 11 -
MHICFDILASILNVCIYGFN Q24HN4_TETTH 235 14 -
LFSISTSLQGFFIFISYCLN Q54MC6_DICDI 231 11 -
IDLSFATLNGCLNALVYGYI Q23WQ7_TETTH 246 12 -