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PR01790

Identifier
SMP30FAMILY  [View Relations]  [View Alignment]  
Accession
PR01790
No. of Motifs
6
Creation Date
27-MAR-2003
Title
Senescence marker protein-30 (SMP30) family signature
Database References
PRINTS; PR01791 REGUCALCIN
Literature References
1. SHIMOKAWA, N. AND YAMAGUCHI, M.
Molecular cloning and sequencing of the cDNA coding for a calcium-binding
protein regucalcin from rat liver
FEBS LETTS. 327 251-255 (1993).
 
2. SHIMOKAWA, N. AND YAMAGUCHI, M.
Calcium administration stimulates the expression of calcium-binding protein
regucalcin mRNA in rat liver.
FEBS LETTS. 305 151-154 (1992).
 
3. YAMAGUCHI, M. AND SAKURAI, T.
Reversible effect of calcium-binding protein regucalcin on the
Ca(2+)-induced inhibition of deoxyuridine 5'-triphosphatase activity in rat
liver cytosol.
MOL.CELL BIOCHEM. 110 25-29 (1992).
 
4. MORI, S. AND YAMAGUCHI, M.
Hepatic calcium-binding protein regucalcin decreases
Ca2+/calmodulin-dependent protein kinase activity in rat liver cytosol.
CHEM.PHARM.BULL. 38 2216-2218 (1990).
 
5. KUROTA, H. AND YAMAGUCHI, M.
Inhibitory effect of calcium-binding protein regucalcin on protein kinase C
activity in rat renal cortex cytosol.
BIOL.PHARM.BULL. 21 315-318 (1998).
 
6. TAKAHASHI, H. AND YAMAGUCHI, M.
Regulatory effect of regucalcin on (Ca(2+)-Mg2+)-ATPase in rat liver plasma
membranes: comparison with the activation by Mn2+ and Co2+.
MOL.CELL BIOCHEM. 124 169-174 (1993).
 
7. YAMAGUCHI, M. AND UEOKA, S.
Inhibitory effect of calcium-binding protein regucalcin on ribonucleic acid
synthesis in isolated rat liver nuclei.
MOL.CELL BIOCHEM. 173 169-175 (1997).

Documentation
Regucalcin, also known as senesence marker protein-30 (SMP30), was
discovered in 1978 as a Ca2+ binding protein that does not contain EF-hand
motifs, suggesting a novel class of Ca2+ binding protein. It is primarily
localised to the liver and kidney cortex of animals. Expression of its mRNA 
in the liver and renal cortex of rats is stimulated by an increase in 
cellular Ca2+ levels [1,2]. 
 
Regucalin, as a regulatory protein of Ca2+, has a pivotal role in the
control of many cell functions. The protein has a reversible effect on
Ca2+-induced activation and inhibition of many enzymes in both the liver and
renal cortex cells [3]. It has also been shown to inhibit various protein
kinases (including Ca2+/calmodulin-dependent protein kinase [4], protein
kinase C [5] and tyrosine kinase) and protein phosphatases, indicating a
regulatory role in signal transduction within the cell. In addition,  
regucalcin regulates intracellular Ca2+ homeostasis by enhancing Ca2+- 
pumping activity in the plasma membrane through activation of the pump
enzymes [6]. Moreover, it can inhibit RNA synthesis in the nuclei of normal 
and regenerating rat livers in vitro [7].
 
Hydropathy profiles indicate hydrophobic domains in both N- and C-terminal 
regions of the regucalcin molecule; the protein also exhibits hydrophilic 
characteristics [1]. Human and rodent regucalcins share 89% sequence 
identity, the high degree of conservation between species suggesting that 
the complete structure is required for physiological function. 
 
SMP30 sequences also share a high level of similarity with proteins from a
wide taxonomic range: these include fly anterior fat body proteins; firefly
luciferin regenerating enzyme; putative calcium binding transcriptional
regulatory proteins from Rhizobium meliloti and Streptomyces coelicolor;
gluconolactonase from Brucella melitensis; cell growth protein CGR1 from
Candida albicans; and homologues from Thermoplasma acidophilum, Thermoplasma
volcanium, Sulfolobus tokodaii, Sulfolobus solfataricus, Bacillus subtilis
and Rhizobium loti.
 
SMP30FAMILY is a 6-element fingerprint that provides a signature for the
senescence marker protein-30 family. The fingerprint was derived from an
initial alignment of 7 sequences: the motifs were drawn from conserved 
regions spanning virtually the full alignment length. Nine iterations on
SPTR40_20f were required to reach convergence, at which point a true set
comprising 27 sequences was identified. Numerous partial matches were also
found, all of which are related sequences that fail to make significant
matches with one or more motifs.
Summary Information
  27 codes involving  6 elements
5 codes involving 5 elements
5 codes involving 4 elements
1 codes involving 3 elements
3 codes involving 2 elements
Composite Feature Index
6272727272727
5353455
4451145
3110100
2303000
123456
True Positives
Q8XVS4        Q8YE81        Q925W3        Q92RN9        
Q92ZR8 Q95YI4 Q96XG1 Q97A53
Q97UH7 Q97VC7 Q98DE0 Q9BID6
Q9HKF3 Q9I922 Q9I923 Q9IBA8
Q9L0A7 Q9NDP1 Q9NDS6 Q9TTJ6
Q9VFG5 Q9VYR1 SM30_BOVIN SM30_HUMAN
SM30_MOUSE SM30_RAT YVRE_BACSU
True Positive Partials
Codes involving 5 elements
Q8XRJ9 Q931B6 Q96ZI9 Q9A7B9
Y31K_SULAC
Codes involving 4 elements
Q8Z4I8 Q8ZMW6 Q92T70 Q986F6
Q9A9Z1
Codes involving 3 elements
CGR1_CANAL
Codes involving 2 elements
GNL_ZYMMO Q8XRK7 Q926I2
Sequence Titles
Q8XVS4      HYPOTHETICAL PROTEIN RSC2755 - Ralstonia solanacearum (Pseudomonas solanacearum). 
Q8YE81 GLUCONOLACTONASE (EC 3.1.1.17) - Brucella melitensis.
Q925W3 REGUCALCIN - Rattus norvegicus (Rat).
Q92RN9 HYPOTHETICAL PROTEIN R00823 - Rhizobium meliloti (Sinorhizobium meliloti).
Q92ZR8 PUTATIVE CALCIUM BINDING TRANSCRIPTIONAL REGULATORY PROTEIN - Rhizobium meliloti (Sinorhizobium meliloti).
Q95YI4 LUCIFERIN REGENERATING ENZYME - Photinus pyralis (North American firefly).
Q96XG1 PUTATIVE SENESCENCE MARKER PROTEIN - Sulfolobus tokodaii.
Q97A53 HYPOTHETICAL PROTEIN TV0957 - Thermoplasma volcanium.
Q97UH7 HYPOTHETICAL PROTEIN SSO3041 - Sulfolobus solfataricus.
Q97VC7 REGUCALCIN HOMOLOG - Sulfolobus solfataricus.
Q98DE0 HYPOTHETICAL PROTEIN MLR4744 - Rhizobium loti (Mesorhizobium loti).
Q9BID6 ANTERIOR FAT BODY PROTEIN - Calliphora vicina (Blue blowfly) (Calliphora erythrocephala).
Q9HKF3 HYPOTHETICAL PROTEIN TA0648 - Thermoplasma acidophilum.
Q9I922 REGUCALCIN - Xenopus laevis (African clawed frog).
Q9I923 REGUCALCIN - Gallus gallus (Chicken).
Q9IBA8 SENESCENCE MARKER PROTEIN-30 - Xenopus laevis (African clawed frog).
Q9L0A7 PUTATIVE CALCIUM-BINDING PROTEIN - Streptomyces coelicolor.
Q9NDP1 ANTERIOR FAT BODY PROTEIN - Sarcophaga peregrina (Flesh fly) (Boettcherisca peregrina).
Q9NDS6 SENESCENCE MARKER PROTEIN-30 (SMP-30) - Drosophila melanogaster (Fruit fly).
Q9TTJ6 REGUCALCIN - Oryctolagus cuniculus (Rabbit).
Q9VFG5 CG7390 PROTEIN (RE17477P) - Drosophila melanogaster (Fruit fly).
Q9VYR1 CG1803 PROTEIN (REGUCALCIN HOMOLOGUE) - Drosophila melanogaster (Fruit fly).
SM30_BOVIN Senescence marker protein-30 (SMP-30) (Regucalcin) (RC) - Bos taurus (Bovine).
SM30_HUMAN Senescence marker protein-30 (SMP-30) (Regucalcin) (RC) - Homo sapiens (Human).
SM30_MOUSE Senescence marker protein-30 (SMP-30) (Regucalcin) (RC) - Mus musculus (Mouse).
SM30_RAT Senescence marker protein-30 (SMP-30) (Regucalcin) (RC) - Rattus norvegicus (Rat).
YVRE_BACSU Hypothetical 33.2 kDa protein in GERAC-FHUC intergenic region - Bacillus subtilis.

Q8XRJ9 HYPOTHETICAL PROTEIN RSP0832 - Ralstonia solanacearum (Pseudomonas solanacearum).
Q931B6 PUTATIVE REGUCALCIN - Rhizobium meliloti (Sinorhizobium meliloti).
Q96ZI9 PUTATIVE SENESCENCE MARKER PROTEIN - Sulfolobus tokodaii.
Q9A7B9 SMP-30/CGR1 FAMILY PROTEIN - Caulobacter crescentus.
Y31K_SULAC Hypothetical 31.5 kDa protein - Sulfolobus acidocaldarius.

Q8Z4I8 HYPOTHETICAL PROTEIN STY2855 - Salmonella typhi.
Q8ZMW6 PUTATIVE CYTOPLASMIC PROTEIN - Salmonella typhimurium.
Q92T70 HYPOTHETICAL PROTEIN R00110 - Rhizobium meliloti (Sinorhizobium meliloti).
Q986F6 REGUCALCIN HOMOLOG - Rhizobium loti (Mesorhizobium loti).
Q9A9Z1 SMP-30/CGR1 FAMILY PROTEIN - Caulobacter crescentus.

CGR1_CANAL Cell growth protein CGR1 - Candida albicans (Yeast).

GNL_ZYMMO Gluconolactonase precursor (EC 3.1.1.17) (D-glucono-delta-lactone lactonohydrolase) - Zymomonas mobilis.
Q8XRK7 PUTATIVE GLUCONOLACTONASE PRECURSOR (D-GLUCONO-DELTA-LACTONE LACTONOHYDROLASE) PROTEIN (EC 3.1.1.17) - Ralstonia solanacearum (Pseudomonas solanacearum).
Q926I2 PUTATIVE GLUCONOLACTONASE (EC 3.1.1.17) - Rhizobium meliloti (Sinorhizobium meliloti).
Scan History
SPTR40_20f 9  50   NSINGLE    
Initial Motifs
Motif 1  width=18
Element Seqn Id St Int Rpt
GESPVWEEASQSLLFVDI SM30_MOUSE 17 17 -
GESPVWEEASKCLLFVDI Q925W3 17 17 -
GESPVWEEVSNSLLFVDI SM30_HUMAN 17 17 -
GESPVWEEASKCLLFVDI SM30_RAT 17 17 -
GESPVWEEASNSLLFVDI SM30_BOVIN 17 17 -
GESPVWDEKENSLLCVDI Q9I923 17 17 -
GESPVWEEKEGTLLFVDI Q9IBA8 17 17 -

Motif 2 width=22
Element Seqn Id St Int Rpt
VDEDKKNNRFNDGKVDPAGRYF SM30_MOUSE 93 58 -
VDEDKKNNRFNDGKVDPAGRYF Q925W3 93 58 -
VDNDKKNNRFNDGKVDPAGRYF SM30_HUMAN 93 58 -
VDEDKKNNRFNDGKVDPAGRYF SM30_RAT 93 58 -
VDKEKKNNRFNDGKVDPAGRYF SM30_BOVIN 93 58 -
VDRDKANNRFNDGKVDPAGRYF Q9I923 93 58 -
VDEDKPNNRFNDGKVDPEGRFL Q9IBA8 93 58 -

Motif 3 width=23
Element Seqn Id St Int Rpt
PDHSVKKYFDQVDISNGLDWSLD SM30_MOUSE 139 24 -
PDHSVKKYFDQVDISNGLDWSLD Q925W3 139 24 -
PDHHVKKYFDQVDISNGLDWSLD SM30_HUMAN 139 24 -
PDHSVKKYFNQVDISNGLDWSLD SM30_RAT 139 24 -
PDHHVEKYFDQVDISNGLDWSMD SM30_BOVIN 139 24 -
PDHSVVKHFDQVDISNGLDWSLD Q9I923 139 24 -
PDHSVVKHFDMVDISNGLDWSLD Q9IBA8 139 24 -

Motif 4 width=21
Element Seqn Id St Int Rpt
HKIFYYIDSLSYTVDAFDYDL SM30_MOUSE 162 0 -
HKIFYYIDSLSYTVDAFDYDL Q925W3 162 0 -
HKIFYYIDSLSYSVDAFDYDL SM30_HUMAN 162 0 -
HKIFYYIDSLSYTVDAFDYDL SM30_RAT 162 0 -
HKIFYYIDSLSYSVDAFDYDL SM30_BOVIN 162 0 -
HKTFFYIDSLSYSVDAFDYDL Q9I923 162 0 -
HKTLYYIDSLSFKVDALDYDM Q9IBA8 162 0 -

Motif 5 width=18
Element Seqn Id St Int Rpt
IPDGMCIDAEGKLWVACY SM30_MOUSE 202 19 -
IPDGMCIDVEGKLWVACY Q925W3 202 19 -
IPDGMCIDAEGKLWVACY SM30_HUMAN 202 19 -
IPDGMCIDVEGKLWVACY SM30_RAT 202 19 -
IPDGMCIDVEGKLWVACY SM30_BOVIN 202 19 -
IPDGMCIDTEGKLWVACY Q9I923 202 19 -
IPDGMCIDAEGKLWVACY Q9IBA8 202 19 -

Motif 6 width=19
Element Seqn Id St Int Rpt
TTSCCFGGKDYSEMYVTCA SM30_MOUSE 245 25 -
TTSCCFGGKDYSEMYVTCA Q925W3 245 25 -
TTSCCFGGKNYSEMYVTCA SM30_HUMAN 245 25 -
TTSCCFGGKDYSEMYVTCA SM30_RAT 245 25 -
TTSCCFGGKDYSEMYVTCA SM30_BOVIN 245 25 -
TTSCCFGGKDYSEMYVTSA Q9I923 245 25 -
TTSCCFGGPDYSEMYVTSA Q9IBA8 245 25 -
Final Motifs
Motif 1  width=18
Element Seqn Id St Int Rpt
GESPVWEEASQSLLFVDI SM30_MOUSE 17 17 -
GESPVWEEASKCLLFVDI Q925W3 17 17 -
GESPVWEEASGSLLFVDI Q9TTJ6 17 17 -
GESPVWEEVSNSLLFVDI SM30_HUMAN 17 17 -
GESPVWEEASKCLLFVDI SM30_RAT 17 17 -
GESPVWEEASNSLLFVDI SM30_BOVIN 17 17 -
GESPVWDEKENSLLCVDI Q9I923 17 17 -
GESPVWEEKEGTLLFVDI Q9I922 17 17 -
GESPVWEEKEGTLLFVDI Q9IBA8 17 17 -
GEGPHWDVARQSLYYVDL Q9VYR1 16 16 -
GEGPHWDVATQNLYYVDI Q9BID6 16 16 -
GEGPHWDVATQNLYYVDI Q9NDP1 16 16 -
GEGPHWDHETQTLYFVDT Q95YI4 17 17 -
GEGPHWDVDRQSLYYVDL Q9NDS6 16 16 -
GEGPHWDVDRQSLYYVDL Q9VFG5 16 16 -
GEGPTYDERRKRVYWVDI Q9HKF3 14 14 -
GEGPVYDIQLNKLFWVDI Q96XG1 17 17 -
GEGPLWDEENGRLYWVDI YVRE_BACSU 14 14 -
GEGPVYDKELNKLFWVDI Q97VC7 16 16 -
GEGPTYDSKRNRVYWIDI Q97A53 14 14 -
GEAPVWVEREKRLYWVDI Q92ZR8 294 294 -
GESPVYDREGNRLFWVDI Q97UH7 16 16 -
GEGPTWDPATGRLLWLDI Q9L0A7 19 19 -
GEGIVWDDALGVLWWTDI Q8XVS4 14 14 -
GEGPGYDPLTGNVWWFDI Q8YE81 17 17 -
GEGPSYDPASDALFWFDI Q98DE0 15 15 -
GEGPTFDPGTGTAWWFNI Q92RN9 20 20 -

Motif 2 width=22
Element Seqn Id St Int Rpt
VDEDKKNNRFNDGKVDPAGRYF SM30_MOUSE 93 58 -
VDEDKKNNRFNDGKVDPAGRYF Q925W3 93 58 -
VDKDKKNNRFNDGKVDPAGRYF Q9TTJ6 93 58 -
VDNDKKNNRFNDGKVDPAGRYF SM30_HUMAN 93 58 -
VDEDKKNNRFNDGKVDPAGRYF SM30_RAT 93 58 -
VDKEKKNNRFNDGKVDPAGRYF SM30_BOVIN 93 58 -
VDRDKANNRFNDGKVDPAGRYF Q9I923 93 58 -
VDEDKPNNRFNDGKVDPEGRFL Q9I922 93 58 -
VDEDKPNNRFNDGKVDPEGRFL Q9IBA8 93 58 -
VQPLMEKNRLNDAKVDPRGRFF Q9VYR1 101 67 -
GDERFTGNRFNDGKCDPRGRLF Q9BID6 104 70 -
GDERFNGNRFNDGKCDPRGRLF Q9NDP1 104 70 -
VEPHIKNNRLNDGKADPLGNLW Q95YI4 100 65 -
VQPDLKENRLNDAKTDPNGRFY Q9NDS6 101 67 -
VQPDLKENRLNDAKTDPNGRFY Q9VFG5 101 67 -
VEKDQKSTRFNDGKADPFGNYV Q9HKF3 89 57 -
VEVDYEENRFNDGKCDALGRYW Q96XG1 93 58 -
PKDMHESLRFNDAKCDPYGRLW YVRE_BACSU 90 58 -
VETDMESNRFNDGKCDKLGRYW Q97VC7 92 58 -
LKDESNETRFNDGKADPEGRYV Q97A53 89 57 -
PEPGLPENRLNDAKVDPSGRLW Q92ZR8 370 58 -
ELENNGENRFNDGKCDIRDRYW Q97UH7 91 57 -
HREPVPGRRGNDAAVAPDGSLW Q9L0A7 92 55 -
VEAGNPATRINDGRADRAGNYV Q8XVS4 91 59 -
LEADNEITRSNDARVHPSGAFW Q8YE81 93 58 -
IEADNPLTRSNDSRVHPCGAFW Q98DE0 90 57 -
TLEEKPGNRSNDGRIHPCGALW Q92RN9 95 57 -

Motif 3 width=23
Element Seqn Id St Int Rpt
PDHSVKKYFDQVDISNGLDWSLD SM30_MOUSE 139 24 -
PDHSVKKYFDQVDISNGLDWSLD Q925W3 139 24 -
PDHQVKKYFDQVDISNGLDWSLD Q9TTJ6 139 24 -
PDHHVKKYFDQVDISNGLDWSLD SM30_HUMAN 139 24 -
PDHSVKKYFNQVDISNGLDWSLD SM30_RAT 139 24 -
PDHHVEKYFDQVDISNGLDWSMD SM30_BOVIN 139 24 -
PDHSVVKHFDQVDISNGLDWSLD Q9I923 139 24 -
PDHSVVKHFDMVDISNGLDWSLD Q9I922 139 24 -
PDHSVVKHFDMVDISNGLDWSLD Q9IBA8 139 24 -
AGGQVSVIKGDVGISNGLAWDEK Q9VYR1 145 22 -
NGGEVEVIKSDVGISNGLAWNEK Q9BID6 148 22 -
KGGKIEVVKSNVGISNGLAWNEK Q9NDP1 148 22 -
ADKKVKMHESNIAIANGLAWSND Q95YI4 145 23 -
AGGQPNAIRSKVGISNGLAWDVK Q9NDS6 145 22 -
AGGQPNAIRSKVGISNGLAWDVK Q9VFG5 145 22 -
TGKTIRRILENLTISNGIAWNTK Q9HKF3 129 18 -
EKSNITKILSGLTVSNGLGWSPD Q96XG1 133 18 -
LDGSLVKIKDQVSTSNGLDWDRE YVRE_BACSU 131 19 -
DTGKITKILEGLTVSNGLGWDPD Q97VC7 132 18 -
NGKGVRRLLSNLTISNGIAWDTR Q97A53 129 18 -
SAGEVTRAGSGFTVANGLAWSPD Q92ZR8 411 19 -
EGQRLTKVLDKLYRSNGLGWDPD Q97UH7 133 20 -
GDGTAETVLDDVTVSNGTGWSPD Q9L0A7 133 19 -
LGVLQRLALPGIAIANSIAFSPE Q8XVS4 133 20 -
REGHVKKLFSGITITNSICFSPD Q8YE81 133 18 -
SRGELRRLFSDITVSNSICFSED Q98DE0 130 18 -
AGSRVTKLYSNITIPNAICFSPD Q92RN9 135 18 -

Motif 4 width=21
Element Seqn Id St Int Rpt
HKIFYYIDSLSYTVDAFDYDL SM30_MOUSE 162 0 -
HKIFYYIDSLSYTVDAFDYDL Q925W3 162 0 -
HKIFYYIDSLAYSVDAFDYDL Q9TTJ6 162 0 -
HKIFYYIDSLSYSVDAFDYDL SM30_HUMAN 162 0 -
HKIFYYIDSLSYTVDAFDYDL SM30_RAT 162 0 -
HKIFYYIDSLSYSVDAFDYDL SM30_BOVIN 162 0 -
HKTFFYIDSLSYSVDAFDYDL Q9I923 162 0 -
HKTLYYIDSLSFKVDALDYDM Q9I922 162 0 -
HKTLYYIDSLSFKVDALDYDM Q9IBA8 162 0 -
AKKFYYIDTTDYEVKSYDYDF Q9VYR1 168 0 -
TKKFYYIDTTDYEVKEYDYDF Q9BID6 171 0 -
TKKFYYIDTTDYEVKEYDYDF Q9NDP1 171 0 -
LKKMYYIDSGKRRVDEYDYDA Q95YI4 168 0 -
AKKFYFIDTNNHEVLAYDYNQ Q9NDS6 168 0 -
AKKFYFIDTNNHEVLAYDYNQ Q9VFG5 168 0 -
KKVFYHIDTPKRRVDAYSYDG Q9HKF3 152 0 -
NDVMYLIDSPIRKVYAFDFDL Q96XG1 156 0 -
RNLMYYIDTPTQEIVRYSYDP YVRE_BACSU 154 0 -
NTQMFLIDSPVRKVFVFDFDL Q97VC7 155 0 -
RRIFYHIDTPTRKVRAYSFDA Q97A53 152 0 -
SSTFYFVDTVPGIIYAYDFDA Q92ZR8 434 0 -
NKLFYLIDTPLRKVFQFDFDK Q97UH7 156 0 -
GTLMYYADTPTRRIDVFDVTA Q9L0A7 156 0 -
GTTMYWCDTPSRRIHACDYDG Q8XVS4 156 0 -
GKVAYFADTDRNIIWRVDTDP Q8YE81 156 0 -
GAIAYYTDTATGLLMRVGCDP Q98DE0 153 0 -
GATAYFTDTDVNQLMRVDIDP Q92RN9 158 0 -

Motif 5 width=18
Element Seqn Id St Int Rpt
IPDGMCIDAEGKLWVACY SM30_MOUSE 202 19 -
IPDGMCIDVEGKLWVACY Q925W3 202 19 -
IPDGMCIDTEGKLWVACY Q9TTJ6 202 19 -
IPDGMCIDAEGKLWVACY SM30_HUMAN 202 19 -
IPDGMCIDVEGKLWVACY SM30_RAT 202 19 -
IPDGMCIDVEGKLWVACY SM30_BOVIN 202 19 -
IPDGMCIDTEGKLWVACY Q9I923 202 19 -
IPDGMCIDAEGKLWVACY Q9I922 202 19 -
IPDGMCIDAEGKLWVACY Q9IBA8 202 19 -
LPDGLTIDTEGNLYVATF Q9VYR1 212 23 -
LPDGMTIDTEGNLYVATF Q9BID6 215 23 -
LPDGMTIDTDGNIYVATF Q9NDP1 215 23 -
YPDGQTIDEEGNLWVAVF Q95YI4 210 21 -
FPDGMTVDTDGNIYVATF Q9NDS6 212 23 -
FPDGMTVDTDGNIYVATF Q9VFG5 212 23 -
NPDGMTIDADGNLWVAHW Q9HKF3 191 18 -
NPDGMTIDEEGYLWIAHW Q96XG1 196 19 -
LPDGMTIDQNGMLWVALF YVRE_BACSU 194 19 -
NPDGMAVDEEGYIWVAHW Q97VC7 195 19 -
SPDGMTIDSDGNLFVAHW Q97A53 191 18 -
RPDGLAVDADGGVWCAIW Q92ZR8 474 19 -
RPDGMTIDEEGYLWIAHS Q97UH7 196 19 -
FPDGLCVDADGCVWVALW Q9L0A7 195 18 -
SPDGSTVDADGCLWNAEW Q8XVS4 202 25 -
NMDGSVVDAEGTLWNACW Q8YE81 196 19 -
YVDGSVVDRDGVLWNAVW Q98DE0 194 20 -
GVDGAVCDADGLIWNARW Q92RN9 199 20 -

Motif 6 width=19
Element Seqn Id St Int Rpt
TTSCCFGGKDYSEMYVTCA SM30_MOUSE 245 25 -
TTSCCFGGKDYSEMYVTCA Q925W3 245 25 -
TTSCCFGGKDYSEMYVTCA Q9TTJ6 245 25 -
TTSCCFGGKNYSEMYVTCA SM30_HUMAN 245 25 -
TTSCCFGGKDYSEMYVTCA SM30_RAT 245 25 -
TTSCCFGGKDYSEMYVTCA SM30_BOVIN 245 25 -
TTSCCFGGKDYSEMYVTSA Q9I923 245 25 -
TTSCCFGGPDYSEMYVTSA Q9I922 245 25 -
TTSCCFGGPDYSEMYVTSA Q9IBA8 245 25 -
ITSAAFGGPNLDILYVTTA Q9VYR1 255 25 -
ITSAAFGGPNFHILFVTTS Q9BID6 258 25 -
ITSAAFGGPNLDILYVTTS Q9NDP1 258 25 -
VTSVAFGGPNLDELHVTSA Q95YI4 254 26 -
ITSVAFGGPNLDILYVTTA Q9NDS6 255 25 -
ITSVAFGGPNLDILYVTTA Q9VFG5 255 25 -
ITSCVFAGNGLRDLYVSSA Q9HKF3 234 25 -
VTSVTFGMHEMNRLFITTA Q96XG1 238 24 -
VTCCAFGGRDLKTLYITTA YVRE_BACSU 237 25 -
VTSVTFGTQELDQLFITTA Q97VC7 238 25 -
ITSAVFAGKGLNTLYVSSA Q97A53 234 25 -
PTSVAFGGDELATLFITSA Q92ZR8 516 24 -
VSSVTFGSPEMNQIFITTM Q97UH7 239 25 -
VTACAFGGPDLTDLYLTTA Q9L0A7 237 24 -
PTCPAFGGAALDTLYLASA Q8XVS4 244 24 -
PSCPAFVGPDAAVMIITSA Q8YE81 238 24 -
ASCPAFVGAKADRLAVTSA Q98DE0 236 24 -
PSCPAFVGAKAERLLVTSA Q92RN9 241 24 -