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PR00716

Identifier
MPIPHPHTASE  [View Relations]  [View Alignment]  
Accession
PR00716
No. of Motifs
7
Creation Date
26-MAY-1997  (UPDATE 07-JUN-1999)
Title
M-phase inducer phosphatase signature
Database References

INTERPRO; IPR000751
Literature References
1. JINNO, S., SUTO, K., NAGATA, A., IGARASHI, M., KANAOKA, Y., NOJIMA, H.
AND OKAYAMA, H.
cdc25A is a novel phosphatase functioning early in the cell cycle.
EMBO J. 13(7) 1549-1556 (1994).
 
2. IZUMI, T., WALKER, D.H. AND MALLER, J.L.
Periodic changes in phosphorylation of the Xenopus cdc25 phosphatase
regulate its activity. 
MOL.BIOL.CELL 3(8) 927-939 (1992).
 
3. GALAKTIONOV, K. AND BEACH, D.
Specific activation of cdc25 tyrosine phosphatases by B-type cyclins:
evidence for multiple roles of mitotic cyclins.
CELL 67(6) 1181-1194 (1991).
 
4. JIMENEZ, J., ALPHEY, L., NURSE, P. AND GLOVER, D.M.
Complementation of fission yeast CDC2TS and cdc25TS mutants identifies
two cell cycle genes from Drosophila: a cdc2 homologue and string.
EMBO J. 9(11) 3565-3571 (1990).

Documentation
M-phase inducer phosphatases function as dosage-dependent inducers in
mitotic control [1-4]. They are tyrosine protein phosphatases required for
progression of the cell cycle. They may directly dephosphorylate p34(cdc2)
and activate p34(cdc2) kinase activity. They catalyse the reaction:
protein tyrosine phosphate + H(2)O = protein tyrosine + orthophosphate.
 
MPIPHPHTASE is a 7-element fingerprint that provides a signature for M-phase
inducer phosphatases. The fingerprint was derived from an initial alignment
of 13 sequences: the motifs were drawn from short conserved regions
spanning the C-terminal half of the alignment - motif 4 includes the active
site cysteine. Two iterations on OWL29.3 were required to reach convergence,
at which point a true set comprising 18 sequences was identified. Several
partial matches were also found, all of which are family members that fail
to make significant matches with one or more motifs.
 
An update on SPTR37_9f identified a true set of 17 sequences, and 9
partial matches.
Summary Information
  17 codes involving  7 elements
1 codes involving 6 elements
2 codes involving 5 elements
4 codes involving 4 elements
2 codes involving 3 elements
0 codes involving 2 elements
Composite Feature Index
717171717171717
61011111
50222220
40044440
30022200
20000000
1234567
True Positives
MPI0_XENLA    MPI1_HUMAN    MPI1_MOUSE    MPI1_RAT      
MPI1_XENLA MPI2_HUMAN MPI2_MOUSE MPI2_RAT
MPI2_XENLA MPI3_HUMAN MPI3_MESAU MPI3_MOUSE
MPI3_PIG MPI3_XENLA MPIP_DROME P79923
Q13971
True Positive Partials
Codes involving 6 elements
O01371
Codes involving 5 elements
MPIP_SCHPO TWIN_DROME
Codes involving 4 elements
O44552 Q21762 Q25122 YOUA_CAEEL
Codes involving 3 elements
MPIP_EMENI MPIP_YEAST
Sequence Titles
MPI0_XENLA  M-PHASE INDUCER PHOSPHATASE 1/A (EC 3.1.3.48) - XENOPUS LAEVIS (AFRICAN CLAWED FROG). 
MPI1_HUMAN M-PHASE INDUCER PHOSPHATASE 1 (EC 3.1.3.48) - HOMO SAPIENS (HUMAN).
MPI1_MOUSE M-PHASE INDUCER PHOSPHATASE 1 (EC 3.1.3.48) - MUS MUSCULUS (MOUSE).
MPI1_RAT M-PHASE INDUCER PHOSPHATASE 1 (EC 3.1.3.48) - RATTUS NORVEGICUS (RAT).
MPI1_XENLA M-PHASE INDUCER PHOSPHATASE 1/B (EC 3.1.3.48) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
MPI2_HUMAN M-PHASE INDUCER PHOSPHATASE 2 (EC 3.1.3.48) - HOMO SAPIENS (HUMAN).
MPI2_MOUSE M-PHASE INDUCER PHOSPHATASE 2 (EC 3.1.3.48) - MUS MUSCULUS (MOUSE).
MPI2_RAT M-PHASE INDUCER PHOSPHATASE 2 (EC 3.1.3.48) - RATTUS NORVEGICUS (RAT).
MPI2_XENLA M-PHASE INDUCER PHOSPHATASE 2 (EC 3.1.3.48) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
MPI3_HUMAN M-PHASE INDUCER PHOSPHATASE 3 (EC 3.1.3.48) - HOMO SAPIENS (HUMAN).
MPI3_MESAU M-PHASE INDUCER PHOSPHATASE 3 (EC 3.1.3.48) - MESOCRICETUS AURATUS (GOLDEN HAMSTER).
MPI3_MOUSE M-PHASE INDUCER PHOSPHATASE 3 (EC 3.1.3.48) - MUS MUSCULUS (MOUSE).
MPI3_PIG M-PHASE INDUCER PHOSPHATASE 3 (EC 3.1.3.48) - SUS SCROFA (PIG).
MPI3_XENLA M-PHASE INDUCER PHOSPHATASE 3 (EC 3.1.3.48) - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
MPIP_DROME M-PHASE INDUCER PHOSPHATASE (EC 3.1.3.48) (STRING PROTEIN) (CDC25-LIKE PROTEIN) - DROSOPHILA MELANOGASTER (FRUIT FLY).
P79923 CDC25A - XENOPUS LAEVIS (AFRICAN CLAWED FROG).
Q13971 CDC25 B-TYPE TYROSINE PHOSPHATASE (CDC25B PHOSPHATASE) - HOMO SAPIENS (HUMAN).

O01371 TYROSINE /THREONINE PHOSPHATASE - PATELLA VULGATA (COMMON LIMPET).

MPIP_SCHPO M-PHASE INDUCER PHOSPHATASE (EC 3.1.3.48) (MITOSIS INITIATION PROTEIN) (P80) - SCHIZOSACCHAROMYCES POMBE (FISSION YEAST).
TWIN_DROME CDC25-LIKE PROTEIN PHOSPHATASE TWINE (EC 3.1.3.48) - DROSOPHILA MELANOGASTER (FRUIT FLY).

O44552 K06A5.7A PROTEIN - CAENORHABDITIS ELEGANS.
Q21762 R05H5.2 PROTEIN - CAENORHABDITIS ELEGANS.
Q25122 HRO-CDC25 - HELOBDELLA ROBUSTA (LEECH).
YOUA_CAEEL HYPOTHETICAL 36.5 KD PROTEIN ZK637.11 IN CHROMOSOME III - CAENORHABDITIS ELEGANS.

MPIP_EMENI M-PHASE INDUCER PHOSPHATASE (EC 3.1.3.48) - EMERICELLA NIDULANS (ASPERGILLUS NIDULANS).
MPIP_YEAST M-PHASE INDUCER PHOSPHATASE (EC 3.1.3.48) (MITOSIS INITIATION PROTEIN MIH1) (MITOTIC INDUCER HOMOLOG) - SACCHAROMYCES CEREVISIAE (BAKER'S YEAST).
Scan History
OWL29_3    2  100  NSINGLE    
SPTR37_9f 2 74 NSINGLE
Initial Motifs
Motif 1  width=18
Element Seqn Id St Int Rpt
SKAFLLQTVDGKHQDLKY MPI2_MOUSE 393 393 -
SKAFLLQTVDGKHQDLKY MPI2_HUMAN 383 383 -
SKVYALPTVTGRHQDLRY MPI0_XENLA 367 367 -
SKVYALPTVTGRHQDLRY MPI3_XENLA 386 386 -
SKVYALPTVTGRHQDLRY MPI2_XENLA 416 416 -
SKGYLFHTVSGKHQDLKY MPI1_RAT 343 343 -
TKVYALPTVTGRHQDLRY MPI1_XENLA 367 367 -
SKGYLFHTVAGKHQDLKY MPI1_HUMAN 341 341 -
SKGYLFNTVSGKHQDLKY MPI1_MOUSE 332 332 -
SKAFLLQTVDGKHQDLKY MPI2_RAT 391 391 -
SKVCALPTVSGKHQDLKY MPI3_HUMAN 287 287 -
TKECVLPTVSGKHQDLKY MPI3_MESAU 232 232 -
SKVCVLPTVPGKHPDLKY MPI3_MOUSE 260 260 -

Motif 2 width=21
Element Seqn Id St Int Rpt
ISPETMVALLTGKFSNIVEKF MPI2_MOUSE 411 0 -
ISPETMVALLTGKFSNIVDKF MPI2_HUMAN 401 0 -
ITGETLAALMHGDFNSLVEKF MPI0_XENLA 385 0 -
ITGETLAALMHGDFNSLVEKF MPI3_XENLA 404 0 -
ITGETLAALMHGDFNSLVEKF MPI2_XENLA 434 0 -
ISPEIMASVLNGKFANLIKEF MPI1_RAT 361 0 -
ITGETLAALIHGDFSSLVEKI MPI1_XENLA 385 0 -
ISPEIMASVLNGKFANLIKEF MPI1_HUMAN 359 0 -
ISPEIMASVLNGKFASLIKEF MPI1_MOUSE 350 0 -
ISPETMVALLTGKFSNIVEKF MPI2_RAT 409 0 -
VNPETVAALLSGKFQGLIEKF MPI3_HUMAN 305 0 -
ITPDTVAALLSGKFQGLIEKF MPI3_MESAU 250 0 -
ISPDTVAALLSGKFQSVIERF MPI3_MOUSE 278 0 -

Motif 3 width=21
Element Seqn Id St Int Rpt
IVDCRYPYEYEGGHIKNAVNL MPI2_MOUSE 433 1 -
IVDCRYPYEYEGGHIKTAVNL MPI2_HUMAN 423 1 -
IIDCRYPYEYDGGHIKSAFNL MPI0_XENLA 407 1 -
IIDCRYPYEYDGGHIKSAFNL MPI3_XENLA 426 1 -
IIDCRYPYEYDGGHIKSAFNL MPI2_XENLA 456 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_RAT 383 1 -
IIDCRYPYEYDGGHIKGALNL MPI1_XENLA 407 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_HUMAN 381 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_MOUSE 372 1 -
IVDCRYPYEYEGGHIKNAVNL MPI2_RAT 431 1 -
VIDCRYPYEYLGGHIQGALNL MPI3_HUMAN 327 1 -
IIDCRYPYEYLGGHILGAINL MPI3_MESAU 272 1 -
IIDCRYPYEYLGGHILGALNL MPI3_MOUSE 300 1 -

Motif 4 width=21
Element Seqn Id St Int Rpt
KRIILIFHCEFSSERGPRMCR MPI2_MOUSE 475 21 -
KRVILIFHCEFSSERGPRMCR MPI2_HUMAN 465 21 -
KRLIIIFHCEFSSERGPKMCR MPI0_XENLA 449 21 -
KRLIIIFHCEFSSERGPKMCR MPI3_XENLA 468 21 -
KRLIIIFHCEFSSERGPKMCR MPI2_XENLA 498 21 -
KRVIVVFHCEFSSERGPRMCR MPI1_RAT 424 20 -
KRLIIIFHCEFSSERGPKMCR MPI1_XENLA 449 21 -
KRVIVVFHCEFSSERGPRMCR MPI1_HUMAN 422 20 -
KRVIVVFHCEFSSERGPRMCR MPI1_MOUSE 413 20 -
KRIILIFHCEFSSERGPRMCR MPI2_RAT 473 21 -
KRIIIVFHCEFSSERGPRMCR MPI3_HUMAN 369 21 -
KRVIIVFLCEFSSERGPRMCR MPI3_MESAU 314 21 -
KRVIIVFLCEFSSERGPRMCR MPI3_MOUSE 342 21 -

Motif 5 width=22
Element Seqn Id St Int Rpt
NDYPSLYYPEMYILKGGYKEFF MPI2_MOUSE 505 9 -
NDYPSLYYPEMYILKGGYKEFF MPI2_HUMAN 495 9 -
NDYPSLYYPELYLLKGGYKDFF MPI0_XENLA 479 9 -
NDYPSLYYPELYLLKGGYKDFF MPI3_XENLA 498 9 -
NDYPSLYYPELYLLKGGYKDFF MPI2_XENLA 528 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_RAT 454 9 -
NEYPSLYYPELYLLKGGYKDFF MPI1_XENLA 479 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_HUMAN 452 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_MOUSE 443 9 -
NDYPSLYYPEMYILKGGYKEFF MPI2_RAT 503 9 -
NQYPALYYPELYILKGGYRDFF MPI3_HUMAN 399 9 -
NQYPALYYPELYILKGGYRDFF MPI3_MESAU 344 9 -
NQYPALYYPELYILKGGYRDFF MPI3_MOUSE 372 9 -

Motif 6 width=18
Element Seqn Id St Int Rpt
CEPQDYRPMNHEAFRDEL MPI2_MOUSE 533 6 -
CEPQDYRPMNHEAFKDEL MPI2_HUMAN 523 6 -
CEPQSYCPMHHQDFREDL MPI0_XENLA 507 6 -
CEPQSYCPMHHQDFREDL MPI3_XENLA 526 6 -
CEPQSYCPMHHQDFREDL MPI2_XENLA 556 6 -
CEPPSYRPMHHEDFKEDL MPI1_RAT 482 6 -
CEPQSYCPMHHQDFREEL MPI1_XENLA 507 6 -
CEPPSYRPMHHEDFKEDL MPI1_HUMAN 480 6 -
CEPPSYRPMHHEDFKEDL MPI1_MOUSE 471 6 -
CEPQDYRPMNHAAFRDEL MPI2_RAT 531 6 -
CEPQSYCPMHHQDHKTEL MPI3_HUMAN 427 6 -
CEPQGYCPMHHQDHQAEL MPI3_MESAU 372 6 -
CDPQSYCPMLHQDHQAEL MPI3_MOUSE 400 6 -

Motif 7 width=19
Element Seqn Id St Int Rpt
LRNFRLKTRSWAGERSRRE MPI2_MOUSE 550 -1 -
LKTFRLKTRSWAGERSRRE MPI2_HUMAN 540 -1 -
LLKFRTKCKTSVGDRKRRE MPI0_XENLA 524 -1 -
LLKFRTKCKTSVGDRKRRE MPI3_XENLA 543 -1 -
LLKFRTKCKTSVGDRKRRE MPI2_XENLA 573 -1 -
LKKFRTKSRTWAGEKSKRE MPI1_RAT 499 -1 -
LLKFRTKCKTSVGDRKRRE MPI1_XENLA 524 -1 -
LKKFRTKSRTWAGEKSKRE MPI1_HUMAN 497 -1 -
LKKFRTKSRTWAGEKRKRE MPI1_MOUSE 488 -1 -
LRNFRLKTRSWAGERSTTQ MPI2_RAT 548 -1 -
LLRCRSQSKVQEGERQLRE MPI3_HUMAN 444 -1 -
LLMWRNQSKAQEGERQLSE MPI3_MESAU 389 -1 -
LLSWRSQSKAQEGERQLQG MPI3_MOUSE 417 -1 -
Final Motifs
Motif 1  width=18
Element Seqn Id St Int Rpt
SKAFLLQTVDGKHQDLKY MPI2_MOUSE 393 393 -
SKAFLLQTVDGKHQDLKY MPI2_HUMAN 383 383 -
SKAFLLQTVDGKHQDLKY Q13971 356 356 -
SKVYALPTVTGRHQDLRY MPI0_XENLA 367 367 -
SKVYALPTVTGRHQDLRY MPI3_XENLA 386 386 -
SKVYALPTVTGRHQDLRY MPI2_XENLA 416 416 -
SKGYLFHTVSGKHQDLKY MPI1_RAT 343 343 -
TKVYALPTVTGRHQDLRY MPI1_XENLA 367 367 -
SKGYLFHTVAGKHQDLKY MPI1_HUMAN 341 341 -
SKGYLFNTVSGKHQDLKY MPI1_MOUSE 332 332 -
SKAFLLQTVDGKHQDLKY MPI2_RAT 391 391 -
SKVCALPTVSGKHQDLKY MPI3_HUMAN 287 287 -
SKVCALPTVSGRHQDLKY MPI3_PIG 316 316 -
TKECVLPTVSGKHQDLKY MPI3_MESAU 232 232 -
SKVFLFPTVSGRHQELKY P79923 339 339 -
SKVCVLPTVPGKHPDLKY MPI3_MOUSE 260 260 -
SKAYALPLMEGRHRDLKS MPIP_DROME 282 282 -

Motif 2 width=21
Element Seqn Id St Int Rpt
ISPETMVALLTGKFSNIVEKF MPI2_MOUSE 411 0 -
ISPETMVALLTGKFSNIVDKF MPI2_HUMAN 401 0 -
ISPETMVALLTGKFSNIVDKF Q13971 374 0 -
ITGETLAALMHGDFNSLVEKF MPI0_XENLA 385 0 -
ITGETLAALMHGDFNSLVEKF MPI3_XENLA 404 0 -
ITGETLAALMHGDFNSLVEKF MPI2_XENLA 434 0 -
ISPEIMASVLNGKFANLIKEF MPI1_RAT 361 0 -
ITGETLAALIHGDFSSLVEKI MPI1_XENLA 385 0 -
ISPEIMASVLNGKFANLIKEF MPI1_HUMAN 359 0 -
ISPEIMASVLNGKFASLIKEF MPI1_MOUSE 350 0 -
ISPETMVALLTGKFSNIVEKF MPI2_RAT 409 0 -
VNPETVAALLSGKFQGLIEKF MPI3_HUMAN 305 0 -
VNPETVAALLSGKFQGLIEKF MPI3_PIG 334 0 -
ITPDTVAALLSGKFQGLIEKF MPI3_MESAU 250 0 -
ITPEMMVLILNGRFDPFIERF P79923 357 0 -
ISPDTVAALLSGKFQSVIERF MPI3_MOUSE 278 0 -
ISSETVARLLKGEFSDKVASY MPIP_DROME 300 0 -

Motif 3 width=21
Element Seqn Id St Int Rpt
IVDCRYPYEYEGGHIKNAVNL MPI2_MOUSE 433 1 -
IVDCRYPYEYEGGHIKTAVNL MPI2_HUMAN 423 1 -
IVDCRYPYEYEGGHIKTAVNL Q13971 396 1 -
IIDCRYPYEYDGGHIKSAFNL MPI0_XENLA 407 1 -
IIDCRYPYEYDGGHIKSAFNL MPI3_XENLA 426 1 -
IIDCRYPYEYDGGHIKSAFNL MPI2_XENLA 456 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_RAT 383 1 -
IIDCRYPYEYDGGHIKGALNL MPI1_XENLA 407 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_HUMAN 381 1 -
IIDCRYPYEYEGGHIKGAVNL MPI1_MOUSE 372 1 -
IVDCRYPYEYEGGHIKNAVNL MPI2_RAT 431 1 -
VIDCRYPYEYLGGHIQGALNL MPI3_HUMAN 327 1 -
IIDCRYPYEYLGGHIQGALNL MPI3_PIG 356 1 -
IIDCRYPYEYLGGHILGAINL MPI3_MESAU 272 1 -
VIDCRYPYEYQGGHIQGAINL P79923 379 1 -
IIDCRYPYEYLGGHILGALNL MPI3_MOUSE 300 1 -
IIDCRYPYEFEGGHIEGAKNL MPIP_DROME 322 1 -

Motif 4 width=21
Element Seqn Id St Int Rpt
KRIILIFHCEFSSERGPRMCR MPI2_MOUSE 475 21 -
KRVILIFHCEFSSERGPRMCR MPI2_HUMAN 465 21 -
KRVILIFHCEFSSERGPRMCR Q13971 438 21 -
KRLIIIFHCEFSSERGPKMCR MPI0_XENLA 449 21 -
KRLIIIFHCEFSSERGPKMCR MPI3_XENLA 468 21 -
KRLIIIFHCEFSSERGPKMCR MPI2_XENLA 498 21 -
KRVIVVFHCEFSSERGPRMCR MPI1_RAT 424 20 -
KRLIIIFHCEFSSERGPKMCR MPI1_XENLA 449 21 -
KRVIVVFHCEFSSERGPRMCR MPI1_HUMAN 422 20 -
KRVIVVFHCEFSSERGPRMCR MPI1_MOUSE 413 20 -
KRIILIFHCEFSSERGPRMCR MPI2_RAT 473 21 -
KRIIIVFHCEFSSERGPRMCR MPI3_HUMAN 369 21 -
KRIIVVFHCEFSSERGPRMCR MPI3_PIG 398 21 -
KRVIIVFLCEFSSERGPRMCR MPI3_MESAU 314 21 -
KRVILIFHCEFSSERGPRMCK P79923 420 20 -
KRVIIVFLCEFSSERGPRMCR MPI3_MOUSE 342 21 -
KRNIIIFHCEFSSERGPKMSR MPIP_DROME 371 28 -

Motif 5 width=22
Element Seqn Id St Int Rpt
NDYPSLYYPEMYILKGGYKEFF MPI2_MOUSE 505 9 -
NDYPSLYYPEMYILKGGYKEFF MPI2_HUMAN 495 9 -
NDYPSLYYPEMYILKGGYKEFF Q13971 468 9 -
NDYPSLYYPELYLLKGGYKDFF MPI0_XENLA 479 9 -
NDYPSLYYPELYLLKGGYKDFF MPI3_XENLA 498 9 -
NDYPSLYYPELYLLKGGYKDFF MPI2_XENLA 528 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_RAT 454 9 -
NEYPSLYYPELYLLKGGYKDFF MPI1_XENLA 479 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_HUMAN 452 9 -
NEYPKLHYPELYVLKGGYKEFF MPI1_MOUSE 443 9 -
NDYPSLYYPEMYILKGGYKEFF MPI2_RAT 503 9 -
NQYPALYYPELYILKGGYRDFF MPI3_HUMAN 399 9 -
NQYPALYYPELYILKGGYRDFF MPI3_PIG 428 9 -
NQYPALYYPELYILKGGYRDFF MPI3_MESAU 344 9 -
NEYPQLHYPELYILQGGYKEFF P79923 450 9 -
NQYPALYYPELYILKGGYRDFF MPI3_MOUSE 372 9 -
NAYPALHYPEIYLLHNGYKEFF MPIP_DROME 403 11 -

Motif 6 width=18
Element Seqn Id St Int Rpt
CEPQDYRPMNHEAFRDEL MPI2_MOUSE 533 6 -
CEPQDYRPMNHEAFKDEL MPI2_HUMAN 523 6 -
CEPQDYRPMNHEAFKDEL Q13971 496 6 -
CEPQSYCPMHHQDFREDL MPI0_XENLA 507 6 -
CEPQSYCPMHHQDFREDL MPI3_XENLA 526 6 -
CEPQSYCPMHHQDFREDL MPI2_XENLA 556 6 -
CEPPSYRPMHHEDFKEDL MPI1_RAT 482 6 -
CEPQSYCPMHHQDFREEL MPI1_XENLA 507 6 -
CEPPSYRPMHHEDFKEDL MPI1_HUMAN 480 6 -
CEPPSYRPMHHEDFKEDL MPI1_MOUSE 471 6 -
CEPQDYRPMNHAAFRDEL MPI2_RAT 531 6 -
CEPQSYCPMHHQDHKTEL MPI3_HUMAN 427 6 -
CEPQSYCPMHHQDHKAEL MPI3_PIG 456 6 -
CEPQGYCPMHHQDHQAEL MPI3_MESAU 372 6 -
CTPQSYRPMNHEDFKEDL P79923 478 6 -
CDPQSYCPMLHQDHQAEL MPI3_MOUSE 400 6 -
CEPHAYRTMLDPAYNEAY MPIP_DROME 431 6 -

Motif 7 width=19
Element Seqn Id St Int Rpt
LRNFRLKTRSWAGERSRRE MPI2_MOUSE 550 -1 -
LKTFRLKTRSWAGERSRRE MPI2_HUMAN 540 -1 -
LKTFRLKTRSWAGERSRRE Q13971 513 -1 -
LLKFRTKCKTSVGDRKRRE MPI0_XENLA 524 -1 -
LLKFRTKCKTSVGDRKRRE MPI3_XENLA 543 -1 -
LLKFRTKCKTSVGDRKRRE MPI2_XENLA 573 -1 -
LKKFRTKSRTWAGEKSKRE MPI1_RAT 499 -1 -
LLKFRTKCKTSVGDRKRRE MPI1_XENLA 524 -1 -
LKKFRTKSRTWAGEKSKRE MPI1_HUMAN 497 -1 -
LKKFRTKSRTWAGEKRKRE MPI1_MOUSE 488 -1 -
LRNFRLKTRSWAGERSTTQ MPI2_RAT 548 -1 -
LLRCRSQSKVQEGERQLRE MPI3_HUMAN 444 -1 -
LLRCRSQNKAWEGERQLQE MPI3_PIG 473 -1 -
LLMWRNQSKAQEGERQLSE MPI3_MESAU 389 -1 -
LRKFRMKSRTWAGERSKRE P79923 495 -1 -
LLSWRSQSKAQEGERQLQG MPI3_MOUSE 417 -1 -
YRHFRAKSKSWNGDGLGGA MPIP_DROME 448 -1 -