EKS-MUM-00004
Eukaryotic Protein Kinase & Protein Phosphatase Database
TagContent
EKPD IDEKS-MUM-00004
Classification
Group/FamilyScoreE-ValueStartEndDomain Length
TK/Eph516.62.1E-155633889257
StatusReviewed
Ensembl ProteinENSMUSP00000029964
UniProt AccessionQ61772; Q61505; Q61773; Q61774; Q8BSU8;
Protein NameEphrin type-A receptor 7
Protein Synonyms/Alias Developmental kinase 1; mDK-1; EPH homology kinase 3; EHK-3; Embryonic brain kinase; EBK;
Gene NameEpha7
Gene Synonyms/Alias Epha7; Ebk, Ehk3, Mdk1;
Ensembl Information
Ensembl Gene IDEnsembl Protein IDEnsembl Transcript ID
ENSMUSG00000028289ENSMUSP00000029964ENSMUST00000029964
ENSMUSG00000028289ENSMUSP00000103829ENSMUST00000108194
ENSMUSG00000028289ENSMUSP00000079735ENSMUST00000080934
ENSMUSG00000028289ENSMUSP00000103826ENSMUST00000108191
OrganismMus musculus
Functional DescriptionReceptor tyrosine kinase which binds promiscuously GPI-anchored ephrin-A family ligands residing on adjacent cells, leading to contact-dependent bidirectional signaling into neighboring cells. The signaling pathway downstream of the receptor is referred to as forward signaling while the signaling pathway downstream of the ephrin ligand is referred to as reverse signaling. Among GPI-anchored ephrin-A ligands, EFNA5 is a cognate/functional ligand for EPHA7 and their interaction regulates brain development modulating cell-cell adhesion and repulsion. Has a repellent activity on axons and is for instance involved in the guidance of corticothalamic axons and in the proper topographic mapping of retinal axons to the colliculus. May also regulate brain development through a caspase(CASP3)-dependent proapoptotic activity. Forward signaling may result in activation of components of the ERK signaling pathway including MAP2K1, MAP2K2, MAPK1 AND MAPK3 which are phosphorylated upon activation of EPHA7. Isoform 4 which lacks the kinase domain may regulate isoform 1 adhesive properties.
Protein Length998
Protein Sequence
(FASTA)
MVVQTRFPSW IILCYIWLLG FAHTGEAQAA KEVLLLDSKA QQTELEWISS PPSGWEEISG 60
LDENYTPIRT YQVCQVMEPN QNNWLRTNWI SKGNAQRIFV ELKFTLRDCN SLPGVLGTCK 120
ETFNLYYYET DYDTGRNIRE NLYVKIDTIA ADESFTQGDL GERKMKLNTE VREIGPLSKK 180
GFYLAFQDVG ACIALVSVKV YYKKCWSIVE NLAVFPDTVT GSEFSSLVEV RGTCVSSAEE 240
EAENSPRMHC SAEGEWLVPI GKCICKAGYQ QKGDTCEPCG RRFYKSSSQD LQCSRCPTHS 300
FSDREGSSRC ECEDGYYRAP SDPPYVACTR PPSAPQNLIF NINQTTVSLE WSPPADNGGR 360
NDVTYRILCK RCSWEQGECV PCGSNIGYMP QQTGLEDNYV TVMDLLAHAN YTFEVEAVNG 420
VSDLSRSQRL FAAVSITTGQ AAPSQVSGVM KERVLQRSVQ LSWQEPEHPN GVITEYEIKY 480
YEKDQRERTY STLKTKSTSA SINNLKPGTV YVFQIRAVTA AGYGNYSPRL DVATLEEASG 540
KMFEATAVSS EQNPVIIIAV VAVAGTIILV FMVFGFIIGR RHCGYSKADQ EGDEELYFHF 600
KFPGTKTYID PETYEDPNRA VHQFAKELDA SCIKIERVIG AGEFGEVCSG RLKLPGKRDV 660
AVAIKTLKVG YTEKQRRDFL CEASIMGQFD HPNVVHLEGV VTRGKPVMIV IEFMENGALD 720
AFLRKHDGQF TVIQLVGMLR GIAAGMRYLA DMGYVHRDLA ARNILVNSNL VCKVSDFGLS 780
RVIEDDPEAV YTTTGGKIPV RWTAPEAIQY RKFTSASDVW SYGIVMWEVM SYGERPYWDM 840
SNQDVIKAIE EGYRLPAPMD CPAGLHQLML DCWQKDRAER PKFEQIVGIL DKMIRNPSSL 900
KTPLGTCSRP LSPLLDQSTP DFTAFCSVGE WLQAIKMERY KDNFTAAGYN SLESVARMTI 960
DDVMSLGITL VGHQKKIMSS IQTMRAQMLH LHGTGIQV 998
Nucleotide Sequence
(FASTA)
ATGGTTGTTC AAACTCGGTT CCCTTCGTGG ATTATTTTGT GTTACATCTG GCTGCTTGGC 60
TTTGCACACA CGGGGGAGGC GCAGGCTGCG AAGGAAGTAC TATTACTGGA CTCGAAAGCA 120
CAACAAACAG AATTGGAATG GATTTCCTCT CCACCCAGTG GGTGGGAAGA AATTAGTGGT 180
TTGGATGAGA ACTACACTCC GATAAGAACA TACCAGGTGT GCCAGGTCAT GGAGCCCAAC 240
CAGAACAACT GGCTGCGGAC TAACTGGATT TCTAAAGGCA ACGCACAAAG GATTTTTGTA 300
GAATTGAAAT TCACCTTGAG GGATTGTAAT AGTCTTCCCG GAGTCCTGGG AACTTGCAAG 360
GAAACGTTTA ATTTGTACTA TTATGAAACA GACTACGACA CCGGCAGGAA TATACGAGAA 420
AACCTTTATG TTAAAATAGA CACCATTGCT GCAGATGAAA GTTTCACACA AGGTGACCTT 480
GGTGAAAGAA AGATGAAGCT GAACACTGAG GTGAGAGAGA TTGGACCTTT GTCCAAAAAG 540
GGATTCTATC TTGCCTTTCA GGATGTAGGG GCTTGCATAG CATTGGTTTC TGTCAAAGTG 600
TACTACAAGA AGTGCTGGTC CATTGTTGAG AACTTAGCTG TCTTTCCAGA TACAGTGACT 660
GGTTCGGAAT TTTCCTCCTT AGTCGAGGTC CGTGGGACAT GTGTCAGCAG TGCCGAGGAA 720
GAGGCAGAAA ATTCCCCCAG AATGCATTGC AGTGCAGAAG GAGAGTGGCT AGTACCCATT 780
GGAAAATGCA TCTGCAAAGC AGGCTATCAG CAAAAAGGGG ACACTTGCGA ACCCTGTGGC 840
CGCAGGTTCT ACAAATCTTC CTCTCAGGAT CTCCAGTGTT CTCGTTGTCC AACCCACAGC 900
TTCTCTGACC GAGAAGGATC ATCCAGGTGT GAATGTGAAG ATGGGTACTA CAGAGCTCCT 960
TCTGATCCAC CATACGTTGC ATGCACGAGG CCTCCCTCTG CACCACAGAA CCTTATTTTC 1020
AATATCAATC AAACGACTGT AAGTTTGGAA TGGAGTCCTC CGGCTGACAA CGGGGGAAGA 1080
AACGATGTCA CCTACAGAAT ACTGTGTAAG CGGTGCAGTT GGGAACAGGG AGAATGTGTG 1140
CCATGCGGAA GTAACATTGG ATACATGCCC CAGCAGACGG GATTAGAGGA TAACTATGTC 1200
ACTGTCATGG ACCTACTTGC CCATGCAAAT TACACTTTCG AAGTTGAAGC TGTAAATGGA 1260
GTTTCGGACT TAAGCAGATC CCAGAGGCTC TTCGCTGCTG TTAGCATCAC CACCGGTCAA 1320
GCAGCTCCCT CGCAAGTGAG TGGAGTCATG AAGGAGCGAG TACTGCAGCG GAGTGTGCAG 1380
CTTTCCTGGC AGGAGCCGGA GCATCCCAAT GGAGTCATCA CGGAATATGA AATCAAGTAT 1440
TATGAGAAAG ATCAACGGGA AAGGACGTAC TCAACACTCA AAACCAAGTC CACCTCCGCC 1500
TCCATTAATA ATCTGAAACC GGGAACAGTG TACGTCTTTC AGATCCGGGC GGTCACTGCT 1560
GCCGGTTATG GAAACTACAG CCCTAGGCTT GATGTTGCCA CACTTGAGGA AGCTTCAGGT 1620
AAAATGTTTG AAGCGACAGC AGTCTCCAGT GAACAGAATC CTGTCATCAT AATTGCTGTA 1680
GTGGCTGTAG CAGGGACCAT CATCTTGGTG TTCATGGTGT TCGGCTTCAT CATTGGAAGA 1740
AGGCACTGTG GTTATAGCAA GGCTGACCAA GAAGGGGATG AAGAACTCTA CTTTCATTTT 1800
AAATTTCCAG GCACCAAAAC CTACATTGAC CCTGAAACCT ATGAGGACCC AAATAGAGCT 1860
GTCCATCAAT TCGCCAAGGA GCTAGATGCC TCCTGTATTA AAATTGAGCG TGTGATTGGT 1920
GCAGGAGAAT TTGGAGAAGT TTGCAGTGGT CGTTTGAAAC TTCCGGGGAA GAGAGATGTT 1980
GCAGTGGCCA TAAAAACCCT GAAAGTTGGT TACACAGAAA AGCAAAGGAG GGACTTTTTA 2040
TGCGAAGCAA GCATCATGGG GCAATTTGAC CACCCAAATG TCGTCCATTT GGAAGGGGTT 2100
GTTACAAGAG GGAAGCCTGT CATGATTGTG ATAGAGTTCA TGGAGAATGG AGCCCTGGAT 2160
GCATTTCTCA GGAAACACGA TGGGCAGTTT ACAGTCATTC AGTTGGTAGG AATGTTGAGA 2220
GGTATTGCCG CTGGGATGCG ATACTTGGCT GATATGGGAT ACGTTCACAG GGACCTTGCA 2280
GCGCGCAACA TCCTTGTCAA CAGCAATCTT GTTTGTAAAG TGTCAGATTT TGGCCTTTCC 2340
CGGGTTATAG AGGATGATCC CGAAGCTGTC TACACCACGA CTGGTGGAAA AATTCCAGTA 2400
AGGTGGACTG CACCGGAAGC CATTCAATAC CGGAAGTTCA CCTCAGCCAG CGATGTGTGG 2460
AGCTATGGGA TTGTCATGTG GGAAGTGATG TCTTATGGAG AAAGACCTTA CTGGGACATG 2520
TCAAATCAAG ATGTCATTAA AGCGATAGAA GAAGGTTATC GTTTGCCGGC GCCCATGGAT 2580
TGCCCAGCTG GTCTTCACCA GCTAATGCTG GATTGTTGGC AGAAAGATCG GGCGGAAAGG 2640
CCAAAGTTTG AGCAGATAGT CGGAATTCTA GACAAAATGA TTCGAAACCC AAGTAGTCTG 2700
AAAACACCCC TGGGAACTTG TAGTAGACCC TTAAGCCCTC TTCTGGACCA GAGCACTCCT 2760
GACTTCACTG CCTTCTGTTC AGTTGGAGAA TGGTTGCAAG CTATTAAAAT GGAAAGGTAT 2820
AAGGACAACT TCACAGCAGC GGGTTACAAC TCACTCGAGT CAGTGGCCAG GATGACTATC 2880
GATGATGTGA TGAGTTTAGG GATCACACTG GTTGGCCATC AAAAGAAGAT CATGAGCAGC 2940
ATCCAGACTA TGCGGGCACA AATGTTGCAT TTACACGGAA CAGGCATCCA AGTGTGA 2997
Domain Profile
S: 1     vkiekviGaGefGevcsGrlklpgkreiavaiktlkagstekqrrdflseasilGqfdhp  60
         +kie+viGaGefGevcsGrlklpgkr++avaiktlk g+tekqrrdfl+easi+Gqfdhp
Q: 633   IKIERVIGAGEFGEVCSGRLKLPGKRDVAVAIKTLKVGYTEKQRRDFLCEASIMGQFDHP  692
         79**********************************************************
S: 61    niirleGvvtkskpvmivteymengaldsflrkkdgqftviqlvgmlrGiasgmkylsdm  120
         n+++leGvvt++kpvmiv+e+mengald+flrk+dgqftviqlvgmlrGia+gm+yl+dm
Q: 693   NVVHLEGVVTRGKPVMIVIEFMENGALDAFLRKHDGQFTVIQLVGMLRGIAAGMRYLADM  752
         ************************************************************
S: 121   gyvhrdlaarnilvnsnlvckvsdfGlsrvleddseaayttsggkipirwtapeaiayrk  180
         gyvhrdlaarnilvnsnlvckvsdfGlsrv+edd+ea+ytt+ggkip+rwtapeai+yrk
Q: 753   GYVHRDLAARNILVNSNLVCKVSDFGLSRVIEDDPEAVYTTTGGKIPVRWTAPEAIQYRK  812
         ************************************************************
S: 181   ftsasdvwsyGivlwevlsyGerpywdmsnqdvikaieegyrlpppmdcpaalyqlmldc  240
         ftsasdvwsyGiv+wev+syGerpywdmsnqdvikaieegyrlp+pmdcpa+l+qlmldc
Q: 813   FTSASDVWSYGIVMWEVMSYGERPYWDMSNQDVIKAIEEGYRLPAPMDCPAGLHQLMLDC  872
         ************************************************************
S: 241   wqkdraerpkfeqivsi  257
         wqkdraerpkfeqiv i
Q: 873   WQKDRAERPKFEQIVGI  889
         **************987
Domain Sequence
(FASTA)
IKIERVIGAG EFGEVCSGRL KLPGKRDVAV AIKTLKVGYT EKQRRDFLCE ASIMGQFDHP 60
NVVHLEGVVT RGKPVMIVIE FMENGALDAF LRKHDGQFTV IQLVGMLRGI AAGMRYLADM 120
GYVHRDLAAR NILVNSNLVC KVSDFGLSRV IEDDPEAVYT TTGGKIPVRW TAPEAIQYRK 180
FTSASDVWSY GIVMWEVMSY GERPYWDMSN QDVIKAIEEG YRLPAPMDCP AGLHQLMLDC 240
WQKDRAERPK FEQIVGI 257
KeywordAlternative splicing; Apoptosis; ATP-binding; Cell membrane; Complete proteome; Developmental protein; Glycoprotein; Kinase; Membrane; Neurogenesis; Nucleotide-binding; Phosphoprotein; Receptor; Reference proteome; Repeat; Signal; Transferase; Transmembrane; Transmembrane helix; Tyrosine-protein kinase.
Sequence SourceEnsembl
Orthology
Ortholog group
Ailuropoda melanoleuca"; ?>Bos taurus"; ?>Callithrix jacchus"; ?>Canis familiaris"; ?>Cavia porcellus"; ?>Ciona intestinalis"; ?>Danio rerio"; ?>Equus caballus"; ?>Felis catus"; ?>Gallus gallus"; ?>Gorilla gorilla"; ?>Homo sapiens"; ?>Latimeria chalumnae"; ?>Loxodonta africana"; ?>Macaca mulatta"; ?>Meleagris gallopavo"; ?>Monodelphis domestica"; ?>Mustela putorius furo"; ?>Myotis lucifugus"; ?>Nomascus leucogenys"; ?>Oreochromis niloticus"; ?>Ornithorhynchus anatinus"; ?>Oryctolagus cuniculus"; ?>Oryzias latipes"; ?>Otolemur garnettii"; ?>Pan troglodytes"; ?>Pongo abelii"; ?>Rattus norvegicus"; ?>Sorex araneus"; ?>Sus scrofa"; ?>Taeniopygia guttata"; ?>Tetraodon nigroviridis"; ?>Tursiops truncatus"; ?>Vicugna pacos"; ?>Xenopus tropicalis"; ?>
EKS-AIM-00003
EKS-BOT-00010
EKS-CAJ-00004
EKS-CAF-00004
EKS-CAP-00003
EKS-CII-00002
EKS-DAR-00005
EKS-EQC-00004
EKS-FEC-00002
EKS-GAG-00004
EKS-GOG-00003
EKS-HOS-00004
EKS-LAC-00004
EKS-LOA-00004
EKS-MAM-00004
EKS-MEG-00003
EKS-MOD-00004
EKS-MUP-00003
EKS-MYL-00004
EKS-NOL-00014
EKS-ORN-00005
EKS-ORA-00004
EKS-ORC-00003
EKS-ORL-00002
EKS-OTG-00002
EKS-PAT-00003
EKS-POA-00008
EKS-RAN-00004
EKS-SOA-00002
EKS-SUS-00003
EKS-TAG-00003
EKS-TEN-00018
EKS-TUT-00003
EKS-VIP-00001
EKS-XET-00004
Gene Ontology
GO:0030425; C:dendrite
GO:0005887; C:integral to plasma membrane
GO:0031594; C:neuromuscular junction
GO:0043025; C:neuronal cell body
GO:0045211; C:postsynaptic membrane
GO:0005524; F:ATP binding
GO:0008046; F:axon guidance receptor activity
GO:0045499; F:chemorepellent activity
GO:0005004; F:GPI-linked ephrin receptor activity
GO:0007420; P:brain development
GO:0048755; P:branching morphogenesis of a nerve
GO:0043525; P:positive regulation of neuron apoptotic process
GO:0022407; P:regulation of cell-cell adhesion
GO:0043281; P:regulation of cysteine-type endopeptidase activity involved in apoptotic process
GO:0070372; P:regulation of ERK1 and ERK2 cascade
GO:0050730; P:regulation of peptidyl-tyrosine phosphorylation
GO:0031952; P:regulation of protein autophosphorylation
GO:0031290; P:retinal ganglion cell axon guidance
KEGG
mmu:13841;
InterPros
IPR001090; Ephrin_rcpt_lig-bd_dom.
IPR003961; Fibronectin_type3.
IPR008979; Galactose-bd-like.
IPR009030; Growth_fac_rcpt.
IPR013783; Ig-like_fold.
IPR011009; Kinase-like_dom.
IPR000719; Prot_kinase_cat_dom.
IPR017441; Protein_kinase_ATP_BS.
IPR001660; SAM.
IPR013761; SAM/pointed.
IPR021129; SAM_type1.
IPR001245; Ser-Thr/Tyr_kinase_cat_dom.
IPR008266; Tyr_kinase_AS.
IPR020635; Tyr_kinase_cat_dom.
IPR016257; Tyr_kinase_ephrin_rcpt.
IPR001426; Tyr_kinase_rcpt_V_CS.
Pfam
PF01404; Ephrin_lbd; 1.
PF00041; fn3; 2.
PF07714; Pkinase_Tyr; 1.
PF00536; SAM_1; 1.
SMARTs
SM00615; EPH_lbd; 1.
SM00060; FN3; 2.
SM00454; SAM; 1.
SM00219; TyrKc; 1.
Prosites
PS01186; EGF_2; UNKNOWN_1.
PS51550; EPH_LBD; 1.
PS50853; FN3; 2.
PS00107; PROTEIN_KINASE_ATP; 1.
PS50011; PROTEIN_KINASE_DOM; 1.
PS00109; PROTEIN_KINASE_TYR; 1.
PS00790; RECEPTOR_TYR_KIN_V_1; 1.
PS00791; RECEPTOR_TYR_KIN_V_2; 1.
PS50105; SAM_DOMAIN; 1.
Prints
PR00109; TYRKINASE.
Created Date20-Feb-2013