EKS-BOT-00123
Eukaryotic Protein Kinase & Protein Phosphatase Database
TagContent
EKPD IDEKS-BOT-00123
Classification
Group/FamilyScoreE-ValueStartEndDomain Length
TK/Met478.94.0E-14410791339261
StatusReviewed
Ensembl ProteinENSBTAP00000008102
UniProt AccessionQ769I5; A4D7R6;
Protein NameHepatocyte growth factor receptor
Protein Synonyms/Alias HGF receptor; HGF/SF receptor; Proto-oncogene c-Met; Scatter factor receptor; SF receptor; Tyrosine-protein kinase Met;
Gene NameMET
Gene Synonyms/Alias MET;
Ensembl Information
Ensembl Gene IDEnsembl Protein IDEnsembl Transcript ID
ENSBTAG00000006161ENSBTAP00000008102ENSBTAT00000008102
OrganismBos taurus
Functional DescriptionReceptor tyrosine kinase that transduces signals fromthe extracellular matrix into the cytoplasm by binding to hepatocyte growth factor/HGF ligand. Regulates many physiological processes including proliferation, scattering, morphogenesis and survival. Ligand binding at the cell surface induces autophosphorylation of MET on its intracellular domain that provides docking sites for downstream signaling molecules. Following activation by ligand, interacts with the PI3-kinase subunit PIK3R1, PLCG1, SRC, GRB2, STAT3 or the adapter GAB1. Recruitment of these downstream effectors by MET leads to the activation of several signaling cascades including the RAS-ERK, PI3 kinase-AKT, or PLCgamma-PKC. The RAS-ERK activation is associated with the morphogenetic effects while PI3K/AKT coordinates prosurvival effects. During embryonic development, MET signaling plays a role in gastrulation, development and migration of muscles and neuronal precursors, angiogenesis and kidney formation. In adults, participates in wound healing as well as organ regeneration and tissue remodeling. Promotes also differentiation and proliferation of hematopoietic cells (By similarity).
Protein Length1384
Protein Sequence
(FASTA)
MKAPAVLAPG ILVLLFTFVQ KSNGECKEAL VKSRMNVNMQ YQLPNFTAET SIQNVVLHKH 60
HIYLGAINYI YVLNDKDLQK VAEYKTGPVL EHPDCFPCQD CSHKANLSGG VWKDNINMAL 120
LVDTYYDDQL ISCGSVHRGT CQRHVLPPNN TADIESEVHC MYSPQADEET NQCPDCVVSA 180
LGTKVLLSEK DRFINFFVGN TINSSYLPDY ILHSISVRRL KETQDGFKFL TDQSYIDVLP 240
ELRDSYPIKY VHAFESNHFI YFLTVQRETL DAQTFHTRII RFCSADSGLH SYMEMPLECI 300
LTEKRRKRST KQEVFNILQA AYVSKPGAQL ARQIGASLND DILYGVFAQS KPDSSEPMNR 360
SAVCAFPVKY VNEFFNKIVN KNNVRCLQHF YGPNHEHCFN RTLLRNSSGC EVRNDEYRTE 420
FTTALPRVDL FTGQFNQVLL TSISTFIKGD LTIANLGTSE GRFMQVVVSR SGSLTPHVNF 480
HLDSHPVSPE VIVEHPLNQN GYTLVVTGKK ITKIPLNGLG CEHFQSCSQC LSAPSFVQCG 540
WCHDKCVRLE ECSSGTWTQE TCLPTIYKVF PTSAPLEGGT TLTVCGWDFG FKRNNKFDLK 600
KTRVLLGNES CTLTLTESTT NMLKCTVGPA MNEHFNMSIV ISNSRGSVEY SAFSYVDPII 660
TSISPNYGPK TGGTLLTLTG KHLNSGNSRH ISIGGKTCTL KSVSHSILEC YTPAQSAPTE 720
FSVKLKIDLA NREVNSFIYR EDPIVYEIHP TKSFISGGST ITGVGKNLNS VSVLRMVINV 780
HEAGRNFTVA CQHRSNSEII CCTTPSIEQL NLQLPLKTKA FFMLDGIHSK YFDLIYVHNP 840
VFKPFEKPVM ISVGNENVLE IKGNDIDPEA VKGEVLKVGN KSCENIHSHS EAVLCTVPSD 900
LLKLNSELNI EWKQAISSTV LGKVIVQPDQ NFTGLIVGVV SISIILLLLL GLFLWLKKRK 960
QIKDLGSELV RYDARVHTPH LDRLVSARSV SPTTEMVSNE SVDYRATFPE DQFPNASQNG 1020
SCRQVQYPLT DLSPILTSGD SDISSPLLQN TVHIDLSALN PELVQAVQHV VIGPSSLIVH 1080
FNEVIGRGHF GCVYHGTLLD NDDKKIHCAV KSLNRITDIG EVSQFLTEGI IMKDFSHPNV 1140
LSLLGICLRS EGSPLVVLPY MKHGDLRNFI RNETHNPTVK DLIGFGLQVA KGMEYLASKK 1200
FVHRDLAARN CMLDEKFTVK VADFGLARDV YDKEYYSVHN KTGAKLPVKW MALESLQTQK 1260
FTTKSDVWSF GVLLWELMTR GAPPYPDVNT FDITVYLLQG RRLLQPEYCP DPLYEVMLKC 1320
WHPKAELRPS FSELVSRISV IFSTFIGEHY VHVNATYVNV KCVAPYPSLL SSQDNVSGED 1380
DDDT 1384
Nucleotide Sequence
(FASTA)
ATGAAGGCCC CTGCTGTGCT TGCACCTGGC ATTCTTGTGC TTCTGTTTAC CTTCGTGCAG 60
AAGAGCAATG GGGAGTGTAA AGAGGCACTA GTAAAATCCA GGATGAATGT GAACATGCAA 120
TATCAGCTTC CTAACTTCAC TGCAGAAACA TCCATTCAGA ATGTTGTTTT GCACAAACAT 180
CACATTTACC TCGGTGCCAT TAACTACATT TACGTTTTAA ATGACAAAGA CCTTCAGAAG 240
GTTGCTGAGT ACAAGACTGG GCCTGTGCTG GAACACCCAG ATTGTTTCCC ATGTCAGGAC 300
TGCAGCCATA AAGCCAATTT ATCAGGTGGT GTTTGGAAAG ATAACATCAA CATGGCTCTG 360
CTTGTTGACA CGTACTATGA TGATCAACTC ATTAGCTGTG GCAGTGTCCA CAGAGGGACC 420
TGCCAGCGAC ACGTCCTTCC ACCCAACAAT ACTGCAGACA TAGAGTCGGA GGTTCACTGC 480
ATGTACTCTC CTCAGGCAGA CGAAGAGACC AACCAGTGTC CTGACTGTGT GGTGAGTGCC 540
CTGGGAACCA AAGTCCTACT GTCTGAAAAG GATCGATTCA TCAACTTCTT CGTGGGCAAT 600
ACCATAAATT CTTCTTACCT TCCAGATTAT ATATTGCACT CGATATCAGT GAGAAGGCTA 660
AAGGAAACAC AAGATGGTTT TAAGTTTTTG ACAGACCAAT CCTATATTGA TGTTCTACCT 720
GAACTCCGAG ATTCCTACCC CATTAAGTAT GTCCACGCCT TTGAAAGCAA CCATTTTATT 780
TACTTTTTGA CGGTCCAGCG GGAAACTCTA GATGCTCAGA CTTTTCACAC AAGAATAATC 840
AGGTTCTGTT CCGCAGACTC TGGATTGCAT TCGTACATGG AAATGCCTCT GGAGTGTATT 900
CTGACGGAAA AGAGAAGAAA GAGATCCACA AAGCAGGAAG TGTTTAATAT TCTCCAAGCT 960
GCATATGTCA GTAAGCCTGG GGCTCAGCTC GCTAGGCAAA TAGGTGCCAG CCTGAATGAT 1020
GACATTCTGT ACGGGGTGTT TGCACAAAGC AAGCCAGATT CCTCAGAACC AATGAATCGT 1080
TCTGCTGTCT GTGCATTCCC TGTCAAATAT GTCAATGAGT TCTTCAACAA AATCGTCAAC 1140
AAAAACAATG TGAGATGTCT CCAGCACTTT TATGGCCCCA ACCATGAACA CTGCTTCAAT 1200
AGGACACTTT TGAGAAATTC ATCAGGATGT GAAGTGCGCA ATGATGAATA TCGAACGGAG 1260
TTTACCACAG CTTTGCCACG CGTTGACTTA TTCACGGGCC AGTTCAACCA AGTCCTCTTA 1320
ACATCTATAT CCACCTTTAT CAAAGGAGAT CTCACCATCG CTAATCTCGG GACATCAGAA 1380
GGTCGATTCA TGCAGGTTGT GGTTTCTCGA TCAGGATCAT TAACTCCTCA TGTGAATTTT 1440
CACCTGGATT CCCACCCTGT GTCTCCAGAA GTGATTGTGG AGCACCCGCT AAACCAGAAT 1500
GGCTATACAC TGGTTGTCAC TGGGAAGAAG ATCACCAAGA TCCCGCTGAA TGGCCTGGGC 1560
TGTGAACATT TCCAGTCCTG CAGTCAGTGC CTCTCAGCCC CTTCCTTTGT GCAATGTGGC 1620
TGGTGCCATG ATAAATGTGT GCGATTGGAG GAATGCTCCA GTGGAACGTG GACTCAAGAG 1680
ACCTGTCTGC CAACAATCTA CAAGGTTTTT CCAACTAGTG CCCCCCTTGA AGGAGGGACA 1740
ACACTGACTG TTTGTGGCTG GGACTTTGGA TTCAAGAGGA ATAATAAATT TGATTTGAAG 1800
AAAACCAGAG TTCTCCTTGG CAATGAGAGC TGCACCTTAA CCTTAACTGA GAGCACAACA 1860
AACATGTTGA AATGCACAGT TGGTCCTGCA ATGAATGAAC ATTTCAATAT GTCCATAGTT 1920
ATTTCAAACA GCCGTGGGTC AGTAGAGTAT AGTGCGTTTT CCTATGTGGA TCCTATAATA 1980
ACAAGTATTT CTCCAAATTA TGGTCCAAAA ACTGGTGGCA CTTTACTTAC ATTAACTGGA 2040
AAGCACCTAA ACAGTGGAAA TTCAAGACAC ATTTCAATTG GTGGAAAAAC ATGTACTTTA 2100
AAAAGTGTTT CACATAGTAT TCTCGAATGT TATACCCCAG CCCAAAGTGC TCCAACTGAG 2160
TTTTCTGTTA AGTTGAAAAT TGACTTAGCC AACCGAGAGG TGAACAGCTT CATTTACCGG 2220
GAAGACCCCA TTGTCTATGA AATACATCCC ACCAAATCTT TTATTAGTGG TGGGAGTACA 2280
ATAACAGGTG TTGGAAAAAA CCTGAATTCA GTTAGTGTCC TAAGGATGGT AATAAATGTG 2340
CATGAAGCCG GAAGGAACTT TACAGTGGCA TGTCAACATC GCTCTAATTC AGAGATAATC 2400
TGCTGTACAA CTCCTTCAAT AGAACAGCTG AACCTACAAC TCCCCCTGAA AACCAAAGCC 2460
TTTTTCATGT TAGATGGGAT CCATTCCAAA TACTTTGATC TCATTTATGT ACATAATCCT 2520
GTGTTTAAGC CTTTTGAAAA GCCAGTGATG ATCTCAGTAG GCAATGAAAA TGTACTGGAA 2580
ATTAAGGGAA ATGATATTGA CCCTGAAGCA GTTAAAGGGG AGGTGTTAAA AGTTGGAAAT 2640
AAGAGCTGTG AAAATATACA CTCACACTCT GAAGCTGTTT TATGTACGGT CCCCAGTGAC 2700
CTGCTGAAAT TGAACAGCGA ACTAAATATA GAGTGGAAGC AAGCAATTTC TTCAACTGTT 2760
CTTGGAAAAG TGATAGTTCA ACCAGATCAG AATTTCACAG GATTGATTGT TGGTGTTGTC 2820
TCAATATCAA TAATACTCTT ACTGTTACTC GGGCTTTTCC TGTGGCTGAA AAAAAGGAAG 2880
CAAATTAAAG ATCTGGGCAG TGAATTAGTT CGCTATGATG CAAGAGTACA CACTCCACAT 2940
TTGGATAGGC TTGTCAGTGC CCGAAGTGTA AGCCCAACTA CAGAAATGGT TTCCAATGAA 3000
TCTGTAGACT ACCGAGCTAC TTTTCCAGAA GACCAGTTTC CTAATGCATC TCAGAATGGG 3060
TCATGCAGAC AAGTGCAGTA TCCTCTGACA GATCTATCCC CCATCTTAAC TAGTGGGGAC 3120
TCTGATATAT CCAGTCCATT ACTGCAAAAT ACCGTCCACA TCGACCTCAG TGCTCTAAAT 3180
CCAGAGCTGG TCCAGGCAGT TCAGCACGTA GTAATTGGGC CGAGCAGTCT GATTGTACAT 3240
TTCAATGAAG TCATAGGAAG AGGACATTTT GGGTGTGTAT ATCATGGAAC TTTGTTGGAC 3300
AACGATGATA AGAAAATTCA CTGTGCTGTG AAATCCTTGA ATAGAATCAC TGACATAGGA 3360
GAAGTTTCCC AATTTCTGAC TGAGGGAATC ATCATGAAAG ATTTTAGTCA TCCCAATGTT 3420
CTCTCACTTT TGGGAATCTG CCTTCGAAGT GAGGGGTCTC CACTGGTGGT CCTACCATAC 3480
ATGAAACACG GGGATCTTCG AAATTTCATT AGAAATGAGA CTCATAACCC AACTGTAAAA 3540
GATCTTATTG GCTTTGGTCT TCAAGTAGCC AAAGGCATGG AATATCTTGC AAGCAAAAAG 3600
TTTGTCCACA GAGACTTGGC TGCAAGAAAC TGTATGCTGG ATGAAAAATT CACCGTCAAG 3660
GTTGCTGATT TTGGTCTTGC CAGAGACGTG TATGATAAGG AATACTATAG CGTACACAAC 3720
AAAACAGGTG CAAAACTGCC AGTGAAATGG ATGGCTTTAG AAAGCCTGCA GACTCAGAAA 3780
TTTACCACCA AGTCAGATGT GTGGTCCTTT GGCGTGCTTC TCTGGGAACT GATGACAAGA 3840
GGAGCACCAC CTTATCCTGA CGTCAACACC TTTGACATAA CAGTTTACTT GTTGCAAGGA 3900
AGAAGGCTCC TACAACCTGA ATACTGCCCA GATCCCTTGT ATGAAGTGAT GCTGAAATGC 3960
TGGCACCCTA AAGCTGAACT GCGCCCATCC TTTTCTGAAC TGGTCTCCAG GATATCCGTG 4020
ATATTCTCTA CTTTCATTGG GGAGCACTAT GTCCATGTGA ATGCTACTTA CGTGAACGTC 4080
AAATGTGTCG CTCCATATCC TTCTCTGTTG TCATCACAAG ATAATGTCAG TGGCGAGGAT 4140
GATGATGACA CATGA 4155
Domain Profile
S: 1     vdkeeviGkGhfGvvykgelsdsaskkikvavksleritdiekveeflreglvmkeldhp  60
         v+++eviG+GhfG+vy+g+l+d+++kki++avksl+ritdi++v++fl+eg++mk+++hp
Q: 1079  VHFNEVIGRGHFGCVYHGTLLDNDDKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHP  1138
         799*********************************************************
S: 61    nvlsllGialddeglplvvlpymkkGdlksfirneernltvkdllefalqvakgmeylas  120
         nvlsllGi+l++eg+plvvlpymk+Gdl++firne++n+tvkdl++f+lqvakgmeylas
Q: 1139  NVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMEYLAS  1198
         ************************************************************
S: 121   kkfvhrdlaarnclldekltvkvadfGlardvldkelyvveeerdarlpvkwlaleslqt  180
         kkfvhrdlaarnc+ldek+tvkvadfGlardv+dke+y+v+++++a+lpvkw+aleslqt
Q: 1199  KKFVHRDLAARNCMLDEKFTVKVADFGLARDVYDKEYYSVHNKTGAKLPVKWMALESLQT  1258
         ************************************************************
S: 181   fkqfttksdvwsfGvllwelltrgatpysevasfdltlylkegrrlrkpeycpdklydvm  240
         +k fttksdvwsfGvllwel+trga+py++v++fd+t+yl +grrl +peycpd ly+vm
Q: 1259  QK-FTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVM  1317
         **.*********************************************************
S: 241   lkcwkakpaerpqfsdlvsiis  262
         lkcw++k++ rp+fs+lvs+is
Q: 1318  LKCWHPKAELRPSFSELVSRIS  1339
         ********************97
Domain Sequence
(FASTA)
VHFNEVIGRG HFGCVYHGTL LDNDDKKIHC AVKSLNRITD IGEVSQFLTE GIIMKDFSHP 60
NVLSLLGICL RSEGSPLVVL PYMKHGDLRN FIRNETHNPT VKDLIGFGLQ VAKGMEYLAS 120
KKFVHRDLAA RNCMLDEKFT VKVADFGLAR DVYDKEYYSV HNKTGAKLPV KWMALESLQT 180
QKFTTKSDVW SFGVLLWELM TRGAPPYPDV NTFDITVYLL QGRRLLQPEY CPDPLYEVML 240
KCWHPKAELR PSFSELVSRI S 261
KeywordATP-binding; Complete proteome; Disulfide bond; Glycoprotein; Kinase; Membrane; Nucleotide-binding; Phosphoprotein; Proto-oncogene; Receptor; Reference proteome; Repeat; Signal; Transferase; Transmembrane; Transmembrane helix; Tyrosine-protein kinase; Ubl conjugation.
Sequence SourceEnsembl
Orthology
Ortholog group
Ailuropoda melanoleuca"; ?>Anolis carolinensis"; ?>Caenorhabditis elegans"; ?>Callithrix jacchus"; ?>Canis familiaris"; ?>Cavia porcellus"; ?>Ciona intestinalis"; ?>Ciona savignyi"; ?>Danio rerio"; ?>Equus caballus"; ?>Felis catus"; ?>Gallus gallus"; ?>Gasterosteus aculeatus"; ?>Gorilla gorilla"; ?>Homo sapiens"; ?>Ictidomys tridecemlineatus"; ?>Latimeria chalumnae"; ?>Loxodonta africana"; ?>Macaca mulatta"; ?>Meleagris gallopavo"; ?>Monodelphis domestica"; ?>Mus musculus"; ?>Mustela putorius furo"; ?>Myotis lucifugus"; ?>Nomascus leucogenys"; ?>Ochotona princeps"; ?>Oreochromis niloticus"; ?>Ornithorhynchus anatinus"; ?>Oryctolagus cuniculus"; ?>Oryzias latipes"; ?>Otolemur garnettii"; ?>Pan troglodytes"; ?>Pelodiscus sinensis"; ?>Petromyzon marinus"; ?>Pongo abelii"; ?>Rattus norvegicus"; ?>Sarcophilus harrisii"; ?>Sus scrofa"; ?>Taeniopygia guttata"; ?>Takifugu rubripes"; ?>Tetraodon nigroviridis"; ?>Vicugna pacos"; ?>Xenopus tropicalis"; ?>
EKS-AIM-00115
EKS-ANC-00111
EKS-CAE-00100
EKS-CAJ-00125
EKS-CAF-00126
EKS-CAP-00120
EKS-CII-00062
EKS-CIS-00142
EKS-DAR-00379
EKS-EQC-00119
EKS-FEC-00114
EKS-GAG-00103
EKS-GAA-00142
EKS-GOG-00122
EKS-HOS-00125
EKS-ICT-00115
EKS-LAC-00128
EKS-LOA-00118
EKS-MAM-00119
EKS-MEG-00093
EKS-MOD-00120
EKS-MUM-00124
EKS-MUP-00126
EKS-MYL-00133
EKS-NOL-00115
EKS-OCP-00079
EKS-ORN-00150
EKS-ORA-00101
EKS-ORC-00115
EKS-ORL-00139
EKS-OTG-00126
EKS-PAT-00111
EKS-PES-00105
EKS-PEM-00067
EKS-POA-00116
EKS-RAN-00120
EKS-SAH-00115
EKS-SUS-00109
EKS-TAG-00152
EKS-TAR-00154
EKS-TEN-00142
EKS-VIP-00058
EKS-XET-00102
Gene Ontology
GO:0009925; C:basal plasma membrane
GO:0016021; C:integral to membrane
GO:0005524; F:ATP binding
GO:0005008; F:hepatocyte growth factor-activated receptor activity
GO:0000187; P:activation of MAPK activity
GO:0030534; P:adult behavior
GO:0007420; P:brain development
GO:0048754; P:branching morphogenesis of a tube
GO:0042593; P:glucose homeostasis
GO:0001889; P:liver development
GO:0014812; P:muscle cell migration
GO:0051450; P:myoblast proliferation
GO:0014902; P:myotube differentiation
GO:0001890; P:placenta development
GO:0010828; P:positive regulation of glucose transport
GO:0046777; P:protein autophosphorylation
GO:0060665; P:regulation of branching involved in salivary gland morphogenesis by mesenchymal-epithelial signaling
KEGG
bta:280855;
InterPros
IPR013783; Ig-like_fold.
IPR014756; Ig_E-set.
IPR002909; IPT_TIG_rcpt.
IPR011009; Kinase-like_dom.
IPR003659; Plexin-like.
IPR016201; Plexin-like_fold.
IPR002165; Plexin_repeat.
IPR000719; Prot_kinase_cat_dom.
IPR017441; Protein_kinase_ATP_BS.
IPR001627; Semaphorin/CD100_Ag.
IPR001245; Ser-Thr/Tyr_kinase_cat_dom.
IPR008266; Tyr_kinase_AS.
IPR020635; Tyr_kinase_cat_dom.
IPR016244; Tyr_kinase_HGF/MSP_rcpt.
IPR015943; WD40/YVTN_repeat-like_dom.
Pfam
PF07714; Pkinase_Tyr; 1.
PF01437; PSI; 1.
PF01403; Sema; 1.
PF01833; TIG; 3.
SMARTs
SM00429; IPT; 4.
SM00423; PSI; 1.
SM00630; Sema; 1.
SM00219; TyrKc; 1.
Prosites
PS00107; PROTEIN_KINASE_ATP; 1.
PS50011; PROTEIN_KINASE_DOM; 1.
PS00109; PROTEIN_KINASE_TYR; 1.
PS51004; SEMA; 1.
Prints
PR00109; TYRKINASE.
Created Date20-Feb-2013