- Transcript 'Phfumi.CG.MTP2014.S6...' >
- Transcript 'Haaura.CG.MTP2014.S1...' >
- Transcript 'Haaura.CG.MTP2014.S1...' >
- Transcript 'Cisavi.CG.ENS81.NC_0...' >
- Transcript 'Harore.CG.MTP2014.S1...'
Transcript Model
Transcript Id
Harore.CG.MTP2014.S151.g13616.01.t
Possible name(s)
MERTK; MET; MST1R
Gene model
Location
S151 [113,376 / 128,733]
Amino acid sequence
Length: 1,476
>Harore.CG.MTP2014.S151.g13616.01.p
MLNKSIGFTTKTSMEWISCTFLLLTCGVIPGLFSPASANSCETDPEETVEPYVQKLFSEL
SKVPVHYMTINLATEELFVGGVNTTYRLTTNLNITEQYEYPGNTIKLLVVDNKHNLLVAC
GTAHSGLCYRHNLTNIAENVVLLNGTEKASDAILSRTGSTVGLIALGSKFAEKAPASVFY
FARTLDPDLPHSMQQSVSSKTWNKDMTGFELSTNTTIKNFAGIFSEISVSQRYFKQYDIQ
YLYGFSHNHSTYFVTKQPKKIGSNIFEARLIKVCQKDVGFYSYMELSIGCKSELVKGNKM
RIPVDAYLSDVKEDFSYLQNGSEGEETYLFILFKSLNGADDRGDRFVCSYAMSEVEAFFL
NGVNTCNKGLDQSIGLKFLNNGEIDRTCAWDDVQTSSCQNSTSRNQHLLVSKNLFSKNLL
QDADGHDLKFKSYPTSLAVTVYGKSTVLVMGYADGSLGIFHIGSFRERGTQFVERTAVSE
RISQHLEIYRGVIFAMTENNLFRLAFADVCRSMKTCRDCLVSDYLNCGYCESFGCMSEGS
CLKLKSSWSQTKCPISVNSVSPLSGPLEGGTELVICGEALGHTTPNESPSTTRKVYISDY
ANCTILNKENYFRILCKIVVRHSNRTYENFTSPISVLVRAEIPPSLVQDKFEIDGSVTSG
LFSFQSVQVTGIYPLKGSRGGGTVLYVSGNFLDIGSNAQVHIGISPCEIQNRNKTNIICK
TSQEDRVKRRADETLSNGNATRKLLASKQYFVNVTIDNAVQTAPNMFTYMPRPKLLLVPL
KSIQRGGILITVNGYNLDSVAHPVVTIHLRNKDYDVTSTLIHQANALQFRTPPLPLSSGE
ATFVLDSTICDFSFKVCLDPTIDKTNNITKENGIFKIVVKGDRLLNCCQKTDYIMMIGNE
TCGHLDVTSSQIICHILSSDLQTTRKDSSLHAVSVSVGTNLRVSCGTVTFSATAASSSIT
LIVIISVVVILIIIVCGAIAVIYAIKRCKKSPEDRSVHYTSEDRSNTYQGSVNGHGGTEN
QSERARLLTAGSYQDQLSPELVEEVKPLMIQPSQIKYNRKDIIGHGNFGIVFHGTYTNSS
LFGVDVDSYERKVAIKTLSRIDDLQAVENFLKEALIMKDFNHEHVLTLIGVLMDENSCPM
VILPYMKHGDVLKYIRNPENSPTVKDLIGFGLQACMGMQYLASNRFVHRDLAARNCMLDE
DHVVKVADFGLARDIYEKEYYKPHGRGGRMPVKWMALESLQVQKFNTKTDVWSFGILLWE
LMTRGVTPYPDVDAFDVLEYLLKGRRLKQPQCCPDELYVVLLCCWNPDPKKRSDFNELVT
TLSEIHQKCHEISHPGLDLTYINLDVHPNYSSFPYSGTSKSSSLSTPSPFGNNQVFEVPT
AGEFGDSMKSPQLLSENDGYLLPSPHIILREKQDEDSTKPTRYKNGAQAPSTSFKRERDY
YNVPAQMPELISNPIYETRESVTEAEVNLWDSADPH
Nucleotide sequence
Length: 5,995
>Harore.CG.MTP2014.S151.g13616.01.t
AGAGCATAAGAGTATACGATTATACAATACAAATTGCCCTTTCCAGAAGAACGTAACTAA
CATCAAATGACAGTATTCTGCATTAAGTTGCGTATGCTAAAATGATCATCAGGCAGCGGA
ATTGATGCTCAATAAATCAATTGGATTTACCACAAAAACGTCCATGGAATGGATCTCCTG
CACGTTCTTACTTCTCACTTGCGGCGTCATACCGGGATTGTTTTCCCCAGCTTCTGCAAA
TTCTTGTGAAACAGACCCTGAGGAAACTGTTGAGCCATATGTCCAGAAATTATTTTCAGA
GCTATCTAAAGTACCTGTTCACTATATGACAATAAATTTGGCCACAGAGGAATTGTTTGT
AGGTGGTGTCAATACAACCTACAGACTAACAACAAATCTTAATATAACAGAGCAATATGA
GTACCCAGGTAACACTATCAAATTGCTAGTGGTTGACAACAAACATAATTTGTTAGTTGC
CTGCGGCACTGCGCATTCCGGACTTTGCTATCGCCACAATCTGACAAACATAGCTGAAAA
TGTCGTACTTTTGAACGGTACCGAAAAGGCTTCCGATGCTATATTGAGCAGGACGGGTTC
GACCGTCGGTCTAATTGCACTCGGCTCAAAATTTGCGGAGAAAGCCCCCGCCAGCGTGTT
TTATTTCGCAAGGACGTTAGACCCTGATTTGCCCCATTCCATGCAGCAGTCTGTGTCGAG
CAAGACATGGAACAAAGATATGACTGGCTTTGAATTATCTACGAACACAACAATAAAAAA
CTTCGCAGGCATTTTTTCAGAAATTTCGGTTTCTCAGCGATACTTCAAGCAATATGATAT
TCAGTATCTGTATGGCTTCAGTCACAATCACTCTACATATTTTGTCACCAAACAGCCAAA
AAAAATCGGCTCAAACATCTTTGAAGCGAGATTGATTAAAGTCTGCCAGAAAGATGTCGG
TTTCTACAGTTATATGGAACTTTCTATTGGTTGTAAGTCTGAGTTGGTGAAGGGGAATAA
AATGCGTATTCCTGTAGATGCTTATTTGTCCGATGTGAAAGAAGATTTTTCATACCTTCA
AAATGGCTCAGAGGGTGAAGAAACATATCTTTTCATTCTTTTTAAAAGCCTCAATGGGGC
AGATGACCGGGGCGATCGGTTCGTCTGCTCGTATGCGATGAGCGAAGTAGAAGCCTTTTT
TCTCAATGGTGTCAACACTTGCAATAAAGGTTTGGATCAAAGCATAGGCCTAAAGTTTTT
AAACAATGGTGAAATTGACAGAACCTGTGCTTGGGATGATGTGCAAACATCATCCTGTCA
AAATTCTACTAGCCGCAATCAACACTTGCTTGTATCAAAGAATTTATTTTCCAAAAACCT
TTTACAAGATGCAGATGGACATGATTTGAAGTTCAAATCCTACCCCACGTCACTTGCCGT
TACGGTTTATGGTAAATCAACAGTACTGGTGATGGGATATGCGGACGGTTCACTGGGAAT
ATTTCATATCGGTTCCTTCAGGGAGCGGGGAACACAATTCGTAGAAAGGACCGCGGTTAG
CGAAAGAATAAGCCAACATCTTGAGATATATCGTGGTGTGATATTTGCCATGACAGAAAA
CAATCTCTTTCGGTTAGCTTTCGCAGATGTGTGCAGGTCCATGAAAACTTGCCGAGATTG
TCTTGTCAGTGACTACTTAAACTGCGGTTACTGTGAAAGTTTTGGTTGCATGTCTGAAGG
TAGTTGTCTCAAGCTAAAAAGTTCCTGGAGCCAAACGAAATGTCCCATATCGGTGAACTC
TGTTTCACCTTTGTCTGGTCCACTTGAAGGAGGAACAGAGTTGGTGATCTGTGGCGAAGC
CCTGGGCCACACCACACCGAACGAGAGTCCATCAACCACTCGTAAAGTTTATATATCGGA
TTATGCGAACTGCACGATATTAAACAAAGAAAATTACTTCAGAATTCTATGTAAAATAGT
AGTGAGGCATTCCAATAGGACTTATGAAAATTTTACATCACCTATCAGCGTATTAGTTCG
TGCTGAAATTCCGCCTAGCCTTGTTCAGGATAAGTTTGAGATTGATGGCAGTGTTACTTC
CGGTTTATTTTCATTTCAATCGGTTCAAGTAACTGGAATCTATCCGTTGAAAGGATCGCG
TGGAGGTGGCACTGTTCTGTATGTTAGTGGGAATTTTCTGGATATTGGTAGCAATGCTCA
AGTTCACATTGGAATTTCGCCCTGTGAAATACAGAACAGGAACAAGACTAACATCATATG
CAAAACTTCACAAGAAGACAGAGTAAAGAGACGAGCAGATGAAACTCTATCAAATGGCAA
TGCAACAAGAAAATTGCTCGCTTCAAAGCAGTATTTTGTCAATGTTACTATTGACAATGC
GGTTCAAACAGCACCTAACATGTTTACATACATGCCGAGACCAAAGCTCCTTCTGGTGCC
TCTTAAAAGTATTCAAAGAGGTGGAATTTTAATAACTGTCAACGGGTATAATTTGGATTC
TGTTGCTCATCCAGTGGTAACTATTCATCTACGAAATAAGGATTATGACGTGACATCCAC
TCTCATTCATCAGGCTAATGCTCTTCAGTTTCGTACTCCACCTCTACCCCTTTCTTCAGG
CGAGGCAACCTTCGTTCTGGACAGCACCATATGTGATTTCAGTTTCAAGGTCTGTCTAGA
TCCAACAATTGACAAAACCAACAATATCACAAAAGAAAACGGAATCTTCAAAATAGTAGT
CAAGGGTGACAGGCTACTGAATTGTTGTCAGAAGACTGATTATATTATGATGATTGGAAA
TGAAACCTGTGGTCATTTGGATGTGACAAGCAGTCAGATCATCTGTCACATTCTTTCGTC
TGATCTGCAGACAACTCGGAAAGATTCGAGCTTACATGCAGTATCAGTTTCTGTTGGTAC
CAACTTGAGGGTTTCCTGTGGAACTGTTACATTTTCAGCTACCGCAGCTAGTAGCTCCAT
TACCCTCATAGTGATCATCTCTGTCGTAGTGATTCTGATTATAATTGTTTGTGGAGCTAT
TGCAGTTATTTATGCAATAAAACGATGCAAAAAATCACCCGAAGATCGTAGTGTTCACTA
TACTTCTGAGGATCGCTCCAATACTTATCAGGGATCTGTGAATGGGCATGGTGGCACAGA
GAACCAAAGCGAGCGAGCACGTCTCCTTACAGCAGGGTCGTACCAAGATCAACTCTCTCC
AGAATTAGTGGAAGAGGTGAAACCTTTGATGATTCAGCCATCGCAAATCAAATACAATCG
CAAGGACATTATTGGGCATGGCAACTTCGGGATTGTGTTTCATGGAACCTACACCAATTC
ATCGCTATTTGGAGTAGATGTGGATTCTTACGAAAGAAAGGTTGCCATCAAAACATTGTC
GCGAATTGACGACTTGCAAGCAGTAGAAAATTTCTTGAAAGAAGCTCTGATAATGAAAGA
CTTCAATCATGAGCATGTCCTCACTTTGATCGGAGTTTTAATGGATGAGAACTCGTGTCC
TATGGTTATTCTGCCCTACATGAAACACGGTGATGTGTTGAAGTACATTCGAAATCCTGA
AAATAGTCCAACTGTTAAAGATCTCATTGGCTTTGGTCTGCAAGCATGTATGGGTATGCA
GTATCTTGCGAGTAACAGATTCGTACATCGGGATCTGGCAGCCCGCAACTGCATGCTGGA
TGAAGACCATGTTGTGAAGGTGGCTGATTTTGGTCTTGCTCGAGACATATATGAAAAGGA
ATATTATAAGCCTCATGGGAGAGGAGGTCGCATGCCGGTCAAGTGGATGGCGCTCGAAAG
TCTGCAAGTACAGAAGTTTAATACGAAGACCGACGTTTGGTCATTCGGTATACTCTTGTG
GGAACTGATGACGAGAGGCGTTACTCCGTATCCTGACGTTGATGCATTCGATGTTCTGGA
GTATCTTCTCAAGGGTCGTCGACTCAAGCAACCGCAGTGCTGTCCAGATGAACTATACGT
TGTTCTGTTGTGTTGCTGGAATCCAGATCCCAAAAAACGATCAGATTTTAATGAACTGGT
TACTACTCTGAGTGAAATACATCAAAAATGTCACGAAATCAGCCATCCAGGTCTCGATTT
GACTTACATAAACCTTGATGTACATCCCAATTATTCTTCCTTTCCCTATTCTGGGACATC
AAAATCATCCAGCCTTTCAACACCTTCACCATTTGGCAACAATCAAGTGTTTGAAGTACC
TACTGCCGGTGAGTTTGGAGACAGCATGAAGTCGCCACAGTTGCTGAGCGAAAATGATGG
TTATTTGTTACCATCACCTCACATCATACTCAGAGAGAAACAAGATGAAGATTCTACTAA
ACCCACCAGATATAAAAATGGTGCACAAGCTCCTTCCACAAGCTTTAAACGGGAGAGAGA
TTACTACAATGTCCCTGCGCAAATGCCGGAGCTAATTTCCAATCCGATTTACGAAACTAG
AGAGAGTGTCACAGAAGCAGAAGTAAATCTCTGGGATAGTGCTGATCCCCACTAAGTTTC
AGTTTCAACAATTCACTGTGTGCACAAGGACAGCTACTTGAGTTCTGCAATGGTGCAGGG
TTGAATCGTAAACAGCAAGGGCAAAAGTATTTTTCAATACTTATTGTTGAGCCGGCTGTC
ACCGTAATATATCCTGTTACTGTACTATACAAGGTAATTGTTTTTGCAATAAAATATAAT
TTTTTTATGATACATTTCATATAATTCAGTTTCTTCATTATGTAAATCATGTAATCATTA
CATTTAATTACTTACTGTTGCTTTATTGTAGTCTTGCTACTGAGATTTTAATGCAGTATC
TCTGCCGAATATAGCAATTTTTTCAAGTTTACTTTACATGCATACATTCTTAAAGCAGCA
TGGTCCAAATATGGCTTACATATAGATGGGTAGATAATTTATTGATTGTCATGACACCAA
TGAATAAAAACAATATTATTTTGATAGAGATATAAAAAAGGCATAGATATGTATATGGAT
ATGTAGAATACTGAAAGTAATGATAAATTTTTCCAACTGGTGAATTCTATTTTCACATTT
TCCATTTTCTGGTGATCCCTATTGGCCTTCCATGATATCGATTAGAACTAGGAGTTCCCG
AGCTTTGAGTACCACTTGATCCCCTGGGCTTAATCTTCACACTAACCTTTGTAAGAGGAA
AACAAATTCCCACCTTTCAATTAGCAAAATGGCTAATCCTCTCGTTCTACTTCACAACCA
GTTAAAATAATGTTTCATACATTATTTTTTTTTAATATCCCTGAGTGACAAACAATGTAA
TCTAACAGCAATAGTTCAATCGACTCCTAAAGTTTATTTGGTTATTCTGCCATTTTTTAT
TGACCCCTCGAATTGTCTCCAGGACCCTCGGGGTTAATATTGACCACTTCGGAAACCCAT
GATGCAGACCAAAAGAACTTGTAACTAAAACTATTGTTGATTATTTAATGATGTTCTGTG
TTTTTACCATTTAAGCATATACAGTAACTATGGTGCTGAAATTTACTATGCGGCTGCCTT
TTGAAAGTAAGTATTATTGTTCACTGTTCGAAACAACTGGTACAAGGTTGTTTTTTTTTC
ATATTAAAATAGGCCAACAGTGCTATCTGATCTTGAATTACTGGGTGCCATTAACAATTT
GGTGTGCAAACTACCATAATAACACTTTGTGGGAAACTTTTTGACTCCCGCATATGATTT
GAGACTGTTAAATATCAAATATCTGCAGGTTTACTTCCATAATATAGGTGGTATTGTGTT
GGAAGCATGAAACCATGGAGGAATCGGTCTGGTTTCTGTAAGGGGGATAGTCATAAACGT
TCCTTGCGAATTACATTTCTATTGCTCTGTCTGCCTTAAACTCTTCGTTCTGTAATTATA
TTCCGTGTTGTCAACAGCTGCCCAATAAAATAATTGCAGGAATGCCTCATTCACA
| ProSiteProfiles |
Semap_dom (IPR001627) - T[1-506] 10.742 |
| Gene3D |
WD40/YVTN_repeat-like_dom_sf (IPR015943) - T[54-505] 3.2E-57 |
| SMART |
Semap_dom (IPR001627) - T[67-492] 1.7E-9 |
| SUPERFAMILY |
Semap_dom_sf (IPR036352) - T[69-504] 4.84E-49 |
| Pfam |
Semap_dom (IPR001627) - T[73-457] 1.7E-20 |
| Gene3D |
Ig-like_fold (IPR013783) - T[522-654] 7.0E-14 - T[668-775] 1.9E-12 |
| SMART |
IPT_dom (IPR002909) - T[554-654] 4.6 - T[666-752] 0.0039 - T[772-855] 1.5 |
| SUPERFAMILY |
Ig_E-set (IPR014756) - T[664-771] 1.75E-8 - T[778-838] 9.02E-5 |
| Pfam |
IPT_dom (IPR002909) - T[669-747] 1.5E-5 |
| SUPERFAMILY |
Kinase-like_dom_sf (IPR011009) - T[1056-1327] 4.45E-72 |
| ProSiteProfiles |
Prot_kinase_dom (IPR000719) - T[1057-1337] 35.637 |
| SMART |
Tyr_kinase_cat_dom (IPR020635) - T[1057-1322] 1.5E-124 |
| Pfam |
Ser-Thr/Tyr_kinase_cat_dom (IPR001245) - T[1060-1322] 1.5E-86 |
| ProSitePatterns |
Protein_kinase_ATP_BS (IPR017441) - T[1063-1096] . |
| PRINTS |
Ser-Thr/Tyr_kinase_cat_dom (IPR001245) - T[1143-1156] 8.6E-29 - T[1180-1198] 8.6E-29 - T[1230-1240] 8.6E-29 - T[1249-1271] 8.6E-29 - T[1293-1315] 8.6E-29 |
| ProSitePatterns |
Tyr_kinase_AS (IPR008266) - T[1186-1198] . |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| MERTK_HUMAN | 42.321 % | 242 | 1.38E-65 |
| MET_HUMAN | 29.02 % | 473 | 9.85E-143 |
| RON_HUMAN | 49.851 % | 331 | 3.09E-93 |