| Acc# | Gene | Locus | DB | Organism | Product | Score | E-value | Identities | Positives | Gaps |
|---|---|---|---|---|---|---|---|---|---|---|
| P43565 | RIM15 | RI15_YEAST | SP | Saccharomyces cerevisiae (Baker's yeast) | Serine/threonine-protein kinase RIM15 (EC 2.7.1.-). | 431 | e-119 | 359/1217 (29%) | 517/1217 (42%) | 156/1217 (12%) |
| P38938 | CEK1 | CEK1_SCHPO | SP | Schizosaccharomyces pombe (Fission yeast) | Protein kinase cek1 (EC 2.7.1.-). | 234 | 1e-59 | 110/180 (61%) | 145/180 (80%) | 9/180 (5%) |
| Q8TFG6 | SPAPB18E9.02C | TrEMBL | Schizosaccharomyces pombe (Fission yeast) | Putative serine/threonine protein kinase, similar to S. cerevisiae RIM15. | 211 | 1e-52 | 102/170 (60%) | 132/170 (77%) | ||
| Q86IP5 | TrEMBL | Dictyostelium discoideum (Slime mold) | Similar to Dictyostelium discoideum (Slime mold). PkgA. | 181 | 9e-44 | 105/277 (37%) | 156/277 (56%) | 14/277 (5%) | ||
| Q9MB45 | IREH1 | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | IRE homolog 1 (Fragment). | 179 | 4e-43 | 100/221 (45%) | 141/221 (63%) | 2/221 (0%) | |
| Q8GZ40 | AT3G17850/MEB5_7 | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | Hypothetical protein. | 179 | 4e-43 | 100/221 (45%) | 141/221 (63%) | 2/221 (0%) | |
| Q9LVI5 | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | IRE homolog, protein kinase-like protein. | 179 | 4e-43 | 100/221 (45%) | 141/221 (63%) | 2/221 (0%) | ||
| Q9LE81 | IRE | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | IRE. | 177 | 1e-42 | 94/208 (45%) | 137/208 (65%) | 5/208 (2%) | |
| Q9AUR3 | OSJNBB0033N16.3 | TrEMBL | Oryza sativa (Rice) | Hypothetical protein. | 171 | 1e-40 | 92/209 (44%) | 134/209 (64%) | 6/209 (2%) | |
| Q86J79 | TrEMBL | Dictyostelium discoideum (Slime mold) | Similar to cell wall biosynthesis kinase; Cbk1p. | 169 | 4e-40 | 85/169 (50%) | 118/169 (69%) | |||
| Q9MAJ4 | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | F27F5.23. | 162 | 6e-38 | 87/213 (40%) | 131/213 (61%) | 10/213 (4%) | ||
| Q94F38 | TrEMBL | Arabidopsis thaliana (Mouse-ear cress) | At1g48490/T1N15_9. | 159 | 4e-37 | 85/207 (41%) | 130/207 (62%) | 4/207 (1%) | ||
| Q9VUQ9 | CG6498 | TrEMBL | Drosophila melanogaster (Fruit fly) | CG6498 protein. | 154 | 9e-36 | 85/214 (39%) | 130/214 (60%) | ||
| Q8CHD1 | MTSSK | TrEMBL | Mus musculus (Mouse) | MKIAA0807 protein (Fragment). | 153 | 2e-35 | 73/163 (44%) | 112/163 (68%) | ||
| Q60592 | MTSSK | TrEMBL | Mus musculus (Mouse) | Protein kinase. | 153 | 2e-35 | 73/163 (44%) | 112/163 (68%) | ||
| O60307 | KIAA0561 | TrEMBL | Homo sapiens (Human) | Hypothetical protein KIAA0561 (Fragment). | 150 | 2e-34 | 75/172 (43%) | 116/172 (67%) | 6/172 (3%) | |
| P90744 | C10C6.1 | TrEMBL | Caenorhabditis elegans | C10C6.1 protein. | 150 | 1e-34 | 70/155 (45%) | 110/155 (70%) | ||
| Q9BYE8 | HMAST205 | TrEMBL | Homo sapiens (Human) | MAST205 (Hypothetical protein KIAA0807). | 150 | 1e-34 | 72/162 (44%) | 110/162 (67%) | ||
| Q96B94 | TrEMBL | Homo sapiens (Human) | Similar to KIAA0807 protein. | 150 | 1e-34 | 72/162 (44%) | 110/162 (67%) | |||
| P38679 | COT-1 | COT1_NEUCR | SP | Neurospora crassa | Serine/threonine-protein kinase cot-1 (EC 2.7.1.37) (Colonial temperature-sensitive 1). | 149 | 5e-34 | 73/148 (49%) | 105/148 (70%) | |
| O15747 | PKGA | TrEMBL | Dictyostelium discoideum (Slime mold) | PkgA (Fragment). | 148 | 9e-34 | 70/136 (51%) | 96/136 (70%) | ||
| Q96GX5 | TrEMBL | Homo sapiens (Human) | Hypothetical protein. | 148 | 7e-34 | 75/152 (49%) | 103/152 (67%) | |||
| Q96SJ5 | TrEMBL | Homo sapiens (Human) | Hypothetical protein FLJ14813. | 148 | 7e-34 | 75/152 (49%) | 103/152 (67%) | |||
| Q8NCD6 | TrEMBL | Homo sapiens (Human) | Hypothetical protein FLJ90323. | 148 | 7e-34 | 75/152 (49%) | 103/152 (67%) | |||
| Q8C0P0 | 2700091H24RIK | TrEMBL | Mus musculus (Mouse) | Hypothetical eukaryotic protein kinase containing protein. | 147 | 1e-33 | 77/161 (47%) | 106/161 (65%) | ||
| Q810W7 | SAST170 | TrEMBL | Rattus norvegicus (Rat) | Syntrophin-associated serine/threonine kinase SAST170. | 146 | 3e-33 | 69/156 (44%) | 109/156 (69%) | ||
| Q810W8 | SAST124 | TrEMBL | Rattus norvegicus (Rat) | Syntrophin-associated serine/threonine kinase SAST124. | 146 | 3e-33 | 69/156 (44%) | 109/156 (69%) | ||
| Q27145 | TrEMBL | Euplotes crassus | Protein kinase (Fragment). | 146 | 3e-33 | 78/207 (37%) | 129/207 (62%) | 6/207 (2%) | ||
| O00114 | TrEMBL | Homo sapiens (Human) | Hypothetical human serine-threonine protein kinase R31240_1 (Fragment). | 146 | 3e-33 | 69/156 (44%) | 109/156 (69%) | |||
| Q9Y2H9 | KIAA0973 | TrEMBL | Homo sapiens (Human) | Hypothetical protein KIAA0973 (Fragment). | 146 | 3e-33 | 69/156 (44%) | 109/156 (69%) |
Scores for sequence family classification (score includes all domains): Model Description Score E-value N -------- ----------- ----- ------- --- pkinase Protein kinase domain 215.6 7.6e-61 1 PAS PAS domain 2.2 7 1 response_reg Response regulator receiver domain -5.4 0.021 1 EB1 EB1-like C-terminal motif -10.5 8.3 1 RIO1 RIO1 family -118.7 10 1 Podocalyxin Podocalyxin -290.2 7.6 1 Parsed for domains: Model Domain seq-f seq-t hmm-f hmm-t score E-value -------- ------- ----- ----- ----- ----- ----- ------- PAS 1/1 92 156 .. 1 67 [] 2.2 7 EB1 1/1 500 599 .. 1 56 [] -10.5 8.3 Podocalyxin 1/1 641 1027 .. 1 622 [] -290.2 7.6 RIO1 1/1 920 1071 .. 1 206 [] -118.7 10 pkinase 1/1 907 1380 .. 1 294 [] 215.6 7.6e-61 response_reg 1/1 1815 1932 .. 1 125 [] -5.4 0.021
CDS Sequence
ATGTCGAATA CTCCCAATAA ATCAACACCT GAACCTGAAA GTACTGTCTT TCACGGATCG ATATTTGAAC ATCCTCATTT GCATCATAGT GTATCAGAGA GGTCAATATC ACCACGCCAC GTATCAAAAG AAAGTCAAAA CCACAACCAC AACCACCAAC AACAACAACA AGCATCTAAC AGTCTCAACT TCTCAGATCA AGTATCAGGA TATGATTATC CATCGGCAAC TATTGAAGAA CAAATAGATT TACGACTCGC GTCGTCTAAT AATCCTACTA TTGTTATGGA ATTAGACTTG GATGGAAATA TCCGTTATTT AAGTAAAAAT TGGGAATATA TTGTTGGAAC AAATATCAAG AAAATTGTTA ATCGACACAT TTCGAAAATT ATAATTGGTA ATAATGATGA TGATTCTCAA GTATTTAACA TTGCTATAGA TGCCATGACT CGAGAAGATA TTAGTTATAA AGTGAAATTT ATAACTGCTA CAAATCATAC TCAAAGAAAT AAAGATGGTG AAGAAGTCTA TAATGATTTA AATGATTTAT TATTAAGTCG GTCTCACGAT GATGAACAAT CAGGGATTTT AACTCCTCAT AATTCTATGG AAGATATGGC TAAAAACGAT AATATACCTG TAAATAATTA TTTTGAAAAA CAACAACAAC AACAGCAGCA GCAGCAACAG CAGCAACAGC AACATTTAGA ACTGTCACAA CAAGAACCTG AAAAAATTGA CACTTCTGAT ACTTCTAGTA CTTTATCATC AGAAATATCT AATGATGGAG AAATTATCGA ATTGGAAGCA CAAGGTATAT TAATTCATGA TGCCAAAACA AAATTACCAA CCCATTCAAT GTGGACTATA AGACCTTTTA AAGAGATTGA TTTAGAATTG ACATTACCTA TTGCTTTAAT CGATTTATTA GGGTTTGGAT CAGAAATATT TGAAGGATAT TTGGTTAGTC TTAAAAATTT AGGGATAATC GATGAAGAAA GTGTTCCACA ACCGAAAATG ATCTTGTGCA GAATTTGTGA AACCAATATA CCTGCTTGGT TTATCGAAAA ACATTCTGAC TTATGTGTTT TGGAACATAG GGCCGCTGAG AAATTACAAC AATATCATGA TGCTATTGGT GAACAAAAAG AATTGGTGAT TCGTATATCG GAAAGTTTAG CTGTTTCCAA TCAACTGCTT CCATTATTGT CGTCATCACT GGGAGGTTCT TGTTCTGGAT TGAATACTCC ACCACCACAA TTATTGACAA ATCAATCACT TTTAGCATCT TCAGCATCTT TAGTATCATC GGCTTCATCT AGTTCATCTG AAGGAGAAAG TTCAAGTCTG TCTTCACATT TAATTTTAGA ATATAAGGGG TTACCATTAC CAAATATGTC AGATTATCCA TCACCAAAAT TGGCTAATAA AATATTGACG AAAAATTTCC AATCGAAAAA CAAACATGCA TTAATGTTTT CTAAAAAATT CCCGTTTGGA ATTTTACAAA GAATAGTAGA ATTATGTGAT GAGGCATTAT TAGTAAATCC TCCTTCAACA AATGAAGACA ATATTTTAGC ATTTTCTCCT GGGTCCGAAA AGGCATTGAA TGTTGTCATG AGTTCAAGCT TTTTGGAAAC TTCTGATGTG GCAATTAAAC AATTAATTGA AGATACTCAA GAATTGATTA ATGATAAAAT GGAAACTTTA TCGAGATTAG TTTCAATTTT ACAATTTCTG GAGAAAATCA AACATGAAGT AGATACTTTG GTGTTATGTA CAGTTCGAGA AACTGTTGAA AAAATCAAGA ATCAAACTAT TTTGGAATCA AGAGAATGTA CACCAATTAA TAATGATAGT CTGATAAGTA TTAATGAAGA AGTGGTGCCG TCAAGGTTAG AAACTTCAAA CATCAAAGAC CAACAACAGA CACAAATTGA AGAACCACCA CCACCACAAC AACAACCAAC ACAAAATATA CAAGACAATT ACCAGGAGCA ACCTATTTCT GAAACACTTA ATTTGACAAC AACAACAACA ACAGCATCAA CTTTACAAGC GCCAAAGCCT CACAAGAGTA TTAGTCCAAT TATTTCTGAT TTGCTTACAC CTGGTGAAAA TGTAATAACT CCTAAAGATA TACTATTGAA AGAATCTAAA TCATACAATA CCTCAATGTC AGCTTCACCT TTGAATCGGT CTGGTTCTAG TTTATGTACC CCAAGACCAC AATCAATGGT AGCACCAGTT TCAACTTCTA ACTCTTCAAG AGATTTATTA GAATCGATTC AAGTATTAGA TTTATCGAAA CGATCATCAG AAAACAATTC CCAATATTCA TCACCAAGAC GTCATTTATC TCCAGCACCA CCACCATACG TTGAGAAATC CAATTTAACA ACATTACAGA AAAATACTGC TGCCACACCA ATTGCATCAC CATCATTAAC AACTATGGAA GATATTAATG CATCTGCTAC TACTACTACT ACTACTAACA TTGGTGGTTA TGGAGGACTA GGGGATAAAA AAATCACTCA TTTGTCATTG AATACACAAG TGCCGAGTCA ACCATCATCG GCAATGAGTT CTAGTGTAAA GAGTGCAACT ATACGACCAC CATTATCACC ATTATTAGTA TCTACACAAC AACCACAACC TCGATTAAGT ACTGGCGGCA TTCGAGATTA TCAAGTGATT AAACCTATTA GTAAAGGGGC ATTTGGATCA GTTTTTTTAG GTAAACGGAA ATTGACAGGT GATTATGTGG CGATTAAATG TTTGAAAAAA AGAGATATGA TTGCTAAAAA TCAAGTTTTA AATGTTAAAT CTGAACGAGC AGTAATGATG AGACAATCTG ATTCACCTTA TGTTGCTCAA TTATATAGTA GTTTCCAATC GCGAGATTAT TTATATTTAG TGATGGAATA TTTAAATGGA GGAGATTGTG CAAATTTGCT TAAAACGTTG GGTGTCATTG GAGTCGATTG GACACCAAGA TATATTGCTG AAATAATTGT GGGTGTTGAT GATTTACACA ATAGAGGAAT TATTCATCGA GATTTGAAAC CAGATAATAT TTTAATTGAT AAAAATGGAC ATTTGAAATT GACTGATTTT GGTTTATCTC GATTAGGTGT TGTTGGAAGA CAACAAACAC AACAACATCG TAAAAGCAGT ACCAATGAAC AAGGTATTGA ATTATTTAGA AGTATGTTAC TGGAAGAATC AAATCAAAAG AAAGTTAATC CTGGGATAGG TACTCCATTT TCATTATCAC CAAGTTTAGA ACAATCAAGA GTGTCTTTTA ATAGTCAGCA ACAACAACAA CAACAACAAC AAATGGGAGT ACCTGCTGGT AATGCCCCAT CAGTGTCTTC ATTAGCAGCA GGTGAAAATT TTGTTTTATC TAGTACATCT CCAACTTTGG CTTATTTAGA AAGTTTTAAT TCACTTTCAT CAGTATCAAC TCCTACGGGT GCCACACAAC AACAACAACA ACAGCAACCA CCGCCAAAAC CTTTTGTTAA ATCATCCAAT GGAAGATCTG GTTCAAGTGG ATTTGATTCA CCAATATTAA AACCAATAAT TCCAAGAACA GAATCAGAAT CATCATTTGC CATTATGGAT GATGAACCTA GTCCTGGACC TACAACTGAT TATGCATTAT ATAATCCCGA TAATTATAAA AATGAGGGTG CTACAGCAAC AACAGCAACA GCAGCAACAG CAGGAACTGG AGGTGGAGGA GATGTCAATG CTGGTGATGG CGGCGGTGCT AATATTAAAA AGTTTGTTGG TACACCTGAT TATTTGGCAC CAGAAATCAT TAAAGGATCA GGAGAAAATG AATCATCTGA TTGGTTTTCT GTTGGAGTTA TAATGTTTGA ATTTCTTTAT GGATATCCGC CATTTCATGC TGATACTCCG GAAAAAGTTT TCAATAATAT TTTACTGGGG AAAATTGATT GGCCAGAATT AACACCTGAA GAAGATATGA AATTTTGTCC ACCTGATGCT AAAGATTTAA TTAATAAATT ATTAGTAATG AATCCTGAAG AAAGATTAGG ATTTAATGGA GCTGATGAAA TTAAAAATCA TCCCTATTTT AAAAATATTC ATTGGGATAC ATTATTTGAA GAACCAGCTC CATTTACACC AATGTTAGAT GATCCAGAAC TGACTGATTA TTTTGATTCA AGAGGAGCAA TGATGACTCA ATTTCCTAAA GAAGAGGACC TGCAACTGCT GCTGCTGCTG CAACTGCTGG ATGGTGAAAC CAAACCAGAA GAAAATGAAA ATGAAAAAGA TATTGTCGTC ACCACAAACA CAAGATCATC ATCTACGGGA CATATTATTC ATCGACAAAA AAGTCTTGAT CGGAATAGTA GTATTAGTAG TAATGATTCT GGATCATTAT CATTACCTGG ATCTTCAAGT ATTAATAATA TTACTCCTAC CACTACAAAA AAGGAAAGAA GAAGTAGTAA ATTGGCTGAT CCTAGTGAAT TTGGTTCATT CCATTTCCGA AATTTGGCTG TTTTGGAAAG ACAAAATAAA GATGTTATTA ATCGATTGAA AACAGAGCAT TTAGAACATC GTGGTAGTTT TTCTACTTCT TCATCATCAG AATCAACACC AACAGGAAGA CTGAGAGGAT TTTCATTTGG TAATGCTGGT AATAGTGGTA GTTCCAGTAG TGGTGGAGGT GGAGGTGGAG GTGGAGTTGG GACAAGTGGC TCACCATTTA AACGTCCAAT TTCTCCACCA TCGTTTAATG CCAATCAATC AAGTGGATTA GGACTGCCAG TTATAACTAC ATCATCAGGA GCAATGGGAA TTATCAATAC AACAAATCCA GTCAACATTA CCACTACTAG TAGTAATCAT AATCATCATA ATAGTTTTAA TACTGTTGGT GGTCTTGGAA TTGGTACAGC TACAGCTACA ACTGCGGCTG CAACTACAGC TACTACAACA ACAGGTAGTA TTCGATCAGC ATCACCTCAT CGATTATTTG AAAGTCCGAA TATTCCCAAA CATGAACGTA TACCATCAGC TACAAGTGCA TATTCTAGTG GTGATGAAAT AATGATAAGT CCACTGTTAA TGATTCATCA TGATGATAGA AATCATCATT CAAGAAGTAG TAGTTTGCCA TATCTACAAA CTATTACTAA ACAACCCAGT TTCCTGTATT TGAATCATAA TCATATAATT CGAGATTTTT CATCGCCAAA TTCATCAGAT CTGGAAGATA CTACTAAATC AAATGCATTA TTACGAGTTC AAAGAAGACG TGAAAGTTCA CGTATGTCAA CAGAGTTATT ACTGGGCACT AATACTGGTG GTGGTGGTGG TGCCGGTGGT GGAACCACTA GTAGCAATAA TAGCAGTGTA ATTGTTGCTG ATCTTGATGT ATTATATTGT GAACCTATTT CTGTGATTCG TCATAGTGTG GTGAAATTAT TAGAAAAAGC GGGATGTATA GTGGTCTCGG TTACAGATGG AGAAGAATTA ATTAAACGAG CAACATCACA AGTTAAATTT GATTTGATTT TCACTGGATT GAAAATATCA AAAGTTGATG CTATAGATGC TGTTAAATTA ATTAAATTTA CTAGTGGGAA AAATCGTAAT ACACCAATAA TTGGGATTAC CGAGAATAAG AATAAAATTG ATGATGATAT TACTACTAGT AGTACATTTG ATTATATTAT TGAACCTAAT CTTGAAGCAA TTTCTAAAGT TTGTCGGATA TTACGTAGTT AA
AA Sequence
MSNTPNKSTP EPESTVFHGS IFEHPHLHHS VSERSISPRH VSKESQNHNH NHQQQQQASN SLNFSDQVSG YDYPSATIEE QIDLRLASSN NPTIVMELDL DGNIRYLSKN WEYIVGTNIK KIVNRHISKI IIGNNDDDSQ VFNIAIDAMT REDISYKVKF ITATNHTQRN KDGEEVYNDL NDLLLSRSHD DEQSGILTPH NSMEDMAKND NIPVNNYFEK QQQQQQQQQQ QQQQHLELSQ QEPEKIDTSD TSSTLSSEIS NDGEIIELEA QGILIHDAKT KLPTHSMWTI RPFKEIDLEL TLPIALIDLL GFGSEIFEGY LVSLKNLGII DEESVPQPKM ILCRICETNI PAWFIEKHSD LCVLEHRAAE KLQQYHDAIG EQKELVIRIS ESLAVSNQLL PLLSSSLGGS CSGLNTPPPQ LLTNQSLLAS SASLVSSASS SSSEGESSSL SSHLILEYKG LPLPNMSDYP SPKLANKILT KNFQSKNKHA LMFSKKFPFG ILQRIVELCD EALLVNPPST NEDNILAFSP GSEKALNVVM SSSFLETSDV AIKQLIEDTQ ELINDKMETL SRLVSILQFL EKIKHEVDTL VLCTVRETVE KIKNQTILES RECTPINNDS LISINEEVVP SRLETSNIKD QQQTQIEEPP PPQQQPTQNI QDNYQEQPIS ETLNLTTTTT TASTLQAPKP HKSISPIISD LLTPGENVIT PKDILLKESK SYNTSMSASP LNRSGSSLCT PRPQSMVAPV STSNSSRDLL ESIQVLDLSK RSSENNSQYS SPRRHLSPAP PPYVEKSNLT TLQKNTAATP IASPSLTTME DINASATTTT TTNIGGYGGL GDKKITHLSL NTQVPSQPSS AMSSSVKSAT IRPPLSPLLV STQQPQPRLS TGGIRDYQVI KPISKGAFGS VFLGKRKLTG DYVAIKCLKK RDMIAKNQVL NVKSERAVMM RQSDSPYVAQ LYSSFQSRDY LYLVMEYLNG GDCANLLKTL GVIGVDWTPR YIAEIIVGVD DLHNRGIIHR DLKPDNILID KNGHLKLTDF GLSRLGVVGR QQTQQHRKSS TNEQGIELFR SMLLEESNQK KVNPGIGTPF SLSPSLEQSR VSFNSQQQQQ QQQQMGVPAG NAPSVSSLAA GENFVLSSTS PTLAYLESFN SLSSVSTPTG ATQQQQQQQP PPKPFVKSSN GRSGSSGFDS PILKPIIPRT ESESSFAIMD DEPSPGPTTD YALYNPDNYK NEGATATTAT AATAGTGGGG DVNAGDGGGA NIKKFVGTPD YLAPEIIKGS GENESSDWFS VGVIMFEFLY GYPPFHADTP EKVFNNILLG KIDWPELTPE EDMKFCPPDA KDLINKLLVM NPEERLGFNG ADEIKNHPYF KNIHWDTLFE EPAPFTPMLD DPELTDYFDS RGAMMTQFPK EEDLQLLLLL QLLDGETKPE ENENEKDIVV TTNTRSSSTG HIIHRQKSLD RNSSISSNDS GSLSLPGSSS INNITPTTTK KERRSSKLAD PSEFGSFHFR NLAVLERQNK DVINRLKTEH LEHRGSFSTS SSSESTPTGR LRGFSFGNAG NSGSSSSGGG GGGGGVGTSG SPFKRPISPP SFNANQSSGL GLPVITTSSG AMGIINTTNP VNITTTSSNH NHHNSFNTVG GLGIGTATAT TAAATTATTT TGSIRSASPH RLFESPNIPK HERIPSATSA YSSGDEIMIS PLLMIHHDDR NHHSRSSSLP YLQTITKQPS FLYLNHNHII RDFSSPNSSD LEDTTKSNAL LRVQRRRESS RMSTELLLGT NTGGGGGAGG GTTSSNNSSV IVADLDVLYC EPISVIRHSV VKLLEKAGCI VVSVTDGEEL IKRATSQVKF DLIFTGLKIS KVDAIDAVKL IKFTSGKNRN TPIIGITENK NKIDDDITTS STFDYIIEPN LEAISKVCRI LRS*