LLPS-Poa-2090
KMT2A
Integrated Annotations
▼ OVERVIEW
Status: | Unreviewed |
Protein Name: | Histone-lysine N-methyltransferase |
Gene Name: | KMT2A |
Ensembl Gene: | ENSPPYG00000003935.2 |
Ensembl Protein: | ENSPPYP00000004505.2 |
Organism: | Pongo abelii |
Taxa ID: | 9601 |
LLPS Type: | Others |
▼ PROPERTY
▼ Classification
Condensates:
Condensate | Evidence | Orthologs |
---|---|---|
Chromatin, Nucleolus, Others | Predicted from orthologs | (View) |
▼ FUNCTION
Histone methyltransferase. |
▼ CROSS REFERENCE
Database | Nucleotide ID | Protein ID |
---|---|---|
Ensembl | ENSPPYT00000004683.2 | ENSPPYP00000004505.2 |
UniProt | H2NFH1, H2NFH1_PONAB | |
GeneBank | ABGA01112603, ABGA01112601, ABGA01112604, ABGA01112599, ABGA01112602, ABGA01112600 |
▼ SEQUENCE
Protein Sequence (FASTA) |
---|
1 MAHSCRWRFP ARPGTTGGGG GGGRRGLGGA PRQRVPALLL PPGPPVGGGG PGAPPSPPAV 60 61 AAAAAAAGSS GAGVPGGAAA ASAASSSSAS SSSSSSSSAS SGPALLRVGP GFDAALQVSA 120 121 AIGTNLRRFR AVFGESGGGG GSGEDEQFLG FGSDEEVRVR SPTRSPSVKT SPRKPRGRPR 180 181 SGSDRNSAIL SDPSVFSPLN KSETKSGDKI KKKDSKSIEK KRGRPPTFPG VKIKITHGKD 240 241 ISELPKGNKE DSLKKIKRTP SATFQQATKI KKLRAGKLSP LKSKFKTGKL QIGRKGVQIV 300 301 RRRGRPPSTE RIKTPSGLLI NSELEKPQKV RKDKEGTPPL TKEDKTVVRQ SPRRIKPVRI 360 361 IPSSKRTDAT IAKQLLQRAK KGAQKKIEKE AAQLQGRKVK TQVKNIRQFI MPVVSAISSR 420 421 IIKTPRRFIE DEDYDPPIKI ARLESTPNSR FSAPSCGSSE KSSAASQHSS QMSSDSSRSS 480 481 SPSVDTSTDS QASEEIQVLP EERSDTPEVH TPLPISQSPE NESNDRRSRR YSVSERSFGS 540 541 RTTKKLSTLQ SAPQQQTSSS PPPPLLTPPP PLQPASSISD HTPWLMPPTI PLASPFLPAS 600 601 TAPMQGKRKS ILREPTFRWT SLKHSRSEPQ YFSSAKYAKE GLIRKPIFDN FRPPPLTPED 660 661 VGFASGFSAS GTAASARLFS PLHSGTRFDM HKRSPLLRAP RFTPSEAHSR IFESVTLPSN 720 721 RTSAGTSGVS NRKRKRKVFS PIRSEPRSPS HSMRTRSGRL STSELSPLTP PSSVSSSLSI 780 781 SVSPLATSAL NPTFTFPSHS LTQSGESAEK NQRPRKQTSA PAEPFSSSSP TPLFPWFTPG 840 841 SQTERGRNKD KAPEELSKDR DADKSVEKDK SRERDREREK ENKRESRKEK RKKGSEIQSS 900 901 SALYPVGRVS KEKVVGEDVA TSSSAKKATG RKKSSSHDSG TDITSVTLGD TTAVKTKILI 960 961 KKGRGNLEKT NLDLGPTAPS LEKEKTLCLS TPSSSTVKHS TSSIGSMLAQ ADKLPMTDKR 1020 1021 VASLLKKAKA QLCKIEKSKS LKQTDQPKAQ GQESDSSETS VRGPRIKHVC RRAAVALGRK 1080 1081 RAVFPDDMPT LSALPWEERE KILSSMGNDD KSSIAGSEDA EPLAPPIKPI KPVTRNKAPQ 1140 1141 EPPVKKGRRS RRCGQCPGCQ VPEDCGVCTN CLDKPKFGGR NIKKQCCKMR KCQNLQWMPS 1200 1201 KAYLQKQAKA VKKKEKKSKT SEKKDSKESS VVKNVMDSSQ KPTPSAREDP APKKSSNEPP 1260 1261 PRKPVEEKSE EGNVSAPGPE SKQATTPASR KSSKQVSQPA PVIPPQPPTT GPPRKEVPKT 1320 1321 TPSEPKKKQP PPPESGPEQS KQKKVAPRPS IPVKQKPKEK EKPPPVNKQE NAGTLNILST 1380 1381 LSNGNSSKQK IPADGVHRIR VDFKEDCEAE NVWEMGGLGI LTSVPITPRV VCFLCASSGH 1440 1441 VEFVYCQVCC EPFHKFCLEE NERPLEDQLE NWCCRRCKFC HVCGRQHQAT KQLLECNKCR 1500 1501 NSYHPECLGP NYPTKPTKKK KVWICTKCVR CKSCGSTTPG KGWDAQWSHD FSLCHDCAKL 1560 1561 FAKGNFCPLC DKCYDDDDYE SKMMQCGKCD RWVHSKCENL SDEMYEILSN LPESVAYTCV 1620 1621 NCTERHPAEW RLALEKELQI SLKQVLTALL NSRTTSHLLR YRQAAKPPDL NPETEESIPS 1680 1681 RSSPEGPDPP VLTEVSKQDD QQPLDLEGVK RKMDQGNYTS VLEFSDDIVK IIQAAINSDG 1740 1741 GQPEIKKANS MVKSFFIRQM ERVFPWFSVK KSRFWEPNKV SSNSGMLPNA VLPPSLDHNY 1800 1801 AQWQEREENS HTEQPPLMKK IIPAPKPKGP GEPDSPTPLH PPTPPILSTD RSREDSPELN 1860 1861 PPPGIEDNRQ CALCLTYGDD SANDAGRLLY IGQNEWTHVN CALWSAEVFE DDDGSLKNVH 1920 1921 MAVIRGKQLR CEFCQKPGAT VGCCLTSCTS NYHFMCSRAK NCVFLDDKKV YCQRHRDLIK 1980 1981 GEVVPENGFE VFRRVFVDFE GISLRRKFLN GLEPENIHMM IGSMTIDCLG ILNDLSDCED 2040 2041 KLFPIGYQCS RVYWSTTDAR KRCVYTCKIV ECRPPVVEPD INSTVEHDEN RTIAHSPTSF 2100 2101 TESSSKESQN TAEIISPPSP DRPPHSQTSG SCYYHVISKV PRIRTPSYSP TQRSPGCRPL 2160 2161 PSAGSPTPTT HEIVTVGDPL LSSGLRSIGS RRHSTSSLSP QRSKLRIMSP MRTGNTYSRN 2220 2221 NVSSVSTIGT ATNLESSAKA VDHVLGPLNS STSLGQNTST SSNLQRTVVT VGNKNSHLDG 2280 2281 SSSSEMKQSS ASDLASKSSS LKGEKTKVLS SKSSEGSAHN VTYPGIPKLA PQVHNTTSRE 2340 2341 LNVSKIGSFA EPSSVSFSSK EALSFPHLHL RGQRNDRDQH TDSTQSANPS PDEDTEVKTL 2400 2401 KLSGMSNRSS IINEHTGSSS RDRRQKGKKS CKETFKEKHS SKSFLEPGQV TTGEEGNLKP 2460 2461 EFMDEVLTPE YMGQRPCNNV SSDKIGDKGL SMPGVPKAPP MQVEGSAKEL QAPRKRTVKV 2520 2521 TLTPLKMENE SQSKNALKES SPASPLQIES TSPTEPISAS ENPGDGPVAQ PSPNNTSCQD 2580 2581 SQSNNYQNLP VQDRNLMLPD GPKPQEDGSF KRRYPRRSAR ARSNMFFGLT PLYGVRSYGE 2640 2641 EDIPFYSSST GKKRGKRSAE GQVDGADDLS TSDEDDLYYY NFTRTVISSG GEERLASHNL 2700 2701 FREEEQCDLP KISQLDGVDD GTESDTSVTA TTRKSSQIPK RNGKENGTEN LKIDRPEDAG 2760 2761 EKEHVIKSSV GHKNEPKMDN CHSVSRVKTQ GQDSLEAQLS SLESSRRVHT STPSDKNLLD 2820 2821 TYNTELLKSD SDNNNSDDCG NILPSDIMDF VLKNTPSMQA LGESPESSSS ELLNLGEGLG 2880 2881 LDSNREKDMG LFEVFSQQLP TTEPVDSSVS SSISAEEQFE LPLELPSDLS VLTTRSPTVP 2940 2941 SQNPSRLAVI SDSGEKRVTI TEKSVASSEG DPALLSPGVD TTPEGHMTPD HFIQGHMDAD 3000 3001 HISSPPCGSV EQGHGNNQDL TRNSSTPGLQ VPVSPTVPIQ NQKYVPNSTD SPGPSQISNA 3060 3061 AVQTTPPHLK PATEKLIVVN QNMQPLYVLQ TLPNGVTQKI QLTSSVSSTP SVMETNTSVL 3120 3121 GPMGSGLTLT TGLNPSLPTS QSLFPSASKG LLPMSHHQHL HSFPAATQSS FPPNISNPPS 3180 3181 GLLIGVQPPP DPQLLVSESS QRTDLSTTVA TPSSGLKKRP ISRLQTRKNK KLAPSSTPSN 3240 3241 IAPADVVSNM TLINFTPSQL PNHPNLLDLG SLNTSSHRTV PNIIKRSKSS IMYFEPAPLL 3300 3301 PQSVGGTAAT AAGTSTISQD TSHLTSGSVS GLASSSSVLN VVSMQTTTTP TSSASVPGHV 3360 3361 TLTNPRLLGT PDIGSISNLL IKASQQSLGI QDQPVALPPS SGMFPQLGTS QTPSTAAMTA 3420 3421 ASSICVLPST QTTGITAASP SGEADEHYQL QHVNQLLASK PGIHSSQHDL DSASGPQVSN 3480 3481 FTQTVDAPNS VGLEQNKALS SAVQASSTSP GGSPSSPSSG QRSASPSVPG PTKPKPKTKR 3540 3541 FQLPLDKGNG KKHKVSHLRT SSSEAHIPDQ ETTSLTSGTG TPGAEAEQQD TASVEQSSQK 3600 3601 ECGQPAGQVA VLPEVQVTQN PANEQESTEP KTVEEEESNF SSPLMLWLQQ EQKRKESITE 3660 3661 KKPKKGLVFE ISSDDGFQIC AESIEDAWKS LTDKVQEARS NARLKQLSFA GVNGLRMLGI 3720 3721 LHDAVVFLIE QLSGAKHCRN YKFRFHKPEE ANEPPLNPHG SARAEVHLRK SAFDMFNFLA 3780 3781 SKHRQPPEYN PNDEEEEEVQ LKSARRATSM DLPMPMRFRH LKKTSKEAVG VYRSPIHGRG 3840 3841 LFCKRNIDAG EMVIEYAGNV IRSIQTDKRE KYYDSKGIGC YMFRIDDSEV VDATMHGNAA 3900 3901 RFINHSCEPN CYSRVINIDG QKHIVIFAMR KIYRGEELTY DYKFPIEDAS NKLPCNCGAK 3960 3961 KCRKFLN 3967 |
Nucleotide CDS Sequence (FASTA) |
1 ATGGCGCACA GCTGTCGGTG GCGCTTCCCC GCCCGACCCG GGACCACCGG GGGCGGCGGC 60 61 GGCGGGGGGC GCCGGGGCCT AGGGGGCGCC CCGCGGCAAC GCGTCCCGGC CCTGCTGCTT 120 121 CCCCCCGGGC CCCCGGTCGG CGGTGGCGGC CCCGGGGCGC CCCCCTCCCC CCCGGCTGTG 180 181 GCGGCCGCGG CGGCGGCGGC GGGAAGCAGC GGGGCTGGGG TTCCAGGGGG AGCGGCCGCC 240 241 GCCTCAGCAG CCTCCTCGTC GTCCGCCTCG TCTTCGTCTT CGTCATCGTC CTCAGCCTCT 300 301 TCAGGGCCGG CCCTGCTCCG GGTGGGCCCG GGCTTCGACG CGGCGCTGCA GGTCTCGGCC 360 361 GCCATCGGCA CCAACCTGCG CCGGTTCCGG GCCGTGTTTG GGGAGAGCGG CGGGGGAGGC 420 421 GGCAGCGGAG AGGATGAGCA ATTCTTAGGT TTTGGCTCAG ATGAAGAAGT CAGAGTGCGA 480 481 AGTCCCACAA GGTCTCCTTC AGTTAAAACT AGTCCTCGAA AACCTCGTGG GAGACCTAGA 540 541 AGTGGCTCTG ACCGAAATTC AGCTATCCTC TCAGATCCAT CTGTGTTTTC CCCTCTAAAT 600 601 AAATCAGAGA CCAAATCTGG AGATAAGATC AAGAAGAAAG ATTCTAAAAG TATAGAAAAG 660 661 AAGAGAGGAA GACCTCCCAC CTTCCCTGGA GTAAAAATCA AAATAACACA TGGAAAGGAC 720 721 ATTTCAGAGT TACCAAAGGG AAACAAAGAA GATAGCCTGA AAAAAATTAA AAGGACACCG 780 781 TCTGCTACGT TTCAGCAAGC CACAAAGATT AAAAAATTAA GAGCAGGTAA ACTCTCTCCT 840 841 CTCAAGTCTA AGTTTAAGAC AGGGAAGCTT CAAATAGGAA GGAAGGGGGT ACAAATTGTA 900 901 CGACGGAGAG GAAGGCCTCC ATCAACAGAA AGGATAAAGA CCCCTTCGGG TCTCCTCATT 960 961 AATTCTGAAC TGGAAAAGCC CCAGAAAGTC CGGAAAGACA AAGAAGGAAC ACCTCCACTT 1020 1021 ACAAAAGAAG ATAAGACAGT TGTCAGACAA AGCCCTCGAA GGATTAAGCC AGTTAGGATT 1080 1081 ATTCCTTCTT CAAAAAGGAC AGATGCAACC ATTGCTAAGC AACTCTTACA GAGGGCAAAA 1140 1141 AAGGGGGCTC AAAAGAAAAT TGAAAAAGAA GCAGCTCAGC TGCAGGGAAG AAAGGTGAAG 1200 1201 ACACAGGTCA AAAATATTCG ACAGTTCATC ATGCCTGTTG TCAGTGCTAT CTCCTCGCGG 1260 1261 ATCATTAAGA CCCCTCGGCG ATTTATAGAG GATGAGGATT ATGACCCTCC AATTAAAATT 1320 1321 GCCCGATTAG AGTCTACACC GAATAGTAGA TTCAGTGCCC CGTCCTGTGG ATCTTCTGAA 1380 1381 AAATCAAGTG CAGCTTCTCA GCACTCCTCT CAAATGTCTT CAGACTCCTC TCGATCTAGT 1440 1441 AGCCCCAGTG TTGATACCTC CACAGACTCT CAGGCTTCTG AGGAGATTCA GGTACTTCCT 1500 1501 GAGGAGCGGA GCGATACCCC TGAAGTTCAT ACTCCACTGC CCATTTCCCA GTCCCCAGAA 1560 1561 AATGAGAGTA ATGATAGGAG AAGCAGAAGG TATTCAGTGT CGGAGAGAAG TTTTGGATCT 1620 1621 AGAACGACGA AAAAATTATC AACTCTACAA AGTGCCCCCC AGCAGCAGAC CTCCTCGTCT 1680 1681 CCACCCCCAC CTCTGCTGAC TCCCCCGCCA CCACTGCAGC CAGCCTCCAG TATCTCTGAC 1740 1741 CACACACCTT GGCTTATGCC TCCAACAATC CCCTTAGCAT CACCATTTTT GCCTGCTTCC 1800 1801 ACTGCTCCTA TGCAAGGGAA GCGAAAATCT ATTTTGCGAG AACCGACATT TAGGTGGACT 1860 1861 TCTTTAAAGC ATTCTAGGTC AGAGCCACAA TACTTTTCCT CAGCAAAGTA TGCCAAAGAA 1920 1921 GGTCTTATTC GCAAACCAAT ATTTGATAAT TTCCGACCCC CTCCGCTAAC TCCCGAGGAC 1980 1981 GTTGGCTTTG CATCTGGTTT TTCTGCATCT GGTACCGCTG CTTCAGCCCG ATTGTTTTCG 2040 2041 CCACTCCATT CTGGAACAAG GTTTGATATG CACAAAAGGA GCCCTCTTCT GAGAGCTCCA 2100 2101 AGATTTACTC CAAGTGAGGC TCACTCTAGA ATATTTGAGT CTGTAACCTT GCCTAGTAAT 2160 2161 CGAACTTCTG CTGGAACATC TGGAGTATCC AATAGAAAAA GGAAAAGAAA AGTGTTTAGT 2220 2221 CCTATTCGAT CTGAACCAAG ATCTCCTTCT CACTCCATGA GGACAAGAAG TGGAAGGCTT 2280 2281 AGTACTTCTG AGCTGTCACC TCTCACCCCC CCGTCTTCTG TCTCTTCCTC GTTAAGCATT 2340 2341 TCTGTTAGTC CTCTTGCCAC TAGTGCCTTA AACCCAACTT TTACTTTTCC TTCTCATTCC 2400 2401 CTGACTCAGT CTGGGGAATC TGCAGAGAAA AATCAGAGAC CAAGGAAGCA GACTAGTGCT 2460 2461 CCAGCAGAGC CATTTTCATC AAGTAGTCCT ACTCCTCTCT TCCCTTGGTT TACCCCAGGC 2520 2521 TCTCAGACTG AAAGAGGGAG AAATAAAGAC AAGGCCCCTG AGGAGCTGTC CAAAGATCGA 2580 2581 GATGCTGACA AGAGCGTGGA GAAGGACAAG AGTAGAGAGA GAGACCGGGA GAGAGAAAAG 2640 2641 GAGAATAAGC GGGAGTCAAG GAAAGAGAAA AGGAAAAAGG GATCAGAAAT TCAGAGTAGT 2700 2701 TCTGCTTTGT ATCCTGTGGG TAGGGTTTCC AAAGAGAAGG TTGTTGGTGA AGATGTTGCC 2760 2761 ACTTCATCTT CTGCCAAAAA AGCAACAGGG CGGAAGAAGT CTTCATCACA TGATTCTGGG 2820 2821 ACTGATATTA CTTCTGTGAC TCTTGGGGAT ACAACAGCTG TCAAAACCAA AATACTTATA 2880 2881 AAGAAAGGGA GAGGAAATCT GGAAAAAACC AACTTGGACC TCGGCCCAAC TGCCCCATCC 2940 2941 CTGGAGAAGG AGAAAACCCT CTGCCTTTCC ACTCCTTCAT CTAGCACTGT TAAACATTCC 3000 3001 ACTTCCTCCA TAGGCTCCAT GTTGGCTCAG GCAGACAAGC TTCCAATGAC TGACAAGAGG 3060 3061 GTTGCCAGCC TCCTAAAAAA GGCCAAAGCT CAGCTCTGCA AGATTGAGAA GAGTAAGAGT 3120 3121 CTTAAACAAA CTGACCAGCC CAAAGCACAG GGTCAAGAAA GTGACTCATC AGAGACCTCT 3180 3181 GTGCGAGGAC CCCGGATTAA ACATGTCTGC AGAAGAGCAG CTGTTGCCCT TGGCCGAAAA 3240 3241 CGAGCTGTGT TTCCTGATGA CATGCCCACC CTGAGTGCCT TACCATGGGA AGAACGAGAA 3300 3301 AAGATTCTGT CTTCCATGGG GAATGATGAC AAGTCATCAA TTGCTGGCTC AGAAGATGCT 3360 3361 GAACCTCTTG CTCCACCCAT CAAACCAATT AAACCTGTCA CTAGAAACAA GGCACCCCAG 3420 3421 GAACCTCCAG TAAAGAAAGG ACGTCGATCG AGGCGGTGTG GGCAGTGTCC CGGCTGCCAG 3480 3481 GTGCCTGAGG ACTGTGGTGT TTGTACTAAT TGCTTAGATA AGCCCAAGTT TGGTGGTCGC 3540 3541 AATATAAAGA AGCAGTGCTG CAAGATGAGA AAATGTCAGA ATCTACAATG GATGCCTTCC 3600 3601 AAAGCCTACC TGCAGAAGCA GGCTAAAGCT GTGAAAAAGA AAGAGAAGAA GTCTAAGACC 3660 3661 AGTGAAAAGA AAGATAGCAA AGAGAGCAGT GTTGTGAAGA ACGTGATGGA CTCTAGTCAG 3720 3721 AAACCTACCC CATCAGCAAG AGAGGATCCT GCCCCAAAGA AAAGCAGTAA TGAGCCTCCT 3780 3781 CCACGAAAGC CCGTCGAGGA AAAGAGTGAA GAAGGGAATG TCTCGGCCCC TGGGCCTGAA 3840 3841 TCCAAACAGG CCACCACTCC AGCTTCCAGG AAGTCAAGCA AGCAGGTCTC CCAGCCAGCA 3900 3901 CCGGTCATCC CCCCTCAGCC ACCTACTACA GGACCGCCAA GAAAAGAAGT TCCCAAAACC 3960 3961 ACTCCTAGTG AGCCCAAGAA AAAGCAGCCT CCACCACCAG AATCAGGTCC AGAGCAGAGC 4020 4021 AAACAGAAAA AAGTGGCTCC CCGCCCAAGT ATCCCTGTAA AACAAAAACC AAAAGAAAAG 4080 4081 GAAAAACCAC CTCCGGTCAA TAAGCAGGAG AATGCAGGCA CTTTGAACAT CCTCAGCACT 4140 4141 CTCTCCAATG GCAATAGTTC TAAGCAAAAA ATTCCAGCAG ATGGAGTCCA CAGGATCAGA 4200 4201 GTGGACTTTA AGGAGGATTG TGAAGCAGAA AATGTGTGGG AGATGGGAGG CTTAGGAATC 4260 4261 TTGACTTCTG TTCCTATAAC ACCCAGGGTG GTTTGCTTTC TCTGTGCCAG TAGTGGGCAT 4320 4321 GTAGAGTTTG TGTATTGCCA AGTCTGTTGT GAGCCCTTCC ACAAGTTTTG TTTAGAGGAG 4380 4381 AACGAGCGCC CTCTGGAGGA CCAGCTGGAA AATTGGTGTT GTCGTCGCTG CAAATTCTGT 4440 4441 CATGTTTGTG GAAGACAACA TCAGGCTACA AAGCAGCTGC TGGAGTGTAA TAAGTGCCGA 4500 4501 AACAGCTATC ACCCTGAGTG CCTGGGACCA AACTACCCCA CCAAACCCAC AAAGAAGAAG 4560 4561 AAAGTCTGGA TCTGTACCAA GTGTGTTCGC TGTAAGAGCT GTGGATCCAC AACTCCAGGC 4620 4621 AAAGGGTGGG ATGCACAGTG GTCTCACGAT TTCTCACTGT GTCATGATTG CGCCAAGCTC 4680 4681 TTTGCTAAAG GAAACTTCTG CCCTCTCTGT GACAAATGTT ATGATGATGA TGACTATGAG 4740 4741 AGTAAGATGA TGCAATGTGG AAAGTGTGAT CGCTGGGTCC ATTCCAAATG TGAGAATCTT 4800 4801 TCAGATGAGA TGTATGAGAT TCTATCTAAT CTGCCAGAAA GTGTGGCCTA CACTTGTGTG 4860 4861 AACTGTACTG AGCGGCACCC TGCAGAGTGG CGACTGGCCC TTGAAAAAGA GCTGCAGATT 4920 4921 TCTCTGAAGC AAGTTCTGAC AGCTTTGTTG AATTCTCGGA CTACCAGCCA TTTGCTACGC 4980 4981 TACCGGCAGG CTGCCAAGCC TCCAGACTTA AATCCCGAGA CAGAGGAGAG TATACCTTCC 5040 5041 CGCAGCTCCC CCGAAGGACC TGATCCACCA GTTCTTACTG AGGTCAGCAA ACAGGATGAT 5100 5101 CAGCAGCCTT TAGATCTAGA AGGAGTCAAG AGGAAGATGG ACCAAGGGAA TTACACATCT 5160 5161 GTGTTGGAGT TCAGTGATGA TATTGTGAAG ATCATTCAAG CAGCCATTAA TTCAGATGGA 5220 5221 GGACAGCCAG AAATTAAAAA AGCCAACAGC ATGGTCAAGT CCTTCTTCAT TCGGCAAATG 5280 5281 GAACGTGTTT TTCCATGGTT CAGTGTCAAA AAGTCCAGGT TTTGGGAGCC AAATAAAGTA 5340 5341 TCAAGCAACA GTGGGATGTT ACCAAACGCA GTGCTTCCAC CTTCACTTGA CCATAATTAT 5400 5401 GCTCAGTGGC AGGAGCGAGA GGAAAACAGC CACACTGAGC AGCCTCCTTT AATGAAGAAA 5460 5461 ATCATTCCAG CTCCCAAACC CAAAGGGCCT GGAGAACCAG ACTCACCAAC TCCTCTGCAT 5520 5521 CCTCCTACAC CACCAATTTT GAGTACTGAT AGGAGTCGAG AAGACAGTCC AGAGCTGAAC 5580 5581 CCACCCCCAG GCATAGAAGA CAATAGACAG TGTGCGTTAT GTTTGACTTA TGGTGATGAC 5640 5641 AGTGCTAATG ATGCTGGTCG TTTACTATAT ATTGGCCAAA ATGAGTGGAC ACATGTAAAT 5700 5701 TGTGCTTTGT GGTCAGCGGA AGTGTTTGAA GATGATGATG GATCACTAAA GAATGTGCAT 5760 5761 ATGGCTGTGA TCAGGGGCAA GCAGCTGAGA TGTGAATTCT GCCAAAAGCC AGGAGCCACC 5820 5821 GTGGGTTGCT GTCTCACATC CTGCACCAGC AACTATCACT TCATGTGTTC CCGAGCCAAG 5880 5881 AACTGTGTCT TTCTGGATGA TAAAAAAGTA TATTGCCAAC GACATCGGGA TTTGATCAAA 5940 5941 GGCGAAGTGG TTCCTGAGAA TGGATTTGAA GTTTTCAGAA GAGTGTTTGT GGACTTTGAA 6000 6001 GGAATCAGCT TGAGAAGGAA GTTTCTCAAT GGCTTGGAAC CAGAAAATAT CCACATGATG 6060 6061 ATTGGGTCTA TGACAATCGA CTGCTTAGGA ATTCTAAATG ATCTCTCTGA CTGTGAAGAT 6120 6121 AAGCTCTTTC CTATTGGATA TCAGTGTTCC AGGGTATACT GGAGCACCAC AGATGCTCGC 6180 6181 AAGCGCTGCG TATATACATG CAAGATAGTG GAGTGCCGTC CTCCAGTCGT AGAGCCGGAT 6240 6241 ATCAACAGCA CTGTTGAACA TGATGAAAAC AGGACCATTG CCCATAGTCC AACATCTTTC 6300 6301 ACAGAAAGTT CATCAAAAGA GAGTCAAAAC ACAGCTGAAA TTATAAGTCC TCCGTCACCA 6360 6361 GACCGACCTC CTCATTCACA AACCTCTGGC TCCTGTTATT ATCATGTCAT CTCAAAGGTC 6420 6421 CCCAGGATTC GAACACCCAG TTATTCTCCA ACACAGAGAT CTCCTGGCTG TCGACCATTG 6480 6481 CCTTCTGCAG GAAGTCCTAC CCCAACCACT CATGAAATAG TCACAGTAGG TGATCCTTTA 6540 6541 CTCTCCTCTG GACTTCGAAG CATTGGCTCC AGGCGTCACA GTACCTCTTC CTTATCACCC 6600 6601 CAGCGGTCCA AACTCCGGAT AATGTCTCCA ATGAGAACTG GGAATACTTA CTCTAGGAAT 6660 6661 AATGTTTCCT CAGTCTCCAC CATTGGGACC GCTACTAATC TTGAATCAAG TGCCAAAGCA 6720 6721 GTTGATCATG TCTTAGGGCC ACTGAATTCA AGTACTAGTT TAGGGCAAAA CACTTCCACC 6780 6781 TCTTCAAATT TGCAAAGGAC AGTGGTTACT GTAGGCAATA AAAACAGTCA CTTGGATGGA 6840 6841 TCTTCATCTT CAGAAATGAA GCAGTCCAGT GCTTCAGACT TGGCATCCAA GAGCTCTTCT 6900 6901 TTAAAGGGAG AGAAGACCAA AGTGCTGAGT TCCAAGAGCT CAGAGGGATC TGCACATAAT 6960 6961 GTGACTTACC CTGGAATTCC TAAACTGGCC CCACAGGTTC ATAACACAAC ATCTAGAGAA 7020 7021 CTGAATGTTA GTAAAATCGG CTCCTTTGCT GAACCCTCTT CGGTGTCGTT TTCTTCTAAA 7080 7081 GAGGCCCTCT CCTTCCCACA CCTCCATCTG AGAGGGCAAA GGAATGATCG AGACCAACAC 7140 7141 ACAGATTCTA CCCAATCAGC AAACCCCTCT CCAGATGAAG ATACTGAAGT CAAAACCTTG 7200 7201 AAGCTATCTG GAATGAGCAA CAGATCATCC ATTATCAATG AACATACGGG ATCTAGTTCC 7260 7261 AGAGATAGGA GACAGAAAGG GAAAAAATCT TGTAAAGAAA CTTTCAAAGA AAAGCATTCC 7320 7321 AGTAAATCTT TTTTGGAACC TGGTCAGGTG ACAACTGGTG AGGAAGGAAA CTTGAAGCCA 7380 7381 GAGTTTATGG ATGAGGTTTT GACTCCTGAG TATATGGGCC AACGACCATG TAACAATGTT 7440 7441 TCTTCTGATA AGATTGGTGA TAAAGGCCTT TCTATGCCAG GAGTCCCCAA AGCTCCACCC 7500 7501 ATGCAAGTAG AAGGATCTGC CAAGGAATTA CAGGCACCAC GGAAACGCAC AGTCAAAGTG 7560 7561 ACACTGACAC CTCTAAAAAT GGAAAATGAG AGTCAATCCA AAAACGCCCT GAAAGAAAGT 7620 7621 AGTCCTGCTT CCCCTTTGCA AATAGAGTCA ACATCTCCCA CAGAACCAAT TTCAGCCTCT 7680 7681 GAAAATCCAG GAGATGGTCC AGTGGCCCAA CCAAGCCCCA ATAATACCTC ATGCCAGGAT 7740 7741 TCTCAAAGTA ACAACTATCA GAATCTTCCA GTACAGGACA GAAACCTAAT GCTTCCAGAT 7800 7801 GGCCCCAAAC CTCAGGAGGA TGGCTCTTTT AAAAGGAGGT ATCCCCGTCG CAGTGCCCGT 7860 7861 GCACGTTCTA ACATGTTCTT TGGGCTTACC CCACTCTATG GAGTAAGATC CTATGGTGAA 7920 7921 GAAGACATTC CATTCTACAG CAGCTCAACT GGGAAGAAGC GAGGCAAGAG ATCAGCTGAA 7980 7981 GGACAGGTGG ATGGGGCCGA TGACTTAAGC ACTTCAGATG AAGATGACTT ATACTATTAC 8040 8041 AACTTCACTA GAACAGTGAT TTCTTCAGGT GGAGAGGAAC GACTGGCATC CCATAATTTA 8100 8101 TTTCGGGAGG AGGAACAGTG TGATCTTCCA AAAATCTCAC AGTTGGATGG TGTTGATGAT 8160 8161 GGGACAGAGA GTGATACTAG TGTCACAGCC ACAACAAGGA AGAGCAGCCA GATTCCAAAA 8220 8221 AGAAATGGTA AAGAAAATGG AACAGAGAAC TTAAAGATTG ATCGACCTGA AGACGCTGGG 8280 8281 GAGAAAGAAC ATGTCATTAA GAGTTCTGTT GGCCACAAAA ATGAGCCAAA GATGGATAAC 8340 8341 TGCCATTCTG TAAGCAGAGT TAAAACACAG GGACAGGATT CCTTGGAAGC TCAGCTCAGC 8400 8401 TCATTGGAGT CAAGCCGCAG AGTCCACACA AGTACCCCCT CTGACAAAAA TTTACTGGAC 8460 8461 ACCTATAATA CTGAGCTCCT GAAATCAGAT TCAGACAATA ACAACAGTGA TGACTGTGGG 8520 8521 AATATCCTGC CTTCAGACAT TATGGACTTT GTACTAAAGA ATACTCCATC CATGCAGGCT 8580 8581 TTGGGTGAGA GCCCAGAGTC ATCTTCATCA GAACTCCTGA ATCTTGGTGA AGGATTGGGT 8640 8641 CTTGACAGTA ATCGTGAAAA AGACATGGGT CTTTTTGAAG TATTTTCTCA GCAGCTGCCT 8700 8701 ACAACAGAAC CTGTGGATAG TAGTGTCTCG TCCTCTATCT CAGCAGAGGA ACAGTTTGAG 8760 8761 TTGCCTCTAG AGCTACCATC TGATCTGTCT GTCTTGACCA CCCGGAGTCC CACTGTCCCC 8820 8821 AGCCAGAATC CCAGTAGACT AGCTGTTATC TCAGATTCAG GGGAGAAGAG AGTAACCATC 8880 8881 ACAGAAAAAT CCGTAGCCTC CTCTGAAGGT GACCCAGCAC TGCTGAGCCC AGGAGTAGAT 8940 8941 ACAACTCCTG AAGGTCACAT GACTCCTGAT CATTTTATCC AAGGACACAT GGATGCAGAC 9000 9001 CACATCTCTA GCCCTCCTTG TGGTTCAGTA GAGCAAGGTC ATGGCAACAA TCAGGATTTA 9060 9061 ACTAGAAACA GTAGCACCCC TGGCCTTCAG GTACCTGTTT CCCCAACTGT TCCTATCCAG 9120 9121 AACCAGAAGT ATGTGCCCAA TTCTACTGAT AGTCCTGGCC CGTCTCAGAT TTCCAATGCA 9180 9181 GCTGTCCAGA CCACTCCACC CCACCTGAAG CCAGCCACTG AGAAACTCAT AGTTGTTAAC 9240 9241 CAGAACATGC AGCCACTTTA TGTTCTCCAA ACTCTTCCAA ATGGAGTGAC CCAAAAAATC 9300 9301 CAATTGACCT CTTCCGTTAG TTCTACACCC AGTGTGATGG AGACAAATAC TTCAGTATTG 9360 9361 GGGCCCATGG GAAGTGGTCT CACCCTCACC ACAGGACTAA ATCCAAGCTT GCCAACTTCT 9420 9421 CAATCTTTGT TCCCTTCTGC TAGCAAAGGA TTGCTACCTA TGTCTCATCA CCAGCACTTA 9480 9481 CATTCCTTCC CTGCAGCTAC TCAAAGTAGT TTCCCACCCA ACATCAGCAA TCCTCCTTCA 9540 9541 GGCCTGCTTA TTGGGGTTCA GCCTCCTCCG GATCCCCAAC TTTTGGTTTC AGAATCCAGC 9600 9601 CAGAGGACAG ACCTCAGTAC CACAGTAGCC ACTCCATCCT CTGGACTCAA GAAAAGACCC 9660 9661 ATATCTCGTC TACAGACCCG AAAGAATAAA AAACTTGCTC CCTCTAGTAC CCCTTCAAAC 9720 9721 ATTGCCCCTG CCGATGTGGT TTCTAATATG ACATTGATTA ACTTCACACC CTCCCAGCTT 9780 9781 CCTAATCATC CCAATCTGTT AGATTTGGGG TCACTTAATA CTTCATCTCA CCGAACTGTC 9840 9841 CCCAACATCA TAAAAAGATC TAAATCTAGC ATCATGTATT TTGAACCGGC ACCCCTGTTA 9900 9901 CCACAGAGTG TGGGAGGAAC TGCTGCCACA GCGGCGGGCA CATCAACAAT AAGCCAGGAT 9960 9961 ACTAGCCACC TCACATCAGG GTCTGTGTCT GGCTTGGCAT CCAGTTCCTC TGTCTTGAAT 10020 10021 GTTGTATCCA TGCAAACTAC CACAACCCCT ACAAGTAGTG CATCAGTTCC AGGACACGTC 10080 10081 ACCTTAACCA ACCCAAGGTT GCTTGGTACC CCAGATATTG GCTCAATAAG CAATCTTTTA 10140 10141 ATCAAAGCTA GCCAGCAGAG CCTGGGGATT CAGGACCAGC CTGTGGCTTT ACCGCCAAGT 10200 10201 TCAGGAATGT TTCCACAACT GGGGACATCA CAGACCCCCT CTACTGCTGC AATGACAGCG 10260 10261 GCATCTAGCA TCTGTGTGCT CCCCTCCACT CAGACTACGG GCATAACAGC CGCTTCACCT 10320 10321 TCTGGGGAAG CAGACGAACA CTATCAGCTT CAGCATGTGA ACCAGCTCCT TGCCAGCAAA 10380 10381 CCTGGGATTC ATTCTTCCCA ACATGATCTT GATTCTGCTT CAGGGCCCCA GGTATCCAAC 10440 10441 TTTACCCAGA CGGTAGACGC TCCTAATAGC GTGGGGCTGG AGCAGAACAA GGCTTTATCC 10500 10501 TCAGCTGTGC AAGCCAGCTC CACCTCTCCT GGGGGTTCTC CATCCTCTCC ATCTTCTGGA 10560 10561 CAGCGGTCAG CAAGCCCTTC AGTGCCGGGT CCCACTAAAC CCAAACCAAA AACCAAACGG 10620 10621 TTTCAGCTGC CTCTAGACAA AGGGAATGGC AAGAAGCACA AAGTTTCCCA TTTGCGGACC 10680 10681 AGTTCTTCTG AAGCACACAT TCCAGACCAA GAAACAACGT CCCTGACCTC AGGCACAGGG 10740 10741 ACTCCAGGAG CAGAGGCCGA GCAGCAGGAT ACAGCTAGTG TGGAGCAGTC CTCCCAGAAG 10800 10801 GAGTGTGGGC AACCTGCAGG GCAAGTGGCT GTTCTTCCGG AAGTTCAGGT GACCCAAAAT 10860 10861 CCAGCAAATG AACAAGAAAG TACAGAACCT AAAACAGTGG AAGAAGAAGA AAGTAATTTC 10920 10921 AGCTCCCCAC TGATGCTTTG GCTTCAGCAA GAACAAAAGC GGAAGGAAAG CATTACTGAG 10980 10981 AAAAAACCCA AGAAAGGACT TGTTTTTGAA ATTTCCAGTG ATGATGGCTT TCAGATCTGT 11040 11041 GCAGAAAGTA TTGAAGATGC CTGGAAGTCA TTGACAGATA AAGTCCAGGA AGCTCGATCA 11100 11101 AATGCCCGCC TAAAGCAGCT CTCATTTGCA GGTGTTAACG GTTTGAGGAT GCTGGGGATT 11160 11161 CTCCATGATG CAGTTGTGTT CCTCATTGAG CAGCTGTCTG GTGCCAAGCA CTGTCGAAAT 11220 11221 TACAAATTCC GTTTCCACAA GCCAGAGGAG GCCAATGAAC CCCCCTTGAA CCCTCACGGC 11280 11281 TCAGCCAGGG CTGAAGTCCA CCTCAGGAAG TCAGCATTTG ACATGTTTAA CTTCCTGGCT 11340 11341 TCTAAACATC GTCAGCCTCC TGAATACAAC CCCAATGATG AAGAAGAGGA GGAGGTACAG 11400 11401 CTGAAATCAG CTCGGAGGGC AACTAGCATG GATCTGCCAA TGCCCATGCG TTTCCGGCAC 11460 11461 TTAAAAAAGA CTTCTAAGGA GGCAGTTGGT GTCTACAGGT CTCCCATCCA TGGCCGGGGT 11520 11521 CTTTTCTGTA AGAGAAACAT TGATGCAGGT GAGATGGTGA TTGAGTATGC CGGCAACGTC 11580 11581 ATCCGCTCCA TCCAGACTGA CAAGCGGGAA AAGTATTATG ACAGCAAGGG CATTGGTTGC 11640 11641 TATATGTTCC GAATTGATGA CTCAGAGGTA GTGGATGCCA CCATGCATGG AAATGCTGCG 11700 11701 CGCTTCATCA ATCACTCGTG TGAGCCTAAC TGCTATTCTC GGGTCATCAA TATTGATGGG 11760 11761 CAGAAGCACA TTGTCATCTT TGCCATGCGT AAGATCTACC GAGGAGAGGA ACTAACTTAC 11820 11821 GACTATAAGT TCCCCATTGA GGATGCCAGC AACAAGCTGC CCTGCAACTG TGGCGCCAAG 11880 11881 AAATGCCGGA AGTTCCTAAA CTAA 11904 |
▼ KEYWORD
ID | Family |
Bromodomain | |
Chromatin regulator | |
Coiled coil | |
Complete proteome | |
Metal-binding | |
Methyltransferase | |
Nucleus | |
Reference proteome | |
S-adenosyl-L-methionine | |
Transcription | |
Transcription regulation | |
Transferase | |
Zinc | |
Zinc-finger
|
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | MLL1 complex | |
Molecular Function | Chromatin binding | |
Molecular Function | Histone methyltransferase activity (H3-K4 specific) | |
Molecular Function | RNA polymerase II distal enhancer sequence-specific DNA binding | |
Molecular Function | Zinc ion binding | |
Biological Process | Anterior/posterior pattern specification | |
Biological Process | Circadian regulation of gene expression | |
Biological Process | Definitive hemopoiesis | |
Biological Process | DNA methylation | |
Biological Process | Embryonic hemopoiesis | |
Biological Process | Exploration behavior | |
Biological Process | Histone H3-K4 dimethylation | |
Biological Process | Histone H3-K4 trimethylation | |
Biological Process | Homeostasis of number of cells within a tissue | |
Biological Process | Negative regulation of cell population proliferation | |
Biological Process | Peptidyl-lysine monomethylation | |
Biological Process | Positive regulation of histone H3-K4 methylation | |
Biological Process | Positive regulation of transcription by RNA polymerase II | |
Biological Process | Post-embryonic development | |
Biological Process | Regulation of histone H3-K14 acetylation | |
Biological Process | Regulation of histone H3-K27 acetylation | |
Biological Process | Regulation of histone H3-K9 acetylation | |
Biological Process | Regulation of short-term neuronal synaptic plasticity | |
Biological Process | Spleen development | |
Biological Process | Visual learning |
▼ ORTHOLOGY
DrLLPS ID | Organism | Identity | E-value | Score |
---|---|---|---|---|
LLPS-Urm-1912 | Ursus maritimus | 99.69 | 0.0 | 679 |
LLPS-Hos-0543 | Homo sapiens | 99.25 | 0.0 | 6310 |
LLPS-Man-2752 | Macaca nemestrina | 98.73 | 0.0 | 6346 |
LLPS-Mam-1203 | Macaca mulatta | 98.71 | 0.0 | 6341 |
LLPS-Maf-1347 | Macaca fascicularis | 98.71 | 0.0 | 6345 |
LLPS-Mal-3493 | Mandrillus leucophaeus | 98.7 | 0.0 | 6303 |
LLPS-Paa-0316 | Papio anubis | 98.63 | 0.0 | 6336 |
LLPS-Chs-1207 | Chlorocebus sabaeus | 98.62 | 0.0 | 5844 |
LLPS-Cea-0310 | Cercocebus atys | 98.6 | 0.0 | 6329 |
LLPS-Nol-0660 | Nomascus leucogenys | 98.33 | 0.0 | 6204 |
LLPS-Pat-0011 | Pan troglodytes | 98.22 | 0.0 | 6235 |
LLPS-Gog-0114 | Gorilla gorilla | 98.17 | 0.0 | 6253 |
LLPS-Aon-1002 | Aotus nancymaae | 97.85 | 0.0 | 6269 |
LLPS-Rhb-1353 | Rhinopithecus bieti | 97.71 | 0.0 | 6222 |
LLPS-Caj-2669 | Callithrix jacchus | 97.67 | 0.0 | 6249 |
LLPS-Eqc-0146 | Equus caballus | 95.78 | 0.0 | 6111 |
LLPS-Mup-1998 | Mustela putorius furo | 95.55 | 0.0 | 4114 |
LLPS-Loa-1098 | Loxodonta africana | 95.14 | 0.0 | 6042 |
LLPS-Aim-1839 | Ailuropoda melanoleuca | 95.09 | 0.0 | 6130 |
LLPS-Fud-0089 | Fukomys damarensis | 94.7 | 0.0 | 5984 |
LLPS-Caf-1568 | Canis familiaris | 94.67 | 0.0 | 5997 |
LLPS-Fec-0602 | Felis catus | 94.67 | 0.0 | 6105 |
LLPS-Sus-0112 | Sus scrofa | 94.31 | 0.0 | 6118 |
LLPS-Bot-1169 | Bos taurus | 94.24 | 0.0 | 5878 |
LLPS-Ova-2314 | Ovis aries | 94.18 | 0.0 | 6005 |
LLPS-Cas-2795 | Carlito syrichta | 93.71 | 0.0 | 5897 |
LLPS-Ict-2848 | Ictidomys tridecemlineatus | 93.28 | 0.0 | 5858 |
LLPS-Orc-3561 | Oryctolagus cuniculus | 93.07 | 0.0 | 5922 |
LLPS-Dio-0443 | Dipodomys ordii | 91.74 | 0.0 | 5861 |
LLPS-Mea-3176 | Mesocricetus auratus | 91.3 | 0.0 | 5835 |
LLPS-Mum-0475 | Mus musculus | 90.27 | 0.0 | 5695 |
LLPS-Ran-3024 | Rattus norvegicus | 90.09 | 0.0 | 5665 |
LLPS-Leo-2446 | Lepisosteus oculatus | 88.67 | 1e-170 | 600 |
LLPS-Mod-3966 | Monodelphis domestica | 86.79 | 0.0 | 5097 |
LLPS-Myl-1634 | Myotis lucifugus | 86.34 | 0.0 | 5522 |
LLPS-Sah-0876 | Sarcophilus harrisii | 86.0 | 0.0 | 5471 |
LLPS-Pes-0085 | Pelodiscus sinensis | 80.38 | 0.0 | 4913 |
LLPS-Anp-1786 | Anas platyrhynchos | 79.94 | 0.0 | 3958 |
LLPS-Fia-2020 | Ficedula albicollis | 79.56 | 0.0 | 4874 |
LLPS-Icp-3570 | Ictalurus punctatus | 79.38 | 2e-159 | 564 |
LLPS-Dar-0553 | Danio rerio | 79.25 | 2e-155 | 550 |
LLPS-Tag-2704 | Taeniopygia guttata | 79.21 | 0.0 | 4913 |
LLPS-Gaga-2397 | Gallus gallus | 79.21 | 0.0 | 4168 |
LLPS-Scm-1807 | Scophthalmus maximus | 78.3 | 2e-155 | 550 |
LLPS-Pof-0391 | Poecilia formosa | 78.21 | 3e-151 | 537 |
LLPS-Xim-1099 | Xiphophorus maculatus | 78.21 | 5e-152 | 539 |
LLPS-Tar-0462 | Takifugu rubripes | 77.6 | 2e-151 | 538 |
LLPS-Orn-3027 | Oreochromis niloticus | 77.36 | 9e-156 | 551 |
LLPS-Xet-3901 | Xenopus tropicalis | 76.93 | 0.0 | 1254 |
LLPS-Orl-2256 | Oryzias latipes | 75.61 | 9e-152 | 538 |
LLPS-Gaa-1032 | Gasterosteus aculeatus | 74.21 | 7e-147 | 523 |
LLPS-Ten-0309 | Tetraodon nigroviridis | 72.66 | 1e-53 | 215 |
LLPS-Lac-3605 | Latimeria chalumnae | 65.63 | 0.0 | 2890 |
LLPS-Anc-0647 | Anolis carolinensis | 65.62 | 0.0 | 3888 |
LLPS-Scf-0018 | Scleropages formosus | 60.82 | 7e-57 | 225 |
LLPS-Cis-0872 | Ciona savignyi | 54.58 | 9e-100 | 362 |
LLPS-Cii-0638 | Ciona intestinalis | 53.99 | 5e-102 | 367 |
LLPS-Arl-1838 | Arabidopsis lyrata | 50.33 | 2e-36 | 156 |
LLPS-Lep-1688 | Leersia perrieri | 50.0 | 5e-36 | 155 |
LLPS-Sem-0195 | Selaginella moellendorffii | 48.73 | 1e-38 | 160 |
LLPS-Sot-2064 | Solanum tuberosum | 48.37 | 2e-36 | 153 |
LLPS-Chr-0825 | Chlamydomonas reinhardtii | 48.34 | 9e-40 | 169 |
LLPS-Drm-0723 | Drosophila melanogaster | 47.11 | 2e-88 | 330 |
LLPS-Dac-2159 | Daucus carota | 46.79 | 6e-35 | 152 |
LLPS-Viv-1959 | Vitis vinifera | 46.75 | 7e-37 | 158 |
LLPS-Hov-1700 | Hordeum vulgare | 46.47 | 3e-36 | 156 |
LLPS-Cap-0110 | Cavia porcellus | 42.24 | 1e-20 | 104 |
LLPS-Otg-0659 | Otolemur garnettii | 42.24 | 1e-20 | 104 |
LLPS-Meg-0684 | Meleagris gallopavo | 42.24 | 1e-20 | 104 |
LLPS-Sol-1478 | Solanum lycopersicum | 41.61 | 4e-23 | 107 |
LLPS-Met-1492 | Medicago truncatula | 41.36 | 2e-36 | 156 |
LLPS-Orbr-1498 | Oryza brachyantha | 40.77 | 6e-23 | 113 |
LLPS-Hea-1827 | Helianthus annuus | 40.77 | 5e-22 | 110 |
LLPS-Sei-2431 | Setaria italica | 39.71 | 9e-24 | 115 |
LLPS-Pap-1148 | Pan paniscus | 39.53 | 9e-21 | 105 |
LLPS-Ora-3308 | Ornithorhynchus anatinus | 39.53 | 1e-20 | 104 |
LLPS-Coc-2082 | Corchorus capsularis | 39.42 | 7e-23 | 109 |
LLPS-Pot-2559 | Populus trichocarpa | 39.23 | 1e-21 | 108 |
LLPS-Gor-2626 | Gossypium raimondii | 39.23 | 1e-21 | 108 |
LLPS-Zem-2377 | Zea mays | 38.97 | 7e-23 | 112 |
LLPS-Sob-1538 | Sorghum bicolor | 38.97 | 5e-23 | 113 |
LLPS-Php-2245 | Physcomitrella patens | 38.85 | 2e-23 | 114 |
LLPS-Amt-1876 | Amborella trichopoda | 38.52 | 5e-36 | 155 |
LLPS-Osl-0784 | Ostreococcus lucimarinus | 38.0 | 3e-21 | 106 |
LLPS-Nia-0192 | Nicotiana attenuata | 37.75 | 1e-23 | 111 |
LLPS-Asm-3335 | Astyanax mexicanus | 37.69 | 2e-20 | 105 |
LLPS-Mua-1573 | Musa acuminata | 37.69 | 1e-21 | 108 |
LLPS-Brd-2389 | Brachypodium distachyon | 37.58 | 1e-23 | 115 |
LLPS-Ori-0479 | Oryza indica | 37.58 | 2e-22 | 108 |
LLPS-Org-2134 | Oryza glaberrima | 36.91 | 2e-24 | 115 |
LLPS-Orr-1483 | Oryza rufipogon | 36.91 | 2e-24 | 117 |
LLPS-Ors-1977 | Oryza sativa | 36.91 | 2e-24 | 116 |
LLPS-Orgl-1299 | Oryza glumaepatula | 36.91 | 1e-24 | 119 |
LLPS-Orni-1685 | Oryza nivara | 36.91 | 2e-24 | 117 |
LLPS-Orp-2416 | Oryza punctata | 36.24 | 4e-24 | 117 |
LLPS-Tra-3051 | Triticum aestivum | 36.24 | 6e-23 | 113 |
LLPS-Bro-1679 | Brassica oleracea | 35.29 | 2e-20 | 105 |
LLPS-Brr-2148 | Brassica rapa | 35.29 | 2e-20 | 105 |
LLPS-Brn-0757 | Brassica napus | 35.29 | 2e-20 | 105 |
LLPS-Asc-1546 | Aspergillus clavatus | 34.62 | 1e-20 | 104 |
LLPS-Orm-0695 | Oryza meridionalis | 33.33 | 3e-21 | 107 |
LLPS-Orb-1910 | Oryza barthii | 32.58 | 9e-25 | 119 |
LLPS-Art-1683 | Arabidopsis thaliana | 30.5 | 2e-23 | 113 |