LLPS-Php-0946
PHYPA_012967
Integrated Annotations
▼ OVERVIEW
| Status: | Unreviewed |
| Protein Name: | Uncharacterized protein |
| Gene Name: | PHYPA_012967 |
| Ensembl Gene: | Pp3c9_20320 |
| Ensembl Protein: | Pp3c9_20320V3.6 |
| Organism: | Physcomitrella patens |
| Taxa ID: | 3218 |
| LLPS Type: | Others |
▼ PROPERTY
▼ Classification
Condensates:
| Condensate | Evidence | Orthologs |
|---|---|---|
| Stress granule | Predicted from orthologs | (View) |
▼ CROSS REFERENCE
| Database | Nucleotide ID | Protein ID |
|---|---|---|
| Ensembl | Pp3c9_20320V3.6 | Pp3c9_20320V3.6 |
| Ensembl | Pp3c9_20320V3.1 | Pp3c9_20320V3.1 |
| Ensembl | Pp3c9_20320V3.3 | Pp3c9_20320V3.3 |
| Ensembl | Pp3c9_20320V3.5 | Pp3c9_20320V3.5 |
| Ensembl | Pp3c9_20320V3.4 | Pp3c9_20320V3.4 |
| Ensembl | Pp3c9_20320V3.8 | Pp3c9_20320V3.8 |
| Ensembl | Pp3c9_20320V3.9 | Pp3c9_20320V3.9 |
| Ensembl | Pp3c9_20320V3.2 | Pp3c9_20320V3.2 |
| Ensembl | Pp3c9_20320V3.7 | Pp3c9_20320V3.7 |
| UniProt | A0A2K1K3Y8, A0A2K1K3Y8_PHYPA | |
| GeneBank | ABEU02000009 | PNR48490.1 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 MFEAHVLNLL RLYLGEYVRG LSVEALKISV WQGDVVLKDL QLKAEALNAL RLPITVKAGF 60 61 LGSVTLKVPW NRLGKDPVIV LLDRIFILAE PLQDDRTFRE EDKDKWYEAK RRKCEAAELA 120 121 MLEAKDHKTA GPQQTDTTSN TWFSSLIATI VGNLKISITN LHIRYEDEVS NPERPFCSGV 180 181 TLATLAAVTI DEQGNETFVT SGALERLRKS LRLERLAVYH DSGSKPWSME RIWEDMTPQE 240 241 WEEVFMEGIK NDASPDKPLP KWAAGRQYLL HPVGGLMTYN RRGKRETRKP DVPFQEAKLV 300 301 LEPVSLTVSE AQYCDGMKLL EGVSTYRNRL EYSHFRPQVP VKGNTRAWWL FGCQAVLQQN 360 361 SRVWYRLQWS KIADSCRKRR NYVELYAKCL HQGFKVDNQE IKDMEKDLDI EVILLWRLLA 420 421 HARVESVKSK EAAVERERIR KSSWWSFGWG SVNSSQAGTQ ATSPNDSPMS STSPTPPNGA 480 481 DAPGELTKEE WSKINQLLSY QPGEDVLNVS KTEGPNMMQM ALDVNIRQGS ARILDNNNME 540 541 ILCGTFENLQ VGIQVYPKTL ACEGQLQFYG LSAPEGMLIE SVSREGRDHA LSATYVQSPY 600 601 DENLDWKLAA TMSPCHVKVW RISFERFLHF LKSSQVLSPG VALETAAVLQ SKLEEVTRRA 660 661 QEQLQQAFEQ QSRFSIDLDL DAPKISIPAK ISKNDDDETQ LLLDLGHFTL HTTTDASRDA 720 721 DVLKADLYSR FSITGKEISA YVVDRDFHWS EISSLSSASL SSGETSPETE GEEPKSSGVI 780 781 LPVLDPCGMS LVLDQIRVQH PNYPSTRLAI KVPRLGIHFS PARYHKLMSV LSAIGTVDNN 840 841 PDDSSETETA VPWQRSEYSG DARILVWGGI GSTVAEWQPC RAVLAGTYLY VLESESAHTY 900 901 QRCISVTGKQ VVEVPSANIG NFKNVIAVCH RGVNIQKVVE SSSALILQLK SEELKAAWQY 960 961 YMALATYKAS TPLLAMPPES SDEDEDDVDD DGVGIGEGKK MLEPMEPAKQ PQLFVMGFLQ 1020 1021 ELRIFLSNST FVGGSSSLGD EKLILELQAH GGKVDVLQRQ YDLSITMKVH SLRIEDKLQG 1080 1081 HVAPSCRYLA RSSLSADAEV DDVEASCVEK LHPDAIEDDK MEEVEEEEDE DEEDEDEEEE 1140 1141 IFDDALAEFG VPGSPSSSER GSFHRLFSSG RSDLTPSQEK SLRHWELELI NLVKEGTVQD 1200 1201 MWVDSLDEVV SDFANMRLII RQSNSPDYDD TDVQMAIRMA TLDFFCNRPT VVALIEFGSQ 1260 1261 LSDSPGGLSS SSAKTFEEGD SNGNPEASAP RDVVKGLLGR GKSRVVFGLK LEMESARISV 1320 1321 NKEDGSQLGM LAQDKFHFEL KVYPGSLNIS GTLGNLRVCD MFLGADHQWG WLCDIRDPGA 1380 1381 GSLVELEFQS YNKDEDDYQG FDYSLSGKLS AVRIVFLYRF IQEITAYFVA LATPQTTQVV 1440 1441 TVVDKVGGTE KLIQESDVEG SSAVKLDFSL DTPIIIMPRS SDSQEFMQLD LGHLEVHNSF 1500 1501 EWHGGDKDVA SAVHLDVLHI ELTGINMVVG INGQAGKSML RETRGLQVKV QRPLRDLFKK 1560 1561 VPELAIDVQV PLLSGVMTHK EYLVIIDCAS TNLSEEPHLP PTFREPPRTS EISDEEKMLL 1620 1621 ETPGEAEDDK SAVSTRNIDP ASAAAAYTKM RVTVDVRQVE LDLYIGLESE IPLARLEIQK 1680 1681 FWLSYCNTST NNMDILITLS KLSVLDQRPD TRPEMRLMLG SMADVEKLGV PVRTAVEDEN 1740 1741 ALDTSPELTM LVLDLRFKPE SQAYVIRVQR PRLLVVVDFL LAVAEFFVPS LGKAALESDH 1800 1801 ENSQNDTDVV DEHIRLATSS YQQKDDTIVL SSERQLIAEA YDVDEFIYDG CGNTLLLDVK 1860 1861 DDENGPAFME PLIVIGSGKN LRFKNVRIEN GFWLSECVHL SADSSYTASL DDGVILEGIG 1920 1921 VDSSGGVSVQ AAPHTNSLLS PSKSSGKKSS EEQKTTVSNY VIDIQAVAPE LTFYDSTKWP 1980 1981 VGGPRRERVL RANLDCYVMI KSKGDDKWIK GMVKGLTVEG GSGLVVVDPV DVSAEYACVQ 2040 2041 EKITFLAGAS DISTRLSFNV LSLILRFQDD AFSTFKFGGA QALSRCTHFD RIWVNVSGDN 2100 2101 TTQQVAIWRP RAPSGYLIMG DCATSGVAPP SQAVMAISNT CKFAQKPIGF ELIWSTRGDA 2160 2161 EPRGGSDAQK DDVNSECCVW MPIAPPGYLS LGCVAERGLS PPSLSSVRCI RSDMVTSGSL 2220 2221 SDCIYYCPPD DGGRYKNGCS IWRVENAAGS FYAHCSTTPP SRILTRDLSE TLLRTVSHIV 2280 2281 MDMDKPDVKA EASSNQGSLR RLPSVNSRVD SMASGRHSTG RYLITTPQFE RLWWDKGSEF 2340 2341 RHAASIWRPV LPPGYAIVGD CLMQGLEPPG VGVALRDDNT GRLAKPLRYL QRMHTTGRGL 2400 2401 EDVVVWFPVA PAGYVAVGCV VTKAPEMPSV DLVRCLRVDL VIQSRLLKPA IWTLSSERSP 2460 2461 NSVWSMSGVR GGYSCSMWRV ENQANTFFAR PDLKCPPGRM AYALADGKKK ARDKLSAELK 2520 2521 IGRISANVFD DMGGLMTPLV NTTITNINLA AHGRLEAMSV VIISNMAAST FNTQLECWEP 2580 2581 IIEPFEGIFK YESFDVDSEA AFKVGKRIRI TAANAVNVNI TSAGLETLVQ SVTSWRKQTE 2640 2641 LEEQARMTLE MEGSDYKEPS PDTFNSALEE DELEKLLVQN RLGCDLYLRK FLDNFEQVEC 2700 2701 LSKDASSLVH LPPVRFPDRF VDVTDSRPPR HFVAVHVSEA KELLVNADGN HQDYMCAVKL 2760 2761 ATTKSTDEHK TLPQSARSRC VRPNAVTQGL DCLVAEAKWN EVFIFELPQK GSATLEVLIS 2820 2821 NQAARGGKGE AVGVTSISLD RNVEGNASQS STLWNVVRRS LKQGRVTSWP AIENKTYHLS 2880 2881 QPRRMNAPSD HEAQKKSWGL ITVSMYFFSA KGEQKEKMTD FESKDDTKGV DIGLLLAVTP 2940 2941 EGPWAGLRSF LPVTTVPKEI GRRLLAIEVS MQQNQKCVKV RSLATVVNNT DMALEICLCP 3000 3001 YPLLNIPDGS TKDSESSLST VVEEIFENQR YQPLAGWGSK WPGHMMPGDP SRWSNRDYSN 3060 3061 TSPDLMEPSL PPGWVWSTNW SIDRNGNVDE EGWFYGPDFQ SLKVPPSSSK ARKKSMFDFA 3120 3121 RRRRLIRQRK CIPETHHLHS RQIVGVVQPG DLVPLPWAGG DSNTDMCVQV RPQSDSSLYS 3180 3181 WGRAISDLIS QSRMQNSSDG AASAAPRQTK SNIPVSVLPV KELEKAEEIL LSRVLEGGSG 3240 3241 SGHGLCWLNV DVDATVLYNE VNNPIPDWRI TVNAPVKLEN RLPCSAAYII WEKPRASGNL 3300 3301 IKQQDGIVSA GGCVYIYSVD VRRPIYLTWL AQGGWRSEKE IVPISDPSME ELPTGFWMAH 3360 3361 QASNRRLRVS LEHDFGGSST AAKIVRLFVP YWLRNDASLP LAYRLVEIEP DSASTGDTTW 3420 3421 LTRAAKAAKQ AARRPTHPGV KKALRLNRVV NYLERVEDMT GTPVMLSLQA YSDRIGGLSL 3480 3481 SSRAEDGLLS PRLGLAIAVA NSNVFNRALS FRDFENNMER VNLNAVDDGG AYYKLSAYLD 3540 3541 MSSDRTKVIH VQPHTLFVNR LGRRLSLRQC DLRHEELFYP NDPPKAILWQ STNEQELLKV 3600 3601 NVDGYRWSNP FSVDTEGIFH VTLQAEQGGP SLVIRGEVRN GVKDSRYFVV FRLAARQSPY 3660 3661 RVENLSTVIP IKFRQAGGDD SLWKVLLPGS SASFGWEDLL RSHLLEILPE GHDPQNSIKF 3720 3721 NLDELFDYRP FPSVRGGIAA SLRATVVSEG FTRVFKVMDC NPSTSNMPLA IIGTPTTPRT 3780 3781 LSPDFHSLEN QIHTSIELSE FGLSIVDHTP EELLYVSIQN LVVSYATGLG SGTNRLKFKL 3840 3841 DSLQVDNQLP LTPSPVLFMV QESQTHRDFL LKGTITMQDN GVMDSISYPY IGIQGPNAPN 3900 3901 VAFLVNIHEP IIWRLHEMFH HLDLGRLSSS KTTAVAIDPI IKIGLLHTSE IRFKVTLTMA 3960 3961 PAQRPRGMLG FWATLITSLG NTDEMPIRIT PRVHEDVSMR QSALWAAAFA SLRNDLLSQP 4020 4021 FKLLTGVDIL GNTSSALGNM SKGVAALSMD KKFIRGRQKQ ANVEDLGEGI REGGEAFAKS 4080 4081 LFRGVTGIVT KPFEGAQKSG VEGFLQGVGK GVIGVGVQPL SGVLDLLSKT TEGANAMRMK 4140 4141 LSAAISFEQQ VLRRRLPRVI GGDNVLRPYD EYKARGQVLM QLAERGTIFG PVDFFRVRGK 4200 4201 FAMSDAYEDH FNLPKGRTLM ITHRRVILLQ HPTSLIQQKK PDLLKEPCTV TWDVMWVDFK 4260 4261 SMELFHAKDE SRQMPPCRLV IRSLGNDSLM FDQKETQFVV KCHPGTKQAI EICNAIQQAL 4320 4321 NTYGPGRSSN STQELLKKSS ARKPYAGAGV GAASGAALGL LAGPAAPIAV PVMATFGALI 4380 4381 GSASHAMLDT PQDSQPPLQT DVQHAGITKA YVHSGRLISD FKLLWWDKSA PWNENSKVSI 4440 4441 WRPIPPSGYV SVGDVVQSSY DSPDLVMVYR DDHDGKFVTP QGFELVWRDA EHSAREPITI 4500 4501 WRPRPPLGYV ALGCVIVPDY YEPDLGVVSC VRQDCVSQAP LKQESISKYT TRSALWQCSL 4560 4561 WRVQNNSSTF LAQRDQQPPP PRLAYTVST 4589 |
| Nucleotide CDS Sequence (FASTA) |
1 ATGTTTGAGG CTCATGTCCT GAATCTTCTT CGTCTTTATC TTGGAGAATA TGTTCGTGGA 60 61 CTCTCAGTTG AAGCCTTGAA GATCAGTGTT TGGCAAGGAG ATGTTGTCTT GAAAGATTTG 120 121 CAACTCAAGG CGGAGGCCTT GAATGCATTA CGGTTGCCTA TCACAGTAAA AGCTGGCTTC 180 181 CTGGGTTCGG TCACATTGAA GGTTCCATGG AATCGACTAG GCAAAGATCC TGTAATTGTG 240 241 CTTCTTGACC GCATTTTTAT ACTTGCTGAG CCTCTCCAAG ATGATAGGAC CTTCAGGGAA 300 301 GAGGACAAAG ATAAATGGTA TGAGGCGAAA AGACGCAAGT GTGAGGCGGC TGAACTGGCT 360 361 ATGCTTGAGG CCAAGGACCA CAAGACAGCT GGGCCTCAAC AAACAGATAC AACCTCTAAC 420 421 ACCTGGTTCA GCTCTTTGAT AGCAACGATT GTTGGGAATC TGAAAATCTC AATCACTAAT 480 481 TTACACATTC GTTACGAGGA TGAAGTGAGC AATCCAGAGC GTCCATTCTG TTCTGGAGTT 540 541 ACGTTAGCGA CGCTAGCAGC TGTCACTATT GACGAACAGG GAAATGAAAC ATTTGTTACT 600 601 AGTGGGGCCT TGGAAAGACT CCGCAAGTCT TTGCGTTTGG AACGTCTGGC TGTATACCAT 660 661 GACTCAGGTA GCAAACCGTG GTCTATGGAA AGAATATGGG AGGATATGAC TCCCCAGGAA 720 721 TGGGAGGAGG TTTTCATGGA GGGTATTAAA AATGATGCAT CTCCTGACAA GCCCTTGCCG 780 781 AAATGGGCGG CTGGTCGTCA GTACTTGCTG CACCCAGTAG GAGGACTTAT GACATACAAT 840 841 CGTCGTGGAA AACGTGAGAC GCGGAAACCT GATGTTCCAT TTCAGGAAGC CAAACTTGTA 900 901 CTGGAGCCCG TGTCATTGAC AGTCTCAGAG GCTCAGTACT GTGATGGAAT GAAACTTTTG 960 961 GAAGGAGTGT CGACGTATCG CAACAGGTTG GAGTACAGCC ACTTCCGTCC TCAAGTGCCT 1020 1021 GTTAAGGGGA ATACGCGGGC TTGGTGGCTT TTTGGTTGTC AAGCTGTTTT ACAGCAAAAC 1080 1081 TCCAGAGTTT GGTATCGGCT GCAGTGGTCA AAAATAGCTG ATTCTTGTCG CAAGAGGCGA 1140 1141 AATTATGTGG AACTCTATGC AAAATGTCTG CATCAAGGTT TTAAAGTAGA TAATCAAGAA 1200 1201 ATCAAGGACA TGGAAAAGGA TCTTGATATT GAAGTGATCC TTCTTTGGAG GCTGTTGGCT 1260 1261 CATGCAAGGG TTGAAAGTGT AAAATCCAAA GAAGCTGCCG TAGAACGAGA ACGAATAAGG 1320 1321 AAAAGTTCTT GGTGGTCGTT TGGCTGGGGA AGTGTAAATT CCAGCCAAGC TGGCACCCAA 1380 1381 GCGACATCTC CTAATGACTC CCCAATGTCA TCTACATCTC CTACGCCTCC TAATGGTGCC 1440 1441 GATGCTCCTG GGGAACTCAC CAAAGAGGAA TGGAGCAAAA TCAATCAGTT ATTGAGTTAC 1500 1501 CAGCCAGGAG AAGATGTGCT GAATGTTTCA AAAACCGAAG GGCCTAATAT GATGCAGATG 1560 1561 GCCCTTGACG TCAACATCCG ACAGGGGTCG GCTCGTATTT TAGATAATAA TAATATGGAG 1620 1621 ATTTTATGTG GAACATTTGA AAACTTGCAA GTTGGAATAC AAGTATATCC AAAAACATTG 1680 1681 GCTTGTGAAG GGCAACTCCA GTTCTATGGC CTCTCTGCGC CTGAAGGAAT GCTTATTGAG 1740 1741 AGTGTGAGTC GAGAGGGAAG AGACCATGCC TTGTCAGCGA CTTATGTGCA GTCTCCTTAT 1800 1801 GACGAGAATT TAGACTGGAA ATTAGCTGCC ACTATGTCAC CCTGTCACGT TAAGGTGTGG 1860 1861 AGGATAAGTT TTGAGAGGTT TCTTCATTTT TTGAAGAGCA GTCAAGTTCT TAGTCCTGGT 1920 1921 GTCGCCCTAG AGACTGCAGC GGTCTTGCAG AGTAAGTTGG AGGAAGTTAC ACGTCGTGCA 1980 1981 CAAGAACAGC TACAACAAGC GTTTGAACAG CAGAGCAGAT TCTCTATTGA CCTGGACCTG 2040 2041 GATGCTCCTA AGATTTCTAT TCCAGCTAAA ATCAGCAAGA ATGACGATGA TGAGACACAG 2100 2101 CTCCTTCTAG ATTTGGGACA TTTCACTCTC CACACTACAA CAGATGCTAG TCGGGATGCC 2160 2161 GACGTGTTAA AAGCTGATTT ATATTCTCGA TTCTCTATAA CTGGAAAAGA GATATCGGCA 2220 2221 TATGTGGTGG ACAGAGATTT TCATTGGTCT GAAATCTCTT CGTTATCATC GGCGTCGCTG 2280 2281 TCATCTGGTG AAACATCTCC AGAGACTGAA GGTGAAGAGC CAAAATCTAG CGGAGTTATT 2340 2341 CTTCCAGTAT TGGACCCTTG CGGCATGTCG CTCGTTCTTG ATCAGATTCG AGTACAACAT 2400 2401 CCAAATTATC CATCCACGAG GCTTGCCATC AAAGTGCCAC GCCTTGGCAT ACACTTTTCC 2460 2461 CCTGCAAGGT ACCATAAACT TATGTCTGTT TTAAGTGCAA TCGGAACTGT TGACAACAAT 2520 2521 CCAGACGACT CTTCAGAAAC AGAAACGGCG GTGCCGTGGC AGCGTTCGGA GTATTCGGGG 2580 2581 GATGCTCGGA TTTTGGTTTG GGGGGGTATA GGAAGTACAG TAGCAGAGTG GCAGCCTTGT 2640 2641 AGAGCAGTTC TTGCTGGAAC ATACTTATAC GTGTTGGAGT CTGAAAGTGC GCACACTTAT 2700 2701 CAAAGGTGTA TCAGTGTGAC TGGGAAGCAG GTAGTCGAAG TACCCTCTGC TAACATTGGC 2760 2761 AACTTTAAAA ATGTAATTGC CGTTTGCCAT CGCGGTGTTA ACATTCAAAA GGTTGTCGAG 2820 2821 TCCTCAAGTG CTCTTATCTT GCAATTAAAA AGTGAAGAAC TTAAAGCTGC ATGGCAGTAC 2880 2881 TATATGGCTC TCGCCACGTA CAAGGCATCT ACACCGCTTC TGGCAATGCC TCCCGAATCA 2940 2941 AGCGATGAAG ATGAAGACGA TGTTGATGAC GATGGTGTGG GGATCGGTGA AGGCAAAAAA 3000 3001 ATGCTAGAAC CAATGGAGCC TGCAAAACAA CCTCAACTTT TTGTGATGGG CTTCCTTCAG 3060 3061 GAGTTGCGGA TTTTTCTAAG TAACTCGACC TTTGTCGGTG GCTCTTCTTC TCTGGGTGAT 3120 3121 GAAAAACTTA TTCTTGAGTT GCAAGCTCAT GGTGGCAAGG TCGATGTGCT GCAACGCCAG 3180 3181 TATGACTTAT CTATCACTAT GAAGGTGCAC TCGTTGAGGA TTGAGGACAA GTTGCAGGGG 3240 3241 CATGTCGCTC CATCATGTCG TTACCTTGCT CGGTCATCAC TTTCTGCTGA TGCTGAAGTG 3300 3301 GATGATGTGG AGGCTAGTTG TGTAGAGAAG TTACATCCTG ATGCGATAGA AGATGATAAG 3360 3361 ATGGAAGAGG TTGAGGAGGA GGAGGATGAG GATGAGGAGG ATGAGGATGA GGAGGAGGAA 3420 3421 ATCTTTGATG ATGCGTTGGC AGAATTTGGA GTTCCAGGTT CTCCTTCGTC TAGTGAGCGT 3480 3481 GGCTCTTTCC ACCGCTTATT CTCATCGGGA AGAAGCGACC TTACACCAAG CCAGGAAAAA 3540 3541 TCTCTTCGGC ACTGGGAGTT AGAACTGATA AATCTTGTGA AAGAGGGGAC TGTACAAGAT 3600 3601 ATGTGGGTGG ATTCTTTGGA CGAAGTAGTG TCCGATTTTG CAAACATGCG TCTGATAATT 3660 3661 AGACAATCAA ATTCTCCAGA TTATGATGAT ACAGACGTTC AGATGGCTAT TAGAATGGCT 3720 3721 ACACTAGACT TCTTCTGCAA CCGTCCTACT GTTGTAGCAC TTATAGAGTT TGGTTCACAG 3780 3781 CTAAGTGATT CTCCTGGGGG TTTGTCCTCT TCGTCAGCAA AGACCTTCGA GGAGGGTGAT 3840 3841 TCTAATGGTA ACCCTGAAGC CAGTGCACCA CGTGATGTAG TGAAAGGCTT ATTAGGTCGT 3900 3901 GGTAAATCTC GAGTTGTGTT TGGATTAAAG TTGGAGATGG AAAGTGCTCG AATATCTGTA 3960 3961 AATAAGGAAG ATGGGTCTCA GCTAGGTATG CTTGCTCAAG ACAAATTTCA TTTTGAACTC 4020 4021 AAGGTTTATC CAGGTTCTCT TAATATATCT GGGACGCTTG GAAATTTACG CGTCTGTGAC 4080 4081 ATGTTCCTTG GAGCTGATCA CCAATGGGGT TGGCTTTGTG ATATCCGAGA CCCCGGTGCG 4140 4141 GGATCGCTGG TTGAGTTGGA ATTTCAATCT TATAACAAGG ATGAAGATGA CTACCAAGGG 4200 4201 TTCGACTATT CACTTTCAGG GAAGCTGTCA GCAGTGCGAA TTGTCTTCCT GTATCGTTTT 4260 4261 ATTCAGGAGA TTACAGCATA CTTTGTCGCA CTCGCTACTC CACAAACCAC ACAAGTTGTA 4320 4321 ACAGTTGTGG ACAAAGTGGG AGGAACCGAA AAACTTATTC AGGAGTCTGA TGTAGAAGGT 4380 4381 TCTTCAGCTG TAAAGTTGGA CTTTTCACTT GACACCCCTA TTATCATAAT GCCCCGCAGC 4440 4441 TCTGATAGCC AAGAGTTTAT GCAGTTGGAC TTGGGTCACC TTGAGGTGCA TAATAGCTTT 4500 4501 GAGTGGCATG GTGGAGACAA GGATGTTGCA TCTGCTGTAC ACCTGGATGT TCTTCATATT 4560 4561 GAGCTTACAG GCATCAACAT GGTTGTAGGC ATTAATGGTC AGGCTGGAAA ATCCATGCTT 4620 4621 CGAGAAACTA GAGGTCTTCA GGTGAAAGTT CAGCGACCTT TGAGGGATCT TTTCAAGAAG 4680 4681 GTGCCAGAGC TAGCCATTGA TGTTCAGGTA CCATTGCTGA GTGGGGTTAT GACTCACAAA 4740 4741 GAATATCTGG TTATCATTGA CTGTGCATCT ACAAACTTGT CAGAAGAACC TCATCTTCCG 4800 4801 CCAACTTTTC GAGAACCTCC AAGAACGAGT GAGATAAGTG ATGAAGAGAA GATGCTCCTT 4860 4861 GAAACTCCAG GTGAAGCTGA GGATGATAAA TCCGCTGTTA GTACCAGGAA TATTGATCCT 4920 4921 GCTTCGGCTG CTGCGGCGTA TACGAAAATG CGAGTAACTG TAGATGTTCG GCAGGTTGAA 4980 4981 TTGGATTTGT ACATTGGCCT AGAATCGGAG ATACCTTTGG CGCGTTTAGA GATCCAAAAG 5040 5041 TTCTGGCTCA GTTACTGCAA TACTTCTACA AATAACATGG ATATTTTGAT AACGCTATCT 5100 5101 AAGTTGTCAG TTCTAGATCA GCGCCCTGAC ACAAGGCCTG AAATGCGACT GATGCTGGGT 5160 5161 TCAATGGCTG ATGTCGAGAA GCTGGGAGTT CCTGTAAGGA CAGCTGTAGA AGATGAAAAT 5220 5221 GCACTTGACA CTTCTCCAGA ACTGACAATG CTGGTTTTGG ATTTACGTTT TAAACCAGAA 5280 5281 TCTCAAGCTT ACGTTATTCG TGTTCAACGC CCTCGGCTGT TAGTGGTTGT GGATTTTCTT 5340 5341 CTTGCCGTTG CGGAGTTTTT TGTACCTTCC TTGGGTAAGG CTGCATTAGA GAGTGATCAT 5400 5401 GAAAACTCTC AGAATGATAC AGACGTCGTG GATGAACATA TCCGACTTGC GACCTCATCG 5460 5461 TACCAACAGA AGGACGACAC TATCGTTCTA AGTAGTGAAC GACAGCTTAT TGCGGAGGCA 5520 5521 TACGATGTGG ATGAATTCAT CTATGATGGT TGTGGGAACA CACTGTTGTT GGATGTTAAG 5580 5581 GATGATGAAA ATGGGCCAGC ATTTATGGAG CCGCTCATTG TGATTGGTTC TGGAAAAAAT 5640 5641 TTGCGATTTA AGAATGTTCG CATTGAGAAT GGATTTTGGT TGAGTGAATG TGTCCACCTC 5700 5701 AGCGCAGATA GTAGCTACAC TGCTTCTCTT GACGATGGCG TTATTCTGGA AGGCATAGGT 5760 5761 GTAGATTCCT CCGGTGGTGT CTCTGTACAA GCAGCACCGC ATACTAATTC TTTATTATCA 5820 5821 CCCAGTAAAT CTTCTGGCAA GAAATCTAGT GAGGAGCAGA AGACCACAGT CAGCAATTAT 5880 5881 GTTATTGATA TCCAGGCTGT TGCACCAGAA CTTACTTTCT ATGATAGCAC CAAGTGGCCT 5940 5941 GTTGGTGGTC CACGACGGGA AAGGGTGCTG AGGGCCAACT TGGACTGTTA CGTCATGATA 6000 6001 AAATCCAAGG GAGACGATAA GTGGATTAAG GGAATGGTGA AGGGGCTTAC GGTTGAAGGT 6060 6061 GGTTCTGGGT TAGTGGTTGT TGATCCAGTG GATGTTTCTG CTGAGTATGC TTGTGTTCAA 6120 6121 GAGAAGATCA CGTTTTTAGC AGGAGCTTCT GATATTTCAA CCCGCCTTTC ATTTAATGTG 6180 6181 CTCTCACTTA TTTTGCGGTT TCAAGATGAT GCTTTTTCAA CCTTCAAATT TGGTGGCGCT 6240 6241 CAGGCCCTCT CTCGGTGTAC TCATTTTGAT AGAATATGGG TGAATGTCTC TGGTGATAAT 6300 6301 ACAACTCAGC AAGTTGCAAT ATGGCGTCCT CGTGCTCCAT CGGGTTACCT GATCATGGGT 6360 6361 GACTGTGCAA CTTCTGGAGT TGCTCCCCCC TCTCAGGCGG TTATGGCTAT CAGCAATACA 6420 6421 TGTAAATTTG CTCAAAAACC AATTGGGTTT GAGCTTATTT GGTCCACCAG AGGTGACGCT 6480 6481 GAACCTAGAG GTGGATCGGA TGCACAGAAA GATGACGTTA ATTCAGAATG TTGCGTTTGG 6540 6541 ATGCCAATCG CTCCTCCAGG TTACCTCTCT CTAGGTTGTG TTGCTGAGAG GGGTCTATCA 6600 6601 CCGCCTTCTC TAAGTTCTGT TCGATGTATT CGATCTGATA TGGTGACTTC AGGATCTCTA 6660 6661 AGTGACTGTA TTTACTATTG TCCGCCTGAT GATGGCGGCA GATACAAAAA CGGTTGCAGT 6720 6721 ATATGGCGCG TGGAAAATGC TGCTGGATCT TTTTATGCCC ATTGTTCCAC AACACCTCCA 6780 6781 TCAAGGATAT TGACACGGGA TTTGAGTGAA ACTCTCTTGA GGACAGTATC TCATATTGTC 6840 6841 ATGGATATGG ATAAACCTGA TGTGAAAGCA GAAGCATCTT CTAACCAAGG CTCATTAAGA 6900 6901 AGATTGCCAA GTGTTAATTC CCGCGTTGAT TCCATGGCAA GTGGCAGACA CAGTACAGGC 6960 6961 CGCTATTTGA TTACAACTCC ACAGTTCGAG CGGTTGTGGT GGGATAAAGG TTCAGAATTT 7020 7021 CGTCATGCGG CATCCATTTG GCGGCCTGTT CTTCCTCCTG GCTATGCTAT TGTAGGAGAT 7080 7081 TGCCTAATGC AAGGATTGGA GCCGCCAGGT GTGGGCGTTG CCTTACGCGA TGATAATACT 7140 7141 GGTCGCCTAG CAAAACCTTT GCGTTATCTG CAACGTATGC ACACTACGGG GAGAGGGCTC 7200 7201 GAAGACGTTG TTGTCTGGTT TCCAGTGGCT CCAGCCGGCT ATGTTGCAGT TGGTTGTGTT 7260 7261 GTCACGAAAG CTCCAGAGAT GCCGTCTGTT GATTTGGTTC GTTGTTTACG CGTTGACCTG 7320 7321 GTCATCCAGT CGCGGCTGTT AAAGCCGGCA ATCTGGACGT TGTCTTCAGA ACGGAGTCCT 7380 7381 AATTCTGTGT GGAGCATGTC TGGAGTTCGT GGAGGTTACA GCTGCAGCAT GTGGAGAGTC 7440 7441 GAAAATCAGG CGAATACCTT TTTTGCAAGA CCAGACTTGA AGTGTCCACC AGGAAGAATG 7500 7501 GCATATGCTT TAGCTGATGG GAAGAAGAAA GCGCGGGACA AATTATCTGC AGAGCTCAAG 7560 7561 ATTGGGCGGA TTTCTGCCAA TGTATTTGAT GATATGGGTG GCTTGATGAC ACCTCTTGTT 7620 7621 AATACGACAA TAACAAACAT AAACCTTGCT GCACATGGGC GGTTGGAAGC AATGAGTGTT 7680 7681 GTGATCATTT CAAATATGGC TGCCTCCACT TTCAACACAC AACTGGAATG TTGGGAACCC 7740 7741 ATTATTGAAC CGTTTGAAGG AATATTCAAA TATGAGTCTT TCGATGTGGA TTCCGAGGCT 7800 7801 GCTTTCAAGG TTGGTAAGCG GATACGTATA ACTGCGGCGA ATGCTGTGAA CGTTAACATT 7860 7861 ACATCTGCGG GCTTGGAAAC TCTTGTGCAA TCTGTAACGT CATGGCGCAA ACAAACTGAG 7920 7921 TTAGAAGAGC AAGCTCGCAT GACTCTTGAA ATGGAAGGTA GTGATTATAA GGAACCAAGT 7980 7981 CCTGACACTT TCAACAGTGC ACTGGAAGAG GATGAACTGG AGAAACTACT AGTCCAAAAC 8040 8041 AGACTAGGAT GTGACTTGTA CTTGCGGAAA TTTTTGGATA ATTTTGAGCA AGTGGAATGT 8100 8101 CTTTCCAAGG ATGCCAGTAG TTTGGTGCAC TTGCCGCCAG TACGATTTCC TGATAGATTT 8160 8161 GTTGATGTCA CGGACTCCCG ACCACCACGC CACTTTGTTG CTGTCCATGT TTCTGAAGCA 8220 8221 AAGGAACTAC TTGTCAATGC TGATGGAAAC CATCAAGACT ATATGTGCGC TGTAAAGCTG 8280 8281 GCGACCACTA AGTCAACTGA CGAGCACAAG ACGCTTCCTC AAAGTGCCAG ATCTCGTTGT 8340 8341 GTTCGTCCTA ATGCCGTTAC GCAGGGTTTG GACTGTTTAG TTGCTGAAGC GAAGTGGAAT 8400 8401 GAAGTGTTTA TTTTTGAACT TCCTCAGAAG GGCTCTGCTA CTCTGGAAGT TTTGATATCT 8460 8461 AATCAGGCTG CGCGAGGCGG AAAGGGCGAG GCAGTTGGTG TAACTTCTAT TTCCCTCGAT 8520 8521 AGAAACGTTG AGGGAAATGC ATCACAATCA TCAACGTTGT GGAACGTGGT CCGACGATCC 8580 8581 CTGAAACAGG GTCGTGTGAC TTCTTGGCCT GCCATTGAGA ATAAAACTTA CCATCTATCA 8640 8641 CAACCTCGAA GAATGAATGC ACCTAGTGAT CACGAGGCGC AGAAGAAGAG CTGGGGTCTG 8700 8701 ATAACTGTAA GCATGTATTT TTTCTCTGCG AAGGGCGAGC AGAAAGAGAA AATGACCGAT 8760 8761 TTTGAGTCTA AAGATGACAC AAAAGGTGTG GATATTGGAC TATTGCTAGC TGTGACCCCA 8820 8821 GAAGGTCCAT GGGCAGGACT CCGATCATTT TTACCTGTTA CCACAGTGCC GAAGGAGATT 8880 8881 GGTAGGAGGC TTTTAGCTAT AGAAGTGAGC ATGCAACAGA ATCAGAAGTG CGTGAAGGTT 8940 8941 AGGAGCCTTG CGACTGTTGT GAATAATACA GACATGGCAC TTGAGATATG CCTTTGTCCT 9000 9001 TATCCGCTTC TTAATATTCC AGATGGGTCT ACTAAAGACT CAGAGAGTAG TCTCTCTACA 9060 9061 GTTGTTGAGG AAATTTTTGA GAATCAACGA TATCAGCCTT TAGCAGGCTG GGGAAGCAAA 9120 9121 TGGCCTGGAC ATATGATGCC AGGTGATCCA AGCCGTTGGA GTAATCGTGA CTACTCGAAC 9180 9181 ACTTCTCCGG ACTTAATGGA ACCTTCCTTA CCACCTGGTT GGGTATGGAG TACGAATTGG 9240 9241 TCAATCGACA GAAACGGTAA TGTAGATGAG GAGGGCTGGT TTTATGGTCC CGATTTTCAG 9300 9301 TCTTTGAAGG TTCCACCCTC ATCCTCAAAG GCTAGAAAAA AGTCTATGTT TGATTTTGCT 9360 9361 AGGCGACGCC GTTTAATTAG GCAACGCAAA TGTATCCCTG AAACTCACCA TTTGCATAGC 9420 9421 AGACAAATAG TAGGAGTGGT TCAACCTGGA GATTTAGTCC CTTTACCATG GGCCGGTGGT 9480 9481 GACAGCAATA CTGACATGTG TGTTCAAGTC CGCCCGCAAT CTGATTCCTC TCTGTACAGC 9540 9541 TGGGGCCGGG CTATCAGTGA TTTGATATCT CAAAGCAGGA TGCAGAACAG CAGCGATGGG 9600 9601 GCTGCTTCGG CTGCTCCGCG TCAAACCAAG AGTAATATAC CAGTTTCCGT TTTACCAGTG 9660 9661 AAAGAGCTAG AAAAAGCTGA AGAGATTTTA CTGTCCAGGG TTCTAGAGGG TGGCAGTGGC 9720 9721 AGTGGCCACG GTCTTTGCTG GTTGAATGTG GATGTGGATG CCACAGTCCT GTATAATGAA 9780 9781 GTTAACAATC CTATCCCTGA TTGGCGAATC ACGGTTAATG CTCCTGTGAA GTTGGAAAAC 9840 9841 CGCCTTCCTT GTTCTGCTGC TTACATTATT TGGGAAAAAC CAAGGGCAAG TGGAAATTTG 9900 9901 ATTAAACAAC AGGATGGTAT AGTTTCTGCC GGGGGTTGTG TGTACATCTA CTCGGTTGAT 9960 9961 GTGCGGAGAC CCATATACCT CACTTGGCTC GCTCAAGGAG GATGGAGATC CGAGAAAGAA 10020 10021 ATTGTTCCTA TTTCAGACCC TTCCATGGAG GAGCTTCCCA CTGGTTTCTG GATGGCACAT 10080 10081 CAAGCTAGTA ACAGGCGGCT GAGGGTGAGT CTGGAGCATG ATTTCGGAGG TAGCAGTACG 10140 10141 GCTGCCAAGA TCGTGCGTTT GTTTGTTCCT TATTGGCTTA GAAATGACGC TTCACTCCCA 10200 10201 TTAGCGTATC GTCTTGTTGA GATTGAGCCT GACAGTGCTT CAACTGGGGA CACTACATGG 10260 10261 CTTACTAGGG CAGCTAAAGC TGCTAAGCAG GCTGCTCGTC GACCCACTCA CCCTGGAGTA 10320 10321 AAGAAAGCTC TACGATTGAA TCGAGTGGTC AATTATCTGG AAAGAGTGGA GGATATGACA 10380 10381 GGGACTCCTG TGATGCTTTC GCTACAGGCC TACTCTGATC GCATAGGGGG TTTATCGCTG 10440 10441 TCTTCACGTG CTGAGGATGG ATTACTCTCG CCTCGCCTTG GCCTTGCAAT CGCTGTAGCA 10500 10501 AACAGCAATG TCTTTAATCG TGCTCTCTCT TTTCGAGACT TTGAAAATAA TATGGAAAGA 10560 10561 GTTAATCTTA ATGCCGTAGA TGATGGAGGC GCTTATTACA AGTTGTCTGC GTACTTGGAT 10620 10621 ATGTCATCAG ATCGCACCAA GGTCATTCAT GTGCAGCCTC ACACATTATT TGTCAATCGA 10680 10681 CTAGGAAGAA GATTGTCCTT ACGTCAATGT GACCTGAGGC ATGAAGAACT GTTTTACCCA 10740 10741 AACGACCCTC CTAAGGCCAT TCTCTGGCAA TCTACGAACG AGCAAGAGCT GTTGAAGGTT 10800 10801 AATGTTGATG GCTATCGATG GAGTAACCCA TTCAGTGTGG ATACGGAAGG AATTTTTCAT 10860 10861 GTAACACTTC AAGCCGAACA AGGTGGTCCA AGTCTCGTAA TACGTGGTGA AGTTCGCAAT 10920 10921 GGAGTCAAGG ATTCTCGTTA TTTTGTTGTT TTCCGTCTTG CTGCGCGTCA GAGTCCATAC 10980 10981 CGAGTGGAAA ATCTATCAAC TGTTATACCA ATCAAATTTC GTCAAGCTGG CGGTGACGAT 11040 11041 AGCTTATGGA AAGTGTTACT TCCTGGTTCA TCAGCTTCAT TTGGCTGGGA AGACCTTCTT 11100 11101 CGCAGTCACC TTCTTGAAAT CCTGCCAGAG GGTCATGATC CTCAGAATTC CATAAAATTC 11160 11161 AACTTAGATG AGCTATTTGA TTACCGTCCT TTCCCTTCTG TTCGTGGAGG GATTGCTGCC 11220 11221 TCACTTCGAG CAACAGTAGT GTCAGAGGGG TTTACAAGGG TTTTCAAAGT TATGGACTGT 11280 11281 AACCCCAGCA CTTCTAACAT GCCTCTGGCG ATTATTGGGA CTCCAACCAC ACCTCGGACT 11340 11341 CTGTCACCTG ATTTCCATAG TTTGGAAAAC CAAATCCATA CTAGCATCGA GTTATCAGAA 11400 11401 TTTGGGCTTT CAATTGTTGA TCACACTCCT GAAGAACTAC TTTATGTGTC CATCCAGAAT 11460 11461 CTTGTGGTTT CTTATGCAAC TGGATTGGGA TCAGGGACGA ACAGGTTAAA ATTTAAGTTA 11520 11521 GATAGTCTTC AAGTTGACAA TCAATTGCCT TTGACCCCGT CTCCTGTCCT TTTCATGGTT 11580 11581 CAAGAGTCTC AGACGCATCG TGATTTTCTT CTCAAGGGAA CAATCACCAT GCAAGACAAT 11640 11641 GGAGTAATGG ATAGTATTTC TTATCCTTAC ATCGGCATTC AGGGCCCAAA CGCACCAAAT 11700 11701 GTTGCGTTTT TGGTGAACAT TCACGAGCCA ATAATTTGGC GCTTACATGA AATGTTTCAT 11760 11761 CATCTCGACT TGGGGCGCTT AAGCAGCAGC AAGACAACAG CTGTTGCCAT TGATCCAATC 11820 11821 ATAAAGATAG GACTACTTCA TACTTCTGAA ATACGATTCA AGGTTACACT AACAATGGCT 11880 11881 CCTGCGCAAA GACCTCGAGG AATGCTTGGA TTTTGGGCCA CACTAATAAC ATCTTTAGGA 11940 11941 AATACCGATG AAATGCCGAT ACGTATTACG CCACGCGTCC ATGAAGATGT TTCTATGCGG 12000 12001 CAAAGTGCAT TGTGGGCTGC TGCTTTTGCC AGTTTACGAA ATGACTTGCT GAGTCAACCT 12060 12061 TTCAAACTAC TAACTGGTGT TGACATACTG GGCAACACAA GCAGTGCGCT TGGAAACATG 12120 12121 AGCAAAGGAG TTGCTGCTCT CTCAATGGAC AAAAAGTTTA TACGTGGTCG TCAGAAACAG 12180 12181 GCGAATGTTG AAGATTTAGG CGAAGGAATT CGAGAGGGAG GAGAAGCTTT TGCGAAAAGC 12240 12241 CTATTTCGAG GTGTAACGGG CATTGTTACG AAACCTTTTG AAGGTGCTCA GAAGTCTGGA 12300 12301 GTTGAAGGGT TTCTTCAAGG TGTGGGTAAA GGCGTGATTG GAGTGGGTGT TCAACCCTTG 12360 12361 AGTGGGGTTT TGGATTTACT CTCCAAAACT ACAGAGGGTG CTAATGCAAT GCGCATGAAA 12420 12421 TTGAGTGCTG CCATCTCGTT CGAACAGCAG GTTTTGAGAC GGCGTTTGCC TCGTGTTATT 12480 12481 GGAGGTGACA ATGTGTTGCG TCCTTACGAC GAGTATAAGG CACGAGGACA GGTGTTGATG 12540 12541 CAACTAGCAG AGAGGGGAAC AATTTTTGGT CCTGTTGACT TTTTCAGAGT ACGAGGGAAA 12600 12601 TTTGCGATGT CAGATGCCTA TGAAGATCAC TTCAACCTGC CGAAAGGGCG TACTCTTATG 12660 12661 ATTACGCATC GTAGAGTAAT TTTACTGCAG CACCCAACTA GCCTAATCCA ACAAAAAAAG 12720 12721 CCCGACCTTC TCAAAGAACC ATGTACTGTG ACATGGGACG TGATGTGGGT TGACTTCAAG 12780 12781 TCGATGGAAT TATTTCATGC AAAAGATGAA TCTCGGCAAA TGCCACCCTG TCGACTTGTA 12840 12841 ATTCGTTCCT TGGGTAACGA CTCTCTCATG TTTGATCAGA AAGAAACTCA ATTCGTTGTG 12900 12901 AAATGCCACC CAGGCACTAA ACAAGCAATT GAGATCTGTA ATGCTATACA ACAAGCCTTA 12960 12961 AATACGTATG GCCCTGGCCG GTCATCCAAC TCAACGCAGG TGCAGGGGTA G 13011 |
▼ ORTHOLOGY
| DrLLPS ID | Organism | Identity | E-value | Score |
|---|---|---|---|---|
| LLPS-Sot-1937 | Solanum tuberosum | 67.07 | 4e-30 | 124 |
| LLPS-Mua-2279 | Musa acuminata | 63.82 | 3e-78 | 267 |
| LLPS-Ors-1926 | Oryza sativa | 51.46 | 0.0 | 624 |
| LLPS-Sem-0416 | Selaginella moellendorffii | 51.32 | 0.0 | 3268 |
| LLPS-Cus-0418 | Cucumis sativus | 46.94 | 5e-93 | 315 |
| LLPS-Dac-2216 | Daucus carota | 46.86 | 0.0 | 1030 |
| LLPS-Nia-1840 | Nicotiana attenuata | 46.49 | 0.0 | 914 |
| LLPS-Hea-0465 | Helianthus annuus | 45.9 | 0.0 | 890 |
| LLPS-Sei-0957 | Setaria italica | 45.47 | 0.0 | 889 |
| LLPS-Sol-0225 | Solanum lycopersicum | 45.35 | 0.0 | 2516 |
| LLPS-Brn-2353 | Brassica napus | 45.26 | 2e-100 | 338 |
| LLPS-Thc-2164 | Theobroma cacao | 45.17 | 0.0 | 3513 |
| LLPS-Glm-1879 | Glycine max | 45.04 | 0.0 | 3456 |
| LLPS-Sob-2314 | Sorghum bicolor | 43.22 | 0.0 | 3306 |
| LLPS-Lep-2328 | Leersia perrieri | 42.65 | 4e-24 | 117 |
| LLPS-Orr-1784 | Oryza rufipogon | 41.91 | 4e-24 | 117 |
| LLPS-Orni-0893 | Oryza nivara | 41.91 | 3e-24 | 117 |
| LLPS-Orb-0160 | Oryza barthii | 41.91 | 4e-24 | 117 |
| LLPS-Ori-1146 | Oryza indica | 41.91 | 4e-24 | 117 |
| LLPS-Orp-1852 | Oryza punctata | 41.18 | 6e-24 | 117 |
| LLPS-Orm-2057 | Oryza meridionalis | 41.18 | 5e-24 | 117 |
| LLPS-Orgl-2362 | Oryza glumaepatula | 41.18 | 6e-24 | 117 |
| LLPS-Orbr-1743 | Oryza brachyantha | 39.71 | 5e-21 | 107 |
| LLPS-Xet-0149 | Xenopus tropicalis | 38.67 | 5e-16 | 90.9 |
| LLPS-Coc-2121 | Corchorus capsularis | 38.09 | 1e-88 | 330 |
| LLPS-Pytr-1291 | Pyrenophora triticirepentis | 37.82 | 2e-12 | 79.0 |
| LLPS-Pyt-0447 | Pyrenophora teres | 37.82 | 2e-12 | 79.0 |
| LLPS-Icp-4066 | Ictalurus punctatus | 37.62 | 4e-19 | 100 |
| LLPS-Prp-1733 | Prunus persica | 37.57 | 0.0 | 686 |
| LLPS-Tar-2356 | Takifugu rubripes | 37.57 | 2e-10 | 72.0 |
| LLPS-Gor-1649 | Gossypium raimondii | 37.41 | 1e-21 | 109 |
| LLPS-Met-1549 | Medicago truncatula | 37.35 | 0.0 | 678 |
| LLPS-Lac-3863 | Latimeria chalumnae | 37.2 | 2e-16 | 92.4 |
| LLPS-Chr-0246 | Chlamydomonas reinhardtii | 37.1 | 4e-08 | 64.7 |
| LLPS-Viv-0346 | Vitis vinifera | 37.01 | 8e-90 | 331 |
| LLPS-Pot-2082 | Populus trichocarpa | 36.76 | 2e-22 | 112 |
| LLPS-Art-2720 | Arabidopsis thaliana | 36.69 | 0.0 | 649 |
| LLPS-Dar-2053 | Danio rerio | 36.63 | 6e-19 | 100 |
| LLPS-Amt-1692 | Amborella trichopoda | 36.62 | 5e-21 | 107 |
| LLPS-Osl-0691 | Ostreococcus lucimarinus | 36.61 | 9e-63 | 227 |
| LLPS-Abg-1131 | Absidia glauca | 36.42 | 4e-09 | 67.8 |
| LLPS-Arl-1978 | Arabidopsis lyrata | 36.41 | 0.0 | 643 |
| LLPS-Brr-1709 | Brassica rapa | 36.4 | 0.0 | 640 |
| LLPS-Ast-1504 | Aspergillus terreus | 36.27 | 3e-17 | 94.7 |
| LLPS-Brd-2485 | Brachypodium distachyon | 36.17 | 0.0 | 641 |
| LLPS-Asm-0497 | Astyanax mexicanus | 36.14 | 1e-18 | 99.4 |
| LLPS-Bro-2709 | Brassica oleracea | 36.03 | 0.0 | 643 |
| LLPS-Mod-0471 | Monodelphis domestica | 35.71 | 2e-17 | 95.1 |
| LLPS-Scm-2000 | Scophthalmus maximus | 35.64 | 9e-19 | 99.8 |
| LLPS-Lem-1203 | Leptosphaeria maculans | 35.47 | 1e-14 | 86.3 |
| LLPS-Orl-1558 | Oryzias latipes | 35.35 | 8e-19 | 99.8 |
| LLPS-Cae-1925 | Caenorhabditis elegans | 35.23 | 3e-08 | 65.1 |
| LLPS-Zem-1902 | Zea mays | 35.15 | 4e-114 | 415 |
| LLPS-Cis-1970 | Ciona savignyi | 34.97 | 9e-15 | 86.7 |
| LLPS-Gaa-2707 | Gasterosteus aculeatus | 34.69 | 8e-20 | 103 |
| LLPS-Pof-1565 | Poecilia formosa | 34.48 | 4e-18 | 97.8 |
| LLPS-Orn-3120 | Oreochromis niloticus | 34.31 | 5e-15 | 87.4 |
| LLPS-Xim-4017 | Xiphophorus maculatus | 34.03 | 1e-28 | 131 |
| LLPS-Otg-1346 | Otolemur garnettii | 33.47 | 3e-19 | 101 |
| LLPS-Drm-1860 | Drosophila melanogaster | 33.33 | 9e-15 | 86.7 |
| LLPS-Mae-1970 | Manihot esculenta | 33.24 | 0.0 | 754 |
| LLPS-Man-3753 | Macaca nemestrina | 33.06 | 3e-18 | 98.2 |
| LLPS-Nol-0342 | Nomascus leucogenys | 33.06 | 3e-18 | 98.2 |
| LLPS-Mam-3895 | Macaca mulatta | 33.06 | 3e-18 | 98.2 |
| LLPS-Cea-3715 | Cercocebus atys | 33.06 | 2e-18 | 98.2 |
| LLPS-Maf-0237 | Macaca fascicularis | 33.06 | 2e-18 | 99.0 |
| LLPS-Mal-4508 | Mandrillus leucophaeus | 33.06 | 2e-18 | 98.6 |
| LLPS-Paa-3450 | Papio anubis | 33.06 | 2e-18 | 98.6 |
| LLPS-Ict-1727 | Ictidomys tridecemlineatus | 33.05 | 2e-17 | 95.5 |
| LLPS-Spr-1356 | Sporisorium reilianum | 32.89 | 4e-48 | 196 |
| LLPS-Fus-0476 | Fusarium solani | 32.84 | 1e-14 | 85.9 |
| LLPS-Fuo-1588 | Fusarium oxysporum | 32.84 | 1e-14 | 86.3 |
| LLPS-Fuv-0445 | Fusarium verticillioides | 32.84 | 1e-14 | 86.7 |
| LLPS-Rhb-0685 | Rhinopithecus bieti | 32.65 | 3e-17 | 94.7 |
| LLPS-Hos-3466 | Homo sapiens | 32.65 | 3e-18 | 98.2 |
| LLPS-Pap-0542 | Pan paniscus | 32.65 | 3e-18 | 98.2 |
| LLPS-Pat-3241 | Pan troglodytes | 32.65 | 3e-18 | 98.2 |
| LLPS-Poa-2401 | Pongo abelii | 32.65 | 3e-18 | 98.2 |
| LLPS-Gog-2682 | Gorilla gorilla | 32.65 | 3e-18 | 98.2 |
| LLPS-Fec-1171 | Felis catus | 32.64 | 2e-17 | 95.9 |
| LLPS-Myl-4480 | Myotis lucifugus | 32.64 | 1e-17 | 95.9 |
| LLPS-Cap-2457 | Cavia porcellus | 32.24 | 2e-17 | 95.5 |
| LLPS-Orc-2755 | Oryctolagus cuniculus | 32.22 | 2e-16 | 92.4 |
| LLPS-Pes-2645 | Pelodiscus sinensis | 32.22 | 1e-16 | 92.8 |
| LLPS-Loa-4582 | Loxodonta africana | 32.14 | 7e-24 | 116 |
| LLPS-Tra-1359 | Triticum aestivum | 32.11 | 3e-19 | 101 |
| LLPS-Mea-3816 | Mesocricetus auratus | 31.87 | 9e-21 | 106 |
| LLPS-Mup-3251 | Mustela putorius furo | 31.87 | 3e-21 | 107 |
| LLPS-Ran-3132 | Rattus norvegicus | 31.87 | 2e-21 | 108 |
| LLPS-Gaga-2809 | Gallus gallus | 31.84 | 2e-17 | 95.5 |
| LLPS-Scf-0358 | Scleropages formosus | 31.84 | 1e-17 | 95.9 |
| LLPS-Eqc-2402 | Equus caballus | 31.8 | 4e-17 | 94.4 |
| LLPS-Map-1242 | Magnaporthe poae | 31.53 | 9e-48 | 195 |
| LLPS-Asfu-0570 | Aspergillus fumigatus | 31.45 | 8e-51 | 206 |
| LLPS-Miv-1522 | Microbotryum violaceum | 31.32 | 6e-49 | 199 |
| LLPS-Mao-0547 | Magnaporthe oryzae | 31.28 | 9e-46 | 189 |
| LLPS-Asf-1324 | Aspergillus flavus | 31.25 | 8e-51 | 205 |
| LLPS-Aso-1387 | Aspergillus oryzae | 31.25 | 1e-50 | 204 |
| LLPS-Sus-1413 | Sus scrofa | 31.23 | 6e-22 | 110 |
| LLPS-Nef-0459 | Neosartorya fischeri | 31.18 | 2e-50 | 204 |
| LLPS-Gag-1456 | Gaeumannomyces graminis | 31.1 | 5e-47 | 193 |
| LLPS-Aim-1794 | Ailuropoda melanoleuca | 31.1 | 1e-17 | 95.9 |
| LLPS-Urm-2554 | Ursus maritimus | 31.08 | 6e-20 | 103 |
| LLPS-Phv-0608 | Phaseolus vulgaris | 31.07 | 0.0 | 1988 |
| LLPS-Phn-0559 | Phaeosphaeria nodorum | 30.95 | 1e-40 | 171 |
| LLPS-Chs-3118 | Chlorocebus sabaeus | 30.95 | 3e-21 | 108 |
| LLPS-Via-1415 | Vigna angularis | 30.77 | 1e-06 | 59.3 |
| LLPS-Dio-1237 | Dipodomys ordii | 30.74 | 6e-20 | 103 |
| LLPS-Ved-0332 | Verticillium dahliae | 30.72 | 3e-52 | 210 |
| LLPS-Caf-2620 | Canis familiaris | 30.68 | 2e-19 | 102 |
| LLPS-Ora-1744 | Ornithorhynchus anatinus | 30.52 | 2e-19 | 102 |
| LLPS-Trv-1060 | Trichoderma virens | 30.37 | 2e-47 | 194 |
| LLPS-Mum-4375 | Mus musculus | 30.28 | 3e-20 | 104 |
| LLPS-Aon-1755 | Aotus nancymaae | 30.16 | 6e-20 | 103 |
| LLPS-Pug-1072 | Puccinia graminis | 29.95 | 9e-38 | 162 |
| LLPS-Asn-0563 | Aspergillus nidulans | 29.87 | 1e-48 | 198 |
| LLPS-Leo-2513 | Lepisosteus oculatus | 29.54 | 2e-15 | 88.6 |
| LLPS-Mel-1103 | Melampsora laricipopulina | 29.45 | 2e-41 | 174 |
| LLPS-Fia-1121 | Ficedula albicollis | 29.32 | 4e-21 | 107 |
| LLPS-Anp-2720 | Anas platyrhynchos | 29.32 | 1e-20 | 105 |
| LLPS-Anc-3890 | Anolis carolinensis | 29.1 | 5e-19 | 100 |
| LLPS-Ova-1580 | Ovis aries | 28.88 | 4e-15 | 87.8 |
| LLPS-Bot-0974 | Bos taurus | 28.57 | 4e-15 | 87.8 |
| LLPS-Sah-2536 | Sarcophilus harrisii | 28.26 | 2e-20 | 105 |
| LLPS-Gas-1394 | Galdieria sulphuraria | 27.88 | 2e-08 | 65.9 |
| LLPS-Chc-0661 | Chondrus crispus | 27.54 | 2e-17 | 94.7 |
| LLPS-Asni-0585 | Aspergillus niger | 27.39 | 2e-49 | 201 |
| LLPS-Caj-3736 | Callithrix jacchus | 27.27 | 2e-39 | 167 |
| LLPS-Hov-0038 | Hordeum vulgare | 27.07 | 4e-31 | 140 |
| LLPS-Put-0922 | Puccinia triticina | 27.03 | 4e-29 | 134 |
| LLPS-Asg-1538 | Ashbya gossypii | 26.93 | 6e-38 | 163 |
| LLPS-Scs-0162 | Sclerotinia sclerotiorum | 26.68 | 1e-49 | 202 |
| LLPS-Trr-1220 | Trichoderma reesei | 26.67 | 8e-49 | 199 |
| LLPS-Cas-4084 | Carlito syrichta | 26.67 | 5e-38 | 163 |
| LLPS-Cogr-0813 | Colletotrichum graminicola | 26.4 | 4e-49 | 200 |
| LLPS-Kop-1124 | Komagataella pastoris | 26.35 | 7e-40 | 169 |
| LLPS-Asc-1314 | Aspergillus clavatus | 26.02 | 3e-52 | 210 |
| LLPS-Cog-1153 | Colletotrichum gloeosporioides | 25.97 | 9e-48 | 195 |
| LLPS-Cii-1715 | Ciona intestinalis | 25.94 | 4e-18 | 97.1 |
| LLPS-Blg-1558 | Blumeria graminis | 25.91 | 7e-51 | 206 |
| LLPS-Scj-0997 | Schizosaccharomyces japonicus | 25.45 | 1e-09 | 69.7 |
| LLPS-Coo-1331 | Colletotrichum orbiculare | 25.39 | 8e-48 | 196 |
| LLPS-Ten-3816 | Tetraodon nigroviridis | 25.36 | 8e-48 | 193 |
| LLPS-Nec-0671 | Neurospora crassa | 25.32 | 4e-45 | 187 |
| LLPS-Vir-1663 | Vigna radiata | 25.3 | 2e-10 | 72.4 |
| LLPS-Usm-1004 | Ustilago maydis | 25.27 | 1e-48 | 198 |
| LLPS-Tru-1467 | Triticum urartu | 25.05 | 1e-23 | 115 |
| LLPS-Tum-0921 | Tuber melanosporum | 25.0 | 3e-46 | 190 |
| LLPS-Zyt-1120 | Zymoseptoria tritici | 24.7 | 3e-54 | 217 |
| LLPS-Scp-1622 | Schizosaccharomyces pombe | 24.55 | 4e-08 | 64.3 |
| LLPS-Dos-1171 | Dothistroma septosporum | 24.52 | 2e-23 | 115 |
| LLPS-Beb-1153 | Beauveria bassiana | 24.42 | 8e-48 | 196 |
| LLPS-Yal-0793 | Yarrowia lipolytica | 24.32 | 4e-49 | 200 |
| LLPS-Fud-4202 | Fukomys damarensis | 24.19 | 3e-30 | 137 |
| LLPS-Sac-0485 | Saccharomyces cerevisiae | 23.41 | 3e-35 | 154 |
| LLPS-Crn-0336 | Cryptococcus neoformans | 22.75 | 1e-36 | 159 |
| LLPS-Meg-3074 | Meleagris gallopavo | 22.58 | 3e-30 | 137 |
| LLPS-Scc-1011 | Schizosaccharomyces cryophilus | 22.5 | 2e-23 | 115 |
| LLPS-Tag-3058 | Taeniopygia guttata | 21.87 | 2e-28 | 131 |