LLPS-Bot-0878
MARF1
Integrated Annotations
▼ OVERVIEW
Status: | Unreviewed |
Protein Name: | Meiosis regulator and mRNA stability factor 1; Limkain-b1; Meiosis arrest female protein 1 |
Gene Name: | MARF1, LKAP |
Ensembl Gene: | ENSBTAG00000020387.6 |
Ensembl Protein: | ENSBTAP00000069475.1 |
Organism: | Bos taurus |
Taxa ID: | 9913 |
LLPS Type: | Others |
▼ PROPERTY
▼ Classification
Condensates:
Condensate | Evidence | Orthologs |
---|---|---|
P-body, Stress granule | Predicted from orthologs | (View) |
▼ FUNCTION
Essential regulator of oogenesis required for female meiotic progression to repress transposable elements and preventing their mobilization, which is essential for the germline integrity. Probably acts via some RNA metabolic process, equivalent to the piRNA system in males, which mediates the repression of transposable elements during meiosis by forming complexes composed of RNAs and governs the methylation and subsequent repression of transposons. Also required to protect from DNA double-strand breaks (By similarity). |
▼ CROSS REFERENCE
Database | Nucleotide ID | Protein ID |
---|---|---|
Ensembl | ENSBTAT00000066619.1 | ENSBTAP00000069475.1 |
Ensembl | ENSBTAT00000027175.6 | ENSBTAP00000027175.6 |
UniProt | E1BP74, MARF1_BOVIN | |
GeneBank | DAAA02057550 |
▼ SEQUENCE
Protein Sequence (FASTA) |
---|
1 MMEGSGTENP CSRRVGWLQQ DNDAKPWLWR FSNCFSRPQQ TLPLSPQTKD YMENKKVAVE 60 61 LKDVPSPLHA GSKLFPAVPL PDIHSLQQPK VQLSTVPKVS CCAHCTNDPS TSPVRFGGGS 120 121 GGGAGSLVPP GALLDSQSTR TITCQVGSGL AFQSAPPLQN ASARNTLAGV ASDFPSMCLE 180 181 SNLSSCKHLP CCGKLHFQSC RGNVHKLHQF PALQGCPSSA GYFPCSDFTS GAPGHVEEHV 240 241 SQSELTPHLC TNSLHLNVVP PVCLKGSLYC EDCLSKPARN SIIDAAKVWP NIPPPNTQTA 300 301 PVTVPLCNGC GTKGMGKETT LLLATSLGKA ASKFGSPEVA LAGQMLENLP PIGVFWDIEN 360 361 CSVPSGRSAT AVVQRIREKF FKGHREAEFI CVCDISKENK EVIQELNNCQ VTVAHINATA 420 421 KNAADDKLRQ SLRRFANTHT APATVVLVST DVNFALELSD LRHRHGFHII LVHKNQASEA 480 481 LLHHANELIR FEEFISDLPP RLPLKMPCHT LLYVYNLPAN KDGKSISNRL RRLSDNCGGK 540 541 VLNITGCSAI LRFINRDSAE RALKRMENED VFGNRIVVSF TPKSSELCET KSSNATADKV 600 601 KSPKKLKNPK LCLIKDISES PSSAKAAPGK GSQANSGSAT RNANVKSLQE LCRLESKTGT 660 661 RSSEPQQGHL RLGAPPHRSS SAAAPAPKAP GLAESVYKTN PKKESLGARS VTSSPVEKKE 720 721 KEETLFQVSY PSAFSKLIAS RQVSPLLTAQ PWSSRNLSPN LLNRASPLAF NAAHSSVGAD 780 781 GPDPFAHGVD VQISNLDYRL SRKELQQLMQ EAFSRHGKVK SVELSPHTDY QLKAVVQMEN 840 841 LQEAIGAVNS LHRYKIGSKK ILVSLATGAA NKSLSLLSAE TMSILQDAPA CCLPLFKFTD 900 901 IYEKKFGHRL NVSDLYKLTD TVAIREQGNG RLVCLLPSSQ ARQSPLGSSQ SHDGSSTNCS 960 961 PIIFEELEYH EPVCRQHCPN KDFSEHEFDP DSYKIPFVIL SLKTFAPQVH SLLQTHEGTV 1020 1021 PLLSFPDCYA AEFGELEIVQ ENRGGGVPLE HLITCVPGVN IATAQNGVKV VKWIHNKPPP 1080 1081 PNTDPWLLRS KSPVGNPQLI QFSREVIDLL KNQPSCVIPI SNFIPSYHHH FAKQCRVSDY 1140 1141 GYSKLIELLE AVPHVLQILG MGSKRLLTLT HRAQVKRFTQ DLLKLLKSQA SKQVIVKEFA 1200 1201 QAYHWCFSKD WDVTEYGVCE LIDIISEIPD TTICLSQQDS EAMICIPRRE RTQDEIERTK 1260 1261 QFSKDVVDLL RHQPHFRMPF NKFIPSYHHH FGRQCKLAYY GFTKLLELFE AIPDILQVLE 1320 1321 CGEEKILTLT EVERFKALAA QFVKLLRSQK DNCLMMTDLL KEYAKTFGYT FRLQDYDVSS 1380 1381 VSALTQKLCH VVKVADMESG KQIQLINRKS LRALTAQLLV LLMSWEGTTH LSVDELKRHY 1440 1441 ESTHSTPLNP CEYGFMTLTE LLKSLPYLVE VFTNDKTEEC VKLTSLYLFA KNVRSLLHTY 1500 1501 HYQQLFLHEF SMAYSKYVGE TLQPKTYGFS SVEELLGAIP QVVWIKGHGH KRIVVLKNDM 1560 1561 KSRVNSLGPS PASHETQPSA PERILEVPES PPASELRLGV GGDGPHPAEQ ELLRLTDDSP 1620 1621 VDLLCAPVPS CLPSPQLRPD PVVLQAADLI WFEEHPQEPS EIMILNQEEK IEIPVPIRNE 1680 1681 NLPPDPSSPG VSAAVPAPPS PSSETPESLL SKDPTESPAK KQPKNRVKLA ANFSFAPITK 1740 1741 L 1741 |
Nucleotide CDS Sequence (FASTA) |
1 ATGATGGAAG GAAGCGGAAC TGAGAACCCC TGCAGTAGAA GAGTTGGATG GCTTCAACAA 60 61 GATAACGATG CTAAGCCATG GCTTTGGAGA TTCTCTAACT GCTTTTCTCG TCCTCAGCAA 120 121 ACGTTGCCAC TTAGTCCCCA AACGAAAGAT TACATGGAGA ACAAGAAAGT TGCTGTGGAA 180 181 CTAAAGGATG TACCATCTCC CCTTCATGCT GGCTCTAAAC TTTTCCCAGC AGTCCCACTT 240 241 CCAGATATCC ACTCTCTTCA GCAACCTAAA GTACAGCTTT CAACTGTCCC CAAAGTAAGC 300 301 TGCTGTGCCC ATTGCACTAA TGACCCTTCC ACTTCGCCAG TGCGTTTTGG TGGTGGCAGT 360 361 GGCGGAGGGG CTGGTAGCTT GGTTCCCCCG GGCGCCCTGT TAGACTCGCA GAGCACCAGG 420 421 ACAATCACGT GTCAGGTAGG GTCAGGGCTT GCTTTCCAGT CTGCACCTCC ACTCCAGAAT 480 481 GCGTCAGCTA GGAACACCTT GGCCGGCGTT GCAAGCGACT TTCCCAGCAT GTGTCTAGAA 540 541 AGTAACCTCT CTTCCTGCAA GCACCTGCCC TGTTGTGGGA AGCTGCACTT CCAGTCGTGC 600 601 CGTGGGAACG TGCACAAGCT GCATCAGTTT CCGGCTCTCC AGGGCTGTCC TTCCTCTGCG 660 661 GGCTATTTCC CCTGTTCTGA TTTCACAAGC GGGGCTCCCG GGCACGTGGA AGAACACGTT 720 721 TCACAGTCGG AGCTCACGCC TCACTTATGC ACCAACTCTT TGCACCTAAA TGTGGTACCT 780 781 CCAGTTTGTT TAAAGGGCTC ACTTTACTGC GAAGACTGTC TCAGCAAGCC AGCAAGAAAT 840 841 AGTATAATTG ATGCTGCTAA AGTCTGGCCA AATATACCAC CTCCAAACAC TCAGACTGCA 900 901 CCTGTTACTG TTCCTCTGTG TAATGGCTGT GGAACCAAAG GAATGGGAAA GGAGACCACG 960 961 TTGTTATTGG CAACCAGTCT AGGCAAAGCT GCTTCGAAAT TTGGGTCACC AGAAGTTGCA 1020 1021 CTGGCAGGAC AGATGCTAGA GAACTTACCC CCCATTGGGG TTTTTTGGGA TATTGAAAAC 1080 1081 TGCTCAGTCC CTTCTGGCCG CTCAGCTACT GCAGTTGTAC AGAGAATCCG GGAGAAGTTT 1140 1141 TTTAAAGGCC ACAGAGAAGC AGAATTCATT TGTGTATGTG ACATCAGTAA AGAAAATAAA 1200 1201 GAAGTTATTC AAGAGCTGAA TAATTGCCAG GTAACTGTCG CCCACATCAA TGCTACTGCA 1260 1261 AAGAACGCTG CTGACGACAA GCTCCGCCAG AGCCTCCGAA GGTTTGCAAA TACTCACACT 1320 1321 GCTCCCGCCA CTGTGGTTCT TGTGTCAACT GATGTCAATT TCGCATTGGA ACTTAGTGAC 1380 1381 CTGAGACACA GACATGGCTT CCATATAATT TTGGTCCATA AAAACCAGGC CTCAGAAGCA 1440 1441 CTGCTGCATC ACGCCAACGA GCTGATCAGA TTTGAAGAAT TCATTTCTGA CCTGCCCCCC 1500 1501 AGGTTACCAC TAAAAATGCC ATGCCACACT CTGCTCTACG TTTATAACCT ACCGGCCAAC 1560 1561 AAAGACGGCA AGAGCATCAG CAACAGGCTC AGACGCCTGT CCGATAACTG TGGCGGGAAA 1620 1621 GTGCTGAACA TCACAGGCTG CAGCGCCATC CTCCGCTTCA TAAACCGAGA CAGCGCAGAG 1680 1681 CGGGCTCTGA AGCGGATGGA AAATGAAGAC GTCTTTGGTA ACAGGATCGT CGTGTCATTT 1740 1741 ACTCCAAAAA GCAGCGAACT CTGTGAAACC AAGAGTTCAA ACGCAACTGC TGATAAAGTG 1800 1801 AAGTCTCCCA AGAAACTTAA GAATCCAAAA CTGTGCCTCA TCAAAGACAT AAGTGAGTCA 1860 1861 CCTTCCAGTG CCAAAGCCGC ACCTGGAAAA GGGTCGCAGG CAAATTCTGG ATCTGCTACC 1920 1921 AGAAACGCCA ACGTGAAAAG TTTACAGGAG CTGTGCCGCC TGGAGTCGAA GACTGGCACT 1980 1981 CGAAGCAGTG AGCCCCAGCA AGGCCACCTG CGGCTGGGGG CGCCTCCTCA CAGAAGCTCA 2040 2041 AGTGCCGCAG CGCCCGCACC TAAAGCCCCA GGGTTGGCAG AATCTGTTTA CAAAACCAAT 2100 2101 CCCAAGAAAG AGAGCCTCGG CGCCCGCAGT GTCACCAGTT CTCCTGTGGA GAAGAAAGAG 2160 2161 AAAGAGGAGA CTCTGTTCCA AGTGAGTTAC CCGTCTGCTT TTAGCAAGTT GATCGCATCC 2220 2221 AGGCAAGTGA GTCCCCTGCT CACGGCTCAG CCTTGGTCTT CTCGGAATCT GTCTCCAAAC 2280 2281 CTCTTAAACA GAGCATCTCC GCTTGCTTTC AACGCTGCAC ATTCAAGCGT TGGTGCCGAT 2340 2341 GGCCCAGACC CATTCGCTCA TGGTGTTGAC GTCCAGATCA GCAACCTGGA CTACAGGTTG 2400 2401 TCCCGGAAGG AGCTGCAGCA GCTCATGCAG GAAGCATTTT CTAGGCACGG CAAGGTGAAG 2460 2461 AGTGTTGAGC TCAGCCCCCA CACAGATTAT CAGCTCAAAG CTGTGGTTCA GATGGAGAAC 2520 2521 TTACAAGAAG CTATCGGTGC GGTGAATAGC CTCCACAGAT ACAAAATTGG CAGCAAGAAA 2580 2581 ATCCTGGTCT CACTTGCCAC AGGAGCTGCT AATAAATCAC TCTCTTTACT GAGCGCAGAA 2640 2641 ACAATGTCCA TTCTTCAGGA TGCTCCTGCC TGTTGTCTGC CTCTTTTTAA ATTTACAGAT 2700 2701 ATCTATGAAA AAAAGTTTGG ACACAGGTTG AATGTGTCAG ATCTGTATAA ACTAACAGAT 2760 2761 ACGGTTGCAA TCCGTGAACA AGGAAATGGC AGGCTGGTGT GTCTCTTACC CAGCAGTCAG 2820 2821 GCCCGCCAGA GCCCCTTGGG ATCTTCCCAG TCTCACGACG GCTCCTCAAC AAACTGCAGC 2880 2881 CCAATCATAT TTGAAGAGTT AGAATATCAC GAGCCTGTCT GCAGGCAGCA CTGTCCCAAC 2940 2941 AAGGATTTCA GTGAACATGA ATTCGATCCA GACTCTTACA AGATTCCTTT TGTGATTCTC 3000 3001 TCTCTGAAGA CGTTTGCGCC CCAGGTCCAT AGTCTTCTGC AGACACACGA GGGCACCGTG 3060 3061 CCTTTATTAA GTTTTCCAGA TTGTTATGCT GCAGAGTTTG GCGAACTGGA AATAGTGCAG 3120 3121 GAAAACCGAG GCGGGGGCGT CCCCTTGGAG CACCTCATCA CCTGCGTGCC AGGTGTGAAC 3180 3181 ATCGCCACCG CACAGAATGG CGTCAAAGTA GTTAAGTGGA TTCACAACAA GCCCCCGCCT 3240 3241 CCAAACACAG ACCCTTGGCT TCTGCGTTCT AAAAGTCCTG TGGGTAACCC CCAGCTGATC 3300 3301 CAGTTCAGTA GAGAAGTGAT CGATCTATTG AAGAACCAAC CATCCTGTGT CATACCAATT 3360 3361 AGTAACTTCA TCCCCTCTTA CCACCATCAT TTTGCAAAGC AGTGCCGGGT ATCGGACTAT 3420 3421 GGCTATTCCA AGCTGATCGA ATTGTTAGAA GCAGTGCCTC ATGTGTTGCA GATTCTTGGA 3480 3481 ATGGGCTCCA AACGTCTGCT GACCCTTACC CACAGAGCCC AGGTGAAGCG CTTTACTCAG 3540 3541 GATCTACTGA AACTTCTCAA ATCCCAAGCC AGCAAACAAG TCATTGTGAA AGAATTCGCA 3600 3601 CAGGCTTACC ATTGGTGTTT CTCAAAGGAC TGGGATGTCA CTGAATATGG TGTTTGTGAG 3660 3661 TTGATTGATA TCATATCAGA GATCCCAGAC ACCACCATCT GCTTGTCCCA ACAAGATAGC 3720 3721 GAAGCAATGA TTTGTATCCC CAGAAGAGAA CGTACTCAGG ATGAAATAGA AAGGACAAAA 3780 3781 CAGTTCTCCA AAGATGTTGT GGATTTGCTG CGGCATCAAC CCCATTTCCG GATGCCCTTT 3840 3841 AATAAATTTA TCCCCTCTTA CCATCACCAC TTTGGCCGGC AGTGCAAACT TGCATACTAT 3900 3901 GGTTTTACCA AACTACTTGA ACTTTTTGAA GCCATACCTG ATATTTTACA AGTATTGGAA 3960 3961 TGTGGAGAAG AGAAGATCCT CACTTTGACA GAGGTTGAAC GATTCAAAGC TCTAGCTGCC 4020 4021 CAGTTCGTTA AACTCCTTCG GTCCCAAAAA GATAACTGCC TTATGATGAC AGATCTGCTT 4080 4081 AAGGAATATG CTAAGACTTT TGGTTACACA TTTCGTCTCC AAGACTACGA TGTCAGTTCA 4140 4141 GTTTCAGCTT TAACACAGAA ACTCTGCCAT GTCGTAAAGG TTGCTGATAT GGAATCTGGC 4200 4201 AAACAGATTC AGCTGATCAA CCGCAAGTCT CTGCGTGCTC TCACTGCCCA GCTGCTGGTG 4260 4261 TTGTTGATGT CTTGGGAGGG AACCACCCAC CTTTCTGTCG ACGAGCTCAA GAGACACTAT 4320 4321 GAAAGCACAC ACAGCACTCC TCTCAACCCC TGTGAATATG GGTTCATGAC CTTGACCGAA 4380 4381 CTTCTGAAGA GTCTGCCTTA CTTAGTTGAG GTTTTTACTA ATGACAAGAC AGAGGAGTGT 4440 4441 GTGAAGCTAA CAAGTCTGTA TTTGTTTGCC AAGAACGTTC GGTCTTTGCT TCATACTTAC 4500 4501 CACTACCAGC AGCTTTTCCT TCATGAATTT TCCATGGCCT ATAGCAAGTA TGTGGGAGAA 4560 4561 ACACTGCAGC CCAAGACATA TGGCTTCAGT AGTGTGGAGG AGCTGTTGGG AGCCATCCCG 4620 4621 CAGGTGGTCT GGATAAAAGG ACATGGTCAT AAGAGAATTG TAGTGTTAAA AAATGACATG 4680 4681 AAAAGTCGCG TGAATTCACT CGGTCCTTCC CCTGCCAGTC ACGAGACCCA GCCCTCAGCT 4740 4741 CCCGAGCGCA TCCTGGAGGT GCCTGAGTCT CCCCCGGCCT CGGAGCTCAG ACTCGGAGTG 4800 4801 GGTGGCGACG GGCCCCATCC TGCGGAGCAG GAGCTGCTGC GCCTGACCGA CGACTCCCCG 4860 4861 GTGGACCTCC TGTGCGCGCC CGTCCCCTCC TGCCTGCCGT CCCCGCAGCT GAGGCCGGAT 4920 4921 CCCGTCGTTC TCCAGGCTGC CGATCTCATC TGGTTTGAGG AGCACCCTCA GGAGCCTTCA 4980 4981 GAAATTATGA TTTTAAACCA AGAAGAGAAA ATTGAAATTC CAGTACCAAT AAGGAACGAA 5040 5041 AACCTGCCCC CTGATCCCAG CTCACCTGGT GTCTCGGCAG CTGTCCCGGC GCCTCCCAGC 5100 5101 CCCTCCTCAG AAACCCCAGA GTCGCTGCTC AGCAAGGACC CCACGGAAAG CCCAGCCAAA 5160 5161 AAGCAACCCA AAAATAGAGT AAAATTGGCA GCCAACTTTT CCTTTGCACC TATAACCAAG 5220 5221 CTTTGA 5226 |
▼ KEYWORD
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | Golgi apparatus | |
Cellular Component | Peroxisome | |
Molecular Function | RNA binding | |
Biological Process | Double-strand break repair | |
Biological Process | Female meiotic nuclear division | |
Biological Process | Negative regulation of phosphatase activity | |
Biological Process | Oogenesis | |
Biological Process | Regulation of gene expression |
▼ ORTHOLOGY
DrLLPS ID | Organism | Identity | E-value | Score |
---|---|---|---|---|
LLPS-Ova-2564 | Ovis aries | 97.42 | 0.0 | 3270 |
LLPS-Fec-2247 | Felis catus | 91.58 | 0.0 | 3115 |
LLPS-Caf-3595 | Canis familiaris | 91.24 | 0.0 | 3111 |
LLPS-Aim-3667 | Ailuropoda melanoleuca | 90.94 | 0.0 | 3084 |
LLPS-Orc-1244 | Oryctolagus cuniculus | 90.82 | 9e-50 | 199 |
LLPS-Loa-1324 | Loxodonta africana | 90.54 | 0.0 | 3112 |
LLPS-Pap-0976 | Pan paniscus | 90.37 | 0.0 | 3063 |
LLPS-Hos-1212 | Homo sapiens | 90.31 | 0.0 | 3061 |
LLPS-Pat-1693 | Pan troglodytes | 90.25 | 0.0 | 3061 |
LLPS-Eqc-0250 | Equus caballus | 90.2 | 0.0 | 3048 |
LLPS-Man-0977 | Macaca nemestrina | 90.19 | 0.0 | 3069 |
LLPS-Gog-1629 | Gorilla gorilla | 90.19 | 0.0 | 3055 |
LLPS-Maf-3191 | Macaca fascicularis | 90.08 | 0.0 | 3065 |
LLPS-Cea-3069 | Cercocebus atys | 90.08 | 0.0 | 3064 |
LLPS-Paa-2659 | Papio anubis | 90.08 | 0.0 | 3071 |
LLPS-Mal-2185 | Mandrillus leucophaeus | 90.03 | 0.0 | 3068 |
LLPS-Mam-2341 | Macaca mulatta | 90.02 | 0.0 | 3064 |
LLPS-Mup-2447 | Mustela putorius furo | 89.94 | 0.0 | 3025 |
LLPS-Chs-1570 | Chlorocebus sabaeus | 89.85 | 0.0 | 3063 |
LLPS-Urm-2062 | Ursus maritimus | 89.8 | 0.0 | 3040 |
LLPS-Rhb-3877 | Rhinopithecus bieti | 89.57 | 0.0 | 3051 |
LLPS-Aon-2381 | Aotus nancymaae | 89.22 | 0.0 | 3071 |
LLPS-Nol-3712 | Nomascus leucogenys | 89.0 | 0.0 | 3035 |
LLPS-Caj-0816 | Callithrix jacchus | 88.93 | 0.0 | 3055 |
LLPS-Sus-1053 | Sus scrofa | 88.89 | 0.0 | 2964 |
LLPS-Cas-0849 | Carlito syrichta | 88.49 | 0.0 | 3025 |
LLPS-Fud-0433 | Fukomys damarensis | 87.82 | 0.0 | 3011 |
LLPS-Ict-4353 | Ictidomys tridecemlineatus | 87.74 | 0.0 | 2994 |
LLPS-Cap-3092 | Cavia porcellus | 87.61 | 0.0 | 3009 |
LLPS-Myl-2909 | Myotis lucifugus | 85.57 | 0.0 | 2873 |
LLPS-Dio-0399 | Dipodomys ordii | 84.56 | 0.0 | 2836 |
LLPS-Mum-3843 | Mus musculus | 83.58 | 0.0 | 2835 |
LLPS-Ran-2554 | Rattus norvegicus | 82.66 | 0.0 | 2846 |
LLPS-Mea-0575 | Mesocricetus auratus | 81.82 | 0.0 | 2696 |
LLPS-Fia-1706 | Ficedula albicollis | 80.68 | 0.0 | 1093 |
LLPS-Mod-0049 | Monodelphis domestica | 79.19 | 0.0 | 956 |
LLPS-Sah-2551 | Sarcophilus harrisii | 79.03 | 0.0 | 2758 |
LLPS-Ora-1504 | Ornithorhynchus anatinus | 76.92 | 0.0 | 2589 |
LLPS-Pes-1821 | Pelodiscus sinensis | 76.1 | 0.0 | 1845 |
LLPS-Anp-2993 | Anas platyrhynchos | 75.71 | 0.0 | 2620 |
LLPS-Gaga-2699 | Gallus gallus | 75.09 | 0.0 | 2595 |
LLPS-Meg-3015 | Meleagris gallopavo | 74.97 | 0.0 | 2587 |
LLPS-Tag-0866 | Taeniopygia guttata | 74.7 | 0.0 | 2554 |
LLPS-Anc-2592 | Anolis carolinensis | 72.0 | 0.0 | 800 |
LLPS-Tar-2787 | Takifugu rubripes | 71.55 | 4e-96 | 344 |
LLPS-Lac-1273 | Latimeria chalumnae | 66.08 | 0.0 | 2270 |
LLPS-Icp-2938 | Ictalurus punctatus | 65.8 | 0.0 | 1264 |
LLPS-Scm-3634 | Scophthalmus maximus | 65.69 | 4e-127 | 445 |
LLPS-Asm-3306 | Astyanax mexicanus | 65.26 | 0.0 | 1245 |
LLPS-Ten-1329 | Tetraodon nigroviridis | 64.85 | 5e-113 | 374 |
LLPS-Xet-1993 | Xenopus tropicalis | 64.78 | 0.0 | 2163 |
LLPS-Orl-1450 | Oryzias latipes | 63.34 | 2e-114 | 405 |
LLPS-Dar-0242 | Danio rerio | 63.25 | 0.0 | 1173 |
LLPS-Xim-2563 | Xiphophorus maculatus | 60.95 | 0.0 | 1193 |
LLPS-Orn-4075 | Oreochromis niloticus | 60.64 | 0.0 | 1654 |
LLPS-Gaa-1069 | Gasterosteus aculeatus | 59.64 | 0.0 | 1679 |
LLPS-Leo-2684 | Lepisosteus oculatus | 58.33 | 0.0 | 1842 |
LLPS-Scf-2704 | Scleropages formosus | 56.23 | 0.0 | 1793 |
LLPS-Cis-0985 | Ciona savignyi | 48.15 | 2e-41 | 171 |
LLPS-Cii-0044 | Ciona intestinalis | 38.4 | 8e-72 | 253 |
LLPS-Bro-2626 | Brassica oleracea | 31.85 | 9e-12 | 74.3 |
LLPS-Spr-1227 | Sporisorium reilianum | 31.58 | 1e-10 | 71.2 |
LLPS-Drm-1953 | Drosophila melanogaster | 31.39 | 5e-89 | 323 |
LLPS-Brr-2764 | Brassica rapa | 31.11 | 5e-11 | 71.6 |
LLPS-Art-2643 | Arabidopsis thaliana | 30.6 | 6e-10 | 68.6 |
LLPS-Arl-1401 | Arabidopsis lyrata | 30.6 | 5e-10 | 68.6 |
LLPS-Pot-2122 | Populus trichocarpa | 30.46 | 4e-12 | 75.5 |
LLPS-Nia-1108 | Nicotiana attenuata | 30.46 | 4e-12 | 75.5 |
LLPS-Dac-2118 | Daucus carota | 30.46 | 7e-13 | 77.8 |
LLPS-Sol-0414 | Solanum lycopersicum | 30.12 | 9e-13 | 77.4 |
LLPS-Sot-1807 | Solanum tuberosum | 30.12 | 5e-13 | 78.6 |
LLPS-Amt-0559 | Amborella trichopoda | 29.66 | 4e-10 | 68.9 |
LLPS-Hea-0269 | Helianthus annuus | 29.14 | 6e-12 | 74.7 |
LLPS-Viv-1603 | Vitis vinifera | 28.97 | 1e-10 | 70.9 |
LLPS-Gor-1949 | Gossypium raimondii | 28.86 | 2e-09 | 66.6 |
LLPS-Mae-1945 | Manihot esculenta | 28.86 | 1e-10 | 70.9 |
LLPS-Thc-0345 | Theobroma cacao | 28.86 | 6e-10 | 68.6 |
LLPS-Glm-2498 | Glycine max | 28.48 | 2e-11 | 73.6 |
LLPS-Met-0452 | Medicago truncatula | 28.48 | 1e-11 | 73.9 |
LLPS-Cus-0509 | Cucumis sativus | 28.28 | 4e-09 | 65.9 |
LLPS-Coc-1248 | Corchorus capsularis | 28.19 | 5e-09 | 65.5 |
LLPS-Mua-1393 | Musa acuminata | 28.19 | 3e-09 | 65.9 |
LLPS-Via-2316 | Vigna angularis | 28.19 | 2e-11 | 72.8 |
LLPS-Brn-3224 | Brassica napus | 28.09 | 8e-12 | 74.3 |