LLPS-Hos-a112
PLXNA2
▼ PROPERTY
▼ Classification
Condensates:
| Condensate | Description | Tissue/Cell | PMIDs |
|---|---|---|---|
| Postsynaptic density | "...We report the first direct comparison of the proteome of triplicate isolates of mouse and human cortical postsynaptic densities. The mouse postsynaptic density comprised 1556 proteins and the human one 1461." | Human cortex | 23071613 |
▼ FUNCTION
| Coreceptor for SEMA3A and SEMA6A. Necessary for signaling by SEMA6A and class 3 semaphorins and subsequent remodeling of the cytoskeleton. Plays a role in axon guidance, invasive growth and cell migration. Class 3 semaphorins bind to a complex composed of a neuropilin and a plexin. The plexin modulates the affinity of the complex for specific semaphorins, and its cytoplasmic domain is required for the activation of down-stream signaling events in the cytoplasm (By similarity). |
▼ CROSS REFERENCE
| Database | Nucleotide ID | Protein ID |
|---|---|---|
| Ensembl | ENST00000367033.3 | ENSP00000356000.3 |
| UniProt | O75051, PLXA2_HUMAN, A2RTX9, B2RMX7, Q6UX61, Q96GN9, Q9BRL1, Q9UIW1 | |
| GeneBank | BC009343, BC132676, X87831, BC136530, AL590138, BC006193, AY358496, AB007932, AL356275 | CAB57275.1, AAI36531.1, AAH06193.2, BAA32308.1, AAH09343.2, AAQ88860.1, AAI32677.2 |
| RefSeq | NM_025179.3 | NP_079455.3 |
| Entrez | 5362 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 MEQRRPWPRA LEVDSRSVVL LSVVWVLLAP PAAGMPQFST FHSENRDWTF NHLTVHQGTG 60 61 AVYVGAINRV YKLTGNLTIQ VAHKTGPEED NKSCYPPLIV QPCSEVLTLT NNVNKLLIID 120 121 YSENRLLACG SLYQGVCKLL RLDDLFILVE PSHKKEHYLS SVNKTGTMYG VIVRSEGEDG 180 181 KLFIGTAVDG KQDYFPTLSS RKLPRDPESS AMLDYELHSD FVSSLIKIPS DTLALVSHFD 240 241 IFYIYGFASG GFVYFLTVQP ETPEGVAINS AGDLFYTSRI VRLCKDDPKF HSYVSLPFGC 300 301 TRAGVEYRLL QAAYLAKPGD SLAQAFNITS QDDVLFAIFS KGQKQYHHPP DDSALCAFPI 360 361 RAINLQIKER LQSCYQGEGN LELNWLLGKD VQCTKAPVPI DDNFCGLDIN QPLGGSTPVE 420 421 GLTLYTTSRD RMTSVASYVY NGYSVVFVGT KSGKLKKIRA DGPPHGGVQY EMVSVLKDGS 480 481 PILRDMAFSI DQRYLYVMSE RQVTRVPVES CEQYTTCGEC LSSGDPHCGW CALHNMCSRR 540 541 DKCQQAWEPN RFAASISQCV SLAVHPSSIS VSEHSRLLSL VVSDAPDLSA GIACAFGNLT 600 601 EVEGQVSGSQ VICISPGPKD VPVIPLDQDW FGLELQLRSK ETGKIFVSTE FKFYNCSAHQ 660 661 LCLSCVNSAF RCHWCKYRNL CTHDPTTCSF QEGRINISED CPQLVPTEEI LIPVGEVKPI 720 721 TLKARNLPQP QSGQRGYECV LNIQGAIHRV PALRFNSSSV QCQNSSYQYD GMDISNLAVD 780 781 FAVVWNGNFI IDNPQDLKVH LYKCAAQRES CGLCLKADRK FECGWCSGER RCTLHQHCTS 840 841 PSSPWLDWSS HNVKCSNPQI TEILTVSGPP EGGTRVTIHG VNLGLDFSEI AHHVQVAGVP 900 901 CTPLPGEYII AEQIVCEMGH ALVGTTSGPV RLCIGECKPE FMTKSHQQYT FVNPSVLSLN 960 961 PIRGPESGGT MVTITGHYLG AGSSVAVYLG NQTCEFYGRS MSEIVCVSPP SSNGLGPVPV 1020 1021 SVSVDRAHVD SNLQFEYIDD PRVQRIEPEW SIASGHTPLT ITGFNLDVIQ EPRIRVKFNG 1080 1081 KESVNVCKVV NTTTLTCLAP SLTTDYRPGL DTVERPDEFG FVFNNVQSLL IYNDTKFIYY 1140 1141 PNPTFELLSP TGVLDQKPGS PIILKGKNLC PPASGGAKLN YTVLIGETPC AVTVSETQLL 1200 1201 CEPPNLTGQH KVMVHVGGMV FSPGSVSVIS DSLLTLPAIV SIAAGGSLLL IIVIIVLIAY 1260 1261 KRKSRENDLT LKRLQMQMDN LESRVALECK EAFAELQTDI NELTSDLDRS GIPYLDYRTY 1320 1321 AMRVLFPGIE DHPVLRELEV QGNGQQHVEK ALKLFAQLIN NKVFLLTFIR TLELQRSFSM 1380 1381 RDRGNVASLI MTGLQGRLEY ATDVLKQLLS DLIDKNLENK NHPKLLLRRT ESVAEKMLTN 1440 1441 WFAFLLHKFL KECAGEPLFM LYCAIKQQME KGPIDAITGE ARYSLSEDKL IRQQIEYKTL 1500 1501 ILNCVNPDNE NSPEIPVKVL NCDTITQVKE KILDAVYKNV PYSQRPRAVD MDLEWRQGRI 1560 1561 ARVVLQDEDI TTKIEGDWKR LNTLMHYQVS DRSVVALVPK QTSSYNIPAS ASISRTSISR 1620 1621 YDSSFRYTGS PDSLRSRAPM ITPDLESGVK VWHLVKNHDH GDQKEGDRGS KMVSEIYLTR 1680 1681 LLATKGTLQK FVDDLFETLF STVHRGSALP LAIKYMFDFL DEQADRHSIH DTDVRHTWKS 1740 1741 NCLPLRFWVN VIKNPQFVFD IHKGSITDAC LSVVAQTFMD SCSTSEHRLG KDSPSNKLLY 1800 1801 AKDIPSYKSW VERYYADIAK LPAISDQDMN AYLAEQSRLH AVEFNMLSAL NEIYSYVSKY 1860 1861 SEELIGALEQ DEQARRQRLA YKVEQLINAM SIES 1894 |
| Nucleotide CDS Sequence (FASTA) |
1 ATGGAACAGA GGCGGCCCTG GCCCCGGGCC CTGGAGGTGG ACAGCCGCTC TGTGGTCCTG 60 61 CTCTCAGTGG TCTGGGTGCT GCTGGCCCCC CCAGCAGCCG GCATGCCTCA GTTCAGCACC 120 121 TTCCACTCTG AGAATCGTGA CTGGACCTTC AACCACTTGA CCGTCCACCA AGGGACGGGG 180 181 GCCGTCTATG TGGGGGCCAT CAACCGGGTC TATAAGCTGA CAGGCAACCT GACCATCCAG 240 241 GTGGCTCATA AGACAGGGCC AGAAGAGGAC AACAAGTCTT GTTACCCGCC CCTCATCGTG 300 301 CAGCCCTGCA GCGAAGTGCT CACCCTCACC AACAATGTCA ACAAGCTGCT CATCATTGAC 360 361 TACTCTGAGA ACCGCCTGCT GGCCTGTGGG AGCCTCTACC AGGGGGTCTG CAAGCTGCTG 420 421 CGGCTGGATG ACCTCTTCAT CCTGGTGGAG CCATCCCACA AGAAGGAGCA CTACCTGTCC 480 481 AGTGTCAACA AGACGGGCAC CATGTACGGG GTGATTGTGC GCTCTGAGGG TGAGGATGGC 540 541 AAGCTCTTCA TCGGCACGGC TGTGGATGGG AAGCAGGATT ACTTCCCGAC CCTGTCCAGC 600 601 CGGAAGCTGC CCCGAGACCC TGAGTCCTCA GCCATGCTCG ACTATGAGCT ACACAGCGAT 660 661 TTTGTCTCCT CTCTCATCAA GATCCCTTCA GACACCCTGG CCCTGGTCTC CCACTTTGAC 720 721 ATCTTCTACA TCTACGGCTT TGCTAGTGGG GGCTTTGTCT ACTTTCTCAC TGTCCAGCCC 780 781 GAGACCCCTG AGGGTGTGGC CATCAACTCC GCTGGAGACC TCTTCTACAC CTCACGCATC 840 841 GTGCGGCTCT GCAAGGATGA CCCCAAGTTC CACTCATACG TGTCCCTGCC CTTCGGCTGC 900 901 ACCCGGGCCG GGGTGGAATA CCGCCTCCTG CAGGCTGCTT ACCTGGCCAA GCCTGGGGAC 960 961 TCACTGGCCC AGGCCTTCAA TATCACCAGC CAGGACGATG TACTCTTTGC CATCTTCTCC 1020 1021 AAAGGGCAGA AGCAGTATCA CCACCCGCCC GATGACTCTG CCCTGTGTGC CTTCCCTATC 1080 1081 CGGGCCATCA ACTTGCAGAT CAAGGAGCGC CTGCAGTCCT GCTACCAGGG CGAGGGCAAC 1140 1141 CTGGAGCTCA ACTGGCTGCT GGGGAAGGAC GTCCAGTGCA CCAAGGCGCC TGTCCCCATC 1200 1201 GATGATAACT TCTGTGGACT GGACATCAAC CAGCCCCTGG GAGGCTCAAC TCCAGTGGAG 1260 1261 GGCCTGACCC TGTACACCAC CAGCAGGGAC CGCATGACCT CTGTGGCCTC CTACGTTTAC 1320 1321 AACGGCTACA GCGTGGTTTT TGTGGGGACT AAGAGTGGCA AGCTGAAAAA GATTCGGGCC 1380 1381 GACGGTCCCC CCCATGGTGG GGTCCAGTAC GAGATGGTCT CTGTGCTCAA GGACGGAAGC 1440 1441 CCCATCCTCC GGGACATGGC CTTCTCCATT GATCAGCGCT ACCTGTACGT CATGTCTGAG 1500 1501 AGACAGGTCA CCAGGGTCCC CGTGGAGTCA TGTGAGCAGT ATACGACTTG TGGGGAGTGC 1560 1561 CTGAGCTCTG GGGACCCTCA CTGTGGCTGG TGTGCCCTGC ACAACATGTG CTCCCGCAGG 1620 1621 GACAAATGCC AACAGGCCTG GGAACCTAAT CGATTTGCTG CCAGCATCAG CCAGTGTGTG 1680 1681 AGCCTTGCAG TGCATCCCAG CAGCATCTCA GTATCTGAGC ACAGCCGGTT GCTTAGCCTG 1740 1741 GTAGTGAGTG ATGCTCCTGA TCTATCTGCG GGTATCGCCT GTGCCTTTGG GAACCTGACA 1800 1801 GAGGTGGAGG GGCAGGTGTC CGGGAGCCAG GTCATCTGCA TCTCACCTGG GCCCAAGGAT 1860 1861 GTCCCTGTCA TCCCGCTGGA TCAAGACTGG TTTGGGCTGG AGCTACAGCT GAGGTCCAAG 1920 1921 GAGACAGGGA AGATATTTGT CAGCACCGAG TTCAAGTTTT ACAACTGCAG TGCCCACCAA 1980 1981 CTGTGCCTGT CCTGTGTCAA CAGCGCCTTC CGCTGCCATT GGTGCAAGTA CCGCAACCTC 2040 2041 TGCACTCATG ACCCCACCAC CTGCTCCTTC CAGGAGGGCC GGATCAATAT TTCAGAGGAC 2100 2101 TGTCCCCAGC TGGTGCCCAC AGAGGAGATC TTGATTCCAG TCGGGGAGGT AAAGCCAATC 2160 2161 ACCCTTAAGG CGCGAAATCT GCCCCAGCCG CAGTCCGGCC AGCGAGGCTA TGAGTGTGTC 2220 2221 CTCAACATAC AAGGAGCCAT CCACCGGGTC CCCGCTCTGC GCTTCAACAG CTCCAGCGTT 2280 2281 CAGTGTCAGA ACAGCTCGTA CCAGTATGAT GGCATGGACA TCAGCAATCT GGCCGTGGAT 2340 2341 TTCGCTGTGG TGTGGAACGG CAATTTCATC ATTGACAACC CTCAGGACCT GAAAGTCCAT 2400 2401 CTCTACAAGT GTGCAGCCCA GCGGGAGAGC TGCGGCCTCT GCCTCAAGGC CGACCGGAAG 2460 2461 TTTGAGTGTG GCTGGTGCAG CGGCGAGCGC AGGTGCACCC TCCACCAGCA CTGTACCAGC 2520 2521 CCTTCCAGCC CCTGGCTCGA CTGGTCCAGC CACAATGTCA AGTGCTCCAA CCCTCAAATC 2580 2581 ACCGAGATTT TGACGGTGTC TGGACCGCCG GAAGGAGGGA CGCGAGTGAC CATCCATGGC 2640 2641 GTGAACCTGG GTCTGGACTT CTCCGAGATC GCCCACCATG TGCAGGTGGC TGGGGTGCCC 2700 2701 TGCACGCCCC TCCCAGGGGA ATACATCATC GCTGAGCAGA TTGTCTGTGA GATGGGCCAT 2760 2761 GCCCTCGTGG GAACCACCTC CGGGCCAGTA CGCCTGTGTA TTGGCGAGTG TAAGCCAGAG 2820 2821 TTCATGACGA AGTCCCATCA GCAGTACACC TTCGTGAACC CTTCTGTGCT GTCACTCAAC 2880 2881 CCAATCCGAG GTCCCGAGTC AGGAGGCACT ATGGTGACCA TTACCGGCCA TTACCTTGGG 2940 2941 GCTGGGAGCA GCGTGGCAGT CTACCTGGGC AACCAGACCT GCGAGTTCTA CGGGAGGTCA 3000 3001 ATGAGTGAGA TCGTGTGTGT CTCACCCCCA TCATCCAATG GCCTTGGCCC GGTCCCTGTT 3060 3061 TCTGTGAGTG TCGACCGAGC CCATGTGGAT AGCAACCTGC AGTTTGAGTA CATAGATGAC 3120 3121 CCTCGGGTCC AGCGCATCGA GCCAGAGTGG AGCATTGCCA GTGGCCACAC ACCCCTGACC 3180 3181 ATCACAGGCT TCAACCTGGA TGTCATTCAG GAGCCAAGGA TCCGAGTCAA ATTCAATGGC 3240 3241 AAAGAATCTG TCAATGTGTG TAAAGTTGTG AACACAACCA CCCTCACCTG CCTGGCACCC 3300 3301 TCTCTGACCA CGGACTACCG CCCTGGCCTG GACACTGTGG AACGCCCAGA TGAGTTTGGA 3360 3361 TTTGTCTTTA ACAATGTCCA ATCCTTGCTA ATTTACAACG ACACCAAGTT TATCTACTAC 3420 3421 CCCAACCCGA CCTTTGAACT GCTTAGCCCT ACTGGAGTCT TGGATCAAAA GCCAGGATCG 3480 3481 CCCATCATTC TGAAGGGCAA AAACCTCTGC CCTCCTGCCT CTGGAGGGGC CAAACTCAAC 3540 3541 TACACTGTGC TCATCGGAGA GACCCCTTGT GCTGTCACCG TATCTGAGAC CCAGCTTCTC 3600 3601 TGCGAGCCTC CCAACCTCAC CGGGCAGCAC AAGGTCATGG TTCACGTGGG CGGGATGGTG 3660 3661 TTCTCGCCTG GCTCGGTGAG TGTCATCTCA GACAGCTTGC TGACCCTGCC AGCCATCGTC 3720 3721 AGCATCGCGG CCGGCGGCAG CCTCCTCCTC ATCATCGTCA TCATCGTCCT CATTGCCTAC 3780 3781 AAGCGCAAGT CTCGAGAAAA TGACCTCACT CTCAAGCGGC TGCAAATGCA GATGGACAAT 3840 3841 CTGGAGTCCC GTGTGGCCTT GGAGTGCAAG GAAGCTTTTG CTGAGCTCCA GACGGATATC 3900 3901 AATGAGTTGA CCAGTGACCT GGACCGCTCA GGAATCCCTT ACCTGGACTA TCGTACCTAC 3960 3961 GCTATGCGAG TCCTGTTCCC GGGCATCGAG GACCACCCCG TCCTGCGGGA GCTGGAGGTA 4020 4021 CAAGGAAACG GGCAGCAGCA CGTGGAGAAG GCCCTGAAGC TCTTTGCCCA GCTCATCAAC 4080 4081 AACAAGGTGT TCCTGCTGAC CTTCATCCGC ACCCTGGAGC TGCAGCGCAG TTTCTCCATG 4140 4141 CGCGACCGGG GCAACGTGGC TTCGCTCATC ATGACCGGCC TGCAGGGCCG CCTGGAATAT 4200 4201 GCCACTGATG TCCTCAAGCA GCTGCTCTCT GACCTCATCG ATAAGAACCT GGAGAACAAG 4260 4261 AACCACCCCA AGCTGCTACT CCGGAGGACA GAGTCTGTGG CTGAAAAGAT GCTGACCAAT 4320 4321 TGGTTCGCCT TCCTCCTGCA CAAGTTCCTA AAGGAGTGCG CAGGGGAGCC ACTCTTCATG 4380 4381 CTATACTGTG CCATCAAGCA GCAGATGGAG AAGGGCCCCA TTGATGCCAT CACGGGCGAG 4440 4441 GCCCGCTACT CCCTGAGCGA GGACAAGCTC ATCCGGCAGC AGATCGAGTA CAAGACCCTG 4500 4501 ATCCTGAACT GCGTCAACCC TGACAACGAG AACAGTCCAG AGATCCCAGT GAAGGTGTTA 4560 4561 AACTGTGACA CCATCACACA GGTCAAGGAG AAGATTCTTG ATGCCGTGTA TAAGAATGTG 4620 4621 CCCTATTCCC AGCGGCCGAG GGCAGTGGAC ATGGACTTGG AGTGGCGCCA AGGCCGGATC 4680 4681 GCCCGGGTCG TGCTGCAAGA TGAGGACATC ACCACCAAGA TTGAGGGTGA CTGGAAGCGG 4740 4741 CTCAACACAC TGATGCATTA TCAGGTGTCA GACAGGTCGG TGGTGGCTCT GGTCCCCAAA 4800 4801 CAGACCTCCT CCTACAACAT CCCTGCCTCT GCCAGCATCT CCCGGACGTC CATCAGCAGA 4860 4861 TACGACTCCT CCTTCAGGTA TACGGGCAGC CCCGACAGCC TGCGGTCCCG GGCCCCGATG 4920 4921 ATCACCCCAG ACCTGGAAAG TGGGGTCAAG GTGTGGCATC TGGTGAAGAA CCATGACCAC 4980 4981 GGTGACCAGA AGGAGGGTGA CCGGGGCAGC AAGATGGTGT CCGAGATCTA CCTGACCCGG 5040 5041 CTACTGGCCA CCAAGGGCAC CCTGCAGAAG TTTGTGGACG ACTTGTTTGA GACCTTGTTC 5100 5101 AGCACTGTGC ACCGGGGCAG CGCTCTCCCC CTGGCCATCA AGTACATGTT TGATTTCCTA 5160 5161 GATGAGCAGG CAGACAGGCA CAGCATCCAT GACACAGATG TGCGGCACAC CTGGAAAAGC 5220 5221 AACTGCCTCC CTCTGCGCTT CTGGGTGAAC GTGATTAAGA ACCCCCAGTT CGTGTTTGAC 5280 5281 ATCCACAAGG GCAGCATCAC GGACGCCTGC CTCTCTGTGG TGGCCCAGAC CTTCATGGAC 5340 5341 TCTTGTTCAA CGTCAGAGCA CCGGCTGGGC AAGGACTCCC CCTCCAACAA GCTGCTCTAT 5400 5401 GCCAAGGACA TCCCCAGCTA CAAGAGCTGG GTGGAGAGAT ACTACGCAGA CATCGCCAAG 5460 5461 CTCCCAGCCA TCAGTGACCA GGACATGAAT GCCTACCTCG CCGAGCAGTC CCGCCTGCAC 5520 5521 GCCGTGGAGT TCAACATGCT GAGTGCCCTC AATGAGATCT ACTCCTATGT CAGCAAGTAT 5580 5581 AGTGAGGAGC TCATCGGGGC CCTAGAGCAG GATGAGCAGG CACGGCGGCA GCGGCTGGCT 5640 5641 TATAAGGTGG AGCAGCTCAT TAATGCCATG TCCATTGAGA GCTGA 5685 |
▼ KEYWORD
ID | Family |
3D-structure | |
Alternative splicing | |
Cell membrane | |
Coiled coil | |
Complete proteome | |
Disulfide bond | |
Glycoprotein | |
Membrane | |
Phosphoprotein | |
Polymorphism | |
Reference proteome | |
Repeat | |
Signal | |
Transmembrane | |
Transmembrane helix
|
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | Integral component of plasma membrane | |
Cellular Component | Plasma membrane | |
Cellular Component | Semaphorin receptor complex | |
Molecular Function | Identical protein binding | |
Molecular Function | Semaphorin receptor activity | |
Biological Process | Centrosome localization | |
Biological Process | Cerebellar granule cell precursor tangential migration | |
Biological Process | Limb bud formation | |
Biological Process | Negative regulation of cell adhesion | |
Biological Process | Neural tube development | |
Biological Process | Pharyngeal system development | |
Biological Process | Positive regulation of axonogenesis | |
Biological Process | Regulation of cell migration | |
Biological Process | Regulation of cell shape | |
Biological Process | Regulation of GTPase activity | |
Biological Process | Semaphorin-plexin signaling pathway | |
Biological Process | Semaphorin-plexin signaling pathway involved in axon guidance | |
Biological Process | Somitogenesis |
▼ ANNOTATION
| Disorder | ||||
| IUPred2A | ||||
| Drug | ||||
| CTD | ||||
| Physicochemical | ||||
| Compute pI/Mw | AAindex | |||
| Function | ||||
| CORUM | CellMarker | RaftProt | ||
| Localization | ||||
| COMPARTMENTS | ||||
| Methylation | ||||
| TCGA | ICGC | COSMIC | MethyCancer | |
▼ ORTHOLOGY
| DrLLPS ID | Organism | Identity | E-value | Score |
|---|---|---|---|---|
| LLPS-Pat-a111 | Pan troglodytes | 99.89 | 0.0 | 3935 |
| LLPS-Gog-a112 | Gorilla gorilla | 99.86 | 0.0 | 2895 |
| LLPS-Pap-a109 | Pan paniscus | 99.84 | 0.0 | 3933 |
| LLPS-Cea-a114 | Cercocebus atys | 99.63 | 0.0 | 3925 |
| LLPS-Poa-a110 | Pongo abelii | 99.63 | 0.0 | 3925 |
| LLPS-Maf-a113 | Macaca fascicularis | 99.63 | 0.0 | 3925 |
| LLPS-Mam-a110 | Macaca mulatta | 99.63 | 0.0 | 3922 |
| LLPS-Rhb-a113 | Rhinopithecus bieti | 99.63 | 0.0 | 3920 |
| LLPS-Man-a112 | Macaca nemestrina | 99.63 | 0.0 | 3925 |
| LLPS-Mal-a110 | Mandrillus leucophaeus | 99.52 | 0.0 | 3919 |
| LLPS-Paa-a113 | Papio anubis | 99.52 | 0.0 | 3919 |
| LLPS-Nol-a115 | Nomascus leucogenys | 99.52 | 0.0 | 3923 |
| LLPS-Aon-a114 | Aotus nancymaae | 99.47 | 0.0 | 3922 |
| LLPS-Chs-a113 | Chlorocebus sabaeus | 99.47 | 0.0 | 3919 |
| LLPS-Cas-a104 | Carlito syrichta | 99.0 | 0.0 | 3897 |
| LLPS-Eqc-a116 | Equus caballus | 98.87 | 0.0 | 3847 |
| LLPS-Otg-a113 | Otolemur garnettii | 98.84 | 0.0 | 3888 |
| LLPS-Caf-a109 | Canis familiaris | 98.62 | 0.0 | 3863 |
| LLPS-Fec-a114 | Felis catus | 98.36 | 0.0 | 3880 |
| LLPS-Mup-a112 | Mustela putorius furo | 98.2 | 0.0 | 3878 |
| LLPS-Aim-a110 | Ailuropoda melanoleuca | 98.15 | 0.0 | 3879 |
| LLPS-Dio-a108 | Dipodomys ordii | 98.05 | 0.0 | 3868 |
| LLPS-Bot-a116 | Bos taurus | 97.84 | 0.0 | 3857 |
| LLPS-Orc-a107 | Oryctolagus cuniculus | 97.52 | 0.0 | 3848 |
| LLPS-Myl-a109 | Myotis lucifugus | 97.09 | 0.0 | 3807 |
| LLPS-Ran-a113 | Rattus norvegicus | 96.78 | 0.0 | 3829 |
| LLPS-Mum-a114 | Mus musculus | 96.57 | 0.0 | 3823 |
| LLPS-Cap-a114 | Cavia porcellus | 96.52 | 0.0 | 3816 |
| LLPS-Ova-a114 | Ovis aries | 96.41 | 0.0 | 3781 |
| LLPS-Mea-a105 | Mesocricetus auratus | 96.41 | 0.0 | 3809 |
| LLPS-Sah-a107 | Sarcophilus harrisii | 95.78 | 0.0 | 3783 |
| LLPS-Caj-a110 | Callithrix jacchus | 95.43 | 0.0 | 3727 |
| LLPS-Urm-a104 | Ursus maritimus | 95.24 | 0.0 | 3760 |
| LLPS-Loa-a109 | Loxodonta africana | 95.2 | 0.0 | 3709 |
| LLPS-Fud-a112 | Fukomys damarensis | 95.14 | 0.0 | 3735 |
| LLPS-Sus-a114 | Sus scrofa | 94.53 | 0.0 | 3098 |
| LLPS-Mod-a105 | Monodelphis domestica | 94.41 | 0.0 | 3709 |
| LLPS-Pes-a099 | Pelodiscus sinensis | 91.51 | 0.0 | 3596 |
| LLPS-Ora-a099 | Ornithorhynchus anatinus | 90.55 | 0.0 | 2296 |
| LLPS-Anc-a108 | Anolis carolinensis | 90.14 | 0.0 | 3549 |
| LLPS-Anp-a102 | Anas platyrhynchos | 89.45 | 0.0 | 3498 |
| LLPS-Tag-a102 | Taeniopygia guttata | 89.23 | 0.0 | 3523 |
| LLPS-Gaga-a103 | Gallus gallus | 88.61 | 0.0 | 3476 |
| LLPS-Meg-a098 | Meleagris gallopavo | 87.99 | 0.0 | 3222 |
| LLPS-Fia-a106 | Ficedula albicollis | 85.59 | 0.0 | 3464 |
| LLPS-Leo-a096 | Lepisosteus oculatus | 84.77 | 0.0 | 3320 |
| LLPS-Lac-a104 | Latimeria chalumnae | 84.55 | 0.0 | 3367 |
| LLPS-Scf-a100 | Scleropages formosus | 82.57 | 0.0 | 3249 |
| LLPS-Dar-a101 | Danio rerio | 82.4 | 0.0 | 3220 |
| LLPS-Asm-a100 | Astyanax mexicanus | 81.94 | 0.0 | 3172 |
| LLPS-Pof-a105 | Poecilia formosa | 81.83 | 0.0 | 3211 |
| LLPS-Xim-a107 | Xiphophorus maculatus | 81.68 | 0.0 | 3218 |
| LLPS-Orn-a102 | Oreochromis niloticus | 81.65 | 0.0 | 3243 |
| LLPS-Orl-a105 | Oryzias latipes | 81.55 | 0.0 | 3199 |
| LLPS-Scm-a095 | Scophthalmus maximus | 81.49 | 0.0 | 3215 |
| LLPS-Icp-a108 | Ictalurus punctatus | 81.36 | 0.0 | 3187 |
| LLPS-Gaa-a101 | Gasterosteus aculeatus | 81.28 | 0.0 | 3199 |
| LLPS-Tar-a097 | Takifugu rubripes | 79.8 | 0.0 | 3152 |
| LLPS-Ict-a113 | Ictidomys tridecemlineatus | 68.0 | 0.0 | 2667 |
| LLPS-Xet-a101 | Xenopus tropicalis | 67.74 | 0.0 | 2662 |
| LLPS-Ten-a102 | Tetraodon nigroviridis | 60.71 | 0.0 | 2366 |
| LLPS-Tut-a060 | Tursiops truncatus | 59.88 | 0.0 | 2283 |
| LLPS-Cis-a035 | Ciona savignyi | 50.82 | 0.0 | 720 |
| LLPS-Cii-a039 | Ciona intestinalis | 50.27 | 0.0 | 688 |