Vigna radiata      Scaffold


※ Scaffold introduction

    Scaffolds were defined as the drivers of LLPS essential for the structural integrity of MLOs, and the major components which, alone or with co-scaffolds, undergo LLPS (1-4). A minimum set of six experimental tests, including the assembly of spherical droplets, the observation of fusion events, and the identification of mutations that abolish or inhibit LLPS in vitro and in cells have been proposed for rigorous analysis of LLPS processes (1). For each known scaffold protein, descriptions on performed assays of the minimum set of experiments were presented on its gene page. For example, the human fused in sarcoma (FUS), a well-characterized RNA-binding protein undergoing LLPS involved in formation of multiple biomolecular condensates (5,6-8), forms liquid-like droplets both in cells and at near physiological conditions in vitro. All the six experimental tests were performed to analyze the LLPS properties of FUS (9).

References
1. Alberti, S., Gladfelter, A. and Mittag, T. (2019) Considerations and challenges in studying liquid-liquid phase separation and biomolecular condensates. Cell, 176, 419-434. PMID: 30682370
2. Banani, S.F., Lee, H.O., Hyman, A.A. and Rosen, M.K. (2017) Biomolecular condensates: organizers of cellular biochemistry. Nat. Rev. Mol. Cell Biol. 18, 285-298. PMID: 28225081
3. Banani, S.F., Rice, A.M., Peeples, W.B., Lin, Y., Jain, S., Parker, R. and Rosen, M.K. (2016) Compositional control of phase-separated cellular bodies. Cell, 166, 651-663. PMID: 27374333
4. Hyman, A.A. and Simons, K. (2012) Cell biology. Beyond oil and water--phase transitions in cells. Science, 337, 1047-1049. PMID: 22936764
5. Hofweber, M., Hutten, S., Bourgeois, B., Spreitzer, E., Niedner-Boblenz, A., Schifferer, M., Ruepp, M.D., Simons, M., Niessing, D., Madl, T. et al. (2018) Phase Separation of FUS Is Suppressed by Its Nuclear Import Receptor and Arginine Methylation. Cell, 173, 706-719 e713. PMID: 29677514
6. Murray, D.T., Kato, M., Lin, Y., Thurber, K.R., Hung, I., McKnight, S.L. and Tycko, R. (2017) Structure of FUS Protein Fibrils and Its Relevance to Self-Assembly and Phase Separation of Low-Complexity Domains. Cell, 171, 615-627 e61. PMID: 28942918
7. Guo, L., Kim, H.J., Wang, H., Monaghan, J., Freyermuth, F., Sung, J.C., O'Donovan, K., Fare, C.M., Diaz, Z., Singh, N. et al. (2018) Nuclear-Import Receptors Reverse Aberrant Phase Transitions of RNA-Binding Proteins with Prion-like Domains. Cell, 173, 677-692 e20. PMID: 29677512
8. Yoshizawa, T., Ali, R., Jiou, J., Fung, H.Y.J., Burke, K.A., Kim, S.J., Lin, Y., Peeples, W.B., Saltzberg, D., Soniat, M. et al. (2018) Nuclear Import Receptor Inhibits Phase Separation of FUS through Binding to Multiple Sites. Cell, 173, 693-705 e22. PMID: 29677513
9. Patel, A., Lee, H.O., Jawerth, L., Maharana, S., Jahnel, M., Hein, M.Y., Stoynov, S., Mahamid, J., Saha, S., Franzmann, T.M. et al. (2015) A Liquid-to-Solid Phase Transition of the ALS Protein FUS Accelerated by Disease Mutation. Cell, 57, 162, 1066-1077. PMID: 26317470


There are 25 genes.  Reviewed (0 or Unreviewed (25

No.StatusDrLLPS IDEnsemble Gene IDUniProt AccessionGene Name
1
LLPS-Vir-0382
vigra.VC1973A.gnm6.ann1.Vradi0007s02240
A0A1S3TBQ6
LOC106753849
2
LLPS-Vir-1682
vigra.VC1973A.gnm6.ann1.Vradi02g03790
A0A1S3TKI1
LOC106756394
3
LLPS-Vir-0677
vigra.VC1973A.gnm6.ann1.Vradi04g02300
A0A1S3TTB6
LOC106758587
4
LLPS-Vir-1071
vigra.VC1973A.gnm6.ann1.Vradi05g08400
A0A1S3U6H3
LOC106762312
5
LLPS-Vir-1227
vigra.VC1973A.gnm6.ann1.Vradi06g12440
A0A1S3UBT1
LOC106763839
6
LLPS-Vir-1777
vigra.VC1973A.gnm6.ann1.Vradi06g15030
A0A1S3UFQ2
LOC106764874
7
LLPS-Vir-0867
vigra.VC1973A.gnm6.ann1.Vradi06g00410
A0A1S3UFZ7
LOC106765000
8
LLPS-Vir-1605
vigra.VC1973A.gnm6.ann1.Vradi07g01890
A0A1S3UIB6
LOC106765612
9
LLPS-Vir-0754
vigra.VC1973A.gnm6.ann1.Vradi07g29310
A0A1S3UT76
LOC106768505
10
LLPS-Vir-0678
vigra.VC1973A.gnm6.ann1.Vradi07g17590
A0A1S3UX66
LOC106769530
11
LLPS-Vir-1461
vigra.VC1973A.gnm6.ann1.Vradi01g02290
A0A1S3V116
LOC106770717
12
LLPS-Vir-0706
vigra.VC1973A.gnm6.ann1.Vradi08g11530
A0A1S3V164
LOC106770768
13
LLPS-Vir-0107
vigra.VC1973A.gnm6.ann1.Vradi08g17540
A0A1S3V7P8
LOC106772465
14
LLPS-Vir-1424
vigra.VC1973A.gnm6.ann1.Vradi01g00090
A0A1S3V9A3
LOC106772826
15
LLPS-Vir-1779
vigra.VC1973A.gnm6.ann1.Vradi01g02160
A0A1S3VCF3
LOC106773665
16
LLPS-Vir-0022
vigra.VC1973A.gnm6.ann1.Vradi01g11900
A0A1S3VCX9
LOC106773748
17
LLPS-Vir-0569
vigra.VC1973A.gnm6.ann1.Vradi09g02670
A0A1S3VEM9
LOC106774193
18
LLPS-Vir-0091
vigra.VC1973A.gnm6.ann1.Vradi09g04740
A0A1S3VEI4
LOC106774222
19
LLPS-Vir-0000
vigra.VC1973A.gnm6.ann1.Vradi09g02300
A0A1S3VEB0
LOC106774279
20
LLPS-Vir-0285
vigra.VC1973A.gnm6.ann1.Vradi01g11440
A0A1S3VGQ5
LOC106774768
21
LLPS-Vir-0776
vigra.VC1973A.gnm6.ann1.Vradi11g06730
A0A1S3VRA4
LOC106777530
22
LLPS-Vir-0217
vigra.VC1973A.gnm6.ann1.Vradi02g01610
A0A1S3VWI4
LOC106779030
23
LLPS-Vir-1386
vigra.VC1973A.gnm6.ann1.Vradi0425s00060
A0A1S3VWA4
LOC106779128
24
LLPS-Vir-0965
vigra.VC1973A.gnm6.ann1.Vradi0364s00030
A0A1S3VY70
LOC106779552
25
LLPS-Vir-1805
vigra.VC1973A.gnm6.ann1.Vradi01g08620
Q9XQB5
rbcS