Vigna angularis      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 34 genes.  Reviewed (0 or Unreviewed (34

No.StatusDrLLPS IDEnsemble Gene IDUniProt AccessionGene Name
1
LLPS-Via-0378
LR48_Vigan01g088900
A0A0L9TMF0
LR48_Vigan01g088900
2
LLPS-Via-0086
LR48_Vigan01g129800
A0A0L9TMC4
LR48_Vigan01g129800
3
LLPS-Via-1641
LR48_Vigan01g169600
A0A0L9TNK9
LR48_Vigan01g169600
4
LLPS-Via-1244
LR48_Vigan01g273300
A0A0L9TRW2
LR48_Vigan01g273300
5
LLPS-Via-2227
LR48_Vigan02g022300
A0A0L9TU08
LR48_Vigan02g022300
6
LLPS-Via-0234
LR48_Vigan02g159500
A0A0L9TY45
LR48_Vigan02g159500
7
LLPS-Via-1035
LR48_Vigan02g197500
A0A0L9TZ52
LR48_Vigan02g197500
8
LLPS-Via-1037
LR48_Vigan02g215500
A0A0L9TZP5
LR48_Vigan02g215500
9
LLPS-Via-1248
LR48_Vigan03g053900
A0A0L9U2U8
LR48_Vigan03g053900
10
LLPS-Via-1598
LR48_Vigan03g152600
A0A0L9U6S6
LR48_Vigan03g152600
11
LLPS-Via-0180
LR48_Vigan03g168100
A0A0L9U778
LR48_Vigan03g168100
12
LLPS-Via-0125
LR48_Vigan03g191200
A0A0L9U6W3
LR48_Vigan03g191200
13
LLPS-Via-0344
LR48_Vigan03g245800
A0A0L9U8M3
LR48_Vigan03g245800
14
LLPS-Via-1000
LR48_Vigan04g203900
A0A0L9UGJ9
LR48_Vigan04g203900
15
LLPS-Via-1507
LR48_Vigan04g208700
A0A0L9UH47
LR48_Vigan04g208700
16
LLPS-Via-0454
LR48_Vigan05g029200
A0A0L9UIU4
LR48_Vigan05g029200
17
LLPS-Via-1337
LR48_Vigan05g101100
A0A0L9ULG5
LR48_Vigan05g101100
18
LLPS-Via-1300
LR48_Vigan05g186400
A0A0L9UNZ2
LR48_Vigan05g186400
19
LLPS-Via-2114
LR48_Vigan05g202700
A0A0L9UPB3
LR48_Vigan05g202700
20
LLPS-Via-1627
LR48_Vigan07g004600
A0A0L9UUS8
LR48_Vigan07g004600
21
LLPS-Via-0795
LR48_Vigan07g101600
A0A0L9UXJ9
LR48_Vigan07g101600
22
LLPS-Via-0335
LR48_Vigan07g136600
A0A0L9UYK4
LR48_Vigan07g136600
23
LLPS-Via-0462
LR48_Vigan07g236700
A0A0L9V0U9
LR48_Vigan07g236700
24
LLPS-Via-0404
LR48_Vigan07g269600
A0A0L9V2C2
LR48_Vigan07g269600
25
LLPS-Via-0915
LR48_Vigan08g166900
A0A0L9V7C2
LR48_Vigan08g166900
26
LLPS-Via-1350
LR48_Vigan08g198200
A0A0L9V7V7
LR48_Vigan08g198200
27
LLPS-Via-1067
LR48_Vigan102s002300
A0A0L9T438
LR48_Vigan102s002300
28
LLPS-Via-0046
LR48_Vigan102s005900
A0A0L9T4X6
LR48_Vigan102s005900
29
LLPS-Via-0092
LR48_Vigan1091s001300
A0A0L9TIJ5
LR48_Vigan1091s001300
30
LLPS-Via-0886
LR48_Vigan10g200100
A0A0L9VMJ2
LR48_Vigan10g200100
31
LLPS-Via-1621
LR48_Vigan499s005800
A0A0L9TD61
LR48_Vigan499s005800
32
LLPS-Via-0559
LR48_Vigan518s000400
A0A0L9TCG1
LR48_Vigan518s000400
33
LLPS-Via-0761
LR48_Vigan818s003400
A0A0L9TH74
LR48_Vigan818s003400
34
LLPS-Via-0455
LR48_Vigan02g104100
A0A0L9TWL1
LSM4