Literatures

  1. A distant coilin homologue is required for the formation of Cajal bodies in Arabidopsis, 2006, Mol Biol Cell
  2. A generic approach to study the kinetics of liquid–liquid phase separation under near-native conditions, 2021, Commun Biol
  3. A phase-separated nuclear GBPL circuit controls immunity in plants, 2021, Nature
  4. A photoregulatory mechanism of the circadian clock in Arabidopsis, 2021, Nat Plants
  5. A Prion-based Thermosensor in Plants, 2020, Mol Cell
  6. A prion-like domain in ELF3 functions as a thermosensor in Arabidopsis, 2020, Nature
  7. A prion-like protein regulator of seed germination undergoes hydration-dependent phase separation, 2021, Cell
  8. AFP is a novel negative regulator of ABA signaling that promotes ABI5 protein degradation, 2003, Genes Dev
  9. ALBA proteins confer thermotolerance through stabilizing HSF messenger RNAs in cytoplasmic granules, 2022, Nat Plants
  10. An ARGONAUTE4-containing nuclear processing center colocalized with Cajal bodies in Arabidopsis thaliana, 2006, Cell
  11. Arabidopsis AUTOPHAGY-RELATED3 (ATG3) facilitates the liquid–liquid phase separation of ATG8e to promote autophagy, 2022, Sci Bull
  12. Arabidopsis FLL2 promotes liquid–liquid phase separation of polyadenylation complexes, 2019, Nature
  13. Arabidopsis cryptochrome 2 forms photobodies with TCP22 under blue light and regulates the circadian clock, 2022, Nat Commun
  14. Arabidopsis N6-methyladenosine reader CPSF30-L recognizes FUE signal to control polyadenylation site choice in liquid-like nuclear body, 2021, Mol Plant
  15. Biomolecular condensates in photosynthesis and metabolism, 2020, Curr Opin Plant Biol
  16. Co-condensation with photoexcited Cryptochromes facilitates MAC3A to positively control hypocotyl growth in Arabidopsis, 2023, Sci Adv
  17. Cold induction of nuclear FRIGIDA condensation in Arabidopsis, 2023, Nature
  18. Cold-induced Arabidopsis FRIGIDA nuclear condensates for FLC repression, 2021, Nature
  19. Complementation of Hyponastic Leaves1 by Double-strand RNA Binding Domains of Dicer-like 1 in Nuclear Dicing Bodies, 2013, Plant Physiol
  20. Condensation of SEUSS promotes hyperosmotic stress tolerance in Arabidopsis, 2022, Nat Chem Biol
  21. Condensation of STM is critical for shoot meristem maintenance and salt tolerance in Arabidopsis, 2023, Mol Plant
  22. Coordinated regulation of Arabidopsis microRNA biogenesis and red light signaling through Dicer-like 1 and phytochrome-interacting factor 4, 2018, PLoS Genet
  23. Cytoplasmic Arabidopsis AGO7 accumulates in membrane-associated siRNA bodies and is required for ta-siRNA biogenesis, 2012, EMBO J
  24. DEAD-box helicases modulate dicing body formation in Arabidopsis, 2021, Sci Adv
  25. Depletion of Arabidopsis SC35 and SC35-like serine/arginine-rich proteins affects the transcription and splicing of a subset of genes, 2017, PLoS Genet
  26. Dicing Bodies, 2012, Plant Physiol
  27. DIX Domain Polymerization Drives Assembly of Plant Cell Polarity Complexes, 2020, Cell
  28. Dynamic regulation of ARGONAUTE4 within multiple nuclear bodies in Arabidopsis thaliana, 2008, PLoS Genet
  29. ELF4 regulates GIGANTEA chromatin access through subnuclear sequestration, 2013, Cell Rep
  30. Emerging roles for phase separation in plants, 2020, Dev Cell
  31. Extracellular pectin-RALF phase separation mediates FERONIA global signaling function, 2023, Cell
  32. FERONIA coordinates plant growth and salt tolerance via the phosphorylation of phyB, 2023, Nat Plants
  33. Formation of NPR1 Condensates Promotes Cell Survival during the Plant Immune Response, 2020, Cell
  34. GBPL3 localizes to the nuclear pore complex and functionally connects the nuclear basket with the nucleoskeleton in plants, 2022, PLoS Biol
  35. HEI10 is subject to phase separation and mediates RPA1a degradation during meiotic interference-sensitive crossover formation, 2023, Proc Natl Acad Sci USA
  36. Heterotypic transcriptional condensates formed by prion-like paralogous proteins canalize flowering transition in tomato, 2022, Genome Biol
  37. Histone H2B.8 compacts flowering plant sperm via chromatin phase separation, 2022, Nature
  38. Histone Methyltransferase SUVR2 Promotes the DSB Repair via Chromatin Remodeling and Liquid–Liquid Phase Separation, 2022, Mol Plant
  39. HOP family plays a major role in long-term acquired thermotolerance in Arabidopsis, 2018, Plant Cell Environ
  40. Identification of nuclear dicing bodies containing proteins for microRNA biogenesis in living Arabidopsis plants, 2007, Curr Biol
  41. Increasing the resilience of plant immunity to a warming climate, 2022, Nature
  42. Integration of light and temperature sensing by liquid-liquid phase separation of phytochrome B, 2022, Mol Cell
  43. Intrinsically disordered proteins SAID1/2 condensate on SERRATE for dual inhibition of miRNA biogenesis in Arabidopsis, 2023, Proc Natl Acad Sci USA
  44. Large-scale identification of potential phase separation proteins from plants using a cell-free system, 2023, Mol Plant
  45. Light-induced LLPS of the CRY2/SPA1/FIO1 complex regulating mRNA methylation and chlorophyll homeostasis in Arabidopsis, 2023, Nat Plants
  46. Liquid-liquid phase separation as a major mechanism of plant abiotic stress sensing and responses, 2023, Stress Biol
  47. Liquid–Liquid Phase Separation in Crowded Environments, 2020, Int J Mol Sci
  48. Liquid–liquid phase separation in plants: Advances and perspectives from model species to crops, 2024, Plant Commun
  49. Liquid-liquid phase separation of RBGD2/4 is required for heat stress resistance in Arabidopsis, 2022, Dev Cell
  50. Liquid–Liquid Phase Transition as a New Means of Protein Targeting in Chloroplasts, 2020, Mol Plant
  51. Liquid-Liquid Phase Transition Drives Intra-chloroplast Cargo Sorting, 2020, Cell
  52. Luminidependens (LD) is an Arabidopsis protein with prion behavior, 2016, Proc Natl Acad Sci USA
  53. m6A reader ECT1 drives mRNA sequestration to dampen SA-dependent stress responses in Arabidopsis, 2023, Plant Cell
  54. m6A RNA demethylase AtALKBH9B promotes mobilization of a heat-activated long terminal repeat retrotransposon in Arabidopsis, 2023, Sci Adv
  55. Mechanism of DNA-induced phase separation for transcriptional repressor VRN1, 2019, Angew Chem Int Ed Engl
  56. Microtubule-associated phase separation of MIDD1 tunes cell wall spacing in xylem vessels in Arabidopsis thaliana, 2024, Nat Plants
  57. Nuclear transport receptor KA120 regulates molecular condensation of MAC3 to coordinate plant immune activation, 2023, Cell Host Microbe
  58. Nucleo-cytoplasmic partitioning of ARF proteins controls auxin responses in Arabidopsis thaliana, 2019, Mol Cell
  59. Nup98 FG domains from diverse species spontaneously phase-separate into particles with nuclear pore-like permselectivity, 2015, Elife
  60. Organization out of disorder: liquid–liquid phase separation in plants, 2018, Curr Opin Plant Biol
  61. Peptidyl-prolyl isomerase Cyclophilin71 promotes SERRATE phase separation and miRNA processing in Arabidopsis, 2023, Proc Natl Acad Sci USA
  62. Phase separation and molecular ordering of the prion-like domain of the Arabidopsis thermosensory protein EARLY FLOWERING 3, 2023, Proc Natl Acad Sci USA
  63. Phase separation in genome organization across evolution, 2021, Trends Cell Biol
  64. Phase separation in plants: new insights into cellular compartmentalization, 2021, J Integr Plant Biol
  65. Phase separation of a plant virus movement protein and cellular factors support virus-host interactions, 2021, PLoS Pathog
  66. Phase separation of Arabidopsis EMB1579 controls transcription, mRNA splicing, and development, 2020, PLoS Biol
  67. Phase separation of chromatin and small RNA pathways in plants, 2021, Plant J
  68. Phase separation of HRLP regulates flowering time in Arabidopsis, 2022, Sci Adv
  69. Phase separation of nuclear pore complex facilitates selective nuclear transport to regulate plant defense against pathogen and pest invasion, 2023, Mol Plant
  70. Phase separation of SERRATE drives dicing body assembly and promotes miRNA processing in Arabidopsis, 2021, Nat Cell Biol
  71. Phase separation of S-RNase promotes self-incompatibility in Petunia hybrida, 2023, J Integr Plant Biol
  72. Phenolic acid-induced phase separation and translation inhibition mediate plant interspecific competition, 2023, Nat Plants
  73. Photobodies in light signaling, 2012, Plant Physiol
  74. Photoexcited cryptochromes interact with ADA2b and SMC5 to promote the repair of DNA double-strand breaks in Arabidopsis, 2023, Nat Plants
  75. Phytochrome B photobodies are comprised of phytochrome B and its primary and secondary interacting proteins, 2023, Nat Commun
  76. Phytochrome nuclear body: An emerging model to study interphase nuclear dynamics and signaling, 2008, Curr Opin Plant Biol
  77. Phytochromes enhance SOS2-mediated PIF1 and PIF3 phosphorylation and degradation to promote Arabidopsis salt tolerance, 2023, Plant Cell
  78. Pi-Pi contacts are an overlooked protein feature relevant to phase separation, 2018, Elife
  79. Plant HP1 protein ADCP1 links multivalent H3K9 methylation readout to heterochromatin formation, 2019, Cell Res
  80. Plant nuclear bodies, 2004, Curr Opin Plant Biol
  81. Pollen Cell Wall Patterns Form from Modulated Phases, 2019, Cell
  82. Proximity editing to identify RNAs in phase-separated RNA binding protein condensates, 2021, Cell Discov
  83. PRR5 regulates phosphorylation, nuclear import and subnuclear localization of TOC1 in the Arabidopsis circadian clock, 2010, EMBO J
  84. Ribosome stalling and SGS3 phase separation prime the epigenetic silencing of transposons, 2021, Nat Plants
  85. Rubisco condensate formation by CcmM in β-carboxysome biogenesis, 2019, Nature
  86. Sensory circuitry controls cytosolic calcium-mediated phytochrome B phototransduction, 2023, Cell
  87. Sequence determinants of in cell condensate morphology, dynamics, and oligomerization as measured by number and brightness analysis, 2021, Cell Commun Signal
  88. SGS3 and RDR6 interact and colocalize in cytoplasmic SGS3/RDR6-bodies, 2009, FEBS Lett
  89. Subcellular Localization of Seed-Expressed LEA_4 Proteins Reveals Liquid-Liquid Phase Separation for LEA9 and for LEA48 Homo- and LEA42-LEA48 Heterodimers, 2021, Biomolecules
  90. TANDEM ZINC-FINGER/PLUS3 regulates phytochrome B abundance and signaling to fine-tune hypocotyl growth, 2022, Plant Cell
  91. The dual-action mechanism of Arabidopsis cryptochromes, 2023, J Integr Plant Biol
  92. The emerging role of biomolecular condensates in plant immunity, 2022, Plant Cell
  93. The eukaryotic CO2-concentrating organelle Is liquid-like and exhibits dynamic reorganization, 2017, Cell
  94. The intrinsically disordered protein CARP9 bridges HYL1 to AGO1 in the nucleus to promote microRNA activity, 2020, Plant Physiol
  95. The intrinsically disordered region from PP2C phosphatases functions as a conserved CO2 sensor, 2022, Nat Cell Biol
  96. The MBD-ACD methylation reader complex recruits MICRORCHIDIA6 to regulate rRNA gene expression in Arabidopsis, 2023, Plant Cell
  97. The P-body component DECAPPING5 and the floral repressor SISTER OF FCA regulate FLOWERING LOCUS C transcription in Arabidopsis, 2023, Plant Cell
  98. The phase separation underlying the pyrenoid-based microalgal Rubisco supercharger, 2018, Nat Commun
  99. The PIF1/PIF3-MED25-HDA19 transcriptional repression complex regulates phytochrome signaling in Arabidopsis, 2023, New Phytol
  100. The pyrenoidal linker protein EPYC1 phase separates with hybrid Arabidopsis–Chlamydomonas Rubisco through interactions with the algal Rubisco small subunit, 2019, J Exp Bot
  101. The Roles of Arabidopsis CDF2 in Transcriptional and Posttranscriptional Regulation of Primary MicroRNAs, 2015, PLoS Genet
  102. The structural basis of Rubisco phase separation in the pyrenoid, 2020, Nat Plants
  103. Tudor Staphylococcal Nuclease Links Formation of Stress Granules and Processing Bodies with mRNA Catabolism in Arabidopsis, 2015, Plant Cell
  104. Xanthomonas effector XopR hijacks host actin cytoskeleton via complex coacervation, 2021, Nat Commun