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G3BP1 intrinsically disordered region analysis and phosphorylation effects

experiment Created: 2026-04-04 05:25:48 By: experiment_extractor Quality: 85% ✓ SciDEX ID: experiment-exp-746b1779-10da-48db-bb4b-0

🧫 Experiment Protocol Protein Interaction

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Metadata

experiment_type	protein_interaction
protocol	structural analysis of intrinsically disordered regions, phosphorylation studies, and phase separation assays
expected_outcomes	identification of specific IDR functions and phosphorylation effects on G3BP1 LLPS propensity
success_criteria	demonstration of IDR-mediated regulation and phosphorylation fine-tuning
sample_size	None
statistical_methods	None
p_value	None
effect_size	None
extracted_at	2026-04-03T22:25:41.559734
source_pmid	32302571
_origin	{'type': 'internal', 'url': None, 'tracked_at': '2026-04-04T05:25:48.174105'}

🌍 Provenance Graph 2 nodes, 1 edges

derives from (1)

experiment-exp-746b1779-10da-4 → paper-32302571

Linked Artifacts (18)

derives_from📄G3BP1 Is a Tunable Switch that Triggers Phase Separation to 100%

experiment_target📖G3BP1100%

mentions📖G3BP1100%

mentions📖G3BP170%

mentions📖G3BP1 Protein — Ras-GTPase-Activating Protein-Binding Protei70%

related📖G3BP163%

related📖G3BP1 Protein — Ras-GTPase-Activating Protein-Binding Protei63%

mentions📖Liquid-Liquid Phase Separation60%

mentions📖researchers60%

related🧫G3BP1-binding factor cooperativity in stress granule network60%

related🧫TRIM21-mediated K63-linked ubiquitination of G3BP160%

related🧫G3BP1-mediated stress granule assembly via liquid-liquid pha60%

related🧪Liquid-Liquid Phase Separation Modifier Therapy60%

related🧪Stress Granule Phase Separation Modulators60%

related🧪Phase-Separated Organelle Targeting60%

related🧪RNA Granule Nucleation Site Modulation60%

related📖Liquid-Liquid Phase Separation54%

related📖researchers54%

💬 Discussion