TY - JOUR
T1 - Turbo-RIP: A Protocol for TurboID-based RNA Immunopurification to Map RNA Landscapes in Plant Biomolecular Condensates
AU - Zhang, Zhi
AU - Xu, Yanting
AU - Liu, Hanxiang
AU - Liu, Chen
AU - Moschou, Panagiotis Nikolaou
PY - 2026
Y1 - 2026
N2 - Biomolecular condensates organize cellular processes through liquid-liquid phase separation, creating membrane-less compartments enriched in specific proteins and RNAs. Understanding their RNA composition is essential for elucidating plant stress responses, yet capturing these transiently associated RNAs remains technically challenging. We present TurboRIP (TurboID-based proximity labeling with RNA immunopurification), a comprehensive protocol for identifying condensate-associated RNAs in plants. Turbo-RIP employs the biotin ligase TurboID to label proximal proteins at 22 degrees C, followed by formaldehyde crosslinking and streptavidin-based capture of protein-RNA complexes. We provide detailed procedures for three cloning strategies, transformation of Nicotiana benthamiana and Arabidopsis thaliana, validation of TurboID activity, and RNA recovery. The protocol successfully captured processing body-associated RNAs with minimal background. Turbo-RIP enables systematic mapping of RNA populations within plant condensates under diverse conditions. The protocol requires 3-5 days from sample preparation to RNA isolation, with construct validation taking 2-4 weeks. All procedures use standard laboratory equipment, making Turbo-RIP accessible for plant molecular biology laboratories.
AB - Biomolecular condensates organize cellular processes through liquid-liquid phase separation, creating membrane-less compartments enriched in specific proteins and RNAs. Understanding their RNA composition is essential for elucidating plant stress responses, yet capturing these transiently associated RNAs remains technically challenging. We present TurboRIP (TurboID-based proximity labeling with RNA immunopurification), a comprehensive protocol for identifying condensate-associated RNAs in plants. Turbo-RIP employs the biotin ligase TurboID to label proximal proteins at 22 degrees C, followed by formaldehyde crosslinking and streptavidin-based capture of protein-RNA complexes. We provide detailed procedures for three cloning strategies, transformation of Nicotiana benthamiana and Arabidopsis thaliana, validation of TurboID activity, and RNA recovery. The protocol successfully captured processing body-associated RNAs with minimal background. Turbo-RIP enables systematic mapping of RNA populations within plant condensates under diverse conditions. The protocol requires 3-5 days from sample preparation to RNA isolation, with construct validation taking 2-4 weeks. All procedures use standard laboratory equipment, making Turbo-RIP accessible for plant molecular biology laboratories.
KW - TurboID
KW - Proximity biotinylation
KW - RNA immunopurification
KW - Biomolecular condensates
KW - Liquid-liquid phase separation
KW - Plant stress responses
KW - TurboID
KW - Proximity biotinylation
KW - RNA immunopurification
KW - Biomolecular condensates
KW - Liquid-liquid phase separation
KW - Plant stress responses
UR - https://res.slu.se/id/publ/146411
U2 - 10.21769/BioProtoc.5587
DO - 10.21769/BioProtoc.5587
M3 - Journal article
C2 - 41675988
SN - 2331-8325
VL - 16
JO - Bio-protocol
JF - Bio-protocol
IS - 3
M1 - e5587
ER -