Protoplast‐Based Functional Genomics and Genome Editing: Progress, Challenges and Applications
Jo‐Wei Allison Hsieh, Fu‐Hui Wu, Dian‐Xuan Yang, Ai‐En Wu, Ching‐Ann Liu, Chang‐Hung Chen, Shinn‐Zong Lin, Ying‐Chung Jimmy Lin, Choun‐Sea Lin

TL;DR
This review explores how protoplast-based systems are used to study plant responses to stress and improve crops through techniques like CRISPR and single-cell transcriptomics.
Contribution
The paper provides a comprehensive analysis of 1050 studies to highlight recent advances in protoplast-based functional genomics and genome editing for crop improvement.
Findings
Protoplast-based systems enable precise molecular studies of plant stress responses and gene regulation.
CRISPR/Cas RNP editing via protoplasts offers a regulation-compliant strategy for crop improvement.
Protoplast fusion and single-cell transcriptomics are advancing stress resilience in crops.
Abstract
Protoplast‐based systems provide a powerful and versatile platform for exploring how plants sense and respond to their environment. By enabling the direct delivery of proteins, DNA, and RNA into plant cells after cell wall removal, this approach facilitates precise molecular dissection of signaling, stress adaptation, and gene regulation across both model species and economically important crops. In this review, we analyzed 1050 published articles and categorizing them by delivery methods, research focus, plant species, and tissue types. We further highlight recent advances, including the application of single‐cell transcriptomics, which provides unprecedented resolution for dissecting cellular responses and offers deeper insights into the mechanisms underlying stress resilience. Importantly, protoplast regeneration is gaining renewed attention not only as a model system for studying…
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Taxonomy
TopicsPlant Molecular Biology Research · CRISPR and Genetic Engineering · Plant tissue culture and regeneration
