Chemical and Biological Technologies in Agriculture (Sep 2024)
Establishment of transient and stable gene transformation systems in medicinal woody plant Acanthopanax senticosus
Abstract
Abstract Background Transient and stable gene transformation systems play a crucial role in elucidating gene functions and driving genetic improvement in plants. However, their application in medicinal woody plants has been hampered by inefficient procedures for isolating protoplasts and regenerating plants in vitro. Results Embryogenic callus protoplast isolation and transient transformation system were successfully established. The highest yield of protoplasts was approximately 1.88 × 106 cells per gram with a viability of 90% under the combination of 1.5% cellulase and 0.2% macerozyme, with enzymatic digestion for 6 h in darkness followed by centrifugation at 400×g for 5 min. The transient transfection rate of protoplast reached 45.56% at a PEG 4000 concentration of 40%, a transfection time of 40 min, 16 h of dark incubation, a plasmid concentration of 1.5 ng μL−1, and 25 min heat shock at 45 °C. In addition, 15 Agrobacterium tumefaciens-mediated GUS-positive seedlings were obtained through the somatic embryogenetic pathway under the optimized conditions. Conclusion This study successfully established both transient and stable genetic transformation systems, paving the way for future molecular biology research on A. senticosus. Graphical Abstract
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