PubMed 38425137

PubMed ID: 38425137

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A method of genetic transformation and gene editing of succulents without tissue culture.
Authors: Lu Jinghua, Li Shanshan, Deng Shuai, Wang Mugui, Wu Yinghuang, Li Ming, Dong Jinsong, Lu Suhui, Su Chunli, Li Guofu, Lang Zhaobo, Zhu Jian-Kang
Journal: Plant biotechnology journal (Plant Biotechnol J), Vol.22(7), 2024‑Jul

DOI: 10.1111/pbi.14318 PMCID: PMC2287342

Abstract
Succulents, valued for their drought tolerance and ornamental appeal, are important in the floriculture market. However, only a handful of succulent species can be genetically transformed, making it difficult to improve these plants through genetic engineering. In this study, we adapted the recently developed cut-dip-budding (CDB) gene delivery system to transform three previously recalcitrant succulent varieties - the dicotyledonous Kalanchoe blossfeldiana and Crassula arborescens and the monocotyledonous Sansevieria trifasciata. Capitalizing on the robust ability of cut leaves to regenerate shoots, these plants were successfully transformed by directly infecting cut leaf segments with the Agrobacterium rhizogenes strain K599. The transformation efficiencies were approximately 74%, 5% and 3.9%-7.8%, respectively, for K. blossfeldiana and C. arborescens and S. trifasciata. Using this modified CDB method to deliver the CRISPR/Cas9 construct, gene editing efficiency in K. blossfeldiana at the PDS locus was approximately 70%. Our findings suggest that succulents with shoot regeneration ability from cut leaves can be genetically transformed using the CDB method, thus opening up an avenue for genetic engineering of these plants.
Publication Types
Journal Article
Keywords
cut–dip–budding (CDB) delivery system gene editing genetic transformation succulents
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