Abstract
To recover transgenic citrus plants in the most efficient manner, the use of selection marker genes is essential. In this work, it was shown that the mutated forms of the acetolactate synthase (ALS) gene in combination with the herbicide selection agent imazapyr (IMZ) added to the selection medium may be used to achieve this goal. This approach enables the development of cisgenic regenerants, namely, plants without the incorporation of those bacterial genes currently employed for transgenic selection, and additionally it allows the generation of edited, non-transgenic plants with altered endogenous ALS genes leading to IMZ resistance. In this work, the citrus mutants, in which ALS has been converted into IMZ-resistant forms using a base editor system, were recovered after cocultivation of the explants with Agrobacterium tumefaciens carrying a cytidine deaminase fused to nSpCas9 in the T-DNA and selecting regenerants in the culture medium supplemented with IMZ. Analysis of transgene-free plants indicated that the transient expression of the T-DNA genes was sufficient to induce ALS mutations and thus generate IMZ-resistant shoots at 11.7% frequency. To our knowledge, this is the first report of T-DNA-free edited citrus plants. Although further optimization is required to increase edition efficiency, this methodology will allow generating new citrus varieties with improved organoleptic/agronomic features without the need to use foreign genes.
Highlights
Citrus are susceptible to biotic and abiotic stresses, which can compromise their yield, quality, and survival in the case of being affected by aggressive diseases
The explants started to shoot in the first week after their transference to light condition increasing the number of shoots per explants along subsequent weeks (Supplementary Figures 1C,D)
When IMZ was added to culture media, the shooting ability of the explants was reduced more than 84% and did not increase over the time
Summary
Citrus are susceptible to biotic and abiotic stresses, which can compromise their yield, quality, and survival in the case of being affected by aggressive diseases. Citrus genetic transformation of some citrus varieties is feasible, there are few transgenic cultivars resistant/tolerant to important citrus diseases. Generation of Edited Non-transgenic Citrus field trials of these resistant cultivars are scarce, and no commercial transgenic plantings have been established far. This may be related to regulatory burdens and consumers’ concerns about genetic modified organisms (GMOs). It has been proposed that genetically modified HLB-resistant cultivars are the main feasible option to obtain durable and sustainable control of this disease (Yan et al, 2015; McCollum and Baldwin, 2016; NASC, 2018; Cochrane and Shade, 2019; Wang, 2020; Alquezar et al, 2021)
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