Optimization of in vitro and ex vitro Agrobacterium rhizogenes-mediated hairy root transformation of soybean for visual screening of transformants using RUBY

In vitro and ex vitro Agrobacterium rhizogenes-mediated hairy root transformation (HRT) assays are key components of the plant biotechnology and functional genomics toolkit. In this report, both in vitro and ex vitro HRT were optimized in soybean using the RUBY reporter. Different parameters including A. rhizogenes strain, optical density of the bacterial cell culture (OD600), co-cultivation media, soybean genotype, explant age, and acetosyringone addition and concentration were evaluated. Overall, the in vitro assay was more efficient than the ex vitro assay in terms of the percentage of induction of hairy roots and transformed roots (expressing RUBY). Nonetheless, the ex vitro technique was deemed faster and a less complicated approach. The highest transformation of RUBY was observed on 7-d-old cotyledons of cv. Bert inoculated for 30 minutes with the R1000 resuspended in 1/4 B5 medium to OD600 (0.3) and 150 & mu;M of acetosyringone. The parameters of this assay also led to the highest percentage of RUBY through two-step ex vitro hairy root transformation. Finally, using machine learning-based modeling, optimal protocols for both assays were further defined. This study establishes efficient and reliable hairy root transformation protocols applicable for functional studies in soybean.

Automated summary

In this study, in vitro and ex vitro Agrobacterium rhizogenes-mediated hairy root transformation (HRT) assays were optimized in soybean using the RUBY reporter. Various parameters were evaluated, and it was found that the in vitro assay was more efficient than the ex vitro assay in terms of the percentage of induction of hairy roots and transformed roots. However, the ex vitro technique was considered faster and less complicated. Machine learning-based modeling was used to define optimal protocols for both assays. This study establishes efficient and reliable hairy root transformation protocols applicable for functional studies in soybean.