A robust agroinfiltration-mediated transient gene expression method for soybean leaves was developed. Plant genotype, developmental stage and leaf age, surfactant, and Agrobacterium culture conditions are important for successful agroinfiltration. Agroinfiltration of Nicotiana benthamiana has emerged as a workhorse transient assay for plant biotechnology and synthetic biology to test the performance of gene constructs in dicot leaves. While effective, it is nonetheless often desirable to assay transgene constructs directly in crop species. To that end, we innovated a substantially robust agroinfiltration method for Glycine max (soybean), the most widely grown dicot crop plant in the world. Several factors were found to be relevant to successful soybean leaf agroinfiltration, including genotype, surfactant, developmental stage, and Agrobacterium strain and culture medium. Our optimized protocol involved a multi-step Agrobacterium culturing process with appropriate expression vectors, Silwet L-77 as the surfactant, selection of fully expanded leaves in the VC or V1 stage of growth, and 5min of vacuum at -85kPa followed by a dark incubation period before plants were returned to normal growth conditions. Using this method, young soybean leaves of two lines-V17-0799DT, and TN16-5004-were high expressors for GUS, two co-expressed fluorescent protein genes, and the RUBY reporter product, betalain. This work not only represents a new research tool for soybean biotechnology, but also indicates critical parameters for guiding agroinfiltration optimization for other crop species.We speculate that leaf developmental stage might be the most critical factor for successful agroinfiltration.
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