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A simple method for the efficient high-throughput transformation of hybrid poplar (Populus tremula x alba clone 717 1B) is described. Factors considered in developing the method included the ease and efficiency of preparing large numbers of explants for transformation, and selection of culture media that enhanced cell and tissue growth while promoting shoot regeneration competence. We found that petiole explants from in vitro-cultured plantlets can be easily collected and prepared for transformation and regenerate shoots comparable to stem or leaf explants. Culturing petiole explants on Driver Kuniyuki Walnut (DKW) medium resulted in significantly greater tissue growth compared to Murashige Skoog (MS) medium. Moreover, the inclusion of low concentrations of thidiazuron (TDZ) in callus-inducing media (CIM) significantly enhanced shoot regeneration competence of cultured petiole explants. As a consequence, the combination of petiole explants cultured on DKW medium along with 2.2 ug/L TDZ during the callus induction phase resulted in rapid and efficient transformation of this hybrid poplar genotype. When applied to genomic approaches such as activation tagging or CRISPR-Cas9 and Cas12a gene editing, we obtained transformation efficiencies ranging between 70% and 90%. The described protocol provides a simple and efficient method that is easily scalable for high-throughput approaches, which could facilitate genome-wide methods for the rapid and efficient production of transformed hybrid poplars.