Fuente: PubMed "pollination" Plant J. 2026 Apr;126(2):e70880. doi: 10.1111/tpj.70880.ABSTRACTSetaria viridis is a diploid C4 grass in the Poaceae family, notable for its rapid life cycle of 6-8 weeks from sowing to seed-much shorter than the 4-5 months required by crops such as Zea mays and Sorghum bicolor. This fast growth makes S. viridis a valuable model for C4 crop research. Genetic crosses are essential for studying gene function, but manual crossing is labor-intensive and time-consuming. To address this, we developed a male-sterile line by targeting the S. viridis ortholog of Setaria italica NO POLLEN 1 (SiNP1), which encodes a glucose-methanol-choline oxidoreductase required for pollen exine formation. Using Cas9 and TREX2-mediated genome editing, we generated SiNP1 knockouts in both the S. viridis ME034V and A10.1 backgrounds that were fully male-sterile. Backcrossing T0 male-sterile plants to ME034V wild-type followed by selfing yielded a stable BC1F2 line homozygous for a 59 bp deletion in the S. viridis NO POLLEN 1 gene, easily genotyped by PCR and maintained by heterozygous siblings. Using this line, we developed a simple and efficient crossing protocol that eliminates the need for emasculation. This method enables a single person to perform up to 100 crosses per day-compared to 15 using traditional methods-and yields 20-32 F1 hybrid seeds per panicle with 100% genetic purity. We also quantified pollen flow and outcrossing frequencies under greenhouse conditions to develop optimal bagging strategies and prevent unintended pollination. This resource accelerates genetic research in S. viridis, enhancing its utility as a premier C4 model for mapping and functional genomics.PMID:41999610 | DOI:10.1111/tpj.70880