Extended Data Fig. 6: Characterization of the negative effect of R723H on flg22Rso recognition and the enhanced recognition capability of the ‘superGmFLS2’ variant. | Nature Plants

Extended Data Fig. 6: Characterization of the negative effect of R723H on flg22Rso recognition and the enhanced recognition capability of the ‘superGmFLS2’ variant.

From: Reverse engineering of the pattern recognition receptor FLS2 reveals key design principles of broader recognition spectra against evading flg22 epitopes

Extended Data Fig. 6: Characterization of the negative effect of R723H on flg22Rso recognition and the enhanced recognition capability of the ‘superGmFLS2’ variant.The alt text for this image may have been generated using AI.

ac, Effects of the R723H mutation on flg22Pa- and flg22Rso-induced ROS production (n = 12 leaf discs). dg, Comparison of ROS burst kinetics (d), total flg22Pa-induced ROS production (e), flg22Pa- and flg22Rso-induced cytoplasmic calcium influx (f, n = 16 leaf discs), and protein expression levels (g) between ‘superGmFLS2’ and GmFLS2b (related to Fig. 4g). For line charts, data are presented as mean ± SEM. For box plots: center line, median; box limits, upper and lower quartiles; whiskers, 1.5 times interquartile range; points, outliers. Two-tailed Mann-Whitney test was performed for b, c, and e. Similar results were obtained from three independent experiments.

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