In contrast, these parameter values in Jimai 20 were increased by

In contrast, these parameter values in Jimai 20 were increased by 7.06% and 4.86%. However, application of ABA at the full-bloom stage had no significant influence on the spike

number and grain number per high throughput screening compounds spike. Although the spike number of Jimai 20 was significantly higher than that of Wennong 6, 1000-grain weight and grain yield of staygreen wheat Wennong 6 were greater than those of Jimai 20 ( Table 1). Application of ABA increased grain weight at all grain filling stages (Fig. 1). The final weight of superior kernels was markedly (P < 0.05) greater than that of inferior kernels in two cultivars. Meanwhile, the final weight of superior and inferior kernels in staygreen wheat Wennong 6 was significantly (P < 0.05) higher than those in Jimai 20, respectively ( Fig. 1-A and B). Grain-filling rate of all treatments first increased and then decreased, showed a parabolic change. The peak values in grain-filling

rate occurred at 15 and 12 DAA for superior and inferior kernels in Jimai 20 and at 18 DAA for superior and inferior kernels in Wennong 6 ( Fig. 1-C and D). The maximum rate and mean grain-filling rate and duration of ABA-treated Jimai 20 were significantly (P < 0.05) increased. However, the maximum rate and mean grain-filling RG7204 mw rate for Wennong 6 were increased and the grain filling duration was reduced ( Table 2). Grain-filling duration of ABA-treated superior and inferior kernels in Wennong 6 was reduced from 44.56 and 41.19 to 40.76 and 37.93 days, respectively. These

results indicate that the improved grain weight of ABA-treated staygreen wheat was due mainly to the positive action of increased grain-filling rate, which compensated for the negative effect of reduced grain-filling duration. ABA application markedly extended the active grain-filling period by 2.39 and 3.53 days for superior and inferior kernels of Jimai 20, respectively. Under ABA treatment, the active grain filling period of Wennong 6 was reduced, but the differences were small (− 0.12 d for superior kernels and − 0.70 d for inferior kernels). These observations indicated that the effect of exogenous ABA on the active grain filling period was determined by grain position within a panicle and by genotypic differences. The dry matter distribution in different organs at maturity is presented in Table 3. Application of exogenous GNE-0877 ABA decreased carbohydrate amount and ratio in photosynthetic tissue and stem sheath but increased dry matter assimilation of kernels in both Jimai 20 and Wennong 6. Grain amount of Wennong 6 increased by 0.33 g stalk− 1 at harvest maturity under exogenous ABA treatment, in contrast to a 13.64% reduction in the amount of leaf dry weight for Jimai 20. No difference was found in total carbohydrate amount of ABA-treated Jimai 20. ABA-treated plants of Wennong 6 showed markedly (P < 0.05) enhanced total carbohydrates compared with the control.

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