Field Crop 2024, Vol.7, No.6, 317-324 http://cropscipublisher.com/index.php/fc 320 Figure 2 Molecular design strategy for pyramiding of superior genes related to yield, taste quality, and blast resistance (Adopted from Xiao et al., 2021) Image caption: a Molecular design strategy for breeding novel japonica varieties with high yield, excellent taste quality, and blast resistance. b The accuracy of observed and predicted yield traits by rrBLUP model of 200 japonica rice varieties. YP, yield per plant (g); GW, 1000-grain weight (g); PN, panicle number per plant; GN, grain number per panicle. Based on the genomic selection model, YG7313 and NG9108 were selected as high-yield core parents. The green dots, blue dots, and red dots indicate the top 40, bottom 40, and other random varieties for YP, GW, GN, and PN, respectively. c Superior genes for yield, blast resistance, and excellent taste quality distributed in NG9108, YG7311, andYG7313. d Two improved strategies, ②×①, respect the strategy of precise design of novel lines with high yield and excellent taste on the background of blast resistance through YG7311 as a recurrent parent. ①×③respects the strategy of new blast-resistant lines’ precise design on the background of high yield and excellent taste quality using NG9108 as a recurrent parent. e rrBLUP model was used to predict the yield, grain weight, grain number, and panicle number of recombination lines. Green arrows represent the elite line selected from the recombination lines with pyramiding of high yield, blast resistance, and excellent taste quality, named as “JXY1.” Red arrows represent the elite line selected from recombination lines with high yield, blast resistance, and excellent taste quality, named “XY99.” YP, yield per plant (g); GW, 1000-grain weight (g); PN, panicle number per plant; GN, grain number per panicle (Adopted from Xiao et al., 2021) 5.2 Tools and technologies for integration The integration of genetics and agronomy is facilitated by various tools and technologies. Genomic tools, such as genome-wide association studies and multiplex genome editing, enable precise genetic modifications to enhance
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