%0 Generic %A Zhao, Chuanji %A Liu, Lijiang %A Bin Safdar, Luqman %A Xie, Meili %A Cheng, Xiaohui %A Liu, Yueying %A Xiang, Yang %A Tong, Chaobo %A Tu, Jinxing %A Huang, Junyan %A Liu, Shengyi %D 2020 %T Supplemental Material for Zhao et al., 2020 %U https://gsajournals.figshare.com/articles/dataset/Supplemental_Material_for_Zhao_et_al_2020/12625796 %R 10.25387/g3.12625796.v1 %2 https://gsajournals.figshare.com/ndownloader/files/23746676 %2 https://gsajournals.figshare.com/ndownloader/files/23746673 %K Brassica napus gene encoding %K leaf color %K chlorophyll biosynthesis %K chloroplast development %K BSA-seq %K gene cloning %K RNA-seq %K Botany %K Genetics %K Genomics %K Plant Biology %K Quantitative Genetics (incl. Disease and Trait Mapping Genetics) %X

Supporting information was consist of Supplementary Figures and Supplementary Tables, available at figshare. Figure S1 describes RNA-seq analysis of ZS9 and yvl. Figure S2 shows polymorphic molecular markers. Figure S3, S4 and S5 illustrate sequence alignment of three genes in which SNP variation occurred. Figure S6 and S7 illustrate amplification and digestion by Bln I of ORF10. Figure S8 illustrates the domain of CHLH protein in multiple species. Figure S9 shows FPKM value of BnaA03.CHLH in ZS11 tissues. Figure S10 illustrates the expression of chlorophyll synthesis genes. Table S1 lists the information of 629 rapeseed accessions. Table S2 describes all the primer sequence in this study. Table S3 describes the comparison of agronomic traits between ZS9 and yvl mutant. Table S4 describes chlorophyll contents of younger and older leaves between ZS9 and yvl. Table S5 shows the statistics of whole genome re-sequencing in BSA-seq study. Table S6 and S7 respectively list the functional annotation of candidate genes and genes transcribed by PEP and NEP.

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