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【代表性论文】

1. 1.Yu R, Wang G, Yu X, Li L, Li C, Song Y, Xu Z, Zhang J, Guan C. Assessing alfalfa (Medicago sativa L.) tolerance to salinity at seed ling stage and screening of the salinity tolerance traits, Plant Biology, 2021, 23(4): 664-674
2. 2.Du X, Yu R(通讯作者), Shi C, Wang Y, Meng R, Shi W, Jin, M, Wei X, Sun T. Comparative transcriptomics reveals osmotic and ionic stress key genes co ntributing to the difference in the salinity tolerance of two pak choi cultivars., Environmental and Experimental Botany, 2021, 191: 104621?
3. 3.Yu R, Du X, Li J, Liu, Hu C, Yan X, Xia Y, Xu H. Identification and differential expression analysis of anthocyanin biosynthetic genes in root-skin color variants of radish (Raphanus sativus L.). Genes Genomics, 2020 42(4), 413-424.
4. 4.Yu R, Jiang Q, Xv C, Li L, Bu S, Shi G. Comparative proteomics analysis of peanut roots reveals differential mechanisms of cadmium detoxification and translocation between two cultivars differing in cadmium accumulation. BMC Plant Biology, 2019，19(1): 137.
5. 5.Yu R, Ma Y, Li Y, Li X, Liu C, Du X, Shi G. Comparative transcriptome analysis revealed key factors for differential cadmium transport and retention in roots of two contrasting peanut cultivars. BMC Genomics, 2018, 19(1): 938.
6. 6.Yu R, Li D, Du X, Xia S, Liu F, Shi G. Comparative transcriptome analysis reveals key cadmium transport-related genes in roots of two pak choi (Brassica rapa L. ssp. chinensis) cultivars. BMC Genomics, 2017, 18(1): 587.
7. 7.Yu R, Tang Y, Liu C, Du X, Miao C, Shi G. Comparative transcriptomic analysis reveals the roles of ROS scavenging genes in response to cadmium in two pak choi cultivars. Scientific Reports, 2017, 7(1): 9217.
8. 8.Yu R, Xia S, Liu C, Zhang Z, Shi G. Variations in root morphology among 18 herbaceous species and their relationship with cadmium accumulation. Environmental Science and Pollution Research, 2017, 24(5): 4731–4740.
9. 9.Yu R, Xu L, Zhang W, Wang Y, Luo X, Wang R, Zhu X, Xie Y, Karanja B, Liu L. De novo taproot Transcriptome sequencing and analysis the major gene involved in sucrose metabolism in radish (Raphanus sativus L.) Frontiers in Plant Science, 2016, 7: 585.
10. 10.Yu R, Wang J, Xu L, Wang Y, Wang R, Zhu X, Sun X, Luo X, Xie Y, Everlyne M, Liu L.? Transcriptome profiling of taproot reveals complex regulatory networks during taproot thickening in radish (Raphanus sativus L.). Frontiers in Plant Science, 2016, 7(186) :1210.
11. 11.Yu R, Wang Y, Xu L, Zhu X, Zhang W, Wang R, Gong Y, Limera C, Liu L. Transcriptome profiling of root microRNAs reveals novel insights into taproot thickening in radish (Raphanus sativus L.). BMC Plant Biology, 2015, 15 (1): 30.
12. 12.余如刚, 张迪, 余心悦, 唐钢, 杨娇娇, 赵有弟, 吴婵. 13 种小白菜苗期耐盐比较分析及耐性指标筛选. 云南农业大学学报(自然科学), 2022, 37(1)：8.