Paper Publications
- [1] . PIFs coordinate shade avoidance by inhibiting auxin repressorARF18and metabolic regulatorQQS. New Phytologist, 228, 609, 2020.
- [2] . Methionine-mediated trade-off between plant growth and salt tolerance. plant physiology, 2025.
- [3] 李为珺. Phenoxyacetic acid enhances nodulation symbiosis during the rapid growth stage of soybean. 《PNAS》, 121, 2024.
- [4] . MYB2 and MYB108 regulate lateral root development by interacting with LBD29 in Arabidopsis thaliana. Journal of integrative plant biology, 2024.
- [5] Shang, Erlei. VIK-Mediated Auxin Signaling Regulates Lateral Root Development in Arabidopsis. Advanced Science, 2024.
- [6] . AtHB7/12 regulate root growth in response to aluminum stress. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 21, 2020.
- [7] 徐佳萌. SIZ1 negatively regulates aluminum resistance by mediating the STOP1-ALMT1 pathway in Arabidopsis. Journal of integrative plant biology, 2021.
- [8] 孙晓东. Differentially charged nanoplastics demonstrate distinct accumulation inArabidopsis thaliana. NATURE NANOTECHNOLOGY, 15, 755-+, 2020.
- [9] . Serratia marcescens PLR enhances lateral root formation through supplying PLR-derived auxin and enhancing auxin biosynthesis in Arabidopsis. Journal of Experimental Botany, 73, 3711-3725, 2022.
- [10] 孙晓东. Differentially charged nanoplastics demonstrate distinct accumulation inArabidopsis thaliana. NATURE NANOTECHNOLOGY, 15, 755, 2020.
- [11] Liu, Jiajia. STOP1 attenuates the auxin response to maintain root stem cell niche identity. Cell Reports, 43, 2024.
- [12] 王俊霞. Dual regulations of cell cycle regulator DPa by auxin in Arabidopsis root distal stem cell maintenance. 《PNAS》, 2023.
- [13] 张春雷. Serratia marcescens PLR enhances lateral root formation through supplying PLR-derived auxin and enhancing auxin biosynthesis in Arabidopsis. Journal of Experimental Botany, 73, 3711, 2022.
- [14] 刘佳佳. Transition Zone1 Negatively Regulates Arabidopsis Aluminum Resistance Through Interaction With Aconitases. FRONTIERS IN PLANT SCIENCE, 12, 2022.
- [15] 张春雷. CO(2)is a key constituent of the plant growth-promoting volatiles generated by bacteria in a sealed system. Plant Cell Reports, 2021.
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