(2015 —)
Li C, Huang S, Zhang D, Zhu L, Chen M, Liu Y, Zhang L, Yang J, Zhang X, Yu Y, Li Y, An W, Yang S, Zhang Y*, Liu Z* (2025) AtPHR1 and SlPHL1 positively regulate phosphorus remobilization in response to phosphate starvation by directly facilitating the transcription of genes encoding S-like ribonucleases in Arabidopsis and tomato, respectively. Plant Physiology and Biochemistry 221:109608. doi:10.1016/j.plaphy.2025.109608. (JCR Q1, IF: 6.1)
Liu Z, Huang S, Zhu L, Li C, Zhang D, Chen M, Liu Y, Zhang Y* (2024) PHR1 negatively regulates nitrate reductase activity by directly inhibiting the transcription of NIA1 in Arabidopsis. Journal of Plant Physiology 303:154382. (JCR Q1, IF: 4.0).
Liu Y, Li C, Zhang D, Huang S, Wang Y, Wang E, Zhu L, Chen M, Zhang X, Yuan R, Zhang L, Wang W, Jia Q, Liu Z, Zhang Y* (2024) SlPHL1 positively modulates acid phosphatase in response to phosphate starvation by directly activating the genes SlPAP10b and SlPAP15 in tomato. Physiologia Plantarum 176 (1):e14197. (JCR Q1, IF: 6.4)
Wu X#, Liu Z#, Liu Y, Wang E, Zhang D, Huang S, Li C, Zhang Y, Chen Z, Zhang Y* (2023) SlPHL1 is involved in low phosphate stress promoting anthocyanin biosynthesis by directly upregulation of genes SlF3H, SlF3′H, and SlLDOX in tomato. Plant Physiology and Biochemistry 200:107801. (JCR Q1, 5-year IF: 6.4)
Liu Z#, Wu X#, Wang E, Liu Y, Wang Y, Zheng Q, Han Y, Chen Z, Zhang Y* (2022) PHR1 positively regulates phosphate starvation-induced anthocyanin accumulation through direct upregulation of genes F3'H and LDOX in Arabidopsis. Planta 256 (2):42. (JCR Q1, 5-year IF: 4.69)
Zhang Y#,*, Wang Y#, Wang E, Wu X, Zheng Q, Han Y, Lin W, Liu Z, Lin W (2021) SlPHL1, a MYB-CC transcription factor identified from tomato, positively regulates the phosphate starvation response. Physiologia Plantarum 173: 1063-1077. (JCR Q1, 5-year IF: 4.58)
Liu Z, Wang Y, Fan K, Li Z, Jia Q, Lin W, Zhang Y* (2021) PHYTOCHROME-INTERACTING FACTOR 4 (PIF4) negatively regulates anthocyanin accumulation by inhibiting PAP1 transcription in Arabidopsis seedlings. Plant Science, 303, 110788. (JCR Q1, 5-year IF: 5.13)
Zhang Y*, Zhou Y, Chen S, Liu J, Fan K, Li Z, Liu Z, Lin W* (2019) Gibberellins play dual roles in response to phosphate starvation of tomato seedlings, negatively in shoots but positively in roots. Journal of Plant Physiology, 234-235:145-153. (5-year IF: 3.24, 植物科学2区)
Zhang Y*, Liu Z, Wang X, Wang J, Fan K, Li Z, Lin W* (2018) DELLA proteins negatively regulate dark-induced senescence and chlorophyll degradation in Arabidopsis through interaction with the transcription factor WRKY6, Plant Cell Reports, 37:981-992. (5-year IF: 3.00, 植物科学2区)
Zhang Y, Liu Z, Liu J, Lin S, Wang J, Lin W*, Xu W* (2017) GA-DELLA pathway is involved in regulation of nitrogen deficiency-induced anthocyanin accumulation, Plant Cell Reports, 36: 557-569. (5-year IF: 3.09,植物科学2区)
Zhang Y, Liu Z, Wang J, Chen Y, Bi Y, He J-X* (2015) Brassinosteroid is required for sugar promotion of hypocotyl elongation in Arabidopsis in darkness, Planta, 242: 881-893. (IF5: 3.632,植物科学2区)
Liu Z#, Zhang Y#, Wang J, Li P, Zhao C, Chen Y, Bi Y* (2015) Phytochrome-interacting factors PIF4 and PIF5 negatively regulate anthocyanin biosynthesis under red light in Arabidopsis seedlings, Plant Science, 238: 64-72. (IF5: 3.904,植物科学2区)
Zhang Y, Liu Z, Chen Y, He J-X*, Bi Y* (2015) PHYTOCHROME-INTERACTING FACTOR 5 (PIF5) positively regulates dark-induced senescence and chlorophyll degradation in Arabidopsis, Plant Science, 237: 57-68. (IF5: 3.904,植物科学2区)
Zhang Y, He J-X* (2015) Sugar-induced plant growth is dependent on brassinosteroids, Plant Signaling and Behavior, 10(12): e1082700.
Wang J#, Zhang Y#, Li Y, Wang X,Liu Z, Nan W, Zhao C, Wang F, Ma J, Bi Y* (2016) Involvement of polar auxin transport in the inhibition of Arabidopsis seedling growth induced by Stenotrophomonas maltophilia, Biologia Plantarum, 60: 299-310. (IF5: 1.760)
Wang J#, Zhang Y#, Li Y, Wang X, Nan W, Hu Y, Zhang H, Zhao C, Wang F, Li P, Shi H, Bi Y* (2015) Endophytic microbes Bacillus sp. LZR216-regulated root development is dependent on polar auxin transport in Arabidopsis seedlings, Plant Cell Reports, 34(6): 1075-1087. (IF5: 2.894)