![]()
- Wang Xinqing,Zhang Jianting,Wang Liangju.Study on the Mechanism of Exogenous 5-Aminolevulinic Acid (ALA) in Regulating the Photosynthetic Efficiency of Pear Leaves,FORESTS,2024,15(5)(通讯作者)
- Yang Hao, Zhang Jianting, Zhong Yan, Wang Liangju.5-Aminolevulinic acid improves strawberry salt tolerance through a NO-H2O2 signaling circuit regulated by FaWRKY70 and FaWRKY40.,Journal of advanced research,2024,:-(共同通讯作者)
- Yang Hao, Zhang Jianting, Zhang Haiwen, Cao Rongxiang, Tang Donglan, Wang Liangju.5-Aminolevulinic acid against strawberry Fusarium wilt: Bidirectional regulation of biocontrol agents and pathogens,HORTICULTURAL PLANT JOURNAL,2024,10(6):1349-1361(通讯作者)
- Zhang Liuzi,Zhang Jiangting,Wei Bo,Li Yage,Fang Xiang,Zhong Yan,Wang Liangju.Transcription factor MdNAC33 is involved in ALA-induced anthocyanin accumulation in apples,PLANT SCIENCE,2024,339(共同通讯作者)
- Hao Yang, Jianting Zhang, Haiwen Zhang, Rongxiang Cao, Donglan Tang, Liangju Wang.5-Aminolevulinic acid against strawberry Fusarium wilt:Bidirectional regulation of biocontrol agents and pathogens,Horticultural Plant Journal,2024,10(06):1349-1361(通讯作者)
- Wang Liangju,Zhang Jianting,Zhong Yan,Zhang Liuzi,Yang Hao,Liu Longbo,Zhou Jiayi,Iqbal Malik Mohsin,Gan Xing.Regulation of 5-Aminolevunilic Acid and Its Application in Agroforestry,FORESTS,2023,14(9)(第一及通讯作者)
- Zhang Liuzi, Fang Xiang, Wei Bo, Li Yage, Wang Liangju.Transcription factor MdNAC33 is involved in ALA-induced anthocyanin accumulation in apples,PLANT SCIENCE,2023,339:111949-111949(共同通讯作者)
- Zhong Yan,Liu Changzhou,Wei Bo,Zhang Jianting,An Yuyan,Wang Liangju.Exogenous 5-Aminolevulinic Acid Promotes Osmotic Stress Tolerance of Walnuts by Modulating Photosynthesis, Osmotic Adjustment and Antioxidant Systems,FORESTS,2023,14(9)(共同通讯作者)
- Liang Ruolin,Wang Liangju,Wang Xinqing,Zhang Jianting,Gan Xing.Effects of Exogenous ALA on Leaf Photosynthesis, Photosynthate Transport, and Sugar Accumulation in Prunus persica L.,FORESTS,2023,14(4)(通讯作者)
- Chen Zheng,An Yuyan,Wang Liangju.ALA reverses ABA-induced stomatal closure by modulating PP2AC and SnRK2.6 activity in apple leaves,HORTICULTURE RESEARCH,2023,10(6)(通讯作者)
