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               Przewalskia tangutica Maxim [J]. Evaluation and Analysis  MA FMꎬ WANG ANꎬ WU Lꎬ et al.ꎬ 2011. Identification of
               of Drug ̄Use in Hospitals of Chinaꎬ 19 ( 11 ): 1406 -  soybean root exudates and cloning of the PAL1ꎬ PAL2ꎬ C4H
               1408. [贡磊磊ꎬ 冯欣ꎬ 2019. 藏药马尿泡药理研究进                  genes [J]. Cropsꎬ 141 (2): 65-71. [马凤鸣ꎬ 王安娜ꎬ 吴
               [J]. 中国医院用药评价与分析ꎬ 19(11): 1406-1408.]             蕾ꎬ 等ꎬ 2011. 大豆根系分泌物的鉴定及 PAL1ꎬ PAL2ꎬ
            HU LPꎬ ZHANG Fꎬ XU Hꎬ et al.ꎬ 2017. Research advances in  C4H 的克隆 [J]. 作物杂志ꎬ 141(2): 65-71.]
               the structureꎬ function and regulation of SWEET gene family  MA WMꎬ TANG SHꎬ DENGZENG ZMꎬ et al.ꎬ 2022. Root
               in plants [J]. Biotechnology Bulletinꎬ 33(4): 27-37. [胡  exudates contribute to belowground ecosystem hotspots: A
               丽萍ꎬ 张峰ꎬ 徐惠ꎬ 等ꎬ 2017. 植物 SWEET 基因家族结               review [J]. Frontiers in Microbiologyꎬ 5(13): 937940.
               构、功能及调控研究进展 [J]. 生物技术通报ꎬ 33(4):                 MARUKATAT Sꎬ 2023. Tutorial on PCA and approximate PCA
               27-37.]                                           and approximate kernel PCA [ J]. Artificial Intelligence
            JIANG Nꎬ TAN XFꎬ ZHANG Lꎬ et al.ꎬ 2014. Gene analysis of  Reviewꎬ 56(6): 5445.
               α ̄linolenic acid metabolism of Camellia oleifera seeds based  PATERSON Eꎬ THORNTON Bꎬ MIWOOD AJꎬ et al.ꎬ
               on RNA ̄Seq [ J]. Scientia Silvae Sinicaeꎬ 50(8): 68-  2005. Defoliation alters the relative contributions of recent
               75. [江南ꎬ 谭晓风ꎬ 张琳ꎬ 等ꎬ 2014. 基于 RNA ̄Seq 的油          and non ̄recent assimilate to root exudation from Festuca
               茶种子 α ̄亚麻酸代谢途径及相关基因分析 [J]. 林业科                     rubra [ J ].  Plantꎬ Cell  & Environmentꎬ 28(12):
               学ꎬ 50(8): 68-75.]                                 1525-1533.
            LIANG THꎬ DU XLꎬ LIU YHꎬ et al.ꎬ 2024. Effects of drought  QIU Qꎬ LI JYꎬ WANG JHꎬ et al.ꎬ 2013. Biomass and root
               on the characteristics of plant root exudates: A review [J/  system characteristics and drought resistance of 4 shrubs in
               OL ]. Chinese Journal of Applied and Environmental  Tibetan Plateau under drought stress [ J ]. Journal of
               Biology: 1-20 [2024-10-09]. https:/ / doi.org/ 10.19675/  Northwest Forestry Universityꎬ 28(3): 1-6. [邱权ꎬ 李吉
               j.cnki.1006 ̄687x.2024.03031. [梁天豪ꎬ 杜旭龙ꎬ 刘源豪ꎬ      跃ꎬ 王军辉ꎬ 等ꎬ 2013. 干旱胁迫下青藏高原 4 种灌木生
               等ꎬ 2024. 干旱对植物根系分泌物速率和化学组成的影                      物量和根系变化特征及抗旱性 [J]. 西北林学院学报ꎬ
               响研 究 进 展 [ J/ OL]. 应 用 与 环 境 生 物 学 报: 1 - 20      28(3): 1-6.]
               [2024- 10 - 09]. https:/ / doi. org/ 10. 19675/ j. cnki. 1006 ̄  RAN FXꎬ BAO GXꎬ MA XMꎬ et al.ꎬ 2024. Advances in
               687x.2024. 03031.]                                physiological mechanisms of plants coping with heavy metal
            LIN CYꎬ LAN CHꎬ LI XXꎬ et al.ꎬ 2024. A pair of nuclear  stress on the Tibetan Plateau [ J]. Modern Agricultural
               factor Y transcription factors act as positive regulators in  Science Technology(18): 78-84. [冉凤霞ꎬ 包国霞ꎬ 马秀
               jasmonate signaling and disease resistance in Arabidopsis  梅ꎬ 等ꎬ 2024. 青藏高原植物应对重金属胁迫的生理机制
               [ J ]. Journal of Integrative Plant Biologyꎬ 66(9):  研究进展 [J]. 现代农业科技(18): 78-84.]
               2042-2057.                                      RAMACHANDRA RSꎬ RAVISHANKAR GAꎬ 2022. Plant cell
            LI JJꎬ FAN MCꎬ SHANGGUAN ZPꎬ 2020. Research advances  cultures: Chemical factories of secondary metabolites
               in the main ecological functions of root exudates [ J ].  [J]. Biotechnolꎬ 20(2): 101-153.
               Chinese Bulletin of Botanyꎬ 55(6): 788-796. [李佳佳ꎬ 樊  RASI Aꎬ SABOKDAST Mꎬ NAGHAVI MRꎬ et al.ꎬ 2024.
               妙春ꎬ 上官周平ꎬ 2020. 植物根系分泌物主要生态功能研                    Modulation of tropane alkaloids biosynthesis and gene
               究进展 [J]. 植物学报ꎬ 55(6): 788-796.]                   expression by methyl jasmonate in Datura stramonium L.: A
            LEI TXꎬ CAI XJꎬ ZHOU DWꎬ et al.ꎬ 2015. Preliminary   comparative  analysis  of  scopolamineꎬ  atropineꎬ  and
               building the sterile seedling propagation system of three  hyoscyamine accumulation [J]. Lifeꎬ 14(5): 618.
               Solanaceae species with seed [ J ]. Journal of Chinese  SUN XBꎬ YU GHꎬ ZHANG Xꎬ et al.ꎬ 2013. Construction of
               Medicinal Materialsꎬ 38(3): 447-450. [雷天翔ꎬ 蔡晓剑ꎬ   RNA interference vectors of wheat LKR/ SDH gene and
               周党卫ꎬ 等ꎬ 2015. 3 种茄科植物种子无菌苗繁殖体系的                   genetic transformation [ J]. Acta Agriculturae Jiangxiꎬ 25

               初建 [J]. 中药材ꎬ 38(3): 447-450.]                     (12): 1- 6. [孙晓波ꎬ 余桂红ꎬ 张旭ꎬ 等ꎬ 2013. 小麦
            LI YLꎬ HE HPꎬ LIU Qꎬ et al.ꎬ 2024. Analysis of organic acid  LKR/ SDH 基因 RNAi 载体构建与遗传转化 [J]. 江西农
               components in root exudates and their effects on soil  业学报ꎬ 25(12): 1-6.]
               nutrients and enzyme activities [ J]. Northern Horticulture  TANG HTꎬ LIN SMꎬ DENG JLꎬ et al.ꎬ 2024. Engineering yeast
               (12): 73-79. [李彦林ꎬ 贺怀鹏ꎬ 刘菁ꎬ 等ꎬ 2024. 不同根          for the de novo synthesis of jasmonates [ J ]. Nature
               系分泌有机酸组分分析及其对土壤养分、酶活性的影响                          Synthesisꎬ 3(2): 224-235.

               [J]. 北方园艺(12): 73-79.]                          TIAN Gꎬ LIU CLꎬ XU XXꎬ et al.ꎬ 2023. Effects of magnesium
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