Page 56 - 《广西植物》2025年第7期
P. 56

1 2 4 8                                广  西  植  物                                         45 卷
               ldhs based composite antioxidants for ROS scavenging  Sinicaꎬ 34(1): 15-23. [郭家宏ꎬ 陈怡平ꎬ 李英梅ꎬ 等ꎬ
               [ D ].  Beijing:  Beijing  University  of  Chemistry  2025. 冬小麦新品系‘白鹿 181’对极端冷冻胁迫的生理
               Technology. [陈福松ꎬ 2024. 水滑石基复合抗氧化剂的结              响应 [J]. 西北农业学报ꎬ 34(1): 15-23.]
               构调控及活性氧清除性能研究 [D]. 北京: 北京化工                     KONG LGꎬ WANG FHꎬ SI JSꎬ et al.ꎬ 2013. Increasing in ROS
               大学.]                                              levels and callose deposition in peduncle vascular bundles of
            CHEN JJꎬ ZHANG LJꎬ TU WQꎬ et al.ꎬ 2023. Dynamic      wheat ( Triticum aestivum L.) grown under nitrogen
               characteristics of free radical scavenging of Chrysanthemum  deficiency [ J ]. Journal of Plant Interactionsꎬ 8(2):
               morifolium and its inhibitory effects on hydroxyl radical ̄  109-116.
               mediated 2 ̄deoxyribose degradation [ J]. Journal of Food  KRANNER Iꎬ ROACH Tꎬ BECKETT RPꎬ et al.ꎬ 2010.
               Safety and Qualityꎬ 14(23): 206-213. [陈晶晶ꎬ 张留记ꎬ   Extracellular production of reactive oxygen species during
               屠万倩ꎬ 等ꎬ 2023. 菊花清除自由基动力学特性及对羟基                    seed germination and early seedling growth in Pisum sativum
               自由基介导的 2 ̄脱氧核糖裂解的抑制作用 [J]. 食品安                     [J]. Journal of Plant Physiologyꎬ 167(10): 805-811.
               全质量检测学报ꎬ 14(23): 206-213.]                      LI Qꎬ GAO XXꎬ YANG YLꎬ et al.ꎬ 2018. NaCl ̄induced
            DAI YJꎬ LUO XFꎬ ZHOU WGꎬ et al.ꎬ 2019. Plant systemic  production of endogenous reactive oxygen species and nitric
               signaling under biotic and abiotic stresses conditions  oxide and their effect on the physiological characteristics in
               [J]. Chinese Bulletin of Botanyꎬ 54 (2): 255-264. [代宇  wheat seedlings [J]. Journal of Lanzhou University(Natural
               佳ꎬ 罗晓峰ꎬ 周文冠ꎬ 等ꎬ 2019. 生物和非生物逆境胁迫                  Sciences)ꎬ 54(2): 192- 199. [李琼ꎬ 高晓霞ꎬ 杨颖丽ꎬ

               下的植物系统信号 [J]. 植物学报ꎬ 54 (2): 255-264.]             等ꎬ 2018. 盐胁迫下内源 ROS 与 NO 的产生及其对小麦
            DUNAND Cꎬ CREVECOEUR Mꎬ PENEL Cꎬ 2007. Distribution  幼苗生理特性的影响 [J]. 兰州大学学报(自然科学版)ꎬ
               of superoxide and hydrogen peroxide in Arabidopsis root and  54(2): 192-199.]
               their influence on root development: possible interaction with  LI Yꎬ 2017. Molecular mechanism of PagUPBI gene regulating
               peroxidases [J]. New Phytologistꎬ 174(2): 332-341.  tree growth rate [ D ].  Harbin: Northeast  Forestry
            DVORAK Pꎬ KRASYLENKO Yꎬ ZEINER Aꎬ et al.ꎬ 2021.      University. [李媛ꎬ 2017. 杨树 UPB1 基因调控树木生长速
               Signaling toward reactive oxygen species scavenging enzymes  度的分子机制 [D]. 哈尔滨: 东北林业大学.]
               in plants [J]. Frontiers in Plant Scienceꎬ 11: 618835.  LIU BLꎬ ZHAO Sꎬ TAN Fꎬ et al.ꎬ 2017. Changes in ROS
            FICHMAN Yꎬ MILLER Gꎬ MILLTER Rꎬ 2019. Whole ̄plant    production and antioxidant capacity during tuber sprouting in
               live imaging of reactive oxygen species [ J]. Molecular  potato [J]. Food Chemistryꎬ 237: 205-213.
               Plantꎬ 12: 1203-1210.                           MITTLER Rꎬ ZANDALINAS SIꎬ FICHMAN Yꎬ et al.ꎬ
            FICHMAN Yꎬ MYERS RJꎬ GRANT DGꎬ et al.ꎬ 2021.         2022. Reactive oxygen species signalling in plant stress
               Plasmodesmata ̄localized proteins and ROS orchestrate light ̄  responses [J]. Nature Reviews Molecular Cell Biologyꎬ 23:
               induced rapid systemic signaling in Arabidopsis [J]. Science  663-679.
               Signalingꎬ 14(671): eabf0322                    NIEMEYER Jꎬ SCHEURING Dꎬ OESTREICHER Jꎬ et al.ꎬ
            FICHMAN Yꎬ ROWLAND Lꎬ OLIVER MJꎬ et al.ꎬ 2023a. ROS  2021. Real ̄time monitoring of subcellular H O distribution
                                                                                                  2  2
               are evolutionary conserved cell ̄to ̄cell stress signals [ J].  in Chlamydomonas reinhardtii [J]. The Plant Cellꎬ 33(9):
               Proceedings of  the  National  Academy  of  Sciencesꎬ  2935-2949.
               120(31): e2305496120.                           NOCTOR Gꎬ REICHHELD JPꎬ FOYER CHꎬ 2018. ROS ̄
            FICHMAN Yꎬ XIONG Hꎬ SENGUPTA Sꎬ et al.ꎬ 2023b.       related redox regulation and signaling in plants [ J ].
               Phytochrome B regulates reactive oxygen signaling during  Seminars in Cell and Developmental Biologyꎬ 80: 3-12.
               abiotic and biotic stress in plants [ J]. New Phytologistꎬ  NOTAGUCHI Mꎬ OKAMOTO Sꎬ 2015. Dynamics of long ̄
               237(5): 1711-1727.                                distance signaling via plant vascular tissues [J]. Frontiers in
            GAUPELS Fꎬ DURNER Jꎬ KOGEL KHꎬ 2017. Productionꎬ     Plant Scienceꎬ 6: 161.
               amplification and systemic propagation of redox messengers  OGAWA Kꎬ KANEMATSU Sꎬ ASADA Kꎬ 1997. Generation of
               in plants? The phloem can do it all [J]. New Phytologistꎬ  superoxide anion and localization of CuZn ̄superoxide
               214(2): 554-560.                                  dismutase in the vascular tissue of spinach hypocotyls: Their
            GUO JHꎬ CHEN YPꎬ LI YMꎬ et al.ꎬ 2025. Physiological  association with lignification [J]. Plant and Cell Physiologyꎬ
               response of new winter wheat line ‘ Bailu181’ to extreme  38(10): 1118-1126.
               freezing stress [J]. Acta Agriculturae Boreali ̄Occidentalis  QI WLꎬ MA Lꎬ WANG Pꎬ et al.ꎬ 2021. Cell division and signal
   51   52   53   54   55   56   57   58   59   60   61