植物生长调节剂对杜仲叶片主要次级代谢产物的影响

周文玲; 魏洪玲; 李德文; 唐中华; 刘英; 解胜男; 田叙晨; 储启明; 周文玲; 魏洪玲; 李德文; 唐中华; 刘英; 解胜男; 田叙晨; 储启明

doi:10.11833/j.issn.2095-0756.20220705

[1]

杜红岩. 杜仲优质高产栽培 [M]. 北京: 中国林业出版社, 1996.

DU Hongyan. High-Quality and High-Yield Cultivation of Eucommia ulmoides [M]. Beijing: China Forestry Press, 1996.

[2]

杜红岩, 杜庆鑫. 我国杜仲产业高质量发展的基础、问题与对策[J]. 经济林研究, 2020, 38(1): 1 − 10.

DU Hongyan, DU Qingxin. Foundation, problems and countermeasures of Eucommia ulmoides industry high-quality development in China [J]. Non-wood Forest Research, 2020, 38(1): 1 − 10.

[3]

杜红岩, 李钦, 赫锦锦, 等. 不同变异类型杜仲皮中几种主要活性成分含量的比较[J]. 林业科学研究, 2011, 24(2): 230 − 233.

DU Hongyan, LI Qin, HE Jinjin, et al. Comparison of the main active components contents in barks of different variance-types of Eucommia ulmoides [J]. Forest Research, 2011, 24(2): 230 − 233.

[4]

REN Xiaomei, HAN Zhuzhen, SONG Leixin, et al. Four new phenolic compounds from the tender leaves of Eucommia ulmoides Oliv. and their anti-inflammatory activities [J]. Phytochemistry Letters, 2021, 44: 173 − 177.

[5]

RUI Han, TIAN Yuan, ZHI Yang, et al. An unusual nortriterpenoid from Eucommia ulmoides Oliv. leaves prevents neuroinflammation by targeting the PU. 1 transcriptional signaling pathway [J]. Bioorganic Chemistry, 2021, 116: 105 − 345.

[6]

QI Huang, FENG Yuzhang, SHAO Liu, et al. Systematic investigation of the pharmacological mechanism for renal protection by the leaves of Eucommia ulmoides Oliver. using UPLC-Q-TOF/MS combined with network pharmacology analysis [J/OL]. Biomedicine & Pharmacotherapy, 2021, 140: 111735[2022-11-10]. doi:10.1016/j.biopha.2021.111735.

[7]

王琴, 张晓艳, 刘雪婷, 等. 杜仲纯中药制剂和松脂醇二葡萄糖苷对自发性高血压大鼠肾脏微循环血流灌注及其频谱特征的影响[J]. 微循环学杂志, 2022, 32(3): 1 − 7.

WANG Qin, ZHANG Xiaoyan, LIU Xueting, et al. The protective effects of Eucommia ulmoides Oliver. and pinoresinol diglucoside on renal micirculatory blood perfusion and vasomotion in spontaneously hypertensive rats [J]. Chinese Journal of Microcirculation, 2022, 32(3): 1 − 7.

[8]

SVOBODA T, THON M R, STRAUSS J. The role of plant hormones in the interaction of Colletotrichum species with their host plants[J/OL]. International Journal of Molecular Sciences, 2021, 22(22): 12454[2022-11-10]. doi: https://doi.org/10.3390/ijms222212454.

[9]

陶奇波, 白梦杰, 韩云华, 等. 植物生长调节剂在牧草种子生产中的应用[J]. 草业科学, 2017, 34(6): 1238 − 1246.

TAO Qibo, BAI Mengjie, HAN Yunhua, et al. Use of plant growth regulators in forage seed production [J]. Pratacultural Science, 2017, 34(6): 1238 − 1246.

[10]

宋吉轩. 干旱胁迫下植物生长调节剂对羊草生长及生理特性的影响与转录组分[D]. 重庆: 西南大学, 2017.

SONG Jixuan. Effects of Plant Growth Regulators on the Growth and Physiological Characteristics of Leymus chinensis under Drought Stress and Transcription Components [D]. Chongqing: Southwest University, 2017.

[11]

张睿, 王秀娟, 高伟. 植物激素对次级代谢产物的调控研究[J]. 中国中药杂志, 2020, 45(17): 4205 − 4210.

ZHANG Rui, WANG Xiujuan, GAO Wei. Regulation mechanism of plant hormones on secondary metabolites [J]. Journal of Chinese Materia Medica, 2020, 45(17): 4205 − 4210.

[12]

胡克特, 张萍, 陈荣祥, 等. 外源性植物激素对盐肤木叶片次生次级代谢产物及其抗氧化活性的影响[J]. 西南师范大学学报(自然科学版), 2022, 47(2): 43 − 49.

HU Kete, ZHANG Ping, CHEN Rongxiang, et al. Effect of exogenous plant hormones on content of secondary metabolites in the leaves of Rhus chinensis and on their antioxodant activitie [J]. Journal of Southweat China Normal University (Natural Science Edition), 2022, 47(2): 43 − 49.

[13]

宁倩, 吴金水, 李宝珍, 等. 水稻苗期生长特性对不同浓度IAA的响应[J]. 农业现代化研究, 2013, 34(2): 235 − 238.

NING Qian, WU Jinshui, LI Baozhen, et al. Response of growth characteristics to different IAA concentrations in rice seedling [J]. Research of Agricultural Modernization, 2013, 34(2): 235 − 238.

[14]

LI Ziyun, LI Biao, ZHAO Yichen, et al. Cloning and characterization of the DIR1 promoter from Eucommia ulmoides Oliv. and its response to hormonal and abiotic stress [J]. Plant Cell,Tissue,and Organ Culture, 2021, 146(2): 313 − 322.

[15]

雷燕妮, 崔娇娇, 张小斌. 外源激素对杜仲愈伤组织中绿原酸含量的影响[J]. 陕西农业科学, 2019, 65(9): 24 − 28.

LEI Yanni, CUI Jiaojiao, ZHANG Xiaobing. Effect of exogenous hormones on chlorogenic acid content in Eucommia callus [J]. Shaanxi Journal of Agricultural Sciences, 2019, 65(9): 24 − 28.

[16]

付金颖, 杨超, 李德文, 等. 环境UV-B辐射增强对叶用杜仲林叶片光合作用与活性物质含量的影响[J]. 安徽农业科学, 2017, 45(26): 6 − 10.

FU Jinying, YANG Chao, LI Dewen, et al. Effects of elevated UV-B radiation on photosynthesis and contents of active substance of Eucommia ulmoides plantation [J]. Anhui Agricultural Science, 2017, 45(26): 6 − 10.

[17]

ANDREA V, JOS ANTONIO O. Nitrate and hormonal signaling crosstalk for plant growth and development [J]. Current Opinion in Plant Biology, 2019, 52: 155 − 163.

[18]

李彩龙, 李毛毛, 高彦龙, 等. 外源6-BA对干旱胁迫下苹果砧木M26的生理效应[J]. 甘肃农业大学学报, 2022, 57(5): 126 − 137.

LI Cailong, LI Maomao, GUO Yanlong, et al. Physiological effects of exogenous 6-BA on apple rootstock M26 under drought stress [J]. Journal of Gansu Agricultural University, 2022, 57(5): 126 − 137.

[19]

石海燕, 张志刚, 李宏, 等. IAA对幼苗期夏橡生长及光合特性的影响[J]. 河北大学学报(自然科学版), 2022, 42(5): 519 − 529.

SHI Haiyan, ZHANG Zhigang, LI Hong, et al. Effect of IAA on the growth and photosynthetic characteristics of Quercus sessilis at seedling stage [J]. Journal of Hebei University (Natural Science Edition), 2022, 42(5): 519 − 529.

[20]

耿达立, 卢恒, 刘伟, 等. 冬季修剪调控新梢内植物激素影响金银花的生长与产量[J]. 中国中药杂志, 2022, 47(14): 3749 − 3755.

GENG Dali, LU Heng, LIU Wei, et al. Winter pruning boosts growth and yield of Lonicera japonica by regulating plant hormone content [J]. China Journal of Chinese Materia Medica, 2022, 47(14): 3749 − 3755.

[21]

AHAMMED G J, LI Xin. Hormonal regulation of health-promoting compounds in tea (Camellia sinensis L. ) [J]. Plant Physiology and Biochemistry, 2022, 185: 390 − 400.

[22]

方强, 乔勇进, 王海宏. 不同植物生长调节剂、碳源对黄芩细胞生长及次级代谢产物的影响[J]. 上海交通大学学报(农业科学版), 2008, 26(1): 33 − 37.

FANG Qiang, QIAO Yongjing, WANG Haihong. Effect of different plant growth regulators and carbon sources on the growth of calluses and production of secondary metabolites of Scutellaria baicalensis Georgi [J]. Journal of Shanghai Jiaotong University (Agricultural Science), 2008, 26(1): 33 − 37.

[23]

谷宇超, 杨懿德, 鄢敏, 等. 打顶后喷施不同浓度赤霉素GA₃和6-BA对烤烟农艺性状和化学成分的影响[J]. 作物杂志, 2021(6): 171 − 176.

GU Yuchao, YANG Yide, YAN Min, et al. Effects of GA₃ and 6-BA on agronomic characters and chemical components of flue-cured tobacco after topping [J]. Crops, 2021(6): 171 − 176.

[24]

DONG Yanmei, LI Jingrui, ZHANG Wenying. Exogenous application of methyl jasmonate affects the emissions of volatile compounds in lavender (Lavandula angustifolia) [J]. Plant Physiology and Biochemistry, 2022, 185: 25 − 34.

[25]

MEHMOOD M, PÉREZ-LLORCA M, CASADESÚS A, et al. Leaf size modulation by cytokinins in sesame plants [J]. Plant Physiology and Biochemistry, 2021, 167: 763 − 770.

[26]

韩德志, 王舒, 贾鸿昌, 等. 耐密指数与主成分分析法综合评价并筛选高耐密性大豆种质[J]. 大豆科学, 2021, 40(4): 445 − 456.

HAN Dezhi, WANG Shu, JIA Hongchang, et al. Comprehensive evaluation and screening of high density resistant soybean germplasm based on tightness tolerance index and principal component analysis [J]. Soybean Science, 2021, 40(4): 445 − 456.

[1]	杜红岩. 杜仲优质高产栽培 [M]. 北京: 中国林业出版社, 1996. DU Hongyan. High-Quality and High-Yield Cultivation of Eucommia ulmoides [M]. Beijing: China Forestry Press, 1996.
[2]	杜红岩, 杜庆鑫. 我国杜仲产业高质量发展的基础、问题与对策[J]. 经济林研究, 2020, 38(1): 1 − 10. DU Hongyan, DU Qingxin. Foundation, problems and countermeasures of Eucommia ulmoides industry high-quality development in China [J]. Non-wood Forest Research, 2020, 38(1): 1 − 10.
[3]	杜红岩, 李钦, 赫锦锦, 等. 不同变异类型杜仲皮中几种主要活性成分含量的比较[J]. 林业科学研究, 2011, 24(2): 230 − 233. DU Hongyan, LI Qin, HE Jinjin, et al. Comparison of the main active components contents in barks of different variance-types of Eucommia ulmoides [J]. Forest Research, 2011, 24(2): 230 − 233.
[4]	REN Xiaomei, HAN Zhuzhen, SONG Leixin, et al. Four new phenolic compounds from the tender leaves of Eucommia ulmoides Oliv. and their anti-inflammatory activities [J]. Phytochemistry Letters, 2021, 44: 173 − 177.
[5]	RUI Han, TIAN Yuan, ZHI Yang, et al. An unusual nortriterpenoid from Eucommia ulmoides Oliv. leaves prevents neuroinflammation by targeting the PU. 1 transcriptional signaling pathway [J]. Bioorganic Chemistry, 2021, 116: 105 − 345.
[6]	QI Huang, FENG Yuzhang, SHAO Liu, et al. Systematic investigation of the pharmacological mechanism for renal protection by the leaves of Eucommia ulmoides Oliver. using UPLC-Q-TOF/MS combined with network pharmacology analysis [J/OL]. Biomedicine & Pharmacotherapy, 2021, 140: 111735[2022-11-10]. doi:10.1016/j.biopha.2021.111735.
[7]	王琴, 张晓艳, 刘雪婷, 等. 杜仲纯中药制剂和松脂醇二葡萄糖苷对自发性高血压大鼠肾脏微循环血流灌注及其频谱特征的影响[J]. 微循环学杂志, 2022, 32(3): 1 − 7. WANG Qin, ZHANG Xiaoyan, LIU Xueting, et al. The protective effects of Eucommia ulmoides Oliver. and pinoresinol diglucoside on renal micirculatory blood perfusion and vasomotion in spontaneously hypertensive rats [J]. Chinese Journal of Microcirculation, 2022, 32(3): 1 − 7.
[8]	SVOBODA T, THON M R, STRAUSS J. The role of plant hormones in the interaction of Colletotrichum species with their host plants[J/OL]. International Journal of Molecular Sciences, 2021, 22(22): 12454[2022-11-10]. doi: https://doi.org/10.3390/ijms222212454.
[9]	陶奇波, 白梦杰, 韩云华, 等. 植物生长调节剂在牧草种子生产中的应用[J]. 草业科学, 2017, 34(6): 1238 − 1246. TAO Qibo, BAI Mengjie, HAN Yunhua, et al. Use of plant growth regulators in forage seed production [J]. Pratacultural Science, 2017, 34(6): 1238 − 1246.
[10]	宋吉轩. 干旱胁迫下植物生长调节剂对羊草生长及生理特性的影响与转录组分[D]. 重庆: 西南大学, 2017. SONG Jixuan. Effects of Plant Growth Regulators on the Growth and Physiological Characteristics of Leymus chinensis under Drought Stress and Transcription Components [D]. Chongqing: Southwest University, 2017.
[11]	张睿, 王秀娟, 高伟. 植物激素对次级代谢产物的调控研究[J]. 中国中药杂志, 2020, 45(17): 4205 − 4210. ZHANG Rui, WANG Xiujuan, GAO Wei. Regulation mechanism of plant hormones on secondary metabolites [J]. Journal of Chinese Materia Medica, 2020, 45(17): 4205 − 4210.
[12]	胡克特, 张萍, 陈荣祥, 等. 外源性植物激素对盐肤木叶片次生次级代谢产物及其抗氧化活性的影响[J]. 西南师范大学学报(自然科学版), 2022, 47(2): 43 − 49. HU Kete, ZHANG Ping, CHEN Rongxiang, et al. Effect of exogenous plant hormones on content of secondary metabolites in the leaves of Rhus chinensis and on their antioxodant activitie [J]. Journal of Southweat China Normal University (Natural Science Edition), 2022, 47(2): 43 − 49.
[13]	宁倩, 吴金水, 李宝珍, 等. 水稻苗期生长特性对不同浓度IAA的响应[J]. 农业现代化研究, 2013, 34(2): 235 − 238. NING Qian, WU Jinshui, LI Baozhen, et al. Response of growth characteristics to different IAA concentrations in rice seedling [J]. Research of Agricultural Modernization, 2013, 34(2): 235 − 238.
[14]	LI Ziyun, LI Biao, ZHAO Yichen, et al. Cloning and characterization of the DIR1 promoter from Eucommia ulmoides Oliv. and its response to hormonal and abiotic stress [J]. Plant Cell,Tissue,and Organ Culture, 2021, 146(2): 313 − 322.
[15]	雷燕妮, 崔娇娇, 张小斌. 外源激素对杜仲愈伤组织中绿原酸含量的影响[J]. 陕西农业科学, 2019, 65(9): 24 − 28. LEI Yanni, CUI Jiaojiao, ZHANG Xiaobing. Effect of exogenous hormones on chlorogenic acid content in Eucommia callus [J]. Shaanxi Journal of Agricultural Sciences, 2019, 65(9): 24 − 28.
[16]	付金颖, 杨超, 李德文, 等. 环境UV-B辐射增强对叶用杜仲林叶片光合作用与活性物质含量的影响[J]. 安徽农业科学, 2017, 45(26): 6 − 10. FU Jinying, YANG Chao, LI Dewen, et al. Effects of elevated UV-B radiation on photosynthesis and contents of active substance of Eucommia ulmoides plantation [J]. Anhui Agricultural Science, 2017, 45(26): 6 − 10.
[17]	ANDREA V, JOS ANTONIO O. Nitrate and hormonal signaling crosstalk for plant growth and development [J]. Current Opinion in Plant Biology, 2019, 52: 155 − 163.
[18]	李彩龙, 李毛毛, 高彦龙, 等. 外源6-BA对干旱胁迫下苹果砧木M26的生理效应[J]. 甘肃农业大学学报, 2022, 57(5): 126 − 137. LI Cailong, LI Maomao, GUO Yanlong, et al. Physiological effects of exogenous 6-BA on apple rootstock M26 under drought stress [J]. Journal of Gansu Agricultural University, 2022, 57(5): 126 − 137.
[19]	石海燕, 张志刚, 李宏, 等. IAA对幼苗期夏橡生长及光合特性的影响[J]. 河北大学学报(自然科学版), 2022, 42(5): 519 − 529. SHI Haiyan, ZHANG Zhigang, LI Hong, et al. Effect of IAA on the growth and photosynthetic characteristics of Quercus sessilis at seedling stage [J]. Journal of Hebei University (Natural Science Edition), 2022, 42(5): 519 − 529.
[20]	耿达立, 卢恒, 刘伟, 等. 冬季修剪调控新梢内植物激素影响金银花的生长与产量[J]. 中国中药杂志, 2022, 47(14): 3749 − 3755. GENG Dali, LU Heng, LIU Wei, et al. Winter pruning boosts growth and yield of Lonicera japonica by regulating plant hormone content [J]. China Journal of Chinese Materia Medica, 2022, 47(14): 3749 − 3755.
[21]	AHAMMED G J, LI Xin. Hormonal regulation of health-promoting compounds in tea (Camellia sinensis L. ) [J]. Plant Physiology and Biochemistry, 2022, 185: 390 − 400.
[22]	方强, 乔勇进, 王海宏. 不同植物生长调节剂、碳源对黄芩细胞生长及次级代谢产物的影响[J]. 上海交通大学学报(农业科学版), 2008, 26(1): 33 − 37. FANG Qiang, QIAO Yongjing, WANG Haihong. Effect of different plant growth regulators and carbon sources on the growth of calluses and production of secondary metabolites of Scutellaria baicalensis Georgi [J]. Journal of Shanghai Jiaotong University (Agricultural Science), 2008, 26(1): 33 − 37.
[23]	谷宇超, 杨懿德, 鄢敏, 等. 打顶后喷施不同浓度赤霉素GA₃和6-BA对烤烟农艺性状和化学成分的影响[J]. 作物杂志, 2021(6): 171 − 176. GU Yuchao, YANG Yide, YAN Min, et al. Effects of GA₃ and 6-BA on agronomic characters and chemical components of flue-cured tobacco after topping [J]. Crops, 2021(6): 171 − 176.
[24]	DONG Yanmei, LI Jingrui, ZHANG Wenying. Exogenous application of methyl jasmonate affects the emissions of volatile compounds in lavender (Lavandula angustifolia) [J]. Plant Physiology and Biochemistry, 2022, 185: 25 − 34.
[25]	MEHMOOD M, PÉREZ-LLORCA M, CASADESÚS A, et al. Leaf size modulation by cytokinins in sesame plants [J]. Plant Physiology and Biochemistry, 2021, 167: 763 − 770.
[26]	韩德志, 王舒, 贾鸿昌, 等. 耐密指数与主成分分析法综合评价并筛选高耐密性大豆种质[J]. 大豆科学, 2021, 40(4): 445 − 456. HAN Dezhi, WANG Shu, JIA Hongchang, et al. Comprehensive evaluation and screening of high density resistant soybean germplasm based on tightness tolerance index and principal component analysis [J]. Soybean Science, 2021, 40(4): 445 − 456.