宁夏枸杞根系内皮层发育及质外体屏障研究

doi:10.11924/j.issn.1000-6850.casb2024-0748

中国农学通报 ›› 2025, Vol. 41 ›› Issue (30): 70-78.doi: 10.11924/j.issn.1000-6850.casb2024-0748

宁夏枸杞根系内皮层发育及质外体屏障研究

孟利芳(), 赵王利, 金敏, 毛桂莲

宁夏大学生命科学学院，银川 750000

收稿日期:2024-12-10 修回日期:2025-02-15 出版日期:2025-10-25 发布日期:2025-11-04
通讯作者:
毛桂莲，女，1974年出生，宁夏人，教授，博士研究生，研究方向：植物生理生态及牧草栽培及生理。通信地址：750000 宁夏银川市西夏区贺兰山西路宁夏大学文萃校区，Tel：0951-2062129，E-mail：fransis-0327@163.com。
作者简介:
孟利芳，女，1998年出生，甘肃酒泉人，硕士研究生，研究方向：植物生理学。通信地址：750000 宁夏银川市西夏区贺兰山西路宁夏大学文萃校区，Tel：0951-2062129，E-mail：menglifang911@163.com。
基金资助:
宁夏自然科学基金“LbVHAd₂-LbVHAa₃共调控盐胁迫下宁夏枸杞体内离子平衡的分子机制研究”(2024AAC03092); 国家自然科学基金“液泡膜H⁺-ATPase亚基在宁夏枸杞钠转运调控中的功能解析”(32260408)

Study on Endodermis Development and Apoplast Barrier in Roots of Lycium barbarum L.

MENG Lifang(), ZHAO Wangli, JIN Min, MAO Guilian

School of Life Sciences, Ningxia University, Yinchuan 750000

Received:2024-12-10 Revised:2025-02-15 Published:2025-10-25 Online:2025-11-04

摘要/Abstract

摘要：

本研究旨在揭示木本盐生植物宁夏枸杞根系内皮层分化过程中，凯氏带和木栓层等质外体屏障的形成对质外体运输途径的影响。以宁夏枸杞‘宁杞1号’为实验材料，采用徒手切片、碘化丙啶(PI)荧光染料和钠离子荧光探针(CoroNa Green, AM)示踪方法对其根系内皮层的发育及质外体屏障进行了研究。结果显示，宁夏枸杞内皮层的发育根据凯氏带和木栓层的出现进程分为4个阶段：未分化阶段，细胞壁上无凯氏带形成，PI能够穿过内外皮层进入中柱；第Ⅰ阶段，凯氏带出现，PI能够渗入外皮层，但部分被阻挡在内皮层处无法进入中柱；第Ⅱ阶段，PI进入中柱的途径被完全阻挡，此阶段凯氏带和木栓层均形成；第Ⅲ阶段，根系几乎完全木质化，内皮层逐渐退化，凯氏带消失。内皮层发育进程中的相关细胞数随着根系的发育均处于增长趋势，未分化阶段至凯氏带出现这一过程，呈显著增长趋势(P<0.05)。综上所述，宁夏枸杞根系内皮层的发育分为4个阶段。在初生生长阶段，根系内皮层和外皮层均出现了凯氏带结构。这些结构虽能阻碍质外体运输，但外皮层凯氏带不具备有效的质外体屏障功能。

关键词: 宁夏枸杞, 根解剖结构, 内皮层, 质外体屏障, 凯氏带, 木栓层

Abstract:

To investigate the differentiation of the root endodermis and the formation of the apoplast barrier such as Casparian strips and suberin lamella on apoplastic transport pathways in the woody halophyte Lycium barbarum L.(L. barbarum). Using L. barbarum ‘Ningqi No.1’ as experimental material, the development of endodermis and apoplast barrier in the root system of L. barbarum were studied using freehand sectioning combined with fluorescent tracers exploring propidium iodide (PI) and Na⁺ fluorescent probe (CoroNa Green, AM). The results showed that the development of the endodermis structure of L. barbarum can be divided into four developmental phases according to the sequential appearance of Casparian strips and suberin lamella. During the undifferentiated stage, no Casparian strips formation was found in the cell walls, and PI could freely penetrate across both the exodermis and endodermis into the stele. In the first stage, the Casparian strips was observed depositing in endodermal cells and PI could penetrate through exodermis, but was partially blocked its transport at the endodermis, restricting access to the stele. In stage Ⅱ, with well-developed Casparian strips and suberin lamellae, PI penetration to the stele was completely blocked. In stage III, extensive root lignification was observed, accompanied by endodermis degeneration and disappearance of Casparian strips. At the same time, the number of cells associated with the endodermis development showed continuous increasing during root growth, and significant growth was observed from the undifferentiated stage to the appearance of Casparian strips (P<0.05). It indicated that the development of the endodermis in the roots of L. barbarum is divided into four stages. Notably, during the primary growth, the formation of Casparian strips was observed in both endodermis and exodermis of L. barbarum roots, which impeded apoplast flow. However, the exodermis Casparian strips were found lacking apoplastic barrier function.

Key words: Lycium barbarum L., root anatomical structure, endodermis, apoplast barrier, Casparian strips, suberin lamella

孟利芳, 赵王利, 金敏, 毛桂莲. 宁夏枸杞根系内皮层发育及质外体屏障研究[J]. 中国农学通报, 2025, 41(30): 70-78.

MENG Lifang, ZHAO Wangli, JIN Min, MAO Guilian. Study on Endodermis Development and Apoplast Barrier in Roots of Lycium barbarum L.[J]. Chinese Agricultural Science Bulletin, 2025, 41(30): 70-78.

图/表 10

图1. 宁夏枸杞根系内皮层发育的未分化阶段图A、B为宁夏枸杞根系结构明场图，图A1、B1为图A、B框选区域的放大图，图A2、B2为苯胺蓝染色后的荧光图，标尺：50 μm。Epi：表皮、En：内皮层、Pe：中柱鞘、Xy：木质部、SL：木栓层、CS：凯氏带。下同

图2. 宁夏枸杞根系内皮层发育的第Ⅰ阶段

图3. 宁夏枸杞根系内皮层发育的第Ⅱ阶段

图4. 第Ⅱ阶段荧光黄染色

图5. 宁夏枸杞根系内皮层发育的第Ⅲ阶段

图6. 宁夏枸杞根系发育相关细胞数统计不同处理下的差异用*表示，差异显著用**表示，P<0.05

图7. 宁夏枸杞根系未分化阶段质外体屏障形成过程图A为根尖部位纵向示踪图，图B为根二分之一部位示踪图，图C为根端部位示踪图，图D为根二分之一部位横切示踪图，下图同上

图8. 宁夏枸杞根系初生阶段质外体屏障形成过程

图9. 宁夏枸杞根系Na+示踪图A是宁夏枸杞根尖部位的显微结构明场图，图A1是Na+探针示踪的荧光和明场的Merge图，图A2是Merge的放大图

图10. 宁夏枸杞根系次生阶段质外体屏障形成过程

参考文献 21

[1]	徐黎, 胡海琳, 王晨璨, 等. 植物根内皮层的发育与功能研究进展[J]. 科学通报, 2023, 68(8):901-914.
[2]	ALASSIMONE J, ROPPOLO D, GELDNER N, et al. The endodermis-development and differentiation of the plant's inner skin[J]. Protoplasma, 2012, 249(3):433-443.
[3]	GELDNER N. The endodermis[J]. Annual review of plant biology, 2013, 64:531-558. doi: 10.1146/annurev-arplant-050312-120050 pmid: 23451777
[4]	DOBLAS V G, GELDNER N, BARBERON M. The endodermis, a tightly controlled barrier for nutrients[J]. Current opinion in plant biology, 2017, 39:136-143. doi: S1369-5266(17)30043-2 pmid: 28750257
[5]	COHEN H, FEDYUK V, WANG C, et al. SUBERMAN regulates developmental suberization of the Arabidopsis root endodermis[J]. Plant journal, 2020, 102(3):431-447.
[6]	MIYASHIMA S, NAKAJIMA K. The root endodermis: a hub of developmental signals and nutrient flow[J]. Plant signaling & behavior, 2011, 6(12):1954-1958.
[7]	PERALTA OGOREK L L, JIMÉNEZ J C, VISSER E J W, et al. Outer apoplastic barriers in roots: prospects for abiotic stress tolerance[J]. Functional plant biology, 2024, 51(1):1-14.
[8]	GELDNER N. Casparian strips[J]. Current biology, 2013, 23(23): R1025-R1026.
[9]	CAI X, CHEN T, ZHOU Q. Development of Casparian strip in rice cultivars[J]. Plant signaling & behavior, 2011, 6(1):59-65.
[10]	CHEN A, LIU T, WANG Z, et al. Plant root suberin: a layer of defence against biotic and abiotic stresses[J]. Frontiers in plant science, 2022, 13:1056008.
[11]	SHUKLA V, BARBERON M. Building and breaking of a barrier: suberin plasticity and function in the endodermis[J]. Current opinion in plant biology, 2021, 64:102153.
[12]	崔亚宁, 满奕, 宋程威, 等. 植物凯氏带化学成分、生理功能及相关调控机制的研究进展[J]. 中国科学:生命科学, 2020, 50(2):102-110.
[13]	MOUBAYIDIN L, SALVI E, GIUSTINI L, et al. A SCARECROW-based regulatory circuit controls Arabidopsis thaliana meristem size from the root endodermis[J]. Planta, 2016, 243(5):1159-1168.
[14]	WANG Z, CHEN Z, ZHANG X, et al. Overexpression of OsCASP1 improves calcium tolerance in rice[J]. International journal of molecular sciences, 2021, 22(11):6002-6013.
[15]	ZIMMERMANN H M, HARTMANN K, SCHREIBER L, et al. Chemical composition of apoplastic transport barriers in relation to radial hydraulic conductivity of corn roots (Zea mays L.)[J]. Planta, 2000, 210(2):302-311.
[16]	梁晓婕, 王亚军, 李越鲲, 等. 枸杞对盐碱胁迫响应机制的研究进展[J]. 宁夏农林科技, 2020, 61(8):20-23.
[17]	梁敏, 许兴, 丁向真, 等. 盐胁迫下宁夏枸杞Na⁺吸收及Na⁺/H⁺转运蛋白与H⁺-ATPase基因表达的研究[J]. 核农学报, 2020, 34(4):745-751. doi: 10.11869/j.issn.100-8551.2020.04.0745
[18]	CHENG H, INYANG A, LI C D, et al. Salt tolerance and exclusion in the mangrove plant avicennia marina in relation to root apoplastic barriers[J]. Ecotoxicology, 2020, 29(6):676-683. doi: 10.1007/s10646-020-02203-6 pmid: 32291617
[19]	BARBERON M, GELDNER N. Radial transport of nutrients: the plant root as a polarized epithelium[J]. Plant physiology, 2014, 166(2):528-537. doi: 10.1104/pp.114.246124 pmid: 25136061
[20]	WANG Z, YAMAJI N, HUANG S, et al. OsCASP1 is required for casparian strip formation at endodermal cells of rice roots for selective uptake of mineral elements[J]. Plant cell, 2019, 31(11):2636-2648.
[21]	FU J, ZHANG X, LIU J, et al. A mechanism coordinating root elongation, endodermal differentiation, redox homeostasis and stress response[J]. Plant journal, 2021, 107(4):1029-1039.

宁夏枸杞根系内皮层发育及质外体屏障研究

Study on Endodermis Development and Apoplast Barrier in Roots of Lycium barbarum L.

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