主动质子外排、养分保留以及果胶的硼桥键与两种石南属植物根系对质子毒性更强的耐受性有关。

Active proton efflux, nutrient retention and boron-bridging of pectin are related to greater tolerance of proton toxicity in the roots of two Erica species.

机构信息

Department of Plant Biology and Ecology, University of Seville, Av Reina Mercedes, POB 1095, 41080 Seville, Spain.

Instituto Andaluz de Ciencias de la Tierra (UGR-CSIC), Av Palmeras 4, 18100, Armilla, Granada, Spain.

出版信息

Plant Physiol Biochem. 2018 May;126:142-151. doi: 10.1016/j.plaphy.2018.02.029. Epub 2018 Mar 2.

DOI:10.1016/j.plaphy.2018.02.029

PMID:29524801

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5902606/

Abstract

BACKGROUND AND AIMS

Tolerance to soil acidity was studied in two species of Ericaceae that grow in mine-contaminated soils (S Portugal, SW Spain) to find out if there are interspecific variations in H tolerance which might be related to their particular location.

METHODS

Tolerance to H toxicity was tested in nutrient solutions using seeds collected in SW Spain. Plant growth and nutrient contents in leaves, stems and roots were determined. Viability tests and proton exchange were studied in roots exposed, short-term, to acidic conditions. Membrane ATPase activity and the cell-wall pectic polysaccharide domain rhamnogalacturonan-II (RG-II) were analysed to find out interspecific differences.

RESULTS

Variation in survival, growth and mineral composition was found between species. The H-tolerant species (Erica andevalensis) showed greater concentration of nutrients than E. australis. Very low pH (pH 2) produced a significant loss of root nutrients (K, P, Mg) in the sensitive species. Root ATPase activity was slightly higher in the tolerant species with a correspondingly greater H efflux capacity. In both species, the great majority of the RG-II domains were in their boron-bridged dimeric form. However, shifting to a medium of pH 2 caused some of the boron bridges to break in the sensitive species.

CONCLUSIONS

Variation in elements linked to the cell wall-membrane complex and the stability of their components (RG-II, H-ATPases) are crucial for acid stress tolerance. Thus, by maintaining root cell structure, active proton efflux avoided toxic H build-up in the cytoplasm and supported greater nutrient acquisition in H-tolerant species.

摘要

背景与目的

本研究旨在探讨两种生长在受矿区污染土壤中的石南科植物（葡萄牙西南部和西班牙西南部）对土壤酸度的耐受性，以查明它们对 H+的耐受性是否存在种间差异，而这种差异可能与其特定的地理位置有关。

方法

使用在西班牙西南部采集的种子，在营养液中测试了对 H+毒性的耐受性。测定了植物的生长情况以及叶片、茎和根中的养分含量。对暴露于短期酸性条件下的根系进行了活力测试和质子交换研究。分析了根细胞膜 ATP 酶活性和细胞壁果胶多糖 RG-II 域，以找出种间差异。

结果

发现两个种之间的存活、生长和矿物质组成存在差异。耐 H+的种（Erica andevalensis）比 E. australis 表现出更高的养分浓度。在敏感种中，非常低的 pH（pH 2）会导致根系养分（K、P、Mg）大量流失。在耐 H+的种中，根 ATP 酶活性略高，相应地 H+外排能力也更强。在这两个种中，大多数 RG-II 域都处于硼桥联二聚体形式。然而，在敏感种中，pH 2 的介质会导致一些硼桥断裂。

结论

与细胞壁-膜复合物相关的元素的变化及其组成部分（RG-II、H+-ATP 酶）的稳定性对于酸胁迫耐受性至关重要。因此，通过维持根细胞结构，主动质子外排避免了细胞质中有毒 H+的积累，并支持了耐 H+种中更多的养分吸收。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef8/5902606/3485a689e42a/fx1.jpg

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主动质子外排、养分保留以及果胶的硼桥键与两种石南属植物根系对质子毒性更强的耐受性有关。

Active proton efflux, nutrient retention and boron-bridging of pectin are related to greater tolerance of proton toxicity in the roots of two Erica species.

机构信息

出版信息

BACKGROUND AND AIMS

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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